General Purpose Solenoid Valves Skinner™ and Gold Ring™ Valves Effective September 2011 instrumentation, fuel dispensing, refrigeration and air conditioning, industrial dishwashing and laundry equipment, as well as being specified on applications in process markets such as oil & gas, food processing, pharmaceutical, pulp & paper, tire & rubber, etc. Together we can work with you to cross over most all major competitive products to our wide variety of standard valves or work with your application specifications to select one of our unique product solutions. All FCD valves come with an industry leading two year warranty against defects in workmanship. Distribution Our distribution network stocks 2-way, 3-way and 4-way valves that are engineered to control virtually any media over a wide range of applications. For a complete listing of our distribution network, please visit www.parker.com/fcd and select “where to buy.” Fluid Control Division Headquarters, New Britain, CT. Fluid Control Division Facility, Madison, MS. OFFER OF SALE The items described in this document are hereby offered for sale by Parker-Hannifin Corporation, its subsidiaries or its authorized distributors. This offer and its acceptance are governed by the provisions stated on the separate page of this document entitled “Terms and Conditions of Sale”. WARNING – USER RESPONSIBILITY FAILURE OR IMPROPER SELECTION OR IMPROPER USE OF THE PRODUCTS AND/OR SYSTEMS DESCRIBED HEREIN OR RELATED ITEMS CAN CAUSE DEATH, PERSONAL INJURY AND PROPERTY DAMAGE. This document and other information from Parker-Hannifin Corporation, its subsidiaries and authorized distributors provide product and/or system options for further investigation by users having technical expertise. It is important that you analyze all aspects of the application, follow applicable industry standards, and follow the information concerning the product in the current product catalog and in any other materials provided from Parker or its subsidiaries or authorized distributors. Due to the variety of operating conditions and applications for these products or systems, the user, through its own analysis and testing, is solely responsible for making the final selection of the system and components and assuring that all performance, endurance, maintenance, safety and warning requirements of the application are met. To the extent that Parker or its subsidiaries or authorized distributors provide component or system options based upon data or specifications provided by the user, the user is responsible for determining that such data and specifications are suitable and sufficient for all applications and reasonably foreseeable uses of the components or systems. The product described herein, including without limitation, product features, specifications, designs, availability and pricing, are subject to change by Parker Hannifin Corporation and its subsidiaries at any time without notice. ! FCD partners with our extensive distribution network and their end-users to ensure that their needs are met and all systems kept up and running! System Solutions: Engineering Your Success Besides offering superior products through our distribution network, FCD also works with distribution and OEMs to find value added solutions to satisfy your application’s unmet needs. Together we can partner with you and utilize the power of Parker’s expertise in technology and innovation to create a world class system solution just for you. FCD has cutting edge design and prototyping capabilities along with a staff of the industry’s top engineers that will assist you with creating your next generation of solenoid valve solutions. Combine all that with Parker’s Premier Customer Service, and you’ve got a real winning team to partner with. ISO 9001:2008 About Fluid Control Division Parker Fluid Control Division (FCD) is a world-wide industry leader of solenoid valves that control motion, flow and pressure in a wide variety of applications in all markets. Since 1947, it has built a strong reputation as a recognized leader in solenoid valve technology and design – first as Skinner Valve Division, then with the addition of Lucifer Division (Geneva) in 1984, Gold Ring (Fluidex Division) in 1986 and SCEM (Italy) in 1989. With manufacturing facilities strategically placed around the world, FCD is prepared to meet your global needs. Facilities located in the United States, Brazil, Italy, Switzerland, China, South Korea and India are equipped with a complete staff of experienced design engineers – among the best in the business – that are capable of rapidly completing customized valve designs for specific user requirements. Each facility has well equipped evaluation and testing laboratories to ensure proper valve operation, long cycle life, and optimum reliability. With sales affiliates worldwide, an extensive distribution network and broad product breadth, FCD is in a unique position to service the world’s requirements for solenoid valves. Together we can control a wide variety of media, in hundreds of markets, under all conditions with thousands of designs that have been qualified to the most rigorous industry standards. You’ll find our products in OEM equipment for markets such as transportation, food & beverage, medical & i Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Table of Contents Catalog Section Product Description In this Section Page How to Order ii 2-Way 2-Way Miniature Direct Acting 20CCxxx, 20CFxxx A1 2-Way 2-Way Direct Acting 7121KBNxx, 7122KBNxx, 71215SNxx, 71225SNxx, 71235SNxx, 71295SNxx, 02F20O1xx, 04F20C1xx, 04F20O1xx, 04F20C2xx, 04F20O2xx, 06F20C2xx, 08F20C2xx, 08F20O2xx, 12F20C2xx, 12F20O2xx A5 2-Way Direct Lift, Pilot & Remote Operated 7221GBNxx, 7321GBNxx, 7322GBNxx, 72218BNxx, 72228BNxx, 7321KBNxx, 73212BNxx, 73222BNxx, 73218BNxx, 73222BNxx, 73228BNxx, 74232BNxx, 75232BNxx, 04F25C2xx, 04F25O2xx, 06F22C2xx, 06F22C6xx, 06F23C2xx, 06F23O2xx, 06F23C6xx, 06F23O6xx, 06F25C2xx, 06F25O2xx, 08F22C2xx, 08F22C6xx, 08F23C2xx, 08F23O2xx, 08F23C6xx, 08F23O6xx, 08F25C2xx, 08F25O2xx, 12F22C2xx, 12F22C6xx, 12F23C2xx, 12F23O2xx, 12F23C6xx, 12F23O6xx, 12F24C2xx, 12F24O2xx, 12F25C2xx, 12F25O2xx, 16F24C2xx, 16F24O2xx, 16F24C6xx, 16F24O6xx, 16F25C2xx, 16F25O2xx, 20F24C2xx, 20F24O2xx, 24F24C2xx, 24F24O2xx, 24F24C6xx, 24F24O6xx A27 2-Way High Pressure Direct & Pilot Operated 7121KBNxxF, 7121KBNxxR, 7122KBNxxF, 7321HBNxxN, 7322HBNxxN, 7322HBNxxV, 71215SNxxF, 71216SNxxL, 71216SNxxT 71216SNxxU, 71225SNxxF, 73216BNxxT, 04F28C1xx, 06F28C1xx, 08F28C1xx, 08F28O1xx, 12F28C1xx, 12F28O1xx A61 2-Way Anti-Water Hammer & Slow Closing 7221GBNxxxCO, 7321GBNxxxMC, 7321KBNxxxWO, 7322GBNxxxCO A75 3-Way 3-Way Miniature Direct Acting 30CCxx, 30CFxx, 30CUxx B1 3-Way 3-Way Direct Acting 7131KBNxx, 7131TBNxx, 7131TVNxx, 7132TBNxx, 7133KBNxx, 7133TBNxx, 7133TVNxx, 71315SNxx, 71335SNxx, 71385SNxx, 71395SNxx, A3LB2127, A3LB2177, A3LB2252, A36LB2126, A36LB2176, A36LB2251, A5LB2127, A5LB2177, A56LB2126, A56LB2176, 02F30C1xx, 02F20C3xx, 02F30O1xx, 02F30U1xx, 02F30U3xx, 04F30C2xx, 04F30C3xx, 04F30O2xx, 04F30U1xx, 04F30O3xx, 04F30U3xx B5 3-Way Pilot & Remote Operated 73312BNxx, 73317BNxx, 73317VNxx, 73322BNxx, 73382BNxx 74317BNxx, 74317VNxx, 74332BNxx, 75332BNxx B25 3-Way High Pressure 7131KBNxxF, 7131KBNxxR, 7133KBNxxV, 71335SNxxN B41 3-Way Quick Exhaust 7131EBNxx, 71313SNxx, 04F35C1xx, 04F35O1xx, 04F38C1xx, 04F38O1xx, 06F38C1xx, 06F38O1xx B45 4-Way 4-Way Direct Acting & Pilot Operated 71417BNxx, 71477BNxx, 7341LANxx, 73417BNxx, 73417VNxx, 73419ANxx, 73477BNxx, 73477VNxx, 74417BNxx, 74417VNxx, V933Lxxx, V935Lxxx, V955Lxx, 04F48S2xx C1 4-Way 3-Way/4-way Direct Mount NAMUR 71315AKDKxx, 73417AKDKxx, 73417BKDPxx, 73417VKDKxx, 73477AKDKxx, 73477BKDPxx, 73477VKDKxx, 74417BKDPxx C17 Specialty Valves Manifold Mounted Miniature Cartridge Valves D3 Specialty MB 3-Way Miniature – Plastic D9 Dry Operator 2-Way D13 Hot Water & Steam D17 Intrinsically Safe Series D35 Manual Reset 3-Way D53 Hydraulic 2-Way & 3-Way D57 Magnelatch® Coil Option D63 Fuel Dispensing Valves D67 Fuel Selector Manifold D71 CNG Valves D73 Timer Drain Valves D75 Coils Coils and Enclosures Coil Charts 1-12 as referenced in each Product Section of this Catalog E1 Coil Reference Coil Charts 1-6 Gold Ring™ brand (Includes Part Numbering Schematic) E2-E9 Coil Charts 7, 8 Skinner™ brand (Includes Part Numbering Schematic) E10-E26 Coil Chart 9 2-way/3-way Miniature and Manifold Mounted (Includes Part Numbering Schematic) E27-E30 Coil Charts 10-12 Skinner™ brand E31 Technical Technical Information Key Technical Reference Information F1 Technical Reference Parker-FCD Safety Guide F26 Opportunity Data Sheet Informational Form for New Application Inquiry F28 Terms and Conditions F29 ii Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd How to order (see coil section for part numbering charts) These valves can be ordered in two parts: pressure vessel and solenoid coil. To order modular units, select the pressure vessel, then mix and match one of the three different coil styles to meet your application requirement. The available modular coils consist of the following coils: – C4 conduit coil – B4 leaded coil – D6 DIN coil To order pressure vessel: Choose your pressure vessel from the the technical specification pages. The pressure vessel will contain the required coil retainig nut. To order coil: • Select either the C4 (Conduit), B4 (leaded) or D6 (DIN) coil required. • Select voltage code • Add voltage code to end of the coil number • The coil assembly will contain the O-ring seals. Assembled Valve Units: To order a complete valve follow these three easy steps: Step 1: Choose your pressure vessel from the technical specification pages. Step 2: Select either the encapsulated (Integrated) or conventional coil. Apply that two-digit code to the end of the pressure vessel part number. Step 3: Lastly, go to the voltage code chart and select the one digit voltage code and add the code to the end of the coil code to create the final complete assembled valve part number. Step 1: Select the pressure vessel catalog number based on the application requirements. The catalog number is specified in the individual catalog sections. Step 2: Use the mechanical options table, if required, to write the option code in place of the last two pressure vessel digits – “00.” Step 3: Select the appropriate integrated coil, and enter (NO=Nut & Washer as the 13th/14th digits), or enclosure and conventional coil. Step 4: Use the electrical options table, if required, to write the option code in place of the last two coil digits. Step 5: Use the voltage code to specify the correct voltage for the valve. Ordering items 1 and 2, fully assembled valves Item Description 1 Fully assembled valves with integrated coils 2 Fully assembled valves with conventional coils and enclosures Pressure Vessels Enclosure Coil Voltage Code 7121KBN2NV00 + N0 + C111 + P3 Example: 7121KBN2NV00N0C111P3 Valves using Coil Charts 7, 8, 10, 11 & 12 (Skinner 7000 Series Valves) Valves using Coil Chart 9 (Miniature 2-way/3-way valves and Miniature Manifold Mounted Cartridge Valves) Step 1: Select the pressure vessel catalog number based on the application requirements. The catalog number is specified in the individual catalog sections. Step 2: Select one enclosure code, one coil termination code and one voltage code. Standard leads are 18-inches long with all enclosures, except splice box where six-inch leads are standard. Valves using Coil Charts 1-6 (Gold Ring Series Valves) Step 3: When separate valve and solenoid, the last two digits of the valve must match the first two digits of the solenoid. Example: Valve: 04F20C1103AAF Solenoid: AF4C05 Step 4: Valves with enclosure Types 7 & 9 must be ordered factory assembled and not as modular. A1 General Description: 2-way Miniature Direct Acting valves are available in Normally Closed and Normally Open constructions with interchangeable AC/DC coils. Valves are standard with 303 stainless steel bodies and FKM seals. These compact valves are durable with the potential for long life. Under lab conditions, these valves have survived 20 million cycles. Installation Valves can be mounted in any position. The preferred orientation is with the coil vertical and upright. Standard Materials of Construction Please refer to page A4 Compatible Fluids Lubricated Air, Inert Gases, Water, Light Oil (300 SSU) and additional fluids compatible with materials of construction. Use of non-lubricated gaseous media can affect valve life. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60–110/50 240/60–220/50 DC – 12, 24 For other voltages – consult factory Coil Classification: Class F standard/Class H available AC & DC coils are interchangeable on the same pressure vessel. Agency Approvals: Standard valves with NEMA 4X are C-UL-US Listed or Recognized. For additional details, consult factory. NSF Certification available on 2-way Normally Closed Valves. (Consult Factory) Maximum Ambient Temperature 135°F (AC)/125°F (DC) In absence of moisture, applications at temps as low as -20°F are possible. Please refer to page A4 for details. Applications: • Instrumentation equipment • Analyzers and diagnostic equipment • Gas analyzers • Medical and dental equipment • Portable welding equipment • Spraying equipment • Lubrication equipment • Beverage dispensing & vending machines • Oil burners • Humidification and misting equipment • Mobile fuel shut off • Textile and dry cleaning equipment • Air horns • Pneumatic fan clutch • Irrigation equipment 2-Way Miniature Direct Acting Valves 1/8″ NPT 2-Way A2 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Miniature Direct Acting – Normally Closed – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/64 0.06 0 950 950 950 8.5 240 FKM 20CC02EV4 9 A1 1/8 1/16 0.10 0 625 625 625 8.5 240 FKM 20CC02GV4 9 A1 1/8 5/64 0.15 0 450 450 450 8.5 240 FKM 20CC02JV4 9 A1 1/8 3/32 0.22 0 320 320 320 8.5 240 FKM 20CC02LV4 9 A1 1/8 7/64 0.28 0 245 245 245 8.5 240 FKM 20CC02MV4 9 A1 1/8 1/8 0.32 0 175 175 175 8.5 240 FKM 20CC02PV4 9 A1 1/8 5/32 0.38 0 100 100 100 8.5 240 FKM 20CC02QV4 9 A1 DC TECHNICAL SPECIFICATIONS 1/8 3/64 0.06 0 390 390 390 8 240 FKM 20CC02EV4 9 A1 1/8 1/16 0.10 0 255 255 255 8 240 FKM 20CC02GV4 9 A1 1/8 5/64 0.15 0 180 180 180 8 240 FKM 20CC02JV4 9 A1 1/8 3/32 0.22 0 130 130 130 8 240 FKM 20CC02LV4 9 A1 1/8 7/64 0.28 0 100 100 100 8 240 FKM 20CC02MV4 9 A1 1/8 1/8 0.32 0 60 60 60 8 240 FKM 20CC02PV4 9 A1 1/8 5/32 0.38 0 30 30 30 8 240 FKM 20CC02QV4 9 A1 2-Way Miniature Direct Acting – Normally Open – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/32 0.02 0 375 375 375 10 240 FKM 20CF02AV4 9 A2 1/8 3/64 0.06 0 230 230 230 10 240 FKM 20CF02EV4 9 A2 1/8 1/16 0.10 0 150 150 150 10 240 FKM 20CF02GV4 9 A2 1/8 5/64 0.14 0 105 105 105 10 240 FKM 20CF02JV4 9 A2 1/8 3/32 0.20 0 80 80 80 10 240 FKM 20CF02LV4 9 A2 DC TECHNICAL SPECIFICATIONS 1/8 1/32 0.02 0 375 375 375 8 240 FKM 20CF02AV4 9 A2 1/8 3/64 0.06 0 230 230 230 8 240 FKM 20CF02EV4 9 A2 1/8 1/16 0.10 0 150 150 150 8 240 FKM 20CF02GV4 9 A2 1/8 5/64 0.14 0 105 105 105 8 240 FKM 20CF02JV4 9 A2 1/8 3/32 0.20 0 80 80 80 8 240 FKM 20CF02LV4 9 A2 A3 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A1 2 1/8 NPT 2.29 2.55 REF .26 1.00 1/2 NPT 15/16 HEX .74 1.78 1/8 NPT 1 1.60 8-32 UNC – 2B x .19 2 PLCS .20 .40 .30 .59 2 1/8 NPT 2.29 2.55 REF .26 1.00 1/2 NPT 15/16 HEX .74 1.78 1/8 NPT 1 1.60 8-32 UNC – 2B x .19 2 PLCS .20 .40 .30 .59 Valve Reference A2 1/8 NPT 1/8 NPT 3 2.90 REF 2.64 1.60 3/4 Hex Nut 2 1 3 2 2-Way Normally Closed: 20CCxx Port Identification: 2-In/1-Out 2-Way Normally Open: 20CFxx Port Identification: 2-In/3-Out 2 1/8 NPT 2.29 2.55 REF .26 1.00 1/2 NPT 15/16 HEX .74 1.78 1/8 NPT 1 1.60 8-32 UNC – 2B x .19 2 PLCS .20 .40 .30 .59 A4 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Miniature Direct Acting Materials of Construction** Product* Wattage Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 20CC02 8.5 (AC) 2WNC 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 135°F 20CC02 8 (DC) 2WNC 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 125°F 20CF02 10 (AC) 2WNC 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 135°F 20CF02 8 (DC) 2WNC 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 125°F * Shows the first 6 digits of the pressure vessel part number. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. Check out the 2-Way and 3-Way Manifold Mounted Miniature Cartridge valves in the Specialty Section of this catalog. Product Features: • Space saving approach • Less manifold machining means lower overall manifold cost • No manifold orifices to machine or press in • Cartridge valves are 100% tested • Easy to assemble & disassemble with a 5/32″ hex wrench. (Torque = 25-35 in-lbs). • No loose parts: sleeve, plunger, spring and orifice are pressed together as one unit • Available with all coils and enclosures shown on Chart 9 in Coil Section of this catalog. A5 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Applications: • Instrumentation equipment • Analyzers and diagnostic equipment • Medical and dental equipment • Portable welding equipment • Spraying equipment • Lubrication equipment • Beverage dispensing & vending machines • Oil burners • Humidification and misting equipment • Mobile fuel shut off • Textile and dry cleaning equipment • Air horns • Pneumatic fan clutch • Irrigation equipment General Description: 2-way Direct Acting valves are used in a wide variety of applications that require zero pressure differential and medium to high pressures and flow. These valves are available in a variety of elastomers as well as, brass and stainless construction. Installation Valves can be mounted in any position. The preferred orientation is with the coil vertical and upright. Standard Materials of Construction Please refer to page A24 Compatible Fluids Lubricated Air, Inert Gases, Water and Light Oil (300 SSU). Additional fluids compatible with alternate materials of construction (consult factory). Use of non-lubricated gaseous media can affect valve life. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60–110/50 240/60–220/50 DC – 12, 24 & 120 For other Voltages – consult factory Coil Classification: Class F standard Class H available Agency Approvals: Standard valves with NEMA 4X or explosion proof solenoid enclosures are UL Listed and CSA Certified. For additional details, consult factory. Maximum Ambient Temperature 150°F Please refer to page A24 for details. 2-way Direct Acting Valves 1/8″ – 3/4″ NPT A6 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting – Normally Closed- Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/16 0.11 0 1000 1000 1000 10 165 PCTFE 7121KBN1GF00 7 A13 1/8 1/8 0.31 0 365 365 365 10 165 PCTFE 7121KBN1NF00 7 A13 1/4 3/64 0.06 0 750 750 500 6 180 NBR 04F20C1103AAF 1 A3 1/4 1/16 0.11 0 1000 1000 1000 10 165 PCTFE 7121KBN2GF00 7 A13 1/4 3/32 0.17 0 360 340 160 6 180 NBR 04F20C1106AAF 1 A3 1/4 1/8 0.31 0 365 365 365 10 165 PCTFE 7121KBN2NF00 7 A13 1/4 1/8 0.31 0 145 145 145 10 185 FKM 7121KBN2NV00 7 A13 1/4 1/8 0.35 0 300 300 200 11 180 NBR 04F20C1108ACF 4 A16 1/4 1/8 0.35 0 140 165 90 6 180 NBR 04F20C1108AAF 1 A3 1/4 5/32 0.50 0 180 200 145 11 180 NBR 04F20C2110ACF 4 A4 1/4 5/32 0.52 0 120 120 120 10 185 FKM 7121KBN2QV00 7 A13 1/4 7/32 0.72 0 100 100 100 16 180 NBR 04F20C2114BDF 5 A4 1/4 13/64 0.76 0 80 80 80 10 185 FKM 7121KBN2SV00 7 A13 1/4 9/32 0.88 0 90 100 90 16 200 NBR 04F20C2118BDF 5 A4 3/8 5/32 0.52 0 150 150 145 11 180 NBR 06F20C2110ACF 4 A7 3/8 7/32 0.72 0 100 100 100 16 200 NBR 06F20C2114BDF 5 A7 3/8 1/4 0.83 0 55 55 55 10 185 FKM 7121KBN3UV00 7 A13 3/8 9/32 0.85 0 90 80 80 16 200 NBR 06F20C2118BDF 5 A7 3/8 5/16 1.10 0 20 20 – 11 180 NBR 06F20C2120ACF 4 A7 3/8 5/16 1.10 0 15 12 – 6 180 NBR 06F20C2120AAF 1 A8 1/2 7/16 2.50 0 35 35 35 22 185 FKM 7121KBN44V00 8 A14 1/2 7/16 2.50 0 17.5 17.5 17.5 10 185 FKM 7121KBN44V00 7 A14 1/2 7/16 2.80 0 15 15 – 16 200 NBR 08F20C2128ADF 5 A9 3/4 3/4 5.00 0 4 4 – 16 200 NBR 12F20C2148ADF 5 A9 A7 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting – Normally Closed- Brass (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve DC TECHNICAL SPECIFICATIONS 1/8 1/16 0.11 0 700 700 700 22 165 PCTFE 7121KBN1GF00 8 A13 1/8 1/16 0.11 0 435 435 435 10 165 PCTFE 7121KBN1GF00 7 A13 1/8 1/8 0.31 0 205 205 205 22 165 PCTFE 7121KBN1NF00 8 A13 1/8 1/8 0.31 0 125 125 125 10 165 PCTFE 7121KBN1NF00 7 A13 1/4 3/64 0.06 0 500 500 500 9.5 120 NBR 04F20C1103A1F 3 A3 1/4 1/16 0.11 0 700 700 700 22 165 PCTFE 7121KBN2GF00 8 A13 1/4 1/16 0.11 0 435 435 435 10 165 PCTFE 7121KBN2GF00 7 A13 1/4 3/32 0.17 0 150 125 125 9.5 120 NBR 04F20C1106A1F 3 A3 1/4 1/8 0.31 0 205 205 205 22 165 PCTFE 7121KBN2NF00 8 A13 1/4 1/8 0.31 0 125 125 125 10 185 FKM 7121KBN2NV00 7 A13 1/4 1/8 0.31 0 125 125 125 22 185 FKM 7121KBN2NV00 8 A13 1/4 1/8 0.31 0 125 125 125 10 165 PCTFE 7121KBN2NF00 7 A13 1/4 1/8 0.35 0 75 70 70 11.5 150 NBR 04F20C1108A3F 6 A16 1/4 1/8 0.35 0 65 60 60 9.5 120 NBR 04F20C1108A1F 3 A3 1/4 5/32 0.52 0 75 75 75 22 185 FKM 7121KBN2QV00 8 A13 1/4 5/32 0.52 0 60 60 60 10 185 FKM 7121KBN2QV00 7 A13 1/4 13/64 0.76 0 40 40 40 22 185 FKM 7121KBN2SV00 8 A13 1/4 13/64 0.76 0 30 30 30 10 185 FKM 7121KBN2SV00 7 A13 A8 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting – Normally Closed- Brass (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve DC TECHNICAL SPECIFICATIONS 3/8 7/32 0.72 0 25 25 25 11.5 150 NBR 06F20C2114A3F 6 A7 3/8 1/4 0.83 0 20 20 20 10 185 FKM 7121KBN3UV00 7 A13 3/8 1/4 0.83 0 20 20 20 22 185 FKM 7121KBN3UV00 8 A13 3/8 9/32 0.85 0 14 14 14 9.5 150 NBR 06F20C2118A1F 3 A8 3/8 5/16 1.10 0 9 9 – 11.5 150 NBR 06F20C2120A3F 6 A7 3/8 5/16 1.10 0 3 3 – 9.5 120 NBR 06F20C2120A1F 3 A8 1/2 7/16 2.50 0 5 5 5 10 185 FKM 7121KBN44V00 7 A14 1/2 7/16 2.50 0 10 10 10 22 185 FKM 7121KBN44V00 8 A14 1/2 7/16 2.80 0 3 3 – 11.5 180 NBR 08F20C2128A3F 6 A9 2-Way Direct Acting – Normally Closed- Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/64 0.06 0 1000 1000 1000 10 165 PCTFE 71215SN1EF00 7 A10 1/8 3/64 0.06 0 450 450 450 10 185 NBR 71215SN1EN00 7 A10 1/8 1/16 0.10 0 700 700 700 10 165 PCTFE 71215SN1GF00 7 A10 1/8 1/16 0.10 0 350 350 350 10 185 NBR 71215SN1GN00 7 A10 1/8 3/32 0.18 0 650 650 650 22 165 PCTFE 71215SN1KF00 8 A10 1/8 3/32 0.18 0 260 260 260 10 165 PCTFE 71215SN1KF00 7 A10 1/8 3/32 0.18 0 275 275 275 10 185 NBR 71215SN1KN00 7 A10 1/8 1/8 0.28 0 520 520 520 22 165 PCTFE 71215SN1MF00 8 A10 1/8 1/8 0.28 0 200 200 200 10 185 NBR 71215SN1MN00 7 A10 1/8 1/8 0.28 0 200 200 200 10 165 PCTFE 71215SN1MF00 7 A10 1/8 5/32 0.40 0 150 150 150 22 185 NBR 71215SN1QN00 8 A10 1/8 5/32 0.40 0 110 110 110 10 185 NBR 71215SN1QN00 7 A10 1/8 3/16 0.50 0 90 90 90 22 185 NBR 71215SN1SN00 8 A10 1/8 3/16 0.50 0 80 80 80 10 185 NBR 71215SN1SN00 7 A10 1/8 1/4 0.75 0 70 70 70 22 185 NBR 71215SN1VN00 8 A10 1/8 1/4 0.75 0 40 40 40 10 185 NBR 71215SN1VN00 7 A10 A9 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting – Normally Closed- Stainless Steel (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 3/64 0.06 0 1000 1000 1000 10 165 PCTFE 71215SN2EF00 7 A10 1/4 3/64 0.06 0 450 450 450 10 185 NBR 71215SN2EN00 7 A10 1/4 1/16 0.10 0 700 700 700 10 165 PCTFE 71215SN2GF00 7 A10 1/4 1/16 0.10 0 350 350 350 10 185 NBR 71215SN2GN00 7 A10 1/4 3/32 0.18 0 650 650 650 22 165 PCTFE 71215SN2KF00 8 A10 1/4 3/32 0.18 0 275 275 275 10 185 NBR 71215SN2KN00 7 A10 1/4 3/32 0.18 0 260 260 260 10 165 PCTFE 71215SN2KF00 7 A10 1/4 1/8 0.28 0 520 520 520 22 165 PCTFE 71215SN2MF00 8 A10 1/4 1/8 0.28 0 200 200 200 10 165 PCTFE 71215SN2MF00 7 A10 1/4 1/8 0.28 0 200 200 200 22 185 NBR 71215SN2MN00 8 A10 1/4 5/32 0.40 0 150 150 150 22 185 NBR 71215SN2QN00 8 A10 1/4 5/32 0.40 0 110 110 110 10 185 NBR 71215SN2QN00 7 A10 1/4 3/16 0.50 0 90 90 90 22 185 NBR 71215SN2SN00 8 A10 1/4 3/16 0.50 0 80 80 80 10 185 NBR 71215SN2SN00 7 A10 1/4 1/4 0.75 0 70 70 70 22 185 NBR 71215SN2VN00 8 A10 1/4 1/4 0.75 0 40 40 40 10 185 NBR 71215SN2VN00 7 A10 1/4 5/16 1.10 0 55 55 55 22 185 NBR 71215SN21N00 8 A20 1/4 5/16 1.10 0 20 20 20 10 185 NBR 71215SN21N00 7 A20 3/8 3/8 2.00 0 25 25 25 22 185 NBR 712155N33N00 8 A15 3/8 3/8 2.00 0 6 6 6 10 185 NBR 71215SN33N00 7 A15 3/8 3/8 2.00 5 11 11 11 10 185 NBR 71215SN33NHP** 7 A15 ** 71215SN33NHP: 5-11 PSI is the operating range for bubble tight sealing. Valves may leak slightly if pressure differential falls below 5 PSI. A10 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting – Normally Closed- Stainless Steel (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve DC TECHNICAL SPECIFICATIONS 1/8 3/64 0.06 0 1000 1000 1000 22 165 PCTFE 71215SN1EF00 8 A10 1/8 3/64 0.06 0 520 520 520 10 165 PCTFE 71215SN1EF00 7 A10 1/8 3/64 0.06 0 450 450 450 10 185 NBR 71215SN1EN00 7 A10 1/8 1/16 0.10 0 700 700 700 22 165 PCTFE 71215SN1GF00 8 A10 1/8 1/16 0.10 0 350 350 350 10 185 NBR 71215SN1GN00 7 A10 1/8 1/16 0.10 0 350 350 350 10 165 PCTFE 71215SN1GF00 7 A10 1/8 3/32 0.18 0 300 300 300 22 165 PCTFE 71215SN1KF00 8 A10 1/8 3/32 0.18 0 275 275 275 10 185 NBR 71215SN1KN00 7 A10 1/8 3/32 0.18 0 130 130 130 10 165 PCTFE 71215SN1KF00 7 A10 1/8 1/8 0.28 0 200 200 200 22 185 NBR 71215SN1MN00 8 A10 1/8 1/8 0.28 0 200 200 200 22 165 PCTFE 71215SN1MF00 8 A10 1/8 1/8 0.28 0 150 150 150 10 185 NBR 71215SN1MN00 7 A10 1/8 1/8 0.28 0 100 100 100 10 165 PCTFE 71215SN1MF00 7 A10 1/8 5/32 0.40 0 130 130 130 22 185 NBR 71215SN1QN00 8 A10 1/8 5/32 0.40 0 60 60 60 10 185 NBR 71215SN1QN00 7 A10 1/8 3/16 0.50 0 70 70 70 22 185 NBR 71215SN1SN00 8 A10 1/8 3/16 0.50 0 25 25 25 10 185 NBR 71215SN1SN00 7 A10 1/8 1/4 0.75 0 30 30 30 22 185 NBR 71215SN1VN00 8 A10 1/8 1/4 0.75 0 10 10 10 10 185 NBR 71215SN1VN00 7 A10 1/4 3/64 0.06 0 1000 1000 1000 22 165 PCTFE 71215SN2EF00 8 A10 1/4 3/64 0.06 0 520 520 520 10 165 PCTFE 71215SN2EF00 7 A10 1/4 3/64 0.06 0 450 450 450 10 185 NBR 71215SN2EN00 7 A10 1/4 1/16 0.10 0 700 700 700 22 165 PCTFE 71215SN2GF00 8 A10 1/4 1/16 0.10 0 350 350 350 10 165 PCTFE 71215SN2GF00 7 A10 1/4 1/16 0.10 0 350 350 350 10 185 NBR 71215SN2GN00 7 A10 1/4 3/32 0.18 0 300 300 300 22 165 PCTFE 71215SN2KF00 8 A10 1/4 3/32 0.18 0 275 275 275 10 185 NBR 71215SN2KN00 7 A10 1/4 3/32 0.18 0 130 130 130 10 165 PCTFE 71215SN2KF00 7 A10 1/4 1/8 0.28 0 200 200 200 22 165 PCTFE 71215SN2MF00 8 A10 1/4 1/8 0.28 0 200 200 200 22 185 NBR 71215SN2MN00 8 A10 1/4 1/8 0.28 0 150 150 150 10 185 NBR 71215SN2MN00 7 A10 1/4 1/8 0.28 0 100 100 100 10 165 PCTFE 71215SN2MF00 7 A10 1/4 5/32 0.40 0 60 60 60 10 185 NBR 71215SN2QN00 7 A10 A11 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting – Normally Closed- Stainless Steel (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve DC TECHNICAL SPECIFICATIONS 1/4 5/32 0.40 0 130 130 130 22 185 NBR 71215SN2QN00 8 A10 1/4 3/16 0.50 0 70 70 70 22 185 NBR 71215SN2SN00 8 A10 1/4 3/16 0.50 0 25 25 25 10 185 NBR 71215SN2SN00 7 A10 1/4 1/4 0.75 0 30 30 30 22 185 NBR 71215SN2VN00 8 A10 1/4 1/4 0.75 0 10 10 10 10 185 NBR 71215SN2VN00 7 A10 1/4 5/16 1.10 0 10 10 10 22 185 NBR 71215SN21N00 8 A20 1/4 5/16 1.10 0 3 3 3 10 185 NBR 71215SN21N00 7 A20 3/8 3/8 2.00 0 5 5 5 22 185 NBR 71215SN33N00 8 A15 A12 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting – Normally Open- Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/16 0.11 0 435 435 435 10 165 PCTFE 7122KBN1GF00 7 A13 1/8 3/32 0.15 0 275 200 150 6 180 NBR 02F20O1106AAF 1 A17 1/8 3/32 0.21 0 175 175 175 10 165 PCTFE 7122KBN1LF00 7 A13 1/8 1/8 0.21 0 125 100 85 6 180 NBR 02F20O1108AAF 1 A17 1/4 3/64 0.06 0 750 700 700 11 180 NBR 04F20O1103ACF 4 A5 1/4 1/16 0.11 0 435 435 435 10 165 PCTFE 7122KBN2GF00 7 A13 1/4 3/32 0.17 0 300 250 230 11 180 NBR 04F20O1106ACF 4 A5 1/4 3/32 0.21 0 175 175 175 10 165 PCTFE 7122KBN2LF00 7 A13 1/4 1/8 0.35 0 130 110 100 11 180 NBR 04F20O1108ACF 4 A5 1/4 5/32 0.49 0 85 75 60 11 180 NBR 04F20O2110ACF 4 A6 1/4 9/32 0.96 0 30 25 20 11 180 NBR 04F20O2118ACF 4 A6 1/2 7/16 2.20 0 15 15 – 16 200 NBR 08F20O2128ADF 5 A18 3/4 3/4 5.50 0 2 2 – 11 180 NBR 12F20O2148ACF 4 A18 DC TECHNICAL SPECIFICATIONS 1/8 1/16 0.09 0 400 250 150 9.5 120 NBR 02F20O1104A1F 3 A17 1/8 1/16 0.11 0 435 435 435 10 165 PCTFE 7122KBN1GF00 7 A13 1/8 3/32 0.15 0 190 110 110 9.5 120 NBR 02F20O1106A1F 3 A17 1/8 3/32 0.21 0 175 175 175 10 165 PCTFE 7122KBN1LF00 7 A13 1/8 1/8 0.21 0 80 60 50 9.5 120 NBR 02F20O1108A1F 3 A17 1/4 3/64 0.06 0 500 500 500 11.5 140 NBR 04F20O1103A3F 6 A5 1/4 1/16 0.11 0 435 435 435 10 165 PCTFE 7122KBN2GF00 7 A13 1/4 3/32 0.17 0 200 150 125 11.5 150 NBR 04F20O1106A3F 6 A5 1/4 3/32 0.21 0 175 175 175 10 165 PCTFE 7122KBN2LF00 7 A13 1/4 1/8 0.35 0 80 60 60 11.5 150 NBR 04F20O1108A3F 6 A5 1/4 5/32 0.49 0 45 30 30 11.5 150 NBR 04F20O2110A3F 6 A6 1/4 9/32 0.96 0 15 15 15 11.5 150 NBR 04F20O2118A3F 6 A6 A13 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting – Normally Open- Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/64 0.05 0 750 750 750 10 165 PCTFE 71225SN1EF00 7 A12 1/8 3/64 0.05 0 400 400 400 10 185 NBR 71295SN1ENJ1 7 A11 1/8 1/16 0.11 0 400 400 400 10 165 PCTFE 71225SN1GF00 7 A12 1/8 1/16 0.11 0 325 325 325 10 185 NBR 71295SN1GNJ1 7 A11 1/8 3/32 0.15 0 250 250 250 10 185 NBR 71295SN1KNJ1 7 A11 1/8 3/32 0.15 0 170 170 170 10 165 PCTFE 71225SN1KF00 7 A12 1/4 3/64 0.05 0 750 750 750 10 165 PCTFE 71225SN2EF00 7 A12 1/4 3/64 0.05 0 400 400 400 10 185 NBR 71295SN2ENJ1 7 A11 1/4 1/16 0.11 0 400 400 400 10 165 PCTFE 71225SN2GF00 7 A12 1/4 1/16 0.11 0 325 325 325 10 185 NBR 71295SN2GNJ1 7 A11 1/4 3/32 0.15 0 250 250 250 10 185 NBR 71295SN2KNJ1 7 A11 1/4 3/32 0.15 0 170 170 170 10 165 PCTFE 71225SN2KF00 7 A12 DC TECHNICAL SPECIFICATIONS 1/8 3/64 0.05 0 750 750 750 10 165 PCTFE 71225SN1EF00 7 A12 1/8 3/64 0.05 0 400 400 400 10 185 NBR 71295SN1ENJ1 7 A11 1/8 1/16 0.11 0 400 400 400 10 165 PCTFE 71225SN1GF00 7 A12 1/8 1/16 0.11 0 325 325 325 10 185 NBR 71295SN1GNJ1 7 A11 1/8 3/32 0.15 0 250 250 250 10 185 NBR 71295SN1KNJ1 7 A11 1/8 3/32 0.15 0 170 170 170 10 165 PCTFE 71225SN1KF00 7 A12 1/4 3/64 0.05 0 750 750 750 10 165 PCTFE 71225SN2EF00 7 A12 1/4 3/64 0.05 0 400 400 400 10 185 NBR 71295SN2ENJ1 7 A11 1/4 1/16 0.11 0 400 400 400 10 165 PCTFE 71225SN2GF00 7 A12 1/4 1/16 0.11 0 325 325 325 10 185 NBR 71295SN2GNJ1 7 A11 1/4 3/32 0.15 0 250 250 250 10 185 NBR 71295SN2KNJ1 7 A11 1/4 3/32 0.15 0 170 170 170 10 165 PCTFE 71225SN2KF00 7 A12 A14 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting – Bi-Directional* – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 1/32 0.02 0 400 400 400 10 185 NBR 71235SN2AN00 7 A19 1/4 3/64 0.06 0 180 180 180 10 185 NBR 71235SN2EN00 7 A19 1/4 1/16 0.10 0 110 110 110 10 185 NBR 71235SN2GN00 7 A19 1/4 3/32 0.17 0 70 70 70 10 185 NBR 71235SN2KN00 7 A19 1/4 1/8 0.28 0 45 45 45 10 185 NBR 71235SN2MN00 7 A19 DC TECHNICAL SPECIFICATIONS 1/4 1/32 0.02 0 400 400 400 10 185 NBR 71235SN2AN00 7 A19 1/4 3/64 0.06 0 180 180 180 10 185 NBR 71235SN2EN00 7 A19 1/4 1/16 0.10 0 110 110 110 10 185 NBR 71235SN2GN00 7 A19 1/4 3/32 0.17 0 70 70 70 10 185 NBR 71235SN2KN00 7 A19 1/4 1/8 0.28 0 45 45 45 10 185 NBR 71235SN2MN00 7 A19 *Pressure can be applied to either inlet or outlet. A15 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A4 Valve Reference A3 OUT IN OUT IN 2-Way Normally Closed: Port Identification: In-In/Out-Out 2-Way Normally Closed: Port Identification: In-In/Out-Out A16 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A5 Valve Reference A6 IN OUT IN OUT 2-Way Normally Open Port Identification: In-In/Out-Out 2-Way Normally Open Port Identification: In-In/Out-Out 2-3/8 A17 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A7 Valve Reference A8 OUT IN OUT IN 2-Way Normally Closed Port Identification: In-In/Out-Out 2-Way Normally Closed Port Identification: In-In/Out-Out 1-5/16 23/32 2-7/16 A18 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A9 Valve Reference A10 1.62 1.62 DIA .34 1.48 1.95 2.76 2.84 OUT IN OUT IN 2-Way Normally Closed Port Identification: In-In/Out-Out 2-Way Normally Closed Port Identification: 2-IN / 1-OUT A J H K F G D E Part Number Dimensions A D E F G H J K 08F20C2128AAF 9/16 23/32 1 – 25/32 2 – 13/16 1-13/32 1-15/16 2-25/32 1-9/16 08F20C2128ADF 08F20C2128A3F 9/16 7/8 1 – 15/16 2 – 13/16 1-13/32 2-1/4 3-9/32 1-13/16 12F20C2148ADF 11/16 7/8 1 – 15/16 2 – 29/32 1-15/32 2-11/32 3-3/8 1-13/16 A19 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A11 1.62 1.62 DIA .34 1.82 2.76 1.95 3.82 (1/4 NPT) 3.65 (1/8 NPT) J1 Mechanical Code Option Valve Reference A12 1.62 1/2″ NPT 2.76 1.95 2.O2 3.O8 .34 1.62 DIA 2-Way Normally Open Port Identification: 2-IN / 3-OUT IN OUT 2-Way Normally Open Port Identification: 1-OUT / 2-IN IN OUT A20 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A13 Valve Reference A14 1.62 (41.1) L C 2.76 (7O.1) P H 1.95 (49.5) 1.62 L C 1.34 1.95 2.76 P H OUT IN IN OUT 2-Way Normally Open 7122KBN Port Identification: 1-IN / 2-OUT OUT IN 2-Way Normally Closed Port Identification: Flow arrow on body indicates flow direction. Ports are not marked. 2-Way Normally Closed 7121KBN Port Identification: 1-IN / 2-OUT Part Number Dimension H P C L 7121KBN1XXXX 7121KBN2XXXX 7122KBN1XXXX 7122KBN2XXXX 2.63 3.07 1.61 1.57 7121KBN3XXXX 2.57 3.08 1.55 1.97 Part Number Dimension H P C L 7121KBN44V00 3.56 2.97 1.96 2.17 A21 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A15 Valve Reference A16 OUT IN 2-Way Normally Closed Port Identification: IN-IN / OUT-OUT 2-3/8 27/32 1-19/16 1-13/16 13/32 3-5/32 1-31/16 OUT IN 2-Way Normally Closed Port Identification: 2-IN / 1-OUT A22 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A18 Valve Reference A17 IN OUT 2-Way Normally Open Port Identification: IN-IN/OUT-OUT 2-Way Normally Open Port Identification: IN-IN/OUT-OUT A J H K F G D E Dimensions A D E F G H J K 9/16 7/8 1 – 15/16 2 – 13/16 1- 13/32 2- 1/8 3 – 9/32 1 – 13/16 11/16 7/8 1 – 15/16 2 – 29/32 1 – 15/32 2 – 7/32 3 – 3/8 1 – 13/16 IN OUT A23 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A19 1.62 1.62 DIA .34 1.48 1.95 2.76 2.84 1 2 2-Way Bi-Directional Port Identification: Pressure can be applied to either port. Valve Reference A20 1 2 2-Way Normally Closed Port Identification: 2 IN/1 OUT 1.62 1.62 DIA 1.95 2.76 2.91 1.88 2 .61 .38 A24 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting Materials of Construction** Product* Wattage Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 02F20O1 6 2WNO 1/8 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 130°F 02F20O1 9.5, 10 2WNO 1/8 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 77°F 04F20C1 6, 11 2WNC 1/4 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 130°F 04F20C1 9.5, 10, 16 2WNC 1/4 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 77°F 04F20C2 6, 11 2WNC 1/4 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 130°F 04F20C2 9.5, 10, 16 2WNC 1/4 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 77°F 04F20O1 6, 11 2WNO 1/4 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 130°F 04F20O1 9.5, 10, 16 2WNO 1/4 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 77°F 04F20O2 6, 11 2WNC 1/4 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 130°F 04F20O2 9.5, 10, 16 2WNC 1/4 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 77°F 06F20C2 6, 11 2WNC 3/8 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 130°F 06F20C2 9.5, 10, 16 2WNC 3/8 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 77°F 08F20C2 6, 11 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 130°F 08F20C2 9.5, 10, 16 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 77°F 08F20O2 6, 11 2WNO 1/2 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 130°F 08F20O2 9.5, 10, 16 2WNO 1/2 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 77°F 12F20C2 6, 11 2WNC 3/4 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 130°F 12F20C2 9.5, 10, 16 2WNC 3/4 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 77°F 12F20O2 6, 11 2WNO 3/4 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 130°F 12F20O2 3, 9.5, 10, 16 2WNO 3/4 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 77°F * Shows the first 7 digits of pressure vessel part number. **Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog A25 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting Materials of Construction (Continued)** Product* Wattage Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 71215SN 10 2WNC 1/8 – 3/8 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F 71215SN 22 2WNC 1/8 – 3/8 430F 304SS 430FR 430F 430FR 18-8SS Copper 77°F 71216SN 10 2WNC 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F 71216SN 22 2WNC 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7121KBN 10 2WNC 1/8 – 3/8 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 7121KBN 22 2WNC 1/8 – 3/8 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 71225SN 10 2WNO 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F 71225SN 22 2WNO 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7122KBN 10 2WNO 1/8 – 1/4 Brass 304SS 430FR 430F 430FR/4106 301SS Copper 150°F 7122KBN 22 2WNO 1/8 – 1/4 Brass 304SS 430FR 430F 430FR/4106 301SS Copper 77°F 71235SN 10 2WDP 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F 71235SN 22 2WDP 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 77°F 71295SN 10 2WNO 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F 71295SN 22 2WNO 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 77°F * Shows the first 7 digits of pressure vessel part number. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. A26 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Notes A27 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way General Description: 2-Way Direct Lift, Pilot & Remote Operated valves are designed for higher flow and medium to high pressure applications. Pilot operated valves require the minimum pressure differential specified for proper valve operation. Installation Valves should be mounted with solenoid coil vertical and upright. Standard Materials of Construction Please refer to page A55 Compatible Fluids Lubricated Air, Inert Gases, Water and Light Oil (300 SSU). Additional fluids compatible with alternate materials of construction (consult factory). Use of non-lubricated gaseous media can affect valve life. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60–110/50 240/60–220/50 DC – 12, 24 & 120 For other voltages – consult factory Coil Classification: Class F standard Class H available Agency Approvals: Standard valves with NEMA 4X or explosion proof solenoid enclosures are UL Listed and CSA Certified. For additional details, consult factory. Maximum Ambient Temperature 150°F Please refer to page A55 for details. Applications: ercial Equipment • Irrigation systems • Fire suppression equipment • Molding equipment • Cooling of machine tools • Sterilizers • Car wash • Water treatment and purification • Air compressors and dryers • Floor cleaning equipment • Hospital equipment • Automated systems • Food processing 2-Way Direct Lift, Pilot & Remote Operated Valves 1/4″–2″ NPT A28 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Internal Pilot Operated – Normally Closed – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 1/4 0.76 5 300 300 300 10 185 NBR 73212BN2MN00 7 A35 1/4 11/32 1.20 5 300 300 300 6 180 NBR 04F25C2122CAF 1 A54 1/4 7/16 2.00 3 150 150 150 10 185 NBR 7321KBN2RN00 7 A46 3/8 11/32 1.20 5 300 300 300 6 180 NBR 06F25C2122CAF 1 A54 3/8 1/2 2.40 5 300 300 300 10 185 NBR 73212BN3SN00 7 A32 3/8 7/16 2.50 3 150 150 150 10 185 NBR 7321KBN3SN00 7 A46 3/8 5/8 3.00 5 300 300 300 16 175 NBR 06F22C2140ADF 5 A22 3/8 1/2 3.00 1 300 235 235 11 180 NBR 06F25C2132ACF 4 A21 3/8 5/8 3.00 5 200 135 135 6 180 NBR 06F22C2140AAF 1 A23 3/8 5/8 3.00 5 150 150 150 10 185 NBR 73218BN3TN00 7 A43 3/8 5/8 3.00 0 150 150 150 11 180 NBR 06F23C2140ACF* 4 A22 3/8 5/8 3.00 0 100 100 100 10 185 NBR 72218BN3TN00* 7 A36 3/8 19/32 4.40 0 230 230 230 10 185 NBR 7221GBN3VN00* 7 A47 1/2 7/16 2.50 3 150 150 150 10 185 NBR 7321KBN4SN00 7 A46 1/2 1/2 2.80 5 300 300 300 10 185 NBR 73212BN4TN00 7 A32 1/2 1/2 3.60 1 300 235 235 11 180 NBR 08F25C2132ACF 4 A21 1/2 5/8 4.00 5 300 300 300 16 175 NBR 08F22C2140ADF 5 A22 1/2 5/8 4.00 5 250 220 220 11 180 NBR 08F22C2140ACF 4 A22 1/2 5/8 4.00 5 200 135 135 6 180 NBR 08F22C2140AAF 1 A23 1/2 5/8 4.00 5 150 150 150 10 185 NBR 73218BN4UN00 7 A43 1/2 5/8 4.00 0 150 150 150 11 180 NBR 08F23C2140ACF* 4 A22 1/2 5/8 4.00 0 100 100 100 10 185 NBR 72218BN4UN00* 7 A36 1/2 19/32 4.40 0 230 230 230 10 185 NBR 7221GBN4VN00* 7 A47 3/4 3/4 5.00 5 150 150 150 10 185 NBR 73218BN5VN00 7 A43 3/4 3/4 5.00 0 150 150 150 11 180 NBR 12F23C2148ACF* 4 A25 3/4 3/4 5.00 5 125 125 125 6 180 NBR 12F22C2148AAF 1 A24 3/4 3/4 5.00 0 100 100 100 10 185 NBR 72218BN5VN00* 7 A36 3/4 19/32 5.50 0 230 230 230 10 185 NBR 7221GBN51N00* 7 A47 3/4 3/4 6.50 5 250 150 250 6 180 NBR 12F24C2148AAF 1 A27 3/4 3/4 7.30 5 300 300 300 10 185 NBR 73212BN52N00 7 A33 3/4 3/4 7.40 1 300 235 235 11 180 NBR 12F25C2148ACF 4 A28 3/4 25/32 9.60 5 230 230 230 10 185 NBR 7321GBN53N00 7 A48 *Direct Lift Valves (0 minimum pressure differential) will open at zero differential pressure, however, full flow through the valve will be achieved at approximately 5 psi differential. A29 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Internal Pilot Operated – Normally Closed – Brass (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1 19/32 5.50 0 230 230 230 10 185 NBR 7221GBN61N00* 7 A47 1 1 11.0 5 300 300 300 10 185 NBR 73212BN63N00 7 A33 1 1 11.7 0 230 230 230 10 185 NBR 7221GBN64N00* 7 A47 1 1 12.2 1 300 300 – 11 180 NBR 16F25C2164ACF 4 A30 1 1 12.5 5 230 230 230 10 185 NBR 7321GBN64N00 7 A48 1 1 13.0 5 150 150 100 6 180 NBR 16F24C2164AAF 1 A29 1 1 1/16 13.5 5 125 125 125 10 185 NBR 73218BN64N00 7 A44 1 1/4 1 1/8 15.0 5 150 150 100 6 180 NBR 20F24C2172AAF 1 A29 1 1/4 1 1/8 15.0 5 125 125 125 10 185 NBR 73218BN75N00 7 A44 1 1/4 1 1/8 19.3 5 230 230 230 10 185 NBR 7321GBN76N00 7 A48 1 1/4 1 9/16 29.0 5 230 230 230 10 185 NBR 7321GBN88N00 7 A48 1 1/2 1 1/4 22.5 5 150 150 100 6 180 NBR 24F24C2180AAF 1 A31 1 1/2 1 1/4 22.5 5 125 125 125 10 185 NBR 73218BN87N00 7 A42 2 1 9/16 38.6 5 230 230 230 10 185 NBR 7321GBN99N00 7 A48 *Direct Lift Valves (0 minimum pressure differential) will open at zero differential pressure, however, full flow through the valve will be achieved at approximately 5 psi differential. A30 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Internal Pilot Operated – Normally Closed – Brass (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve DC TECHNICAL SPECIFICATIONS 1/4 1/4 0.76 5 300 300 300 10 185 NBR 73212BN2MN00 7 A35 1/4 11/32 1.20 5 275 275 275 11.5 150 NBR 04F25C2122C3F 6 A54 1/4 7/16 2.00 3 150 150 150 22 185 NBR 7321KBN2RN00 8 A46 1/4 7/16 2.00 3 60 60 60 10 185 NBR 7321KBN2RN00 7 A46 3/8 11/32 1.20 5 275 275 275 11.5 150 NBR 06F25C2122C3F 6 A54 3/8 1/2 2.40 5 300 300 300 10 185 NBR 73212BN3SN00 7 A32 3/8 7/16 2.50 3 150 150 150 22 185 NBR 7321KBN3SN00 8 A46 3/8 7/16 2.50 3 60 60 60 10 185 NBR 7321KBN3SN00 7 A46 3/8 5/8 3.00 5 150 150 150 10 185 NBR 73218BN3TN00 7 A43 3/8 1/2 3.00 1 130 130 130 11.5 150 NBR 06F25C2132A3F 6 A21 3/8 5/8 3.00 5 125 100 100 11.5 150 NBR 06F22C2140A3F 6 A22 3/8 5/8 3.00 0 40 40 40 22 185 NBR 72218BN3TN00* 8 A36 3/8 5/8 3.00 0 40 40 – 11.5 150 NBR 06F23C2140A3F* 6 A22 3/8 19/32 4.40 0 100 100 100 22 185 NBR 7221GBN3VN00* 8 A47 1/2 7/16 2.50 3 150 150 150 22 185 NBR 7321KBN4SN00 8 A46 1/2 7/16 2.50 3 60 60 60 10 185 NBR 7321KBN4SN00 7 A46 1/2 1/2 2.80 5 300 300 300 10 185 NBR 73212BN4TN00 7 A32 1/2 1/2 3.60 1 130 130 130 11.5 150 NBR 08F25C2132A3F 6 A21 1/2 5/8 4.00 5 150 150 150 10 185 NBR 73218BN4UN00 7 A43 1/2 5/8 4.00 5 125 100 100 11.5 150 NBR 08F22C2140A3F 6 A22 1/2 5/8 4.00 0 40 40 40 22 185 NBR 72218BN4UN00* 8 A36 1/2 5/8 4.00 0 40 40 – 11.5 150 NBR 08F23C2140A3F* 6 A22 1/2 19/32 4.40 0 100 100 100 22 185 NBR 7221GBN4VN00* 8 A47 3/4 3/4 5.00 5 150 150 150 10 185 NBR 73218BN5VN00 7 A43 3/4 3/4 5.00 5 100 90 75 11.5 180 NBR 12F22C2148A3F 6 A25 3/4 3/4 5.00 0 40 40 40 22 185 NBR 72218BN5VN00* 8 A36 3/4 3/4 5.00 0 40 40 – 11.5 150 NBR 12F23C2148A3F* 6 A25 3/4 19/32 5.50 0 100 100 100 22 185 NBR 7221GBN51N00* 8 A47 3/4 3/4 6.50 5 125 125 125 11.5 150 NBR 12F24C2148A3F 6 A26 3/4 3/4 7.30 5 300 300 300 10 185 NBR 73212BN52N00 7 A33 3/4 25/32 9.60 5 230 230 230 10 185 NBR 7321GBN53N00 7 A48 *Direct Lift Valves (0 minimum pressure differential) will open at zero differential pressure, however, full flow through the valve will be achieved at approximately 5 psi differential. A31 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Internal Pilot Operated – Normally Closed – Brass (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve DC TECHNICAL SPECIFICATIONS 1 19/32 5.50 0 100 100 100 22 185 NBR 7221GBN61N00* 8 A47 1 1 11.0 5 300 300 300 10 185 NBR 73212BN63N00 7 A33 1 1 11.7 0 85 85 85 22 185 NBR 7221GBN64N00* 8 A47 1 1 12.2 1 275 275 275 11.5 180 NBR 16F25C2164A3F 6 A30 1 1 12.5 5 230 230 230 10 185 NBR 7321GBN64N00 7 A48 1 1 13.0 5 125 125 125 11.5 150 NBR 16F24C2164A3F 6 A29 1 1 1/16 13.5 5 125 125 125 10 185 NBR 73218BN64N00 7 A44 1 1/4 1 1/8 19.3 5 230 230 230 10 185 NBR 7321GBN76N00 7 A48 1 1/4 1 1/8 15.0 5 125 125 125 11.5 150 NBR 20F24C2172A3F 6 A29 1 1/4 1 1/8 15.0 5 125 125 125 10 185 NBR 73218BN75N00 7 A44 1 1/2 1 1/4 22.5 5 125 125 125 11.5 150 NBR 24F24C2180A3F 6 A31 1 1/2 1 1/4 22.5 5 125 125 125 10 185 NBR 73218BN87N00 7 A42 1 1/2 1 9/16 29.0 5 230 230 230 22 185 NBR 7321GBN88N00 8 A48 1 1/2 1 9/16 29.0 5 200 200 200 10 185 NBR 7321GBN88N00 7 A48 2 1 9/16 38.6 5 230 230 230 22 185 NBR 7321GBN99N00 8 A48 2 1 9/16 38.6 5 200 200 200 10 185 NBR 7321GBN99N00 7 A48 *Direct Lift Valves (0 minimum pressure differential) will open at zero differential pressure, however, full flow through the valve will be achieved at approximately 5 psi differential. A32 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Internal Pilot Operated – Normally Closed – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 1/4 0.76 5 300 300 300 10 185 NBR 73212SN2MN00 7 A38 3/8 5/8 3.00 5 300 300 300 16 175 NBR 06F22C6140ADF 5 A22 3/8 5/8 3.00 0 150 150 150 11 180 NBR 06F23C6140ACF* 4 A22 3/8 5/8 3.00 0 100 100 100 10 185 FKM 72218RN3TV00* 7 A36 1/2 1/2 4.00 5 300 300 300 16 175 NBR 08F22C6140ADF 5 A22 1/2 1/2 4.00 0 150 150 150 11 180 NBR 08F23C6140ACF* 4 A22 1/2 5/8 4.00 0 100 100 100 10 185 FKM 72218RN4UV00* 7 A36 3/4 3/4 5.00 5 300 300 300 16 175 NBR 12F22C6148ADF 5 A25 3/4 3/4 5.00 0 150 150 150 11 180 NBR 12F23C6148ACF* 4 A25 3/4 3/4 5.00 0 100 100 100 10 185 FKM 72218RN5VV00* 7 A36 1 1 13.00 5 150 150 100 6 180 NBR 16F24C6164AAF 1 A29 1 1/2 1 1/4 22.50 5 150 150 100 6 180 NBR 24F24C6180AAF 1 A31 DC TECHNICAL SPECIFICATIONS 1/4 1/4 0.76 5 300 300 300 10 185 NBR 73212SN2MN00 7 A38 3/8 5/8 3.00 5 125 100 100 11.5 150 NBR 06F22C6140A3F 6 A22 3/8 5/8 3.00 0 40 40 40 22 185 FKM 72218RN3TV00* 8 A36 3/8 5/8 3.00 0 40 40 – 11.5 150 NBR 06F23C6140A3F* 6 A22 1/2 1/2 4.00 5 125 100 100 11.5 150 NBR 08F22C6140A3F 6 A22 1/2 5/8 4.00 0 40 40 40 22 185 FKM 72218RN4UV00* 8 A36 1/2 1/2 4.00 0 40 40 – 11.5 150 NBR 08F23C6140A3F* 6 A22 3/4 3/4 5.00 5 100 90 75 11.5 150 NBR 12F22C6148A3F 6 A25 3/4 3/4 5.00 0 40 40 40 22 185 FKM 72218RN5VV00* 8 A36 3/4 3/4 5.00 0 40 40 – 11.5 150 NBR 12F23C6148A3F* 6 A25 1 1 13.00 5 125 125 125 11.5 150 NBR 16F24C6164A3F 6 A29 1 1/2 1 1/4 22.50 5 125 125 125 11.5 150 NBR 24F24C6180A3F 6 A31 *Direct Lift Valves (0 minimum pressure differential) will open at zero differential pressure, however, full flow through the valve will be achieved at approximately 5 psi differential. A33 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Internal Pilot Operated – Normally Open – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 1/4 0.76 5 200 200 200 10 185 NBR 73222BN2MN00 7 A35 1/4 11/32 1.20 5 300 300 300 11 180 NBR 04F25O2122CCF 4 A54 3/8 1/2 2.40 5 200 200 200 10 185 NBR 73222BN3SN00 7 A49 3/8 1/2 3.00 1 200 175 175 11 180 NBR 06F25O2132ACF 4 A21 3/8 5/8 3.00 0 150 150 150 11 150 NBR 06F23O2140ACF* 4 A51 3/8 5/8 3.00 5 150 150 150 10 185 NBR 73228BN3TN00 7 A40 3/8 5/8 3.00 0 125 125 125 22 185 FKM 72228BN3TV00* 8 A37 1/2 1/2 2.80 5 200 200 200 10 185 NBR 73222BN4TN00 7 A49 1/2 1/2 3.60 1 200 175 175 11 180 NBR 08F25O2132ACF 4 A21 1/2 5/8 4.00 5 150 150 150 10 185 NBR 73228BN4UN00 7 A40 1/2 5/8 4.00 0 150 150 150 11 150 NBR 08F23O2140ACF* 4 A51 1/2 1/2 4.00 0 125 125 125 22 185 FKM 72228BN4UV00* 8 A37 3/4 3/4 5.00 5 150 150 150 10 185 NBR 73228BN5VN00 7 A40 3/4 3/4 5.00 0 125 125 125 22 185 FKM 72228BN5VV00* 8 A37 3/4 3/4 5.50 0 150 150 150 11 180 NBR 12F23O2148ACF* 4 A52 3/4 3/4 6.50 5 250 200 200 11 180 NBR 12F24O2148ACF 4 A26 3/4 3/4 7.30 5 200 200 200 10 185 NBR 73222BN52N00 7 A50 3/4 3/4 7.40 1 275 275 275 11 180 NBR 12F25O2148ACF 4 A28 3/4 25/32 9.60 5 230 230 230 10 185 NBR 7322GBN53N00 7 A48 1 1 11.00 5 200 200 200 10 185 NBR 73222BN63N00 7 A50 1 1 12.20 1 300 250 230 11 180 NBR 16F25O2164ACF 4 A30 1 1 12.50 5 230 230 230 10 185 NBR 7322GBN64N00 7 A48 1 1 13.00 5 125 125 125 11 180 NBR 16F24O2164ACF 4 A29 1 1 1/16 13.50 5 125 125 125 10 185 NBR 73228BN64N00 7 A41 1 1/4 1 1/8 15.00 5 125 125 125 11 180 NBR 20F24O2172ACF 4 A29 1 1/4 1 1/8 15.00 5 125 125 125 10 185 NBR 73228BN75N00 7 A41 1 1/4 1 1/8 19.30 5 230 230 230 10 185 NBR 7322GBN76N00 7 A48 1 1/2 1.25 22.50 5 125 125 125 11 180 NBR 24F24O2180ACF 4 A31 1 1/2 1.25 22.50 5 125 125 125 10 185 NBR 73228BN87N00 7 A42 1 1/2 1 9/16 29.00 5 170 170 170 10 185 NBR 7322GBN88N00 7 A48 2 1 9/16 38.60 5 170 170 170 10 185 NBR 7322GBN99N00 7 A48 *See note on A32. A34 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Internal Pilot Operated – Normally Open – Brass (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve DC TECHNICAL SPECIFICATIONS 1/4 1/4 0.76 5 200 200 200 10 185 NBR 73222BN2MN00 7 A35 1/4 11/32 1.20 5 160 160 160 11.5 150 NBR 04F25O2122C3F 6 A54 3/8 1/2 2.40 5 200 200 200 10 185 NBR 73222BN3SN00 7 A49 3/8 5/8 3.00 5 150 150 150 10 185 NBR 73228BN3TN00 7 A40 3/8 5/8 3.00 0 125 125 80 11.5 150 NBR 06F23O2140A3F* 6 A51 3/8 5/8 3.00 0 125 125 125 22 185 FKM 72228BN3TV00* 8 A37 1/2 1/2 2.80 5 200 200 200 10 185 NBR 73222BN4TN00 7 A49 1/2 5/8 4.00 5 150 150 150 10 185 NBR 73228BN4UN00 7 A40 1/2 1/2 4.00 0 125 125 125 22 185 FKM 72228BN4UV00* 8 A37 1/2 5/8 4.00 0 125 125 80 11.5 150 NBR 08F23O2140A3F* 6 A51 1/2 1/2 12.70 5 200 175 175 11.5 180 NBR 08F25O2132C3F 6 A21 3/4 3/4 5.00 5 150 150 150 10 185 NBR 73228BN5VN00 7 A40 3/4 3/4 5.00 0 125 125 125 22 185 FKM 72228BN5VV00* 8 A37 3/4 3/4 5.50 0 125 125 80 11.5 150 NBR 12F23O2148A3F* 6 A52 3/4 3/4 7.30 5 200 200 200 10 185 NBR 73222BN52N00 7 A50 3/4 25/32 9.60 5 230 230 230 10 185 NBR 7322GBN53N00 7 A48 1 1 11.00 5 200 200 200 10 185 NBR 73222BN63N00 7 A50 1 1 12.50 5 230 230 230 10 185 NBR 7322GBN64N00 7 A48 1 1 13.00 5 125 125 125 11.5 180 NBR 16F24O2164A3F 6 A29 1 1 1/16 13.50 5 125 125 125 10 185 NBR 73228BN64N00 7 A41 1 1/4 1 1/8 15.00 5 125 125 125 10 185 NBR 73228BN75N00 7 A41 1 1/4 1 1/8 19.30 5 230 230 230 10 185 NBR 7322GBN76N00 7 A48 1 1/2 1 1/4 22.50 5 125 125 125 11.5 180 NBR 24F24O2180A3F 6 A31 1 1/2 1 1/4 22.50 5 125 125 125 10 185 NBR 73228BN87N00 7 A42 1 1/2 1 9/16 29.00 5 170 170 170 10 185 NBR 7322GBN88N00 7 A48 2 1 9/16 38.60 5 170 170 170 10 185 NBR 7322GBN99N00 7 A48 *Direct Lift Valves (0 minimum pressure differential) will open at zero differential pressure, however, full flow through the valve will be achieved at approximately 5 psi differential. A35 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Internal Pilot Operated – Normally Open – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 1/4 0.76 5 200 200 200 10 185 NBR 73222SN2MN00 7 A39 3/8 5/8 3.00 0 150 150 150 11 175 NBR 06F23O6140ACF* 4 A51 3/8 5/8 3.00 0 125 125 125 22 185 FKM 72228RN3TV00* 8 A37 1/2 1/2 4.00 0 150 150 150 11 175 NBR 08F23O6140ACF* 4 A51 1/2 1/2 4.00 0 125 125 125 22 185 FKM 72228RN4UV00* 8 A37 3/4 3/4 5.00 0 150 150 150 11 175 NBR 12F23O6148ACF* 4 A52 3/4 3/4 5.00 0 125 125 125 22 185 FKM 72228RN5VV00* 8 A37 1 1 13.00 5 125 125 125 11 180 NBR 16F24O6164ACF 4 A29 1 1/2 1 1/4 22.50 5 125 125 125 11 180 NBR 24F24O6180ACF A31 DC TECHNICAL SPECIFICATIONS 1/4 1/4 0.76 5 200 200 200 10 185 NBR 73222SN2MN00 7 A39 3/8 5/8 3.00 0 125 125 125 22 185 FKM 72228RN3TV00* 8 A37 3/8 5/8 3.00 0 125 125 80 11.5 150 NBR 06F23O6140A3F* 6 A51 1/2 1/2 4.00 0 125 125 125 22 185 FKM 72228RN4UV00* 8 A37 1/2 1/2 4.00 0 125 125 80 11.5 150 NBR 08F23O6140A3F* 6 A51 3/4 3/4 5.00 0 125 125 125 22 185 FKM 72228RN5VV00* 8 A37 3/4 3/4 5.00 0 125 125 80 11.5 150 NBR 12F23O6148A3F* 6 A52 1 1 13.00 5 125 125 125 11.5 150 NBR 16F24O6164A3F 6 A29 1 1/2 1 1/4 22.50 5 125 125 125 11.5 150 NBR 24F24O6180A3F 6 A31 *Direct Lift Valves (0 minimum pressure differential) will open at zero differential pressure, however, full flow through the valve will be achieved at approximately 5 psi differential. A36 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way External Pilot Operated* – Universal – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 3/8 1/2 2.40 0 150 150 150 10 185 NBR 74232BN3SNJ1 7 A45 1/2 1/2 2.80 0 150 150 150 10 185 NBR 74232BN4TNJ1 7 A45 3/4 3/4 7.30 0 150 150 150 10 185 NBR 74232BN52NJ1 7 A34 1 1 11.00 0 150 150 150 10 185 NBR 74232BN63NJ1 7 A34 DC TECHNICAL SPECIFICATIONS 3/8 1/2 2.40 0 150 150 150 10 185 NBR 74232BN3SNJ1 7 A45 1/2 1/2 2.80 0 150 150 150 10 185 NBR 74232BN4TNJ1 7 A45 3/4 3/4 7.30 0 150 150 150 10 185 NBR 74232BN52NJ1 7 A34 1 1 11.00 0 150 150 150 10 185 NBR 74232BN63NJ1 7 A34 *External pilot pressure valves require a minimum external pilot pressure equal to the main line pressure plus 10 psi. Maximum external pilot pressure is 145 psi for vacuum applications and 160 psi for pressure applications. (Pressure ratings may be reduced, however. Consult factory for details.) 2-Way Remote Pressure Operated Valves – Universal – Brass, NBR Seals Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve 3/8 1/2 2.4 0 190 190 190 — 185 75232BN3SN00 – A55 1/2 1/2 2.8 0 190 190 190 — 185 75232BN4TN00 – A55 3/4 3/4 7.3 0 190 190 190 — 185 75232BN52N00 – A55 2-Way Remote Operated Valve Port Connections Valve Type Main Line Supply Remote Control Valve Hookup 3-Way Pilot Valve Hookup IN Port OUT Port Pilot Inlet Port 1/8″ NPT Normally Closed Port Normally Open Port Common Port Normally Open 0-190 PSIG IN OUT Common Port of 3-Way Pilot Valve Main Line Pressure +10 PSI Min. Pilot Exhaust Pilot IN Port (1/8″ NPT) of Remote Control Valve Normally Open Vacuum Non-Vacuum Pump Vacuum Pump Main Line Pressure +10 PSI Min. Vacuum Normally Closed 0-190 PSIG IN OUT Normally Closed Vacuum Non-Vacuum Pump Vacuum Pump * To assure long, trouble free life, the Pilot IN to main pressure differential should not exceed 200 PSIG. NOTE: This valve is its normal state, without piloting, is normally open. NOTE: These vavles do not have an electrical operator, therefore, No enclosure and/or coil selection is required. A37 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A21 Valve Reference A22 2-Way Normally Open 06F25O, 08F25O Port Identification: In-In/Out-Out Valve Dimensions B C D E F G H 06F25C2132ACF 08F25C2132ACF 06F25C2132A3F 08F25C2132A3F 1/2 1 5/16 1 1/8 2 7/16 2 5/16 2 29/32 2 1/4 06F25O2132ACF 08F25O2132ACF 08F25O2132A3F 1/2 1 5/16 1 1/8 2 7/16 2 7/32 2 29/32 2 1/4 2-Way Normally Closed Port Identification: In-In/Out-Out IN OUT 2-Way Normally Closed 06F25C, 08F25C A38 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A23 Valve Reference A24 IN OUT IN OUT 2-Way Normally Closed Port Identification: In-In/Out-Out 2-Way Normally Closed Port Identification: In-In/Out-Out 2.78 1.94 2.87 2 1.47 2.91 0.68 A39 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A25 Valve Reference A26 IN OUT 2-Way Normally Closed Port Identification: In-In/Out-Out 2-Way Normally Open Port Identification: In-In/Out-Out 3.375 2.34 1.47 2.91 0.68 A40 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A27 Valve Reference A28 2-Way Normally Closed: 12F25Cxx IN OUT IN OUT 2-Way Normally Open: 12F25Oxx Port Identification: In-In/Out-Out 2-Way Normally Closed: Port Identification: In-In/Out-Out Valve Dimensions B C D E F G H 12F25C2148ACF 5/8 1 5/8 1 1/2 3 1/8 2 11/32 3 15/32 3 1/2 12F25O2148ACF 5/8 1 5/8 1 1/2 3 1/8 2 1/4 3 15/32 2 29/32 2-11/16 3-17/32 2-3/16 23/32 1-3/16 2-11/16 3-17/32 2-3/16 23/32 1-3/16 IN OUT NORMALLY OPEN A41 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A29 A B C D E IN OUT 16F24Cxx 20F24Cxx Valve Dimensions A B C D E 16F24C2164AAF 16F24C6164AAF 23/32 15/32 3 1/8 3 31/32 1 9/16 16F24C2164A3F 16F24C6164A3F 7/8 15/32 3 9/32 4 3/16 1 13/16 20F24C2172AAF 23/32 17/32 3 1/8 3 31/32 1 9/16 20F24C2172A3F 7/8 17/32 3 9/32 4 3/16 1 13/16 16F24O2164ACF 16F24O2164A3F 23/32 15/32 4 5/32 4 3/16 1 13/16 16F24O6164ACF 16F24O6164A3F 20F24O2172ACF 20F24O2172A3F 7/8 17/32 4 3/8 4 13/16 1 13/16 2-Way normally closed: 2-Way normally open: Port Identification: In-In/Out-Out 16F24Oxx 20F24Oxx IN OUT NORMALLY OPEN A42 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A31 G C E F D IN OUT 2-Way Normally Closed Port identification: In-In/Out-Out Valve Reference A30 2-Way Normally Closed: 16F25Cxx IN OUT 2-Way Normally Open: 16F25Oxx Port identification: In-In/Out-Out IN OUT NORMALLY OPEN Part Number Dimension C D E F G 24F24C2180AAF 24F24C180AAF 23/32 1 5/16 3 5/16 4 5/32 1 9/16 24F24C2180A3F 7/8 1 17/32 3 17/32 4 3/8 1 13/16 24F2402180ACF 24F2402180A3F 24F2406180ACF 7/8 1 17/32 3 3/8 4 3/8 1 13/16 A43 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A32 2.82 2.75 1.62 2.76 1.95 1.97 3.84 4.66 IN OUT 2-Way Normally Closed Port Identification: IN-IN/OUT-OUT Valve Reference A33 Part Number Dimension Port Indentification H P C L W IN OUT 73212BN52NOO 5.81 4.62 3.59 3.62 3.09 IN OUT 73212BN63NOO 6.22 4.89 3.87 4.31 3.45 P A 1.62 L IN C W P H OUT 2.76 1.95 IN OUT 2-Way Normally Closed Port identification: In-In/Out-Out 73212BN52 P-IN/A-OUT 73212BN63 A44 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A34 1.62 1/8″ PTF L C S 2.76 1.95 P W H J1 Mechanical Option Part Number Dimension Port Identification H P C L W S IN OUT 74232BN52NJ1 6.78 5.59 3.59 3.62 3.09 2.28 IN OUT 74232BN63NJ1 7.19 5.86 3.87 4.31 3.45 2.56 P A Valve Reference A35 1.62 2.OO 2.76 1.95 1.93 .25 2.4O 3.OO 3.5O IN OUT 2-Way Normally Closed 73212xx 2-Way Normally Open: 73222xx 2-Way Univeral Valve may be Normally Closed or Normally Open, depending on piping of external pilot. 2-Way Normally Closed 2-Way Normally Open Port Identification: IN-IN/–OUT A45 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A36 1.62 L C 2.76 P H 1.95 2.56 Valve Dimensions H P C L 72218BN3TXXX 72218BN4UXXX 3.78 3.23 2.21 2.64 72218RN3TXXX 72218RN4UXXX 72218BN5VXXX 72218RN5VXXX 3.99 3.33 2.31 2.71 IN OUT 2-Way Normally Closed Port Identification: P-IN/–OUT Valve Reference A37 Valve Dimensions H P C L 72228BN3TXXX 72228BN4UXXX 72228RN3TXXX 72228RN4UXXX 4.04 3.49 2.43 2.64 72228BN5VXXX 72228RN5VXXX 4.24 3.58 2.52 2.72 2-Way Normally Open Port Identification: P-IN/–OUT A46 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A38 2.90 1.88 4.20 IN OUT 2-Way Normally Closed Port Identification: 2-IN/1-OUT Valve Reference A39 1.62 1.62 DIA 2.O8 1.16 .13 4.44 3.14 2.76 1.95 2-Way Normally Open Port Identification: 2-IN/1-OUT A47 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A40 Valve Dimensions H P C L R 73228BN3TN00 73228BN4UN00 4.62 4.07 3.01 2.64 1.39 73228BN5VN00 4.83 4.17 3.11 2.72 1.43 2-Way Normally Open Port Identification: P-IN/–OUT Valve Reference A41 1.62 2.13 3.86 C 2.76 1.95 1.O2 3.56 P H Valve Dimensions H P C 73228BN64N00 73228BN64V00 5.69 4.83 3.77 73228BN75N00 73228BN75V00 5.97 4.97 3.91 2-Way Normally Open Port Identification: P-IN/–OUT A48 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A42 1.62 2.24 4.47 2.76 1.95 1.21 4.34 A B C IN OUT 2-Way Normally Closed 73218xx Valve Reference A43 Valve Dimensions H P C L R 73218BN3TXXX 73218BN4UXXX 4.38 3.84 2.81 2.64 1.39 73218BN5VXXX 4.59 3.94 2.91 2.72 1.43 IN OUT 2-Way Normally Closed 73218xx Port Identification: P-IN/–OUT 2-Way Normally Open 73228xx Port Identification: In-In/–Out Valve Dimensions A B C 73218xxx 3.87 4.89 6.05 73228xxx 4.07 5.13 6.28 A49 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A44 2.13 3.86 2.76 1.95 1.02 3.56 C P H Valve Dimensions H P C 73218BN64XXX 5.45 4.59 3.57 73218BN75XXX 5.74 4.73 3.71 “X” denotes multiple digit combinations for brevity IN OUT 2-Way Normally Closed Port Identification: P-IN/–OUT Valve Reference A45 1.62 1/4″ NPT 1/8″ PTF 2.75 2.82 1.51 2.76 1.95 4.81 5.63 2-Way Universal 1.97 Valve may be normally closed or normally open, depending on piping of external pilot. Port identification: In-In/Out-Out 2-Way Normally Open 2-Way Normally Closed A50 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A46 1.62 L C 1.34 1.95 2.76 P H Valve Dimensions H P C L 7321KBN2RXXX 7321KBN3SXXX 3.56 2.97 1.96 1.97 7321KBN4SXXX 3.56 2.97 1.96 2.17 IN OUT 2-Way Normally Closed Port Identification: Flow arrow on body indicates flow direction. Ports are not marked. Valve Reference A47 Valve Dimensions H P C L W 7221GBN3VXXX 7221GBN4VXXX 3.66 3.07 2.06 2.95 2.09 7221GBN51XXX 3.75 3.07 2.06 3.15 2.09 7221GBN61XXX 4.03 3.15 2.12 3.35 2.09 7221GBN64XXX 4.25 3.35 2.34 3.94 2.75 IN OUT 2-Way Normally Closed Port Identification: Flow arrow on body indicates flow direction Ports are not marked A51 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A48 L E C W 1.95 P H 2.76 Valve Dimensions H P C L E W 7321GBN53XXX 7322GBN53XXX 7321GBN64XXX 7322GBN64XXX 4.75 3.86 2.84 3.94 1.97 2.75 7321GBN76XXX 7322GBN76XXX 5.41 4.11 3.09 4.33 2.17 2.75 7321GBN88XXX 7322GBN88XXX 5.66 4.37 3.35 5.51 2.95 3.90 7321GBN99XXX 7322GBN99XXX 6.25 4.60 3.58 5.91 3.15 3.90 IN OUT 2-Way Normally Closed 7321GBNxx 2-Way Normally Open 7322GBNxx Port Identification: Flow arrow on body indicates flow direction. Ports are not marked. Valve Reference A49 1.62 2.75 3.O2 2.76 1.95 4.O8 4.9O 2-Way Normally Open 1.97 Port Identification: IN-IN/ OUT-OUT A52 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A50 1.62 L C 2.76 1.95 P H W Valve Dimensions H P C L W 73222BN52N00 6.04 4.85 3.79 3.62 3.09 73222BN63N00 6.46 5.13 4.07 4.31 3.45 2-Way Normally Open Port Identification: IN-IN/ OUT-OUT (7322BN52xx) P-IN/A-OUT (7322BN63xx) Valve Reference A51 Explosion-proof watertight shown in outline 2-Way Normally Open Port Identification: IN-IN/ OUT-OUT A53 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A52 2-Way Normally Open Port Identification: IN-IN/ OUT-OUT Valve Reference A54 IN OUT 2-Way Normally Closed 04F25C2xx/06F25C2xx Port Identification: IN-IN/ OUT-OUT Valve Dimensions A B C D E F G 04F25C2122CAF 1 5/16 23/32 1 9/16 2 7/16 1 9/16 1 3/4 3/8 06F25C2122CAF 1 5/16 23/32 1 5/8 2 1/2 1 9/16 1 3/4 7/16 04F25O2122CCF 04F25O2122C3F 1 17/32 7/8 1 25/32 2 7/8 1 13/16 1 3/4 3/8 04F25C2122C3F 1 17/32 7/8 1 15/16 2 7/8 1 13/16 1 3/4 3/8 06F25C2122C3F 1 17/32 7/8 2 2 15/16 1 13/16 1 3/4 7/16 2-Way Normally Open 04F2502xx/06F2502xx Port Identification: IN-IN/ OUT-OUT B A G F E D C 1/4” (04F25xxx) 3/8” (06F25xxx) A54 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A55 Valve Dimensions Port Identification H P C L W IN OUT 75232BN3SN00 3.17 2.35 1.51 2.75 1.97 IN OUT 75232BN4TN00 3.17 2.35 1.51 2.75 1.97 IN OUT 75232BN52N00 4.31 3.12 2.28 4.62 3.09 IN OUT • Valve can be normally closed or normally open depending on piping of external pilot. • Pilot port is marked “C.” 2-Way Normally Open Remote Pilot Port Identification: 3/8, 1/2, 3/4 IN-IN/ OUT-OUT Port Identification – 1″ P – IN/A – OUT A55 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Pilot Operated Materials of Construction** Product* Wattage Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 04F25C2 6 2WNC 1/4 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 04F25C2 11.5 2WNC 1/4 Brass 305SS 430FR Brass 430FR 302SS Copper 77°F 04F25O2 11 2WNO 1/4 Brass 305SS 430FR 416/430FR 430FR 302SS Copper 130°F 04F25O2 11.5 2WNO 1/4 Brass 305SS 430FR 416/430FR 430FR 302SS Copper 77°F 06F22C2 6 2WNC 3/8 Brass 305SS 430FR Brass 430FR 302SS Copper 77°F 06F22C2 11.5, 16 2WNC 3/8 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 06F22C6 6 2WNC 3/8 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 77°F 06F22C6 11.5, 16 2WNC 3/8 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 130°F 06F23C2 11 2WNC 3/8 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 06F23C2 11.5 2WNC 3/8 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 06F23C6 11 2WNC 3/8 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 130°F 06F23C6 11.5 2WNC 3/8 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 77°F 06F23O2 11 2WNO 3/8 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 06F23O2 11.5 2WNO 3/8 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 06F23O6 11 2WNO 3/8 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 130°F 06F23O6 11.5 2WNO 3/8 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 77°F 06F25C2 6,11 2WNC 3/8 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 06F25C2 11.5 2WNC 3/8 Brass 305SS 430FR Brass 430FR 302SS Copper 77°F 06F25O2 11 2WNO 3/8 Brass 305SS 430FR 416/430FR 430FR 302SS Copper 130°F 06FH5C2 11 2WNC 3/8 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 08F22C2 6 2WNC 1/2 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 08F22C2 11 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 08F22C2 11.5, 16 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 08F22C6 11.5, 16 2WNC 1/2 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 77°F * Shows the first 7 digits of the pressure vessel part number. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. A56 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Pilot Operated Materials of Construction (Continued)** Product* Wattage Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 08F23C2 11 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 08F23C2 11.5 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 08F23C6 11 2WNC 1/2 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 130°F 08F23C6 11.5 2WNC 1/2 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 77°F 08F23O2 11 2WNO 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 08F23O2 11.5 2WNO 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 08F23O6 11 2WNO 1/2 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 130°F 08F23O6 11.5 2WNO 1/2 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 77°F 08F25C2 11 2WNC 1/2 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 08F25C2 11.5 2WNC 1/2 Brass 305SS 430FR Brass 430FR 302SS Copper 77°F 08F25O2 11 2WNO 1/2 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 08F25O2 11.5 2WNO 1/2 Brass 305SS 430FR Brass 430FR 302SS Copper 77°F 08FH5C2 11 2WNC 1/2 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 12F22C2 6 2WNC 3/4 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 12F22C2 11.5 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 12F22C6 11.5, 16 2WNC 3/4 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 77°F 12F23C2 11 2WNC 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 12F23C2 11.5 2WNC 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 12F23C6 11 2WNC 3/4 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 130°F 12F23C6 11.5 2WNC 3/4 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 77°F 12F23O2 11 2WNO 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F * Shows the first 7 digits of the pressure vessel part number. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. A57 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Pilot Operated Materials of Construction (Continued)** Product* Wattage Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 12F23O2 11.5 2WNO 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 12F23O6 11 2WNO 3/4 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 130°F 12F23O6 11.5 2WNO 3/4 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 77°F 12F24C2 6 2WNC 3/4 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 12F24C2 11.5 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 12F24O2 11 2WNO 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 12F25C2 11 2WNC 3/4 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 12F25O2 11 2WNO 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 12FH5C2 11 2WNC 3/4 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 16F24C2 6 2WNC 3/4 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 16F24C2 11.5 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 16F24C6 6 2WNC 3/4 316SS 305SS 430FR 303 430FR 302SS Silver 130°F 16F24C6 11.5 2WNC 1/2 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 77°F 16F24O2 11.5 2WNO 1 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 16F24O2 11 2WNO 1 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 16F24O6 11.5 2WNO 1 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 77°F 16F24O6 11 2WNO 1 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 130°F 16F25C2 11.5 2WNC 1 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 16F25C2 11 2WNC 1 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 16F25O2 11 2WNO 1 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 16FH5C2 16 2WNC 1 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F * Shows the first 7 digits of the pressure vessel part number. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. A58 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Pilot Operated Materials of Construction (Continued)** Product* Wattage Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 20F24C2 6 2WNC 3/4 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 20F24C2 11.5 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 20F24O2 11 2WNO 1¼ Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 24F24C2 6 2WNC 3/4 Brass 305SS 430FR Brass 430FR 302SS Copper 130°F 24F24C2 11.5 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 24F24C6 6 2WNC 3/4 316SS 305SS 430FR 303 430FR 302SS Silver 130°F 24F24C6 11.5 2WNC 1/2 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 77°F 24F24O2 11.5 2WNO 1½ Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 24F24O2 11 2WNO 1½ Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 24F24O6 11.5 2WNO 1½ 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 77°F 24F24O6 11 2WNO 1½ 316SS 305SS 430FR 12L14 Plated 430FR 302SS Silver 130°F 72218BN 10 2WNC 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 72218BN 22 2WNC 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 72218RN 10 2WNC 3/8 – 3/4 316SS 304SS 430FR 430F 430FR 18-8SS Copper 150°F 72218RN 22 2WNC 3/8 – 3/4 316SS 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7221GBN 10 2WNC 3/8 – 1 Brass 304SS 430FR 430F 430FR/ 4106 301SS Copper 150°F 7221GBN 22 2WNC 3/8 – 1 Brass 304SS 430FR 430F 430FR/ 4106 301SS Copper 77°F 72228BN 10 2WNO 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 72228BN 22 2WNO 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 72228RN 10 2WNO 3/8 – 3/4 316SS 304SS 430FR 430F 430FR 18-8SS Copper 150°F 72228RN 22 2WNO 3/8 – 3/4 316SS 304SS 430FR 430F 430FR 18-8SS Copper 77°F 73212BN 10 2WNC 1/4 – 1 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 73212BN 22 2WNC 1/4 – 1 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F * Shows the first 7 digits of the pressure vessel part number. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. A59 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Pilot Operated Materials of Construction (Continued)** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 73212SN 10 2WNC 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F 73212SN 22 2WNC 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 77°F 73218BN 10 2WNC 3/8 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 73218BN 22 2WNC 3/8 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7321GBN 10 2WNC 3/4 – 2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 7321GBN 22 2WNC 3/4 – 2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7321KBN 10 2WNC 1/4 – 1/2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 7321KBN 22 2WNC 1/4 – 1/2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 73222BN 10 2WNO 1/4 – 1 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 73222BN 22 2WNO 1/4 – 1 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 73222SN 10 2WNO 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F 73222SN 22 2WNO 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 77°F 73228BN 10 2WNO 3/8 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 73228BN 22 2WNO 3/8 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7322GBN 10 2WNO 3/4 – 2 Brass 304SS 430FR 430F 430FR 301SS Copper 150°F 7322GBN 22 2WNO 3/4 – 2 Brass 304SS 430FR 430F 430FR 301SS Copper 77°F 74232BN 10 2WDP 3/8 – 1 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 74232BN 22 2WDP 3/8 – 1 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 75232*** – UNIV 3/8-2 Brass N/A N/A N/A N/A N/A N/A – * Shows the first 7 digits of the pressure vessel part number. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. *** Pilot Orifice is 303SS. These are remotely piloted valves. No coil required. A60 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Notes A61 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way General Description: 2-Way Direct Acting and Pilot Operated High Pressure valves are generally installed where high pressure and large flow requirements dictate the use of piston valves and/or valves with more robust seals such as PTFE and Ruby discs*. Pilot Operated valves require the minimum pressure differential specified for proper valve operation. Installation Pilot Operated Valves should be mounted with solenoid coils vertical and upright. Direct Acting valves can be mounted in any position. The preferred orientation is with the coil vertical and upright. Standard Materials of Construction Please refer to page A73. Compatible Fluids Lubricated Air, Inert Gases, Water, Light Oil (300 SSU) and other non-compressible media. Use of non-lubricated gaseous media can affect valve life. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60–110/50 240/60–220/50 DC – 12, 24 & 120 For other voltages – consult factory Coil Classification: Class F standard Class H available Agency Approvals: Standard valves with NEMA 4X or explosion proof solenoid enclosures are UL Listed and CSA Certified. For additional details, consult factory. Maximum Ambient Temperature 150°F Please refer to page A73 for details. Applications: • Blow molding • Compressors • Car washing equipment • Pumps *Table 1: Allowable Max. Seat Leakage Chart Valve Leakage on gases 06F28, 08F28, 12F28 472 cc/min 73216 50 cc/min 7321H, 7322H 25 cc/min 2-Way Direct Acting & Pilot Operated High Pressure 1/8″ – 3/4″ NPT A62 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting – High Pressure – Normally Closed – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal* Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/16 0.11 0 1000 1000 1000 10 165 PCTFE 7121KBN1GF00 7 A65 1/8 3/32 0.24 0 725 725 725 22 210 RUBY 7121KBN1LR00 8 A65 1/8 3/32 0.24 0 500 500 500 10 210 RUBY 7121KBN1LR00 7 A65 1/8 1/8 0.31 0 365 365 365 10 165 PCTFE 7121KBN1NF00 7 A65 1/4 1/16 0.11 0 1450 1450 1450 22 210 RUBY 7121KBN2GR00 8 A65 1/4 1/16 0.11 0 1100 1100 1100 10 210 RUBY 7121KBN2GR00 7 A65 1/4 1/16 0.11 0 1000 1000 1000 10 165 PCTFE 7121KBN2GF00 7 A65 1/4 5/64 0.17 0 1030 1030 1030 22 210 RUBY 7121KBN2JR00 8 A65 1/4 5/64 0.17 0 700 700 700 10 210 RUBY 7121KBN2JR00 7 A65 1/4 3/32 0.24 0 725 725 725 22 210 RUBY 7121KBN2LR00 8 A65 1/4 3/32 0.24 0 500 500 500 10 210 RUBY 7121KBN2LR00 7 A65 1/4 1/8 0.31 0 525 525 525 22 210 RUBY 7121KBN2NR00 8 A65 1/4 1/8 0.31 0 365 365 365 10 165 PCTFE 7121KBN2NF00 7 A65 1/4 1/8 0.31 0 365 365 365 10 210 RUBY 7121KBN2NR00 7 A65 DC TECHNICAL SPECIFICATIONS 1/8 1/16 0.11 0 700 700 700 22 165 PCTFE 7121KBN1GF00 8 A65 1/8 1/16 0.11 0 435 435 435 10 165 PCTFE 7121KBN1GF00 7 A65 1/8 3/32 0.24 0 320 320 320 22 210 RUBY 7121KBN1LR00 8 A65 1/8 3/32 0.24 0 175 175 175 10 210 RUBY 7121KBN1LR00 7 A65 1/8 1/8 0.31 0 205 205 205 22 165 PCTFE 7121KBN1NF00 8 A65 1/8 1/8 0.31 0 125 125 125 10 165 PCTFE 7121KBN1NF00 7 A65 1/4 1/16 0.11 0 800 800 800 22 210 RUBY 7121KBN2GR00 8 A65 1/4 1/16 0.11 0 700 700 700 22 165 PCTFE 7121KBN2GF00 8 A65 1/4 1/16 0.11 0 435 435 435 10 210 RUBY 7121KBN2GR00 7 A65 1/4 1/16 0.11 0 435 435 435 10 165 PCTFE 7121KBN2GF00 7 A65 1/4 5/64 0.17 0 460 460 460 22 210 RUBY 7121KBN2JR00 8 A65 1/4 5/64 0.17 0 260 260 260 10 210 RUBY 7121KBN2JR00 7 A65 1/4 3/32 0.24 0 320 320 320 22 210 RUBY 7121KBN2LR00 8 A65 1/4 3/32 0.24 0 175 175 175 10 210 RUBY 7121KBN2LR00 7 A65 1/4 1/8 0.31 0 220 220 220 22 210 RUBY 7121KBN2NR00 8 A65 1/4 1/8 0.31 0 205 205 205 22 165 PCTFE 7121KBN2NF00 8 A65 1/4 1/8 0.31 0 125 125 125 10 210 RUBY 7121KBN2NR00 7 A65 1/4 1/8 0.31 0 125 125 125 10 165 PCTFE 7121KBN2NF00 7 A65 *RUBY Seals: Allowable Seat leakage is 90 cc/min on air and inert gas at rated pressure: 7121KBNxxRxx A63 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting – High Pressure – Normally Closed – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal* Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/32 0.021 0 3000 3000 3000 10 185 NYLON 71216SN1BL00 7 A60 1/8 3/64 0.037 0 1500 1500 1500 10 185 RULON 71216SN1FU00 7 A60 1/8 3/64 0.060 0 1000 1000 1000 10 165 PCTFE 71215SN1EF00 7 A60 1/8 1/16 0.070 0 1250 1250 1250 10 185 NYLON 71216SN1GL00 7 A60 1/8 1/16 0.100 0 700 700 700 10 165 PCTFE 71215SN1GF00 7 A60 1/8 5/64 0.090 0 500 500 500 10 185 PTFE 71216SN1JT00 7 A60 1/8 3/32 0.180 0 650 650 650 22 165 PCTFE 71215SN1KF00 8 A60 1/8 3/32 0.180 0 260 260 260 10 165 PCTFE 71215SN1KF00 7 A60 1/8 1/8 0.280 0 520 520 520 22 165 PCTFE 71215SN1MF00 8 A60 1/8 1/8 0.280 0 200 200 200 10 165 PCTFE 71215SN1MF00 7 A60 1/4 1/32 0.021 0 3000 3000 3000 10 185 NYLON 71216SN2BL00 7 A60 1/4 3/64 0.037 0 1500 1500 1500 10 185 RULON 71216SN2FU00 7 A60 1/4 3/64 0.060 0 1000 1000 1000 10 165 PCTFE 71215SN2EF00 7 A60 1/4 1/16 0.070 0 1250 1250 1250 10 185 NYLON 71216SN2GL00 7 A60 1/4 5/64 0.090 0 500 500 500 10 185 PTFE 71216SN2JT00 7 A60 1/4 1/16 0.100 0 700 700 700 10 165 PCTFE 71215SN2GF00 7 A60 1/4 3/32 0.180 0 650 650 650 22 165 PCTFE 71215SN2KF00 8 A60 1/4 3/32 0.180 0 260 260 260 10 165 PCTFE 71215SN2KF00 7 A60 1/4 1/8 0.280 0 520 520 520 22 165 PCTFE 71215SN2MF00 8 A60 1/4 1/8 0.280 0 200 200 200 10 165 PCTFE 71215SN2MF00 7 A60 DC TECHNICAL SPECIFICATIONS 1/8 1/32 0.020 0 3000 3000 3000 22 185 NYLON 71216SN1BL00 8 A60 1/8 1/32 0.020 0 2500 2500 2500 10 185 NYLON 71216SN1BL00 7 A60 1/8 3/64 0.040 0 1000 1000 1000 10 185 RULON 71216SN1FU00 7 A60 1/8 3/64 0.060 0 1000 1000 1000 22 165 PCTFE 71215SN1EF00 8 A60 1/8 3/64 0.060 0 520 520 520 10 165 PCTFE 71215SN1EF00 7 A60 * NYLON Seals: Allowable Seat leakage is 50 cc/min on air and inert gas at rated pressure: 71216SNxxLxx RULON Seals: Allowable Seat leakage is 20 cc/min on air and inert gas at rated pressure: 71216SNxxUxx PTFE Seals: Allowable Seat leakage is 20 cc/min on air and inert gas at rated pressure: 71216SNxxTxx A64 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting – High Pressure – Normally Closed – Stainless Steel (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal* Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve DC TECHNICAL SPECIFICATIONS 1/8 3/64 0.04 0 1500 1500 1500 22 185 RULON 71216SN1FU00 8 A60 1/8 1/16 0.07 0 1000 1000 1000 22 185 NYLON 71216SN1GL00 8 A60 1/8 1/16 0.07 0 500 500 500 10 185 NYLON 71216SN1GL00 7 A60 1/8 5/64 0.09 0 400 400 400 22 185 PTFE 71216SN1JT00 8 A60 1/8 5/64 0.09 0 200 200 200 10 185 PTFE 71216SN1JT00 7 A60 1/8 1/16 0.10 0 700 700 700 22 165 PCTFE 71215SN1GF00 8 A60 1/8 1/16 0.10 0 350 350 350 10 165 PCTFE 71215SN1GF00 7 A60 1/8 3/32 0.18 0 300 300 300 22 165 PCTFE 71215SN1KF00 8 A60 1/8 3/32 0.18 0 130 130 130 10 165 PCTFE 71215SN1KF00 7 A60 1/8 1/8 0.28 0 200 200 200 22 165 PCTFE 71215SN1MF00 8 A60 1/8 1/8 0.28 0 100 100 100 10 165 PCTFE 71215SN1MF00 7 A60 1/4 1/32 0.02 0 3000 3000 3000 22 185 NYLON 71216SN2BL00 8 A60 1/4 1/32 0.02 0 2500 2500 2500 10 185 NYLON 71216SN2BL00 7 A60 1/4 3/64 0.06 0 1000 1000 1000 22 165 PCTFE 71215SN2EF00 8 A60 1/4 3/64 0.06 0 520 520 520 10 165 PCTFE 71215SN2EF00 7 A60 1/4 3/64 0.04 0 1500 1500 1500 22 185 RULON 71216SN2FU00 8 A60 1/4 3/64 0.04 0 1000 1000 1000 10 185 RULON 71216SN2FU00 7 A60 1/4 1/16 0.07 0 1000 1000 1000 22 185 NYLON 71216SN2GL00 8 A60 1/4 1/16 0.07 0 500 500 500 10 185 NYLON 71216SN2GL00 7 A60 1/4 5/64 0.09 0 400 400 400 22 185 PTFE 71216SN2JT00 8 A60 1/4 5/64 0.09 0 200 200 200 10 185 PTFE 71216SN2JT00 7 A60 1/4 1/16 0.10 0 700 700 700 22 165 PCTFE 71215SN2GF00 8 A60 1/4 1/16 0.10 0 350 350 350 10 165 PCTFE 71215SN2GF00 7 A60 1/4 3/32 0.18 0 300 300 300 22 165 PCTFE 71215SN2KF00 8 A60 1/4 3/32 0.18 0 130 130 130 10 165 PCTFE 71215SN2KF00 7 A60 1/4 1/8 0.28 0 200 200 200 22 165 PCTFE 71215SN2MF00 8 A60 1/4 1/8 0.28 0 100 100 100 10 165 PCTFE 71215SN2MF00 7 A60 * NYLON Seals: Allowable Seat leakage is 50 cc/min on air and inert gas at rated pressure: 71216SNxxLxx RULON Seals: Allowable Seat leakage is 20 cc/min on air and inert gas at rated pressure: 71216SNxxUxx PTFE Seals: Allowable Seat leakage is 20 cc/min on air and inert gas at rated pressure: 71216SNxxTxx A65 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting – High Pressure – Normally Open – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/16 0.11 0 435 435 435 10 165 PCTFE 7122KBN1GF00 7 A65 1/8 3/32 0.21 0 175 175 175 10 165 PCTFE 7122KBN1LF00 7 A65 1/4 1/16 0.11 0 435 435 435 10 165 PCTFE 7122KBN2GF00 7 A65 1/4 3/32 0.21 0 175 175 175 10 165 PCTFE 7122KBN2LF00 7 A65 DC TECHNICAL SPECIFICATIONS 1/8 1/16 0.11 0 435 435 435 10 165 PCTFE 7122KBN1GF00 7 A65 1/8 3/32 0.21 0 175 175 175 10 165 PCTFE 7122KBN1LF00 7 A65 1/4 1/16 0.11 0 435 435 435 10 165 PCTFE 7122KBN2GF00 7 A65 1/4 3/32 0.21 0 175 175 175 10 165 PCTFE 7122KBN2LF00 7 A65 2-Way Direct Acting – High Pressure – Normally Open – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/64 0.05 0 750 750 750 10 165 PCTFE 71225SN1EF00 7 A64 1/8 1/16 0.11 0 400 400 400 10 165 PCTFE 71225SN1GF00 7 A64 1/8 3/32 0.15 0 170 170 170 10 165 PCTFE 71225SN1KF00 7 A64 1/4 3/64 0.05 0 750 750 750 10 165 PCTFE 71225SN2EF00 7 A64 1/4 1/16 0.11 0 400 400 400 10 165 PCTFE 71225SN2GF00 7 A64 1/4 3/32 0.15 0 170 170 170 10 165 PCTFE 71225SN2KF00 7 A64 DC TECHNICAL SPECIFICATIONS 1/8 3/64 0.05 0 750 750 750 10 165 PCTFE 71225SN1EF00 7 A64 1/8 1/16 0.11 0 400 400 400 10 165 PCTFE 71225SN1GF00 7 A64 1/8 3/32 0.15 0 170 170 170 10 165 PCTFE 71225SN1KF00 7 A64 1/4 3/64 0.05 0 750 750 750 10 165 PCTFE 71225SN2EF00 7 A64 1/4 1/16 0.11 0 400 400 400 10 165 PCTFE 71225SN2GF00 7 A64 1/4 3/32 0.15 0 170 170 170 10 165 PCTFE 71225SN2KF00 7 A64 A66 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Internal Pilot Operated – High Pressure – Normally Closed – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal* Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 1/4 0.76 5 1500 1500 1500 10 210 PTFE 73216BN2MT00 7 A61 1/4 5/16 1.50 15 1500 1500 1500 11 200 DEL 04F28C1D20ACF 4 A56 1/4 5/16 2.50 5 600 600 600 10 185 NBR 7321HBN2SN00 7 A63 3/8 5/16 1.50 15 1500 1500 1500 11 200 DEL 06F28C1D20ACF 4 A57 3/8 7/16 3.50 5 600 600 600 10 185 NBR 7321HBN3TN00 7 A63 1/2 3/8 3.20 25 1500 1500 1500 11 200 DEL 08F28C1D24ACF 4 A58 1/2 9/16 4.10 5 600 600 600 10 185 NBR 7321HBN4UN00 7 A63 3/4 3/4 7.80 25 1000 1000 1000 11 200 DEL 12F28C1D48BCF 4 A59 DC TECHNICAL SPECIFICATIONS 1/4 5/16 2.50 5 600 600 600 22 185 NBR 7321HBN2SN00 8 A63 1/4 5/16 2.50 5 435 435 435 10 185 NBR 7321HBN2SN00 7 A63 1/4 1/4 0.76 5 1500 1500 1500 22 210 PTFE 73216BN2MT00 8 A61 1/4 1/4 0.76 5 800 800 800 10 210 PTFE 73216BN2MT00 7 A61 3/8 7/16 3.50 5 600 600 600 22 185 NBR 7321HBN3TN00 8 A63 3/8 7/16 3.50 5 435 435 435 10 185 NBR 7321HBN3TN00 7 A63 1/2 3/8 3.20 25 500 500 500 11.5 150 DEL 08F28C1D24A3F 6 A58 1/2 9/16 4.10 5 600 600 600 22 185 NBR 7321HBN4UN00 8 A63 1/2 9/16 4.10 5 435 435 435 10 185 NBR 7321HBN4UN00 7 A63 3/4 3/4 7.80 25 450 450 450 11.5 150 DEL 12F28C1D48A3F 6 A59 * PTFE Seals: Allowable Seat leakage is 50 cc/min on air and inert gas at rated pressure: 73216BNxxTxx DELRIN Seals: Allowable Seat leakage is 472 cc/min on air and inert gas at rated pressure: xxF28C1Dxxxx A67 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Internal Pilot Operated – High Pressure – Normally Closed – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal* Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 1/4 0.76 5 1500 1500 1500 10 210 PTFE 73216SN2MT00 7 A62 DC TECHNICAL SPECIFICATIONS 1/4 1/4 0.76 5 1500 1500 1500 22 210 PTFE 73216SN2MT00 8 A62 1/4 1/4 0.76 5 800 800 800 10 210 PTFE 73216SN2MT00 7 A62 * PTFE Seals: Allowable Seat leakage is 50 cc/min on air and inert gas at rated pressure: 73216BNxxTxx DELRIN Seals: Allowable Seat leakage is 472 cc/min on air and inert gas at rated pressure: xxF28C1Dxxxx 2-Way Internal Pilot Operated – High Pressure – Normally Opened – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal* Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 5/16 2.50 5 600 600 600 10 185 FKM 7322HBN2SV00 7 A63 3/8 7/16 3.50 5 600 600 600 10 185 NBR 7322HBN3TN00 7 A63 1/2 3/8 3.20 25 1000 1000 1000 11 200 DEL 08F28O1D24ACF 4 A58 1/2 9/16 4.10 5 600 600 600 10 185 NBR 7322HBN4UN00 7 A63 3/4 3/4 7.80 25 500 500 500 11 200 DEL 12F28O1D48BCF 4 A59 DC TECHNICAL SPECIFICATIONS 1/4 5/16 2.50 5 600 600 600 10 185 FKM 7322HBN2SV00 7 A63 3/8 7/16 3.50 5 600 600 600 10 185 NBR 7322HBN3TN00 7 A63 1/2 9/16 4.10 5 600 600 600 10 185 NBR 7322HBN4UN00 7 A63 * PTFE Seals: Allowable Seat leakage is 50 cc/min on air and inert gas at rated pressure: 73216BNxxTxx DELRIN Seals: Allowable Seat leakage is 472 cc/min on air and inert gas at rated pressure: xxF28O1Dxxxx A68 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A57 2-Way Normally Closed 06F28Cxxx Port Identification: IN-IN/ OUT-OUT Valve Reference A56 2-Way Normally Closed 04F28Cxxx Port Identification: IN-IN/ OUT-OUT 7/8 -17/32 -13/32 8 17/32 13/32 A69 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A58 3-3/16 2-11/64* 1-3/64 25/32 (*08F280: 2-1/32) 2-Way Normally Closed 08F28Cxx 2-Way Normally Open 08F28Oxx Port Identification: IN-IN/ OUT-OUT Valve Reference A59 1-17/32 2-11/32 3-35/64 3-47/64 1-13/32 3-37/64 7/8 2 29/32 1-13/16 7/8 DIA for 1/2” conduit connection 2-9/16* (*08F280: 2-13/32) 3/4” NPT 3/4” NPT Pipe Size 3/4” NPT 2-Way Normally Closed 12F28Cxx 2-Way Normally Open 12F28Oxx Port Identification: IN-IN/ OUT-OUT 1-1/4 1-13/16 7/8 DIA for 1/2” conduit connection 2-1/32 1-3/64 2 1-13/16 7/8 DIA for 1/2” conduit connection A70 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A61 2.75 3.25 1.73 IN OUT 2-Way Normally Closed Port Identification: P-IN/ A-OUT Valve Reference A60 1.62 1.62 DIA .34 1.48 1.95 2.76 2.84 2-Way Normally Closed Port Identification: 1-OUT/ 2-IN A71 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A62 2.90 1.88 4.20 IN OUT 2-Way Normally Closed Port Identification: 2-IN/ 1-OUT Valve Reference A63 1.62 1.38 2.95 2.48 2.76 1.95 3.5O 4.O9 2.09 IN OUT 2-Way Normally Closed 7321HBxx 2-Way Normally Open 7322HBxx Port Identification: Flow arrow on body indicates flow direction. Ports are not marked. A72 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A65 1.62 (41.1) L C 2.76 (7O.1) P H 1.95 (49.5) Valve Dimensions H P C L 7121KBN1XXXX 7121KBN2XXXX 7122KBN1XXXX 7122KBN2XXXX 2.63 3.07 1.61 1.57 7121KBN3XXXX 2.57 3.08 1.55 1.97 2-Way Normally Closed 7121KBNxx 2-Way Normally Open 7122KBNxx Port Identification: 1-IN/2-OUT Valve Reference A64 1.62 1/2″ NPT 2.76 1.95 2.O2 3.O8 .34 1.62 DIA 2-Way Normally Open Port Identification: 2-IN/ 1-OUT A73 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Direct Acting Materials of Construction** Product* Wattage Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 71215SN 10 2WNC 1/8 – 3/8 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F 71215SN 22 2WNC 1/8 – 3/8 430F 304SS 430FR 430F 430FR 18-8SS Copper 77°F 71216SN 10 2WNC 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F 71216SN 22 2WNC 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7121KBN 10 2WNC 1/8 – 3/8 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 7121KBN 22 2WNC 1/8 – 3/8 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 71225SN 10 2WNO 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F 71225SN 22 2WNO 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7122KBN 10 2WNO 1/8 – 1/4 Brass 304SS 430FR 430F 430FR 301SS Copper 150°F 7122KBN 22 2WNO 1/8 – 1/4 Brass 304SS 430FR 430F 430FR 301SS Copper 77°F 73216BN 10 2WNC 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 73216BN 22 2WNC 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 73216SN 10 2WNC 1/4 316SS 304SS 430FR 430F 430FR 18-8SS Copper 150°F 73216SN 22 2WNC 1/4 316SS 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7321HBN 10 2WNC 1/4 – 1/2 Brass 304SS 430FR 430F 430FR 301SS Copper 150°F 7321HBN 22 2WNC 1/4 – 1/2 Brass 304SS 430FR 430F 430FR 301SS Copper 77°F 7322HBN 10 2WNO 1/4 – 1/2 Brass 304SS 430FR/ 4106 430F/ 4144 430FR 301SS Copper 150°F 7322HBN 22 2WNO 1/4 – 1/2 Brass 304SS 430FR/ 4106 430F/ 4144 430FR 301SS Copper 77°F 04F28C1 11 2WNC 1/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 06F28C1 11 2WNC 3/8 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 08F28C1 11 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 08F28C1 11.5 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 08F28O1 11 2WNO 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 12F28C1 11.5 2WNC 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 12F28C1 11 2WNC 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F 12F28O1 11 2WNO 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 130°F * Shows the first 7 digits of the pressure vessel part number. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. A74 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Notes A75 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way General Description: 2-way Anti-Water Hammer and Slow Closing valves are designed for liquid applications where the installation is susceptible to shock waves caused by the abrupt closing of the valves. Anti-water hammer valves have integral speed control so that the valve closes in a more controlled and slower manner, thus eliminating the shock to the system piping. Pilot operated valves require the minimum pressure differential specified for proper valve operation. Installation Valves should be mounted with solenoid coils vertical and upright. Standard Materials of Construction Please refer to page A80 Compatible Fluids Water, hydraulic fluids and other non-compressible media. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60–110/50 240/60–220/50 DC – 12, 24 & 120 For other voltages – consult factory Coil Classification: Class F standard Class H available Agency Approvals: Standard valves with NEMA 4X or explosion proof solenoid enclosures are UL Listed and CSA Certified. For additional details, consult factory Maximum Ambient Temperature 150°F Please refer to page A80 for details. Applications: • Used in applications on water or other non-compressible liquids where normal operation may cause a ‘water hammer’ effect which results in shockwaves to the system that can damage the piping or other components. 2-Way Anti-Water Hammer & Slow Closing Valves 3/8″ – 2″ NPT A76 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Pilot Operated – Anti-Water Hammer – Normally Closed – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number** Reference Min. Water and other non-compressible media Coil Valve AC TECHNICAL SPECIFICATIONS 3/8 7/16 2.5 3 150 10 185 NBR 7321KBN3SNW0 7 A66 1/2 7/16 2.5 3 150 10 185 NBR 7321KBN4SNW0 7 A66 3/4 19/32 5.5 0 230 10 185 NBR 7221GBN51NC0* 7 A67 3/4 25/32 9.6 5 230 10 185 NBR 7321GBN53NMC 7 A68 1 1 12.5 5 230 10 185 NBR 7321GBN64NMC 7 A68 1 1 11.7 0 230 10 185 NBR 7221GBN64NC0* 7 A67 1 1/4 1 1/8 19.3 5 230 10 185 NBR 7321GBN76NMC 7 A68 1 1/2 1 9/16 29.0 5 230 10 185 NBR 7321GBN88NMC 7 A68 2 1 9/16 38.6 5 230 10 185 NBR 7321GBN99NMC 7 A68 DC TECHNICAL SPECIFICATIONS 3/8 7/16 2.5 3 150 22 185 NBR 7321KBN3SNW0 8 A66 3/8 7/16 2.5 3 60 10 185 NBR 7321KBN3SNW0 7 A66 1/2 7/16 2.5 3 150 22 185 NBR 7321KBN4SNW0 8 A66 1/2 7/16 2.5 3 60 10 185 NBR 7321KBN4SNW0 7 A66 3/4 3/4 9.6 5 230 10 185 NBR 7321GBN53NMC 7 A68 3/4 19/32 5.5 0 100 22 185 NBR 7221GBN51NC0* 8 A67 1 1 12.5 5 230 10 185 NBR 7321GBN64NMC 7 A68 1 1 11.7 0 85 22 185 NBR 7221GBN64NC0* 8 A67 1 1/4 1 1/8 19.3 5 230 10 185 NBR 7321GBN76NMC 7 A68 1 1/2 1 9/16 29.0 5 230 22 185 NBR 7321GBN88NMC 8 A68 1 1/2 1 9/16 29.0 5 200 10 185 NBR 7321GBN88NMC 7 A68 2 1 9/16 38.6 5 230 22 185 NBR 7321GBN99NMC 8 A68 2 1 9/16 38.6 5 200 10 185 NBR 7321GBN99NMC 7 A68 * These are direct lift valves that will open at zero pressure differential, but not fully open until approximately 5 psi differential is achieved. ** Mechanical Options indicated in pressure vessel catalog number (eleventh and twelfth digits) are as follows: C0=four-step adjustable closing, MC=manual override with four-step adjustable closing, W0=non-adjustable control A77 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way 2-Way Pilot Operated – Anti-Water Hammer – Normally Open – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number** Reference Min. Water and other non-compressible media Coil Valve AC TECHNICAL SPECIFICATIONS 3/4 25/32 9.6 5 230 10 185 NBR 7322GBN53NC0 7 A68 1 1 12.5 5 230 10 185 NBR 7322GBN64NC0 7 A68 1 1/4 1 1/8 19.3 5 230 10 185 NBR 7322GBN76NC0 7 A68 1 1/2 1 9/16 29.0 5 170 10 185 NBR 7322GBN88NC0 7 A68 2 1 9/16 38.6 5 170 10 185 NBR 7322GBN99NC0 7 A68 DC TECHNICAL SPECIFICATIONS 3/4 25/32 9.6 5 230 10 185 NBR 7322GBN53NC0 7 A68 1 1 12.5 5 230 10 185 NBR 7322GBN64NC0 7 A68 1 1/4 1 1/8 19.3 5 230 10 185 NBR 7322GBN76NC0 7 A68 1 1/2 1 9/16 29.0 5 170 10 185 NBR 7322GBN88NC0 7 A68 2 1 9/16 38.6 5 170 10 185 NBR 7322GBN99NC0 7 A68 **Mechanical Options indicated in pressure vessel catalog number (eleventh and twelfth digits) are as follows: C0=four-step adjustable closing, MC=manual override with four-step adjustable closing, W0=non-adjustable control Response Time Valve Type Opening Time Range (Seconds) Closing Time Range (Seconds) 7221GBN51NC0 0.03 0.2-1.7 7221GBN64NC0 0.07-0.17 0.5-4.0 7321KBN3SNW0 0.015 0.85 7321KBN4SNW0 0.015 0.85 7321GBN53NMC 0.1 – 0.25 0.6-4.5 7321GBN64NMC 0.1 – 0.25 0.6-4.5 7321GBN76NMC 0.2 – 0.5 0.8-5.8 7321GBN88NMC 0.2 – 0.4 1.5-9.0 7321GBN99NMC 0.25 – 0.45 1.5-9.5 7322GBN53NC0 0.1 – 0.25 0.6-4.5 7322GBN64NC0 0.1 – 0.25 0.6-4.5 7322GBN76NC0 0.2 – 0.5 0.8-5.8 7322GBN88NC0 0.2 – 0.4 1.5-9.0 7322GBN99NC0 0.25 – 0.45 1.5-9.5 A78 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Valve Reference A66 1.62 L C 1.34 1.95 2.76 P H Valve Reference A67 Valve Dimensions H P C L W 7221GBN51XXX 3.75 3.07 2.06 3.15 2.09 7221GBN64XXX 4.25 3.35 2.34 3.94 2.75 IN OUT 2-Way Normally Closed Port Identification: Flow arrow on body indicates flow direction ports are not marked IN OUT 2-Way Normally Closed Port Identification: Flow arrow on body indicates flow direction ports are not marked Valve Dimensions H P C L 7321KBN3SNW0 3.56 2.97 1.96 2.17 7321KBN4SNW0 3.56 2.97 1.96 1.97 A79 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way L E C W 1.95 P H 2.76 Valve Reference A68 Valve Dimensions H P C L E W 7321GBN53NMC 7322GBN53NCO 7321GBN64NMC 7322GBN64NCO 4.75 3.86 2.84 3.94 1.97 2.75 7321GBN76NMC 7322GBN76NCO 5.41 4.11 3.09 4.33 2.17 2.75 7321GBN88NMC 7322GBN88NCO 5.66 4.37 3.35 5.51 2.95 3.90 7321GBN99NMC 7322GBN99NCO 6.25 4.60 3.58 5.91 3.15 3.90 2-Way Normally Open 7322GBNxx Port Identification: Flow arrow on body indicates flow direction ports are not marked IN OUT 2-Way Normally Closed 7321GBNxx A80 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 2-Way Notes 2-Way Pilot Operated Anti-Water Hammer-Materials of Construction** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 7221GBN 10 2WNC 3/4 Brass 304SS 430FR 430F 430FR 301SS Copper 150°F 7221GBN 22 2WNC 3/4 Brass 304SS 430FR 430F 430FR 301SS Copper 77°F 7321GBN 10 2WNC 3/4 – 2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 7321GBN 22 2WNC 3/4 – 2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7321KBN 10 2WNC 3/8 – 1/2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 7321KBN 22 2WNC 3/8 – 1/2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7322GBN 10 2WNO 3/4 – 2 Brass 304SS 430FR 430F 430FR 301SS Copper 150°F 7322GBN 22 2WNO 3/4 – 2 Brass 304SS 430FR 430F 430FR 301SS Copper 77°F * Shows the first 7 digits of the pressure vessel part number. **Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. B1 General Description: 3-way Miniature Direct Acting valves are suitable for low to medium pressure applications that do not require a minimum operating pressure differential, for actuation. Available in normally open, normally closed, or universal operation. Tested to 20 million cycles under lab conditions. Standard with 303 stainless steel bodies and FKM seals. Installation Valves can be mounted in any position. The preferred orientation is with the coil vertical and upright. Standard Materials of Construction Please refer to page B4. Compatible Fluids Lubricated Air, Inert Gases, Water, Light Oil (300 SSU) and additional fluids compatible with materials of construction. Use of non-lubricated gaseous media can affect valve life. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60–110/50 240/60–220/50 DC – 12, 24 For other voltages – consult factory Coil Classification: Class F standard Class H available AC & DC coils are interchangeable on the same pressure vessel. Agency Approvals: Standard valves with NEMA 4X are C-UL-US listed and CSA certified. For additional details, consult factory. Maximum Ambient Temperature 135°F (AC); 125°F (DC) In the absence of moisture, applications as low as -20°F are possible. Please refer to Page B4 for details. Applications: • Single acting spring return cylinder control • Selection or diversion of process media • HVAC damper control • Instrumentation • Pneumatic positioning • Automatic dispensing equipment • Small compressors • Water treatment • Air dryers • Medical & dental equipment • Damper control 3-Way Miniature Direct Acting Valves 1/8″ NPT 3-Way B2 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Miniature Direct Acting – Normally Closed – Stainless Steel Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.02 0.02 0 250 250 250 10 240 FKM 30CC02AV4 9 B1 1/8 3/64 3/64 0.05 0.05 0 200 200 200 10 240 FKM 30CC02EV4 9 B1 1/8 1/16 1/16 0.09 0.10 0 130 130 130 10 240 FKM 30CC02GV4 9 B1 1/8 5/64 5/64 0.15 0.14 0 90 90 90 10 240 FKM 30CC02JV4 9 B1 1/8 3/32 3/32 0.19 0.20 0 75 75 75 10 240 FKM 30CC02LV4 9 B1 1/8 7/64 3/32 0.25 0.20 0 50 50 50 10 240 FKM 30CC02MV4 9 B1 1/8 1/8 3/32 0.32 0.20 0 40 40 40 10 240 FKM 30CC02PV4 9 B1 1/8 5/32 3/32 0.38 0.20 0 25 25 25 10 240 FKM 30CC02QV4 9 B1 DC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.02 0.02 0 250 250 250 8 240 FKM 30CC02AV4 9 B1 1/8 3/64 3/64 0.05 0.05 0 200 200 200 8 240 FKM 30CC02EV4 9 B1 1/8 1/16 1/16 0.09 0.10 0 130 130 130 8 240 FKM 30CC02GV4 9 B1 1/8 5/64 5/64 0.15 0.14 0 90 90 90 8 240 FKM 30CC02JV4 9 B1 1/8 3/32 3/32 0.19 0.20 0 75 75 75 8 240 FKM 30CC02LV4 9 B1 1/8 7/64 3/32 0.25 0.20 0 50 50 50 8 240 FKM 30CC02MV4 9 B1 1/8 1/8 3/32 0.32 0.20 0 40 40 40 8 240 FKM 30CC02PV4 9 B1 1/8 5/32 3/32 0.38 0.20 0 25 25 25 8 240 FKM 30CC02QV4 9 B1 3-Way Miniature Direct Acting – Normally Open – Stainless Steel Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.02 0.02 0 375 375 375 10 240 FKM 30CF02AV4 9 B1 1/8 3/64 3/64 0.05 0.05 0 230 230 230 10 240 FKM 30CF02EV4 9 B1 1/8 1/16 1/16 0.10 0.09 0 150 150 150 10 240 FKM 30CF02GV4 9 B1 1/8 5/64 5/64 0.14 0.15 0 105 105 105 10 240 FKM 30CF02JV4 9 B1 1/8 3/32 3/32 0.20 0.19 0 80 80 80 10 240 FKM 30CF02LV4 9 B1 DC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.02 0.02 0 375 375 375 8 240 FKM 30CF02AV4 9 B1 1/8 3/64 3/64 0.05 0.05 0 230 230 230 8 240 FKM 30CF02EV4 9 B1 1/8 1/16 1/16 0.10 0.09 0 150 150 150 8 240 FKM 30CF02GV4 9 B1 1/8 5/64 5/64 0.14 0.15 0 105 105 105 8 240 FKM 30CF02JV4 9 B1 1/8 3/32 3/32 0.20 0.19 0 80 80 80 8 240 FKM 30CF02LV4 9 B1 B3 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Miniature Direct Acting – Universal – Stainless Steel Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference NC NO NC NO Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.02 0.02 0 200 200 200 10 240 FKM 30CU02AV4 9 B1 1/8 3/64 3/64 0.05 0.05 0 150 150 150 10 240 FKM 30CU02EV4 9 B1 1/8 1/16 1/16 0.09 0.10 0 100 100 100 10 240 FKM 30CU02GV4 9 B1 1/8 5/64 5/64 0.15 0.14 0 70 70 70 10 240 FKM 30CU02JV4 9 B1 1/8 3/32 3/32 0.19 0.20 0 50 50 50 10 240 FKM 30CU02LV4 9 B1 1/8 7/64 3/32 0.25 0.20 0 40 40 40 10 240 FKM 30CU02MV4 9 B1 1/8 1/8 3/32 0.32 0.20 0 30 30 30 10 240 FKM 30CU02PV4 9 B1 1/8 5/32 3/32 0.38 0.20 0 20 20 20 10 240 FKM 30CU02QV4 9 B1 DC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.02 0.02 0 200 200 200 8 240 FKM 30CU02AV4 9 B1 1/8 3/64 3/64 0.05 0.05 0 150 150 150 8 240 FKM 30CU02EV4 9 B1 1/8 1/16 1/16 0.09 0.10 0 100 100 100 8 240 FKM 30CU02GV4 9 B1 1/8 5/64 5/64 0.15 0.14 0 70 70 70 8 240 FKM 30CU02JV4 9 B1 1/8 3/32 3/32 0.19 0.20 0 50 50 50 8 240 FKM 30CU02LV4 9 B1 1/8 7/64 3/32 0.25 0.20 0 40 40 40 8 240 FKM 30CU02MV4 9 B1 1/8 1/8 3/32 0.32 0.20 0 30 30 30 8 240 FKM 30CU02PV4 9 B1 1/8 5/32 3/32 0.38 0.20 0 20 20 20 8 240 FKM 30CU02QV4 9 B1 Valve Reference B1 3-Way Normally Closed 30CCxx Port Identification: Press – 1/CYL – 2 /EXH – 3 3-Way Normally Open 30CFxx Port Identification: Press -3/ CYL – 2 /EXH – 1 3-Way Universal 30CUxx Port Identification: Pressure can be applied at either port. B4 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Miniature Direct Acting Materials of Construction** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 30CC02 10 (AC) 3WNC 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 135°F 30CC02 8 (DC) 3WNC 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 125°F 30CF02 10 (AC) 3WNO 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 135°F 30CF02 8 (DC) 3WNO 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 125°F 30CU02 10 (AC) 3WU 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 135°F 30CU02 8 (DC) 3WU 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 125°F * Shows the first 6 digits of the pressure vessel part number. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. Check out the 2-Way and 3-Way Manifold Mounted Miniature Catridge valves in the Specialty Section of this catalog. Product Features: • Space saving approach • Less manifold machining equals lower manifold cost • No manifold orifices to machine or press in • Easy to assemble & disassemble with a 5/32″ hex wrench (Torque = 25-35 in-lbs) • Cartridge valves are 100% tested • No loose parts: sleeve, plunger, spring and orifice are pressed together as one unit • Available with all coils/enclosures from Chart 9 in the Coil Section of this catalog B5 General Description: 3-way Direct Acting valves are suitable for low to medium pressure applications that do not require a minimum operating pressure differential. Available in normally open, normally closed and universal operation. Installation Valves can be mounted in any position. The preferred orientation is with the coil vertical and upright. Standard Materials of Construction Please refer to page B23. Compatible Fluids Lubricated Air, Inert Gases, Water, Light Oil (300 SSU) and additional fluids compatible with materials of construction. Use of non-lubricated gaseous media can affect valve life. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60–110/50 240/60–220/50 DC – 12, 24 & 120 For other Voltages – Consult Factory Coil Classification: Class F Standard, Class H Available Class B Coils (Std. on A-Series Valves) Agency Approvals: Standard valves with NEMA 4X or explosion proof solenoid enclosures are UL Listed and CSA Certified. For additional details, consult factory. SIL-3 Capable (Models 7131Txx, 7132Txx, 7133Txx). See Certificate in Technical Section Page F19. Maximum Ambient Temperature 167°F Please refer to Page B23 for details. Applications: • Single acting spring return cylinder control • Selection or diversion of process media • HVAC damper control • Instrumentation • Pneumatic positioning • Automatic dispensing equipment • Gas sampling • Small compressors • Water treatment • Air dryers 3-Way Direct Acting Valves 1/8″ – 1/4″ NPT 3-Way B6 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Direct Acting – Normally Closed – Brass Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/64 3/64 0.05 0.05 0 200 200 200 6 180 NBR 02F30C1103AAF 1 B8 1/8 1/16 1/16 0.08 0.08 0 125 125 125 6 180 NBR 02F30C1104AAF 1 B8 1/8 1/16 1/16 0.11 0.11 0 215 215 215 10 185 FKM 7131KBN1GV00 7 B12 1/8 3/32 3/32 0.12 0.12 0 100 100 100 6 180 NBR 02F30C1106AAF 1 B8 1/8 1/8 1/8 0.21 0.21 0 40 40 40 6 180 NBR 02F30C1108AAF 1 B8 1/8 3/32 3/32 0.24 0.24 0 100 100 100 10 185 FKM 7131KBN1LV00 7 B12 1/4 1/32 1/32 0.02 0.02 0 580 580 580 10 165 PCTFE 7131KBN2BF00 7 B12 1/4 1/16 1/16 0.08 0.08 0 125 125 125 6 180 NBR 04F30C2104AAF 1 B16 1/4 1/16 1/16 0.09 0.09 0 235 235 235 16 200 NBR 04F30C2104ADF 5 B17 1/4 1/16 1/16 0.11 0.11 0 215 215 215 10 185 FKM 7131KBN2GV00 7 B12 1/4 3/32 3/32 0.12 0.12 0 140 140 140 11 200 NBR 04F30C2106ACF 4 B17 1/4 5/64 5/64 0.17 0.24 0 150 150 150 10 185 FKM 7131KBN2JV00 7 B12 1/4 5/64 1/8 0.17 0.31 0 150 150 150 10 185 FKM 7131TBN2JV00 7 B13 1/4 3/32 3/32 0.21 0.21 0 250 250 250 16 180 NBR A3LB2252 * B18 1/4 3/32 9/64 0.24 0.38 0 110 110 110 10 185 FKM 7131TBN2LV00 7 B13 1/4 3/32 3/32 0.24 0.24 0 100 100 100 10 185 FKM 7131KBN2LV00 7 B12 1/4 1/8 1/8 0.25 0.25 0 70 70 70 11 200 NBR 04F30C2108ACF 4 B17 1/4 1/8 1/8 0.35 0.35 0 175 175 175 16 180 NBR A3LB2177 * B18 1/4 11/64 11/64 0.35 0.35 0 40 40 40 11 200 NBR 04F30C2111ACF 4 B17 1/4 5/32 5/32 0.45 0.45 0 125 125 125 16 180 NBR A3LB2127 * B18 1/4 3/16 1/4 0.49 0.63 0 30 30 30 10 185 FKM 7131TBN2RV00 7 B13 *Ordering A Series Valves: A Series Valves must be ordered as complete part numbers (These are Class B coils). 1) Select pressure vessel part number from above (i.e. A3LB2252) 2) Choose coil/enclosure part number from table below for required voltage Voltage 24/60 120/60 240/60 12VDC 24VDC Coil Code AB2A44 AB6A46 AB8A48 DC1A22 DC2A23 Coil Part Number* AB720S24 AB728S24 AB731S24 A7724F24 A7727F24 *When ordering a replacement coil, use Coil Part Number (not Coil Code) 3) Complete P/N for 120/60 is A3LB2252AB6A46 B7 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Direct Acting – Normally Closed – Brass Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve DC TECHNICAL SPECIFICATIONS 1/8 3/64 3/64 0.05 0.05 0 200 200 200 9.5 120 NBR 02F30C1103A1F 3 B8 1/8 1/16 1/16 0.08 0.08 0 125 125 125 9.5 120 NBR 02F30C1104A1F 3 B8 1/8 1/16 1/16 0.11 0.11 0 215 215 215 10 185 FKM 7131KBN1GV00 7 B12 1/8 3/32 3/32 0.12 0.12 0 100 100 100 9.5 120 NBR 02F30C1106A1F 3 B8 1/8 3/32 3/32 0.24 0.24 0 100 100 100 10 185 FKM 7131KBN1LV00 7 B12 1/8 1/8 1/8 0.21 0.21 0 40 40 40 9.5 120 NBR 02F30C1108A1F 3 B8 1/4 1/32 1/32 0.02 0.02 0 580 580 580 10 165 PCTFE 7131KBN2BF00 7 B12 1/4 1/16 1/16 0.08 0.08 0 125 125 125 9.5 120 NBR 04F30C2104A1F 3 B16 1/4 1/16 1/16 0.09 0.09 0 160 160 160 11.5 150 NBR 04F30C2104A3F 6 B17 1/4 1/16 1/16 0.11 0.11 0 215 215 215 10 185 FKM 7131KBN2GV00 7 B12 1/4 3/32 3/32 0.12 0.12 0 115 115 115 11.5 150 NBR 04F30C2106A3F 6 B17 1/4 5/64 5/64 0.17 0.24 0 150 150 150 10 185 FKM 7131KBN2JV00 7 B12 1/4 5/64 1/8 0.17 0.31 0 150 150 150 10 185 FKM 7131TBN2JV00 7 B13 1/4 3/32 3/32 0.21 0.21 0 250 250 250 14 180 NBR A36LB2251 * B18 1/4 3/32 9/64 0.24 0.38 0 110 110 110 10 185 FKM 7131TBN2LV00 7 B13 1/4 3/32 3/32 0.24 0.24 0 100 100 100 10 185 FKM 7131KBN2LV00 7 B12 1/4 1/8 1/8 0.25 0.25 0 60 60 60 11.5 150 NBR 04F30C2108A3F 6 B17 1/4 1/8 1/8 0.35 0.35 0 175 175 175 14 180 NBR A36LB2176 * B18 1/4 11/64 11/64 0.35 0.35 0 25 25 25 11.5 150 NBR 04F30C2111A3F 6 B17 1/4 5/32 5/32 0.45 0.45 0 125 125 125 14 180 NBR A36LB2126 * B18 1/4 3/16 1/4 0.49 0.63 0 30 30 30 10 185 FKM 7131TBN2RV00 7 B13 *Ordering A Series Valves: A Series Valves must be ordered as complete part numbers (These are Class B coils). 1) Select pressure vessel part number from above (i.e. A3LB2252) 2) Choose coil/enclosure part number from table below for required voltage Voltage 24/60 120/60 240/60 12VDC 24VDC Coil Code AB2A44 AB6A46 AB8A48 DC1A22 DC2A23 Coil Part Number* AB720S24 AB728S24 AB731S24 A7724F24 A7727F24 *When ordering a replacement coil, use Coil Part Number (not Coil Code) 3) Complete P/N for 120/60 is A3LB2252AB6A46 B8 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Direct Acting – Normally Closed – Stainless Steel Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/64 1/16 0.060 0.095 0 250 250 250 10 185 NBR 71315SN1ENJ1 7 B5 1/8 3/64 1/16 0.060 0.095 0 250 250 250 10 185 NBR 71315SN1EN00 7 B5 1/8 3/64 3/64 0.060 0.060 0 200 200 200 6 180 NBR 02F30C3103AAF 1 B8 1/8 1/16 1/16 0.090 0.090 0 125 125 125 6 180 NBR 02F30C3104AAF 1 B8 1/8 1/16 1/16 0.110 0.095 0 200 200 200 10 185 NBR 71315SN1GNJ1 7 B5 1/8 1/16 1/16 0.110 0.095 0 200 200 200 10 185 NBR 71315SN1GN00 7 B5 1/8 3/32 3/32 0.170 0.170 0 125 125 125 10 185 NBR 71315SN1KNJ1 7 B5 1/8 3/32 3/32 0.170 0.170 0 125 125 125 10 185 NBR 71315SN1KN00 7 B5 1/8 1/8 3/32 0.230 0.170 0 90 90 90 10 185 NBR 71315SN1MNJ1 7 B5 1/8 1/8 3/32 0.230 0.170 0 90 90 90 10 185 NBR 71315SN1MN00 7 B5 1/8 3/16 3/32 0.380 0.170 0 25 25 25 10 185 NBR 71315SN1SNJ1 7 B5 1/8 3/16 3/32 0.380 0.170 0 25 25 25 10 185 NBR 71315SN1SN00 7 B5 *1/8 1/4 3/32 0.670 0.170 0 VAC N/A N/A 10 185 NBR 71315SN1VNJ1 7 B5 1/4 3/64 1/16 0.062 0.095 0 250 250 250 10 185 NBR 71315SN2ENJ1 7 B5 1/4 3/64 1/16 0.062 0.095 0 250 250 250 10 185 NBR 71315SN2EN00 7 B5 1/4 1/16 1/16 0.090 0.090 0 125 125 125 6 180 NBR 04F30C3104AAF 1 B14 1/4 1/16 1/16 0.110 0.095 0 200 200 200 10 185 NBR 71315SN2GNJ1 7 B5 1/4 1/16 1/16 0.110 0.095 0 200 200 200 10 185 NBR 71315SN2GN00 7 B5 1/4 1/16 1/16 0.110 0.095 0 200 200 200 10 185 NBR 7131TVN2GV00 7 B11 1/4 3/32 3/32 0.120 0.120 0 150 150 150 11 200 NBR 04F30C3106ACF 4 B15 1/4 3/32 3/32 0.170 0.170 0 125 125 125 10 185 NBR 71315SN2KNJ1 7 B5 1/4 3/32 3/32 0.170 0.170 0 125 125 125 10 185 NBR 71315SN2KN00 7 B5 1/4 5/64 5/64 0.180 0.180 0 150 150 150 10 185 FKM 7131TVN2JV00 7 B11 1/4 3/32 3/32 0.190 0.190 0 110 110 110 10 185 NBR 7131TVN2LV00 7 B11 1/4 1/8 3/32 0.230 0.170 0 90 90 90 10 185 NBR 71315SN2MNJ1 7 B5 1/4 1/8 1/8 0.230 0.170 0 90 90 90 10 185 NBR 71315SN2MN00 7 B5 1/4 1/8 1/8 0.250 0.250 0 85 85 85 11 200 NBR 04F30C3108ACF 4 B15 1/4 1/8 1/8 0.320 0.320 0 70 70 70 10 185 FKM 7131TVN2NV00 7 B11 1/4 3/16 3/32 0.380 0.170 0 25 25 25 10 185 NBR 71315SN2SNJ1 7 B5 1/4 3/16 3/32 0.380 0.170 0 25 25 25 10 185 NBR 71315SN2SN00 7 B5 *1/4 1/4 3/32 0.670 0.170 0 VAC N/A N/A 10 185 NBR 71315SN2VNJ1 7 B5 *Note: Vacuum source should be connected to outlet/cylinder port. B9 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Direct Acting – Normally Closed – Stainless Steel (Continued) Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve DC TECHNICAL SPECIFICATIONS 1/8 3/64 3/64 0.060 0.060 0 200 200 200 9.5 120 NBR 02F30C3103A1F 3 B8 1/8 3/64 1/16 0.062 0.095 0 250 250 250 10 185 NBR 71315SN1ENJ1 7 B5 1/8 3/64 1/16 0.062 0.095 0 250 250 250 10 185 NBR 71315SN1EN00 7 B5 1/8 1/16 1/16 0.090 0.090 0 125 125 125 9.5 120 NBR 02F30C3104A1F 3 B8 1/8 1/16 1/16 0.110 0.095 0 200 200 200 10 185 NBR 71315SN1GNJ1 7 B5 1/8 1/16 1/16 0.110 0.095 0 200 200 200 10 185 NBR 71315SN1GN00 7 B5 1/8 3/32 3/32 0.170 0.170 0 125 125 125 10 185 NBR 71315SN1KNJ1 7 B5 1/8 3/32 3/32 0.170 0.170 0 125 125 125 10 185 NBR 71315SN1KN00 7 B5 1/8 1/8 3/32 0.230 0.170 0 90 90 90 10 185 NBR 71315SN1MNJ1 7 B5 1/8 1/8 3/32 0.230 0.170 0 90 90 90 10 185 NBR 71315SN1MN00 7 B5 1/8 3/16 3/32 0.380 0.170 0 25 25 25 10 185 NBR 71315SN1SNJ1 7 B5 1/8 3/16 3/32 0.380 0.170 0 25 25 25 10 185 NBR 71315SN1SN00 7 B5 *1/8 1/4 3/32 0.670 0.170 0 VAC N/A N/A 10 185 NBR 71315SN1VNJ1 7 B5 1/4 3/64 1/16 0.062 0.095 0 250 250 250 10 185 NBR 71315SN2ENJ1 7 B5 1/4 3/64 1/16 0.062 0.095 0 250 250 250 10 185 NBR 71315SN2EN00 7 B5 1/4 1/16 1/16 0.090 0.090 0 125 125 125 9.5 150 NBR 04F30C3104A1F 3 B14 1/4 1/16 1/16 0.110 0.095 0 200 200 200 10 185 NBR 71315SN2GNJ1 7 B5 1/4 1/16 1/16 0.110 0.095 0 200 200 200 10 185 NBR 71315SN2GN00 7 B5 1/4 1/16 1/16 0.110 0.095 0 200 200 200 10 185 NBR 7131TVN2GV00 7 B11 1/4 3/32 3/32 0.120 0.120 0 115 115 115 11.5 150 NBR 04F30C3106A3F 6 B15 1/4 3/32 3/32 0.170 0.170 0 125 125 125 10 185 NBR 71315SN2KNJ1 7 B5 1/4 3/32 3/32 0.170 0.170 0 125 125 125 10 185 NBR 71315SN2KN00 7 B5 1/4 3/32 3/32 0.190 0.190 0 110 110 110 10 185 NBR 7131TVN2LV00 7 B11 1/4 5/64 5/64 0.180 0.180 0 150 150 150 10 185 FKM 7131TVN2JV00 7 B11 1/4 1/8 3/32 0.230 0.170 0 90 90 90 10 185 NBR 71315SN2MNJ1 7 B5 1/4 1/8 1/8 0.230 0.170 0 90 90 90 10 185 NBR 71315SN2MN00 7 B5 1/4 1/8 1/8 0.250 0.250 0 60 60 60 11.5 150 NBR 04F30C3108A3F 6 B15 1/4 1/8 1/8 0.320 0.320 0 70 70 70 10 185 FKM 7131TVN2NV00 7 B11 1/4 3/16 3/32 0.380 0.170 0 25 25 25 10 185 NBR 71315SN2SNJ1 7 B5 1/4 3/16 3/32 0.380 0.170 0 25 25 25 10 185 NBR 71315SN2SN00 7 B5 *1/4 1/4 3/32 0.670 0.170 0 VAC N/A N/A 10 185 NBR 71315SN2VNJ1 7 B5 *Note: Vacuum source should be connected to outlet/cylinder port. B10 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Direct Acting – Normally Open – Brass Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/64 3/64 0.06 0.06 0 200 200 200 6 180 NBR 02F30O1103AAF 1 B8 1/8 1/16 1/16 0.09 0.09 0 125 125 125 6 180 NBR 02F30O1104AAF 1 B8 1/8 3/32 3/32 0.12 0.12 0 100 100 100 6 180 NBR 02F30O1106AAF 1 B8 1/4 1/16 1/16 0.09 0.09 0 235 250 250 16 200 NBR 04F30O2104ADF 5 B17 1/4 3/32 3/32 0.12 0.12 0 140 140 140 11 200 NBR 04F30O2106ACF 4 B17 1/4 1/8 1/8 0.25 0.25 0 70 70 70 11 200 NBR 04F30O2108ACF 4 B17 1/4 1/8 1/8 0.35 0.35 0 175 175 175 16 180 NBR A5LB2177 * B18 1/4 11/64 11/64 0.35 0.35 0 40 40 40 11 200 NBR 04F30O2111ACF 4 B17 1/4 5/32 5/32 0.45 0.45 0 125 125 125 16 180 NBR A5LB2127 * B18 1/4 5/32 1/8 0.31 0.41 0 150 150 150 22 185 FKM 7132TBN2NV00 8 B4 DC TECHNICAL SPECIFICATIONS 1/8 3/64 3/64 0.06 0.06 0 200 200 200 9.5 120 NBR 02F30O1103A1F 1 B8 1/8 1/16 1/16 0.09 0.09 0 200 200 200 9.5 120 NBR 02F30O1104A1F 1 B8 1/8 3/32 3/32 0.12 0.12 0 100 100 100 9.5 120 NBR 02F30O1106A1F 1 B8 1/4 1/16 1/16 0.09 0.09 0 160 160 160 11.5 150 NBR 04F30O2104A3F 6 B17 1/4 3/32 3/32 0.12 0.12 0 100 100 100 11.5 150 NBR 04F30O2106A3F 6 B17 1/4 1/8 1/8 0.25 0.25 0 55 55 55 11.5 150 NBR 04F30O2108A3F 6 B17 1/4 1/8 1/8 0.35 0.35 0 175 175 175 14 180 NBR A56LB2176 * B18 1/4 11/64 11/64 0.35 0.35 0 30 30 30 11.5 150 NBR 04F30O2111A3F 6 B17 1/4 5/32 5/32 0.45 0.45 0 125 125 125 14 180 NBR A56LB2126 * B18 *Ordering A Series Valves: A Series Valves must be ordered as complete part numbers (These are Class B coils). 1) Select pressure vessel part number from above (i.e. A3LB2252) 2) Choose coil/enclosure part number from table below for required voltage Voltage 24/60 120/60 240/60 12VDC 24VDC Coil Code AB2A44 AB6A46 AB8A48 DC1A22 DC2A23 Coil Part Number* AB720S24 AB728S24 AB731S24 A7724F24 A7727F24 *When ordering a replacement coil, use Coil Part Number (not Coil Code) 3) Complete P/N for 120/60 is A3LB2252AB6A46 B11 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Direct Acting – Normally Open – Stainless Steel Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/64 1/16 0.052 0.10 0 250 250 250 10 185 NBR 71395SN1ENJ1 7 B6 1/8 1/16 1/8 0.100 0.28 0 150 150 150 10 185 NBR 71395SN1GNJ1 7 B6 1/8 3/32 1/8 0.280 0.28 0 125 125 125 10 185 NBR 71395SN1KNJ1 7 B6 1/4 3/64 1/16 0.052 0.10 0 250 250 250 10 185 NBR 71395SN2ENJ1 7 B6 1/4 1/16 1/8 0.100 0.28 0 150 150 150 10 185 NBR 71395SN2GNJ1 7 B6 1/4 3/32 3/32 0.120 0.12 0 150 140 140 11 200 NBR 04F30O3106ACF 4 B15 1/4 3/32 1/8 0.170 0.28 0 125 125 125 10 185 NBR 71395SN2KNJ1 7 B6 1/4 1/8 1/8 0.250 0.25 0 70 70 70 11 200 NBR 04F30O3108ACF 4 B15 DC TECHNICAL SPECIFICATIONS 1/8 3/64 1/16 0.052 0.10 0 250 250 250 10 185 NBR 71395SN1ENJ1 7 B6 1/8 1/16 1/8 0.100 0.28 0 150 150 150 10 185 NBR 71395SN1GNJ1 7 B6 1/8 3/32 1/8 0.280 0.28 0 125 125 125 10 185 NBR 71395SN1KNJ1 7 B6 1/4 3/64 1/16 0.052 0.10 0 250 250 250 10 185 NBR 71395SN2ENJ1 7 B6 1/4 1/16 1/8 0.100 0.28 0 150 150 150 10 185 NBR 71395SN2GNJ1 7 B6 1/4 3/32 3/32 0.120 0.12 0 100 100 100 11.5 150 NBR 04F30O3106A3F 6 B15 1/4 3/32 1/8 0.170 0.28 0 125 125 125 10 185 NBR 71395SN2KNJ1 7 B6 1/4 1/8 1/8 0.250 0.25 0 55 55 55 11.5 150 NBR 04F30O3108A3F 6 B15 B12 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Direct Acting – Universal – Brass Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference N.C. N.O. N.C. N.O. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/64 3/64 0.06 0.06 0 175 175 175 10.2 180 NBR 02F30U1103ABF 2 B8 1/8 1/16 1/16 0.09 0.09 0 100 100 100 10.2 180 NBR 02F30U1104ABF 2 B8 1/8 1/16 1/16 0.11 0.11 0 150 150 150 10 185 FKM 7133KBN1GVJ1 7 B9 1/8 3/32 3/32 0.12 0.12 0 50 50 50 6 180 NBR 02F30U1106AAF 1 B8 1/8 5/64 5/64 0.15 .015 0 100 100 100 10 185 FKM 7133KBN1JVJ1 7 B9 1/8 1/8 1/8 0.21 0.21 0 30 30 30 10.2 180 NBR 02F30U1108ABF 2 B8 1/4 1/32 1/32 0.02 0.02 0 435 435 435 10 185 FKM 7133KBN2BVJ1 7 B9 1/4 1/16 1/16 0.09 0.09 0 125 130 130 11 200 NBR 04F30U2104ACF 4 B17 1/4 1/16 1/16 0.10 0.10 0 150 150 150 10 185 FKM 7133KBN2GVJ1 7 B9 1/4 3/32 3/32 0.12 0.12 0 100 100 100 16 200 NBR 04F30U2106ADF 5 B17 1/4 5/64 5/64 0.15 0.15 0 100 100 100 10 185 FKM 7133KBN2JVJ1 7 B9 1/4 5/64 5/64 0.17 0.17 0 100 100 100 10 185 FKM 7133TBN2JV00 7 B10 1/4 1/8 1/8 0.25 0.25 0 50 50 50 16 200 NBR 04F30U2108ADF 5 B17 1/4 1/8 1/8 0.31 0.31 0 30 30 30 10 185 FKM 7133TBN2NV00 7 B10 1/4 11/64 11/64 0.35 0.35 0 20 20 20 11 200 NBR 04F30U2111ACF 4 B17 1/4 5/32 5/32 0.45 0.45 0 75 75 75 16 180 NBR A4LB2077 * B18 DC TECHNICAL SPECIFICATIONS 1/8 3/64 3/64 0.06 0.06 0 125 130 130 9.5 120 NBR 02F30U1103A1F 3 B8 1/8 1/16 1/16 0.09 0.09 0 65 65 65 9.5 120 NBR 02F30U1104A1F 3 B8 1/8 1/16 1/16 0.11 0.11 0 150 150 150 10 185 FKM 7133KBN1GVJ1 7 B9 1/8 3/32 3/32 0.12 0.12 0 50 50 50 9.5 120 NBR 02F30U1106A1F 3 B8 1/8 5/64 5/64 0.15 .015 0 100 100 100 10 185 FKM 7133KBN1JVJ1 7 B9 1/8 1/8 1/8 0.21 0.21 0 20 20 20 9.5 120 NBR 02F30U1108A1F 3 B8 1/4 1/32 1/32 0.02 0.02 0 435 435 435 10 185 FKM 7133KBN2BVJ1 7 B9 1/4 1/16 1/16 0.09 0.09 0 75 75 75 11.5 150 NBR 04F30U2104A3F 6 B17 1/4 1/16 1/16 0.10 0.10 0 150 150 150 10 185 FKM 7133KBN2GVJ1 7 B9 1/4 3/32 3/32 0.12 0.12 0 60 60 60 11.5 150 NBR 04F30U2106A3F 6 B17 1/4 5/64 5/64 0.15 0.15 0 100 100 100 10 185 FKM 7133KBN2JVJ1 7 B9 1/4 5/64 5/64 0.17 0.17 0 100 100 100 10 185 FKM 7133TBN2JV00 7 B10 1/4 1/8 1/8 0.25 0.25 0 25 25 25 11.5 150 NBR 04F30U2108A3F 6 B17 1/4 1/8 1/8 0.31 0.31 0 30 30 30 10 185 FKM 7133TBN2NV00 7 B10 1/4 11/64 11/64 0.35 0.35 0 12 12 12 11.5 150 NBR 04F30U2111A3F 6 B17 1/4 5/32 5/32 0.45 0.45 0 75 75 75 14 180 NBR A46LB2076 * B18 *Refer to “Ordering A Series Valves” on bottom of page B10. B13 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Direct Acting – Universal – Stainless Steel Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference N.C. N.O. N.C. N.O. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/64 3/64 0.052 0.052 0 180 180 180 10 185 NBR 71335SN1ENJ1 7 B3 1/8 1/16 1/16 0.090 0.090 0 100 100 100 10.2 180 NBR 02F30U3104ABF 2 B8 1/8 1/16 1/16 0.095 0.095 0 115 115 115 10 185 NBR 71335SN1GNJ1 7 B3 1/8 3/32 3/32 0.170 0.170 0 80 80 80 10 185 NBR 71335SN1KNJ1 7 B3 1/8 1/8 1/8 0.210 0.210 0 30 30 30 10.2 180 NBR 02F30U3108ABF 2 B8 1/4 1/32 1/32 0.024 0.024 0 400 400 400 10 185 NBR 71335SN2ANJ1 7 B3 1/4 3/64 3/64 0.052 0.052 0 180 180 180 10 185 NBR 71335SN2ENJ1 7 B3 1/4 1/16 1/16 0.090 0.090 0 100 100 100 10.2 180 NBR 04F30U3104ABF 2 B14 1/4 1/16 1/16 0.095 0.095 0 115 115 115 10 185 NBR 71335SN2GNJ1 7 B3 1/4 1/16 1/16 0.095 0.095 0 150 150 150 10 185 FKM 7133TVN2GV00 7 B2 1/4 3/32 3/32 0.120 0.120 0 100 100 100 16 200 NBR 04F30U3106ADF 5 B15 1/4 3/32 3/32 0.170 0.170 0 80 80 80 10 185 NBR 71335SN2KNJ1 7 B3 1/4 5/64 5/64 0.180 0.180 0 100 100 100 10 185 FKM 7133TVN2JV00 7 B2 1/4 1/8 1/8 0.250 0.250 0 50 50 50 16 200 NBR 04F30U3108ADF 5 B15 1/4 1/8 1/8 0.320 0.320 0 30 30 30 10 185 FKM 7133TVN2NV00 7 B2 DC TECHNICAL SPECIFICATIONS 1/8 3/64 3/64 0.052 0.052 0 180 180 180 10 185 NBR 71335SN1ENJ1 7 B3 1/8 1/16 1/16 0.090 0.090 0 65 65 65 9.5 120 NBR 02F30U3104A1F 3 B8 1/8 1/16 1/16 0.095 0.095 0 115 115 115 10 185 NBR 71335SN1GNJ1 7 B3 1/8 3/32 3/32 0.170 0.170 0 80 80 80 10 185 NBR 71335SN1KNJ1 7 B3 1/8 1/8 1/8 0.210 0.210 0 25 25 25 9.5 120 NBR 02F30U3108A1F 3 B8 1/4 1/32 1/32 0.024 0.024 0 400 400 400 10 185 NBR 71335SN2ANJ1 7 B3 1/4 3/64 3/64 0.052 0.052 0 180 180 180 10 185 NBR 71335SN2ENJ1 7 B3 1/4 1/16 1/16 0.090 0.090 0 65 65 65 9.5 120 NBR 04F30U3104A1F 3 B14 1/4 1/16 1/16 0.095 0.095 0 150 150 150 10 185 FKM 7133TVN2GV00 7 B2 1/4 1/16 1/16 0.095 0.095 0 115 115 115 10 185 NBR 71335SN2GNJ1 7 B3 1/4 3/32 3/32 0.120 0.120 0 60 60 60 11.5 150 NBR 04F30U3106A3F 6 B15 1/4 3/32 3/32 0.170 0.170 0 80 80 80 10 185 NBR 71335SN2KNJ1 7 B3 1/4 5/64 5/64 0.180 0.180 0 100 100 100 10 185 FKM 7133TVN2JV00 7 B2 1/4 1/8 1/8 0.250 0.250 0 25 25 25 11.5 150 NBR 04F30U3108A3F 6 B15 1/4 1/8 1/8 0.320 0.320 0 30 30 30 10 185 FKM 7133TVN2NV00 7 B2 B14 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Direct Acting – Diverting – Stainless Steel Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference N.C. N.O. N.C. N.O. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/8 3/32 0.230 0.170 0 125 125 125 10 185 NBR 71385SN1MNJ1 7 B7 1/4 1/16 1/16 0.095 0.095 0 235 235 235 10 185 NBR 71385SN2GNJ1 7 B7 1/4 1/8 3/32 0.230 0.170 0 125 125 125 10 185 NBR 71385SN2MNJ1 7 B7 DC TECHNICAL SPECIFICATIONS 1/8 1/8 3/32 0.230 0.170 0 125 125 125 10 185 NBR 71385SN1MNJ1 7 B7 1/4 1/16 1/16 0.095 0.095 0 235 235 235 10 185 NBR 71385SN2GNJ1 7 B7 1/4 1/8 3/32 0.230 0.170 0 125 125 125 10 185 NBR 71385SN2MNJ1 7 B7 Valve Reference B2 3-Way Universal Port Identification 1-NC / 2-COMMON / 3-NO B15 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B3 1.62 1.62 DIA .34 1.82 2.76 1.95 3.82 (1/4 NPT) 3.65 (1/8 NPT) MECHANICAL OPTION “J1” FOR TYPE 71335 3-Way Universal Port Identifiation 1-NC / 2-COMMON / 3-NO Valve Reference B4 3-Way Normally Open Port Identificaiton 1-Exhaust/ 2-Cylinder/ 3-Pressure B16 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B5 1.62 1.62 DIA .34 1.82 2.76 1.95 3.82 (1/4 NPT) 3.65 (1/8 NPT) MECHANICAL OPTION “J1” FOR TYPE 71335 1 Valve Reference B6 3-Way Normally Closed Port Identification 1-Pressure / 2-Cylinder / 3-Exhaust 1.62 1.62 DIA .34 1.82 2.76 1.95 3.82 (1/4 NPT) 3.65 (1/8 NPT) MECHANICAL OPTION “J1” FOR TYPE 71395 1 3-Way Normally Open Port Identification 1-Exhaust / 2-Cylinder / 3-Pressure B17 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B7 Valve Reference B8 1.62 1.62 DIA .34 1.82 2.76 1.95 3.82 (1/4 NPT) 3.65 (1/8 NPT) MECHANICAL OPTION “J1” FOR TYPE 71385 1 3-Way Normally Diverting Port identification: 1-NC/ 2-IN/ 3-NO 3-Way Normally Closed 02F30Cxx Port Identification: Press – 2 /CYL-11 / EXH-3 3-Way Normally Open 02F30Oxx Port Identification: Press – 3 / CYL -1 / EXH – 2 3-Way Universal 02F30Uxx Port Identification: Pressure can be applied at either port B18 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B9 1.62 MECHANICAL OPTION “J1” FOR TYPE 7133KBN 1.57 1.6O 2.76 1.95 2.9O 3.34 .77 3-Way Universal Port Identification Pressure can be applied at either port 3-Way Universal Port Identification Pressure can be applied at either port Valve Reference B10 B19 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B11 Valve Reference B12 1.62 MECHANICAL OPTION “J1” FOR TYPE 7131KBN 1.57 1.6O 2.76 1.95 2.9O 3.34 .77 3-Way Normally Closed Port Identification 1-Pressure / 2-Cylinder/ 3-Exhaust 3-Way Normally Closed Port Identification 1-Cylinder/ 2-Pressure/ 0-Exhaust B20 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B13 Valve Reference B14 1-23/32 2-11/32 1-9/16 1-5/16 1-5/16 7/32 17/32 17/64 7/32 7/16 7/16 2 slots .275 x .187 bracket 23/32 1/2 NPT 2-7/8 1-11/16 2 3 I 1-1/2 1 23/32 1-9/32 2-1/8 1-3/16 1-5/16 23/32 23/32 2 mounting holes for #8 thread cutting screw 3-Way Normally Closed Port Identification 1-Pressure/ 2-Cylinder/ 3-Exhaust 3-Way Universal Port Identification Pressure can be applied to either port. 3-Way Normally Closed Port Identification Press – 2 | CYL-1 | EXH-3 3 3 1 8 2 1 3 3 16 1-9/32 B21 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B15 1-23/32 2-11/32 1-13/16 1-17/32 1-5/16 7/32 17/32 17/64 7/32 7/16 7/16 2 slots .275 x .187 bracket 23/32 1/2 NPT 3 1-25/32 2 3 I 1-1/2 23/32 23/32 1-11/16 2-23/32 1-3/16 1-17/32 7/8 3/4 2 mounting holes for #8 thread cutting screw Valve Reference B16 3-Way Normally Closed Port Identification 1-Pressure/ 2-Cylinder/ 3-Exhaust 3-Way Normally Closed 04F30Cxx Port Identification: Press – 2 /CYL-1/EXH-3 3-Way Normally Open 04F30Oxx Port Identification: Press – 3/CYL -1/EXH – 2 3-Way Universal 04F30Uxx Port Identification: Pressure can be applied at either port 2.76 .81 1.25 2.156 1.28 .75 1.5 1.56 1.75 2 1 3 .67 2.47 1.80 .64 1.28 1 2 2 3 B22 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B17 Valve Reference B18 3.19 1.86 2.41 2 1.81 .41 .85 3.89 2.67 2.00 .97 3 3-Way Normally Closed 04F30Cxx Port Identification: Press – 2 /CYL-1 / EXH-3 3-Way Normally Open 04F30Oxx Port Identification: Press – 3/CYL -1 /EXH – 2 3-Way Universal 04F30Uxx Port Identification: Pressure can be applied at either port P E A 3-Way Normally Closed A3 3-Way Universal A4 3-Way Normally Open A5 (NC) UNIV. (NO) B23 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Direct Acting Materials of Construction** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 02F30C1 9.5 3WNC 1/8 Brass 305SS 430FR 416/ 430FR 430FR 17-7PH Copper 77°F 02F30C3 9.5 3WNC 1/8 303SS 305SS 430FR 416/ 430FR 430FR 17-7PH Silver 77°F 02F30C3 6 3WNC 1/8 303SS 305SS 430FR 12L14 Plated 430FR 17-7PH Silver 130°F 02F30O1 9.5 3WNO 1/8 Brass 305SS 430FR 416/ 430FR 430FR 17-7PH Copper 77°F 02F30O1 6 3WNO 1/8 Brass 305SS 430FR 12L14 Plated 430FR 17-7PH Copper 130°F 02F30O3 9.5 3WNO 1/8 303SS 305SS 430FR 416/ 430FR 430FR 17-7PH Silver 77°F 02F30O3 6 3WNO 1/8 303SS 305SS 430FR 12L14 Plated 430FR 17-7PH Silver 130°F 02F30U1 9.5 3WU 1/8 Brass 305SS 430FR 416/ 430FR 430FR 17-7PH Copper 77°F 02F30U3 6 3WU 1/8 303SS 305SS 430FR 12L14 Plated 430FR 17-7PH Silver 130°F 02F30U3 10.2 3WU 1/8 303SS 305SS 430FR 416/ 430FR 430FR 17-7PH Silver 77°F 04F30C3 11.5 3WNC 1/4 303SS 305SS 430FR 416/ 430FR 430FR 17-7PH Silver 77°F 04F30C3 10.2 3WNC 1/4 303SS 305SS 430FR 416/ 430FR 430FR 17-7PH Silver 77°F 04F30C3 11 3WNC 1/4 303SS 305SS 430FR 416/ 430FR 430FR 17-7PH Silver 130°F 04F30O2 11.5 3WNO 1/4 Brass 305SS 430FR 416/ 430FR 430FR 17-7PH Copper 77°F 04F30O2 11 3WNO 1/4 Brass 305SS 430FR 416/ 430FR 430FR 17-7PH Copper 130°F 04F30O2 16 3WNO 1/4 Brass 305SS 430FR 416/ 430FR 430FR 17-7PH Copper 77°F 04F30O3 11.5 3WNO 1/4 303SS 305SS 430FR 416/ 430FR 430FR 17-7PH Silver 77°F 04F30O3 11 3WNO 1/4 303SS 305SS 430FR 416/ 430FR 430FR 17-7PH Silver 130°F 04F30U2 11.5 3WU 1/4 Brass 305SS 430FR 416/ 430FR 430FR 17-7PH Copper 77°F 04F30U3 16 3WU 1/4 303SS 305SS 430FR 416/ 430FR 430FR 17-7PH Silver 77°F 71315SN 10 3WNC 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F * Shows first 7 digits of pressure vessel. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. B24 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Direct Acting Materials of Construction (Continued)** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 7131KBN 10 3WNC 1/8 – 1/4 Brass 304SS 430FR 430F 430FR/ 4106 301SS Copper 150°F 7131TBN 10 3WNC 1/4 Brass 304SS 430FR 430F 430FR/ 4106 301SS Copper 150°F 7131TVN 10 3WNC 1/4 303 304SS 430FR 430F 430FR/ 4106 18-8SS Copper 150°F 7133KBN 10 3WU 1/8 – 1/4 Brass 304SS 430FR 430F 430FR/ 4106 301SS Copper 150°F 7133TBN 10 3WU 1/4 Brass 304SS 430FR 430F 430FR/ 4106 301SS Copper 150°F 7133TVN 10 3WU 1/4 303 304SS 430FR 430F 430FR/ 4106 18-8SS Copper 150°F 71335SN 10 3WU 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F 71385SN 10 3WD 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F 71395SN 10 3WNO 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F A3 16 3WNC 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 122°F A36 14 3WNC 1/4 Brass 304SS 430FR 430F 430FR 18-8SS None 122°F A4 16 3WU 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 122°F A46 14 3WU 1/4 Brass 304SS 430FR 430F 430FR 18-8SS None 122°F A5 16 3WNO 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 122°F A56 14 3WNO 1/4 Brass 304SS 430FR 430F 430FR 18-8SS None 122°F * Shows first 7, 2 or 3 digits of pressure vessel. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. Notes B25 General Description: 3-Way Pilot Operated valves are used in general industrial applications and control valve pilot actuation where higher pressures and flows are required. Pilot operated valves require the minimum operating pressure differential specified to ensure proper operation. Installation Valves can be mounted in any position. The preferred orientation is with the coil vertical and upright. Standard Materials of Construction Please refer to page B40. Compatible Fluids Lubricated Air, Inert Gases, Water, Light Oil (300 SSU) and additional fluids compatible with materials of construction, as listed in the product specifications charts. Use of non-lubricated gaseous media can affect valve life. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60–110/50 240/60–220/50 DC – 12,24 & 120 For other voltages – consult factory Coil Classification: Class F Standard – Class H Available Agency Approvals: Standard valves with NEMA 4X or explosion proof solenoid enclosures are UL Listed and CSA Certified. SIL-3 Capable (Models 73317xx, 74317xx). See Certificate in Technical Section Page F20 For additional details, consult factory. Maximum Ambient Temperature 167° F Mininum Ambient Temperature -40°F for Models 73317xx and 74317xx. Dew Point must be more than 7°F below ambient. Applications: • Pilot valve actuation of larger control valves • Oil and gas including off-shore installations • Single acting spring return cylinder control • Compressor unloaders • Turbines External Piloted 74332xxx • Controlling Contaminated Fluids • Controlling Pressures under 10 PSI • Operating valves on vacuum Please refer to page B40 for details 3-Way Pilot & Remote Operated Valves 1/4″ – 3/4″ NPT 3-Way B26 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Internal Pilot Operated – Normally Closed – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 3/8 3/8 2.10 10 180 180 180 10 185 NBR 73312BN3RNJ0 7 B19 3/8 3/8 2.10 10 180 180 180 10 185 NBR 73312BN3RNJ1 7 B24 1/2 1/2 3.60 10 180 180 180 10 185 NBR 73312BN4UNJ0 7 B19 1/2 1/2 3.60 10 180 180 180 10 185 NBR 73312BN4UNJ1 7 B24 3/4 3/4 7.30 10 180 180 180 10 185 NBR 73312BN52NJ0 7 B25 3/4 3/4 7.30 10 180 180 180 10 185 NBR 73312BN52NJ1 7 B26 DC TECHNICAL SPECIFICATIONS 3/8 3/8 2.10 10 180 180 180 10 185 NBR 73312BN3RNJ0 7 B19 3/8 3/8 2.10 10 180 180 180 10 185 NBR 73312BN3RNJ1 7 B24 1/2 1/2 3.60 10 180 180 180 10 185 NBR 73312BN4UNJ0 7 B19 1/2 1/2 3.60 10 180 180 180 10 185 NBR 73312BN4UNJ1 7 B24 3/4 3/4 7.30 10 180 180 180 10 185 NBR 73312BN52NJ0 7 B25 3/4 3/4 7.30 10 180 180 180 10 185 NBR 73312BN52NJ1 7 B26 3-Way Internal Pilot Operated – Normally Open – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 3/8 3/8 2.10 10 180 180 180 10 185 NBR 73322BN3RNJ0 7 B27 3/8 3/8 2.10 10 180 180 180 10 185 NBR 73322BN3RNJ1 7 B28 1/2 1/2 3.60 10 180 180 180 10 185 NBR 73322BN4UNJ0 7 B27 1/2 1/2 3.60 10 180 180 180 10 185 NBR 73322BN4UNJ1 7 B28 3/4 3/4 7.30 10 180 180 180 10 185 NBR 73322BN52NJ0 7 B29 3/4 3/4 7.30 10 180 180 180 10 185 NBR 73322BN52NJ1 7 B20 B27 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Internal Pilot Operated – Normally Open – Brass (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve DC TECHNICAL SPECIFICATIONS 3/8 3/8 2.10 10 180 180 180 10 185 NBR 73322BN3RNJ0 7 B27 3/8 3/8 2.10 10 180 180 180 10 185 NBR 73322BN3RNJ1 7 B28 1/2 1/2 3.60 10 180 180 180 10 185 NBR 73322BN4UNJ0 7 B27 1/2 1/2 3.60 10 180 180 180 10 185 NBR 73322BN4UNJ1 7 B28 3/4 3/4 7.30 10 180 180 180 10 185 NBR 73322BN52NJ0 7 B29 3/4 3/4 7.30 10 180 180 180 10 185 NBR 73322BN52NJ1 7 B20 3-Way Internal Pilot Operated – Diverting – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 3/8 3/8 2.10 10 180 180 180 10 185 NBR 73382BN3RNJ1 7 B30 1/2 1/2 3.60 10 180 180 180 10 185 NBR 73382BN4UNJ1 7 B30 3/4 3/4 7.30 10 180 180 180 10 185 NBR 73382BN52NJ1 7 B21 DC TECHNICAL SPECIFICATIONS 3/8 3/8 2.10 10 180 180 180 10 185 NBR 73382BN3RNJ1 7 B30 1/2 1/2 3.60 10 180 180 180 10 185 NBR 73382BN4UNJ1 7 B30 3/4 3/4 7.30 10 180 180 180 10 185 NBR 73382BN52NJ1 7 B21 B28 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way *Minumum external pilot pressure must be main line pressure plus 10 psi; 180 psi maximum; 165 psi maximun for vacuum applications. 3-Way External Pilot Operated* – Universal – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 3/8 3/8 2.10 0 170 170 170 10 185 NBR 74332BN3RNJ1 7 B31 1/2 1/2 3.60 0 170 170 170 10 185 NBR 74332BN4UNJ1 7 B31 3/4 3/4 7.30 0 170 170 170 10 185 NBR 74332BN52NJ1 7 B32 DC TECHNICAL SPECIFICATIONS 3/8 3/8 2.10 0 170 170 170 10 185 NBR 74332BN3RNJ1 7 B31 1/2 1/2 3.60 0 170 170 170 10 185 NBR 74332BN4UNJ1 7 B31 3/4 3/4 7.30 0 170 170 170 10 185 NBR 74332BN52NJ1 7 B32 External Pilot Pressure Valves When an application requires the separation of the fluid in the main line from the pilot operator, it is necessary to control the pilot externally. Examples include: • Controlling contaminated fluids up to 170 PSI • Controlling pressures below the minimum • Operating valves on vacuum For such applications, the following 3-way multipurpose valves are provided with connections for external pressure to operate the pilot. The minimum external pilot pressure required is the main line pressure plus 10 PSI. The maximum external pilot pressure is 180 PSI for pressure applications, and 165 PSI for vacuum applications. For vacuum service the vacuum line must be connected to the normally open port, and pilot pressure must be connected to the normally closed pilot port. B29 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3/2, 3-Way 2 Position Single Solenoid – In Line – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air, Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 11/64 0.55 30 150 10 167 NBR 73317BN2KN00 73317BN2KNM0 73317BN2KN7A 7 B22 1/4 11/64 0.55 30 150 1.5 150 NBR 73317BN2KN00 73317BN2KNM0 73317BN2KN7A 11 B22 1/4 1/4 1.20 30 150 10 167 NBR 73317BN2PN00 73317BN2PNM0 73317BN2PN7A 7 B22 1/4 1/4 1.20 30 150 1.5 150 NBR 73317BN2PN00 73317BN2PNM0 73317BN2PN7A 11 B22 1/4 1/4 1.20 30 150 0.6 150 NBR 73317BN2PN90 – – 12 B22 1/2 5/8 4.00 30 150 10 167 NBR 73317BN4UN00 – – 7 B33 1/2 5/8 4.00 30 150 1.5 150 NBR 73317BN4UN00 – – 11 B33 1/2 5/8 4.00 30 150 0.6 150 NBR 73317BN4UN90 – – 12 B33 3/2, 3-Way 2 Position Single Solenoid – Brass – External Pilot* Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air, Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 11/64 0.55 0 150 10 167 NBR 74317BN2KN00 – – 7 B34 1/4 11/64 0.55 0 150 1.5 150 NBR 74317BN2KN00 – – 11 B34 1/4 1/4 1.20 0 150 10 167 NBR 74317BN2PN00 – – 7 B34 1/4 1/4 1.20 0 150 1.5 150 NBR 74317BN2PN00 – – 11 B34 1/2 5/8 4.00 30 150 10 167 MBR 74317BN4UN00 – – 7 B35 1/2 5/8 4.00 30 150 1.5 167 MBR 74317BN4UN00 – – 11 B35 * External pilot pressure to operate valve must be 30 – 150 psi * These valves operate at 0 PSI, however a 2 PSI pressure differential is required to actuate the pressure operated quick exhaust poppet. B30 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3/2, 3-Way 2 Position Single Solenoid – In Line – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air, Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 11/64 0.55 30 150 10 167 NBR 73317VN2KN00 – – 7 B22 1/4 11/64 0.55 30 150 1.5 150 NBR 73317VN2KN00 – – 11 B22 1/4 11/64 0.55 30 150 0.6 150 NBR 73317VN2KN90 – – 12 B22 1/4 1/4 1.20 30 150 10 167 NBR 73317VN2PN00 – – 7 B22 1/4 1/4 1.20 30 150 1.5 150 NBR 73317VN2PN00 – – 11 B22 3/2, 3-Way 2 Position Single Solenoid – Stainless Steel – External Pilot* Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air, Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 11/64 0.55 0 150 10 167 NBR 74317VN2KN00 – – 7 B34 1/4 11/64 0.55 0 150 1.5 150 NBR 74317VN2KN00 – – 11 B34 *External pilot pressure to operate valve must be 30-150 psi 3-Way Remote Pressure Operated Valves – Universal – Brass, NBR Seals Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air, Inert Gas Coil Valve 3/8 3/8 2.1 0 180 — 185 NBR 75332BN3RN00 – – – B36 1/2 1/2 2.1 0 180 — 185 NBR 75332BN4UN00 – – – B36 3/4 3/4 3.6 0 180 — 185 NBR 75332BN52N00 – – – B36 Remote Operated Valve Port Connections Valve Type Main Line Supply Remote Control Valve Hookup 3-Way Pilot Valve Hookup Normally Closed Port Normally Open Port Common Port Pilot Inlet Port 1/8″ NPT Normally Closed Port Normally Open Port Common Port Normally Open 0-180 PSIG Media Exhaust Media Inlet Cylinder Connect to Common Port of 3-Way Pilot Main Line Pressure +10 PSI Min. Pilot Exhaust 1/8″ NPT Pilot of Remote Control Valve Vacuum Atmosphere Vacuum Cylinder 10 PSI Min. Vacuum Normally Closed 0-180 PSIG Media Inlet Media Exhaust Cylinder Main Line Pressure +10 PSI Min. Pilot Exhaust Vacuum Vacuum Atmosphere Cylinder 10 PSI Min. Vacuum Directional Control 0-180 PSIG Media Outlet Media Outlet Media Inlet Main Line Pressure +10 PSI Min. Pilot Exhaust Vacuum Inlet Inlet Vacuum 10 PSI Min. Vacuum B31 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B19 1.94 2.76 1.95 C L R J T K P H 1.62 W 1 3 2 Valve Dimensions H P C L W T R J K 73312BN3RNJ0 5.34 4.41 1.96 2.97 2.62 0.59 1.44 1.22 0.91 73312BN4UNJ0 5.62 4.56 2.08 3.38 3.09 0.69 1.66 1.41 1.06 3-Way Normally Closed Port Identification 1-Pressure/ 2-Cylinder/ 3-Exhaust Valve Reference B20 1.62 4.34 6.07 1.03 3 0.86 1.72 1.39 4.22 2.34 2.76 1.95 2 1.69 3.38 3-Way Normally Open Port Identification 1-Exhaust/ 2-Cylinder/ 3-Pressure B32 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B21 1.62 4.34 6.07 1.03 3 0.86 1.72 1.39 4.22 2.34 2.76 1.95 2 1.69 3.38 3-Way Diverting Port Identification 1-NC/ 2-IN/ 3-NO Valve Reference B22 1.62 .5O 1/4 NPT TYP 1.25 .94 .94 4.77 1.65 1.24 .3O .4O .85 3.68 2.OO .4O 2.39 1/2 NPT Manual override mechanical option 3-Way Normally Closed Port Identification 2-Cylinder/ 1-Pressure/ 3-Exhaust B33 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B24 1.62 1.95 2.76 P H S 1 3 2 R W T J K L C Valve Dimensions H P C L W S T R J K 73312BN3RNJ1 4.89 3.98 1.96 2.97 2.62 0.65 0.59 1.44 1.22 0.91 73312BN4UNJ1 5.10 4.08 2.08 3.38 3.09 0.78 0.69 1.66 1.44 1.06 3-Way Normally Closed Port Identification 1-Pressure/ 2-Cylinder/ 3-Exhaust Valve Reference B25 1.62 4.75 6.50 1.94 1.95 2.76 2.34 1.69 3.38 2 1 3 .86 1.72 4.22 1.39 3-Way Normally Closed Port Identification 1-Pressure/ 2-Cylinder/ 3-Exhaust B34 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B26 1.62 4.34 6.07 1.03 3 0.86 1.72 1.39 4.22 2.34 2.76 1.95 2 1.69 3.38 1 3 2 3-Way Normally Closed Port Identification 1-Pressure/ 2-Cylinder/ 3-Exhaust Valve Reference B27 Valve Dimensions H P C L W T R J K 73322BN3RNJ0 5.34 4.41 1.96 2.97 2.62 0.59 1.44 1.22 0.91 73322BN4UNJ0 5.62 4.56 2.08 3.38 3.09 0.69 1.66 1.41 1.06 3-Way Normally Open Port Identification 1-Exhaust/ 2-Cylinder/ 3-Pressure 1.94 2.76 1.95 C L R J T K P H 1.62 W 1 3 2 B35 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B28 1.62 1.95 2.76 P H S 1 3 2 R W T J K L C Valve Dimensions H P C L W S T R J K 73322BN3RNJ1 4.98 3.98 1.96 2.97 2.62 0.65 0.59 1.44 1.22 0.91 73322BN4UNJ1 5.10 4.08 2.08 3.38 3.09 0.78 0.69 1.66 1.44 1.06 3-Way Normally Open Port Identification 1-Exhaust/ 2-Cylinder/ 3-Pressure Valve Reference B29 1.62 4.75 6.50 1.94 1.95 2.76 2.34 1.69 3.38 2 1 3 .86 1.72 4.22 3-Way Normally Open 1.39 Port Identification 1-Exhaust/ 2-Cylinder/ 3-Pressure B36 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B31 1.62 1.95 2.76 P H S 1 3 2 R W T J K L C Valve Dimensions H P C L W S T R J K 74332BN3RNJ1 4.72 3.79 1.96 2.97 2.62 0.65 0.59 1.44 1.22 0.91 74332BN4UNJ1 4.93 3.91 2.08 3.38 3.09 0.78 0.69 1.66 1.44 1.06 3-Way Universal Pressure can be applied at either port. Valve Reference B30 1.62 1.95 2.76 P H S 1 3 2 R W T J K L C Valve Dimensions H P C L W S T R J K 73382BN3RNJ1 4.89 3.98 1.96 2.97 2.62 0.65 0.59 1.44 1.22 0.91 73382BN4UNJ1 5.10 4.08 2.08 3.38 3.09 0.78 0.69 1.66 1.44 1.06 3-Way Diverting Port Identification 1-NC/ 2-IN/ 3-NO 1 3 2 D B37 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B32 3-Way Universal Pressure can be applied at either port. Valve Reference B33 3-Way Normally Closed Port Identification 2-Cylinder / 1-Pressure/ 3-Exhaust B38 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B35 3-Way Normally Closed 1-Pressure/ 2-Cylinder/ 3-Exhaust Valve Reference B34 3-Way Normally Closed Port Identification 1-Pressure/ 2-Cylinder/ 3-Exhaust 2 Manual override mechanical option B39 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B36 Port Identification Normally Closed: 1-press/2-cylinder/3-Exh. Normally Open: 3 – press/2- cylinder/3 – Exh. Directional Control: 2 – press/3 – N.O./1 – N.C. Valve Dimension H P L W S T R J K **75332BN3RN00 2.42 1.49 2.97 2.62 .65 .59 1.44 1.22 .91 **75332BN4UN00 2.3 1.61 3.38 3.09 .78 .69 1.66 1.41 1.06 *75332BN52N00 3.60 1.87 4.22 3.38 1.03 .86 1.69 1.72 1.39 * 6-Bolt cover pattern as shown in photo ** 4-bolt cover pattern as shown in dimensional drawings B40 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Pilot Operated Materials of Construction** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 73312BN 10 3WNC 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 73322BN 10 3WNO 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 73382BN 10 3WD 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 74332BN 10 3WU 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 73317BN 10 3WNC 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 167°F 73317BN 10 3WNC 1/2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 167°F 73317VN 10 3WNC 1/4 303 304SS 430FR 430F 430FR 18-8SS Copper 167°F 71315AK 10 3WNC 1/4 Alum 304SS 430FR 430F 430FR 18-8SS Copper 167°F 74317VN 10 3WNC 1/4 303 304SS 430FR 430F 430FR 18-8SS Copper 167°F 75332*** — UNIV 3/8 – 1/4 Brass N/A N/A N/A N/A 18-8SS N/A — * Shows first 7 digits of pressure vessel ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. *** Pilot orifice is 303SS. These valves are remotely piloted. No coil required. Notes B41 General Description: 3-way Direct Acting High Pressure valves are used in general industrial application and control valve pilot actuation where higher pressures and flows are required. No minimum operating pressure differential required to ensure proper operation. Installation Valves can be mounted in any position. The preferred orientation is with the coil vertical and upright. Standard Materials of Construction Please refer to page B44. Compatible Fluids Lubricated Air, Inert Gases, Water, Light Oil (300 SSU) and additional fluids compatible with materials of construction, as listed in the product specifications charts. Use of non-lubricated gaseous media can affect valve life. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60–110/50 240/60–220/50 DC – 12,24 & 120 For other voltages – consult factory Coil Classification: Class F standard Class H available Agency Approvals: Standard valves with NEMA 4X or explosion proof solenoid enclosures are UL Listed and CSA Certified. For additional details, consult factory. Maximum Ambient Temperature 150° F Please refer to Page B44 for details. 3-Way Direct Acting High Pressure Valves 1/8″ – 1/4″ NPT Applications: • Pilot valve actuation of larger control valves • Oil and gas including off-shore installations • Single acting spring return cylinder control • Compressor unloaders • Turbines • Machining equipment • High pressure compressors 3-Way B42 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Normally Closed High Pressure – Brass Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal* Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 1/32 1/32 0.020 0.020 0 1100 1100 1100 10 210 RUBY 7131KBN2BR00 7 B39 1/4 1/32 1/32 0.020 0.020 0 580 580 580 10 165 PCTFE 7131KBN2BF00 7 B39 DC TECHNICAL SPECIFICATIONS 1/4 1/32 1/32 0.020 0.020 0 1100 1100 1100 10 210 RUBY 7131KBN2BR00 7 B39 1/4 1/32 1/32 0.020 0.020 0 580 580 580 10 165 PCTFE 7131KBN2BF00 7 B39 3-Way Universal High Pressure – Brass Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 1/32 1/32 0.020 0.020 0 435 435 435 10 185 FKM 7133KBN2BVJ1 7 B39 DC TECHNICAL SPECIFICATIONS 1/4 1/32 1/32 0.020 0.020 0 435 435 435 10 185 FKM 7133KBN2BVJ1 7 B39 3-Way Universal High Pressure – Stainless Steel Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.024 0.024 0 400 400 400 10 185 NBR 71335SN1ANJ1 7 B38 1/4 1/32 1/32 0.024 0.024 0 400 400 400 10 185 NBR 71335SN2ANJ1 7 B38 DC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.024 0.024 0 400 400 400 10 185 NBR 71335SN1ANJ1 7 B38 1/4 1/32 1/32 0.024 0.024 0 400 400 400 10 185 NBR 71335SN2ANJ1 7 B38 * PCTFE Seals: Allowable Seat leakage is 20 cc/min on air and inert gas at rated pressure: 7131KBNxxFxx RUBY Seals: Allowable Seat leakage is 100 cc/min on air and inert gas at rated pressure: 7131KBNxxRxx B43 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B38 Valve Reference B39 1.62 1.62 DIA .34 1.82 2.76 1.95 3.82 (1/4 NPT) 3.65 (1/8 NPT) MECHANICAL OPTION “J1” FOR TYPE 71335 1 1.62 MECHANICAL OPTION “J1” FOR TYPE 7133KBN & 7131KBN 1.57 1.6O 2.76 1.95 2.9O 3.34 .77 3-Way Universal Pressure can be applied at either port. 3-Way Normally Closed Port Identification 1-Cylinder/ 2-Pressure/ 0-Exhaust 3-Way Universal Port Identification Pressure can be applied at either port B44 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Direct Acting High Pressure Materials of Construction** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 7131KBN 10 3WNC 1/8 – 1/4 Brass 304SS 430FR 430F 430FR 301SS Copper 150°F 7133KBN 10 3WU 1/8 – 1/4 Brass 304SS 430FR 430F 430FR 301SS Copper 150°F 71335SN 10 3WU 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F * Shows first 7, 2 or 3 digits of pressure vessel. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. Notes B45 General Description: 3-Way Direct Acting & Pilot Operated Quick Exhaust Valves are designed to provide a large orifice for quick exhaust. Increased exhaust capacity significantly reduces cycle time for single acting spring return actuators. Pilot operated valves require the minimum operating pressure differential specified to ensure proper operation. Direct acting valves do not require a pressure differential. Installation Valves can be mounted in any position. The preferred orientation is with the coil vertical and upright. Standard Materials of Construction Please refer to page B50. Compatible Fluids Lubricated air, inert gases, water, light oil (300 SSU) and additional fluids compatible with materials of construction, as listed in the product specifications. Use of non-lubricated gaseous media can affect valve life. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60–110/50 240/60–220/50 DC – 12, 24 & 120 For other voltages – consult factory. Coil Classification: Class F Standard Class H Available Agency Approvals: Standard valves with NEMA 4X or explosion proof solenoid enclosures are UL Listed and CSA Certified. For additional details, consult factory. Maximum Ambient Temperature 180° F Please refer to Page B50 for details. Applications: • Pilot valve actuation of larger control valves • Oil and gas including off-shore installations • Single acting spring return cylinder control • Compressor unloaders • Turbines 3-Way Direct Acting & Pilot Operated Quick Exhaust Valves 1/4″ – 3/8″ NPT 3-Way B46 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Normally Closed – Quick Exhaust – Brass Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Body NC Body NO Sleeve Size In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 3/32 1/4 – 0.20 0.73 5 150 150 95 11 180 NBR 04F35C1116ACF 4 B41 1/4 3/32 1/4 3/32 0.20 1.10 0 100 100 100 10 185 NBR 7131EBN2LN00* 7 B40 1/4 3/32 1/4 3/32 0.20 1.10 0 100 100 100 10 185 NBR 7131EBN2LNJ1* 7 B40 1/4 9/32 11/32 – 0.80 1.20 10 200 200 200 6 180 NBR 04F38C1122AAF 1 B42 3/8 9/32 11/32 – 0.80 1.20 10 200 200 200 6 180 NBR 06F38C1122AAF 1 B42 DC TECHNICAL SPECIFICATIONS 1/4 3/32 1/4 – 0.20 0.73 5 115 115 60 11.5 104 NBR 04F35C1116A3F 6 B41 1/4 3/32 1/4 3/32 0.20 1.10 0 100 100 100 10 185 NBR 7131EBN2LN00* 7 B40 1/4 3/32 1/4 3/32 0.20 1.10 0 100 100 100 10 185 NBR 7131EBN2LNJ1* 7 B40 1/4 9/32 11/32 – 0.80 1.20 10 200 200 200 9.5 120 NBR 04F38C1122A1F 3 B42 3/8 9/32 11/32 – 0.80 1.20 10 200 200 200 9.5 120 NBR 06F38C1122A1F 3 B42 3-Way Normally Closed – Quick Exhaust – Stainless Steel Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Body NC Body NO Sleeve Size In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 3/64 1/8 3/32 0.052 0.35 0 250 250 250 10 185 NBR 71313SN2EN00* 7 B43 1/4 3/64 1/8 3/32 0.052 0.35 0 250 250 250 10 185 NBR 71313SN2ENJ1* 7 B43 1/4 1/16 1/8 3/32 0.090 0.35 0 200 200 200 10 185 NBR 71313SN2GN00* 7 B43 1/4 1/16 1/8 3/32 0.090 0.35 0 200 200 200 10 185 NBR 71313SN2GNJ1* 7 B43 1/4 3/32 1/8 3/32 0.110 0.35 0 125 125 125 10 185 NBR 71313SN2KN00* 7 B43 1/4 3/32 1/8 3/32 0.110 0.35 0 125 125 125 10 185 NBR 71313SN2KNJ1* 7 B43 1/4 1/8 1/8 3/32 0.130 0.35 0 90 90 90 10 185 NBR 71313SN2MN00* 7 B43 1/4 1/8 1/8 3/32 0.130 0.35 0 90 90 90 10 185 NBR 71313SN2MNJ1* 7 B43 *These valves operate at 0 PSI, however, a 2 PSI pressure differential is required to activate the pressure operated quick exhaust poppet. B47 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Normally Closed – Quick Exhaust – Stainless Steel (Continued) Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Body NC Body NO Sleeve Size In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve DC TECHNICAL SPECIFICATIONS 1/4 3/64 1/8 3/32 0.052 0.35 0 250 250 250 10 185 NBR 71313SN2EN00* 7 B43 1/4 3/64 1/8 3/32 0.052 0.35 0 250 250 250 10 185 NBR 71313SN2ENJ1* 7 B43 1/4 1/16 1/8 3/32 0.090 0.35 0 200 200 200 10 185 NBR 71313SN2GN00* 7 B43 1/4 1/16 1/8 3/32 0.090 0.35 0 200 200 200 10 185 NBR 71313SN2GNJ1* 7 B43 1/4 3/32 1/8 3/32 0.110 0.35 0 125 125 125 10 185 NBR 71313SN2KN00* 7 B43 1/4 3/32 1/8 3/32 0.110 0.35 0 125 125 125 10 185 NBR 71313SN2KNJ1* 7 B43 1/4 1/8 1/8 3/32 0.130 0.35 0 90 90 90 10 185 NBR 71313SN2MN00* 7 B43 1/4 1/8 1/8 3/32 0.130 0.35 0 90 90 90 10 185 NBR 71313SN2MNJ1* 7 B43 3-Way Normally Open – Quick Exhaust – Brass Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Reference Body NC Body NO Sleeve Size In Exh. Min. Air, Inert Gas Water Light Oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 3/32 1/4 – 0.20 0.73 5 160 160 95 11 180 NBR 04F35O1116ACF 4 B41 1/4 9/32 11/32 – 0.80 1.20 10 200 200 200 11 180 NBR 04F38O1122ACF 4 B42 3/8 9/32 11/32 – 0.80 1.20 10 200 200 200 11 180 NBR 06F38O1122ACF 4 B42 DC TECHNICAL SPECIFICATIONS 1/4 3/32 1/4 – 0.20 0.73 5 100 100 50 11.5 180 NBR 04F35O1116A3F 6 B41 1/4 9/32 11/32 – 0.80 1.20 10 200 200 200 11.5 180 NBR 04F38O1122A3F 6 B42 3/8 9/32 11/32 – 0.80 1.20 10 200 200 200 11.5 180 NBR 06F38O1122A3F 6 B42 *These valves operate at 0 PSI, however, a 2 PSI pressure differential is required to activate the pressure operated quick exhaust poppet. B48 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B40 Valve Reference B41 2-11/32 1-23/32 1/2 NPT 1-17/32 1-3/16 EXHAUST PORT PORT 3 7/8 1-13/16 2-63/64 3-39/64 2-23/32 7/8 DIA for 1/2” conduit connection 2-11/32 1-23/32 1/2 NPT 1-17/32 1-3/16 EXHAUST PORT PORT 3 7/8 1-13/16 2-63/64 3-39/64 2-23/32 7/8 DIA for 1/2” conduit connection 3-Way Normally Closed Port Identification 1-Pressure/ 2-Cylinder/ 3-Exhaust 3-Way Normally Closed 04F35Cxx Port identification: Pressure is at 2 | CYL. 1 3-Way Normally Open 04F35Oxx Port identification: Pressure is at 3 | CYL. 1 3-Way Universal 04F35Uxx Port identification: Pressure can be applied at either port B49 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way Valve Reference B42 Valve Reference B43 1.62 (41.1) MECHANICAL OPTION “J1” 1.62 DIA (41.1) .67 (17.2) 2.76 (7O.1) 2.76 (7O.1) 1.95 (49.5) .7O (17.8) 4.O5 (1O2.9) 1.28 (32.5) 1 3 2 3-way Normally closed Port identification: 1-pressure/2-cylinder/3-exhaust 2-11/32 E 1-19/64 1-23/32 1-3/16 D C A 1-7/8 1/2 NPT P E 3-11/64 1-3/64 A B 7/8 DIA for 1/2” conduit connection 55/64 1-19/64 1-23/32 1-3/16 D C A 1-7/8 1/2 NPT 3-11/64 1-3/64 3-Way Normally Closed 04F38Cxx and 06F38Cxx 3-Way Normally Open 04F38Oxx and 06F38Oxx Normally Closed Normally Open A 1 – 21/32 1 – 23/32 B 3 – 33/64 3 – 37/64 C 23/32 7/8 D 1 – 5/16 1 – 17/32 E 1 – 9/16 1 – 13/16 Port Identification: P – PRESSURE | A – CYl. | E- EXH B50 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 3-Way 3-Way Quick Exhaust Materials of Construction** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 7131EBN 10 3WNC 1/4 Brass 304SS 430FR 430F 430FR 301SS Copper 150°F 71313SN 10 3WNC 1/8 – 1/4 430F 304SS 430FR 430F 430FR 18-8SS Copper 150°F 04F35C1 11.5 3WNC 1/4 Brass 305SS 430FR 430F 430FR 302SS Copper 180°F 04F35O1 6 3WNO 1/4 Brass 305SS 430FR 430F 430FR 302SS Copper 180°F 04F38C1 6 3WNC 1/4 Brass 305SS 430FR 430F 430FR 302SS Copper 180°F 04F38O1 6 3WNO 1/4 Brass 305SS 430FR 430F 430FR 302SS Copper 180°F 06F38C1 11.5 3WNC 3/8 Brass 305SS 430FR 430F 430FR 302SS Copper 180°F 06F38O1 11.5 3WNO 3/8 Brass 305SS 430FR 430F 430FR 302SS Copper 180°F 04F35C1 11.5 3WNC 1/4 Brass 305SS 430FR 430F 430FR 302SS Copper 104°F 04F35O1 11.5 3WNO 1/4 Brass 305SS 430FR 430F 430FR 302SS Copper 104°F 04F38C1 11.5 3WNC 1/4 Brass 305SS 430FR 430F 430FR 302SS Copper 120°F 04F38O1 11.5 3WNO 1/4 Brass 305SS 430FR 430F 430FR 302SS Copper 120°F 06F38C1 11.5 3WNC 3/8 Brass 305SS 430FR 430F 430FR 302SS Copper 120°F 06F38O1 11.5 3WNO 3/8 Brass 305SS 430FR 430F 430FR 302SS Copper 120°F * Shows first 7 digits of pressure vessel. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. Notes C1 General Description: 4-Way Direct Acting and Pilot Operated valves are used in applications for actuation of double acting cylinders and piloting of larger control valves. Pilot operated valves require the minimum operating pressure differential specified to ensure proper operation. Direct Acting valves do not have a minimum pressure differential requirement. Installation Valves can be mounted in any position. The preferred orientation is with the coil vertical and upright. Standard Materials of Construction Please refer to page C15. Compatible Fluids Lubricated Air, Inert Gases, Water, Light Oil (300 SSU) and additional fluids compatible with materials of construction, as shown in the product specification charts. Use of non-lubricated gaseous media can affect valve life. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60–110/50 240/60–220/50 DC – 12, 24 & 120 For other voltages – consult factory Coil Classification: Class F standard, Class H available Class B standard on V9xx models Agency Approvals: Standard valves with NEMA 4X or explosion proof solenoid enclosures are UL Listed and CSA Certified. (Consult Factory for Approvals on Models V933, V935 and V955). SIL-3 Capable (Models 73417xx, 74417xx, 73477xx). See certificate on page F20 in the Technical section of this catalog. For additional details, consult factory. Maximum Ambient Temperature 167°F Minimum Ambient Temperature -40°F for models 73417xx, 74417xx and 73477xx. Dew point must be more than 7°F below ambient. Applications: • Pilot valve actuation of control valves • Oil and gas including off-shore • Double acting cylinder control • Air vises and Air motors • Damper control Please refer to page C15 for details. 4-Way Direct Acting & Pilot Operated Valves 1/8″ – 1/2″ NPT 4-Way C2 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way 4/2, 4-Way 2 Position Single Solenoid – Brass* Port Size NPT Orifice Size in. Flow Factor Cv** Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Pressure Vessel Number with Metering Pressure Vessel Number with Manual Operator Reference Min. Air, Inert Gas, Water & light oil Coil Valve AC TECHNICAL SPECIFICATIONS (Available ONLY in AC) 1/4 3/16 0.75 0 125 24 160 NBR 71417BN2SN00 71417BN2SNR1 71417BN2SNM0 10 C9 3/8 3/16 0.75 0 125 24 160 NBR 71417BN3SN00 71417BN3SNR1 71417BN3SNM0 10 C9 *Minimum ambient temperature: -40°F (-40°C). Dew point must be more than 7° F below ambient temperature. ** Cv=0.45 with built-in metering control (Digits 11 and 12 are R1) 4/2, 4-Way 2 Position Dual Solenoid – Brass* Port Size NPT Orifice Size in. Flow Factor Cv** Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number Pressure Vessel Number with Metering Pressure Vessel Number with Manual Operator Reference Min. Air, Inert Gas, Water & light oil Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 3/16 0.75 0 125 24 160 NBR 71477BN2SN00 71477BN2SNR1 – 10 C9 3/8 3/16 0.75 0 125 24 160 NBR 71477BN3SN00 71477BN3SNR1 – 10 C9 * Minimum ambient temperature: -40°F (-40°C). Dew point must be more than 7° F below ambient temperature. ** Cv=0.45 with built-in metering control (Digits 11 and 12 are R1) 4/2, 4-Way 2 Position Single Solenoid – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential PSI Watt Max. Fluid Temp. °F Seal Pressure Vessel Reference In Exh. Min. Air, Inert Gas Water Light Oil (300 SSU) Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 1/16 1.59 0.09 10 150 150 150 11 180 NBR 04F48S2106ACF 4 C8 DC TECHNICAL SPECIFICATIONS 1/4 1/16 1.59 0.09 10 100 100 100 11.5 104 NBR 04F48S2106A3F 6 C8 C3 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way 4-Way Direct Acting Normally Closed – Normally Closed Aluminum Port Size NPT Orifice Size in. Valve #1 Normally Closed Cv Flow Factor Valve #1 Normally Closed Orifice Size in. Valve #2 Normally Closed Cv Flow Factor Valve #2 Normally Closed Operating Pressure Differential PSI Watt Max. Fluid Temp. °F Seal Pressure Vessel Number without Metering Pressure Vessel Number with Inlet and Exaust Metering Reference In Exh. In Exh. In Exh. In Exh. Min. Air, Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 3/64 1/16 0.05 0.10 3/64 1/16 0.05 0.10 0 150 10 130 NBR V933LB2150 V933LEF2150 * C5 1/4 1/16 3/32 0.10 0.14 1/16 3/32 0.10 0.14 0 100 10 130 NBR V933LB2100 V933LEF2100 * C5 1/4 3/32 3/32 0.16 0.14 3/32 3/32 0.16 0.14 0 75 10 130 NBR V933LB2075 V933LEF2075 * C5 4-Way Direct Acting Normally Closed – Normally Open Aluminum Port Size NPT Orifice Size in. Valve #1 Normally Closed Cv Flow Factor Valve #1 Normally Closed Orifice Size in. Valve #2 Normally Closed Cv Flow Factor Valve #2 Normally Closed Operating Pressure Differential PSI Watt Max. Fluid Temp. °F Seal Pressure Vessel Number without Metering Pressure Vessel Number with Inlet and Exaust Metering Reference In Exh. In Exh. In Exh. In Exh. Min. Air, Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 3/64 1/16 0.05 0.10 3/64 1/16 0.05 0.10 0 150 10 130 NBR V935LB2150 V935LEF2150 * C5 1/4 1/16 3/32 0.10 0.14 1/16 1/8 0.08 0.18 0 100 10 130 NBR V935LB2100 V935LEF2100 * C5 1/4 3/32 3/32 0.16 0.14 3/32 1/8 0.14 0.21 0 75 10 130 NBR V935LB2075 V935LEF2075 * C5 4-Way Direct Acting Normally Open – Normally Open Aluminum Port Size NPT Orifice Size in. Valve #1 Normally Closed Cv Flow Factor Valve #1 Normally Closed Orifice Size in. Valve #2 Normally Closed Cv Flow Factor Valve #2 Normally Closed Operating Pressure Differential PSI Watt Max. Fluid Temp. °F Seal Pressure Vessel Number without Metering Pressure Vessel Number with Inlet and Exaust Metering Reference In Exh. In Exh. In Exh. In Exh. Min. Air, Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 3/64 1/16 0.05 0.10 3/64 1/16 0.05 0.10 0 150 10 130 NBR V955LB2150 V955LEF2150 * C5 1/4 1/16 1/8 0.08 0.18 1/16 1/8 0.08 0.18 0 100 10 130 NBR V955LB2100 V955LEF2100 * C5 1/4 3/32 1/8 0.14 0.18 3/32 1/8 0.14 0.21 0 75 10 130 NBR V955LB2075 V955LEF2075 * C5 Voltage 24/60 120/60 240/60 12VDC 24VDC Coil Code AB2A7W AB6A0Z AB8B6A DC1A3X DC2A4Y Coil Part Number* V57724F24 V57731F24 V57734F24 V57727F24 V57730F24 *When ordering a replacement coil, use Coil Part Number (not Coil Code) Select the series V9 pressure vessel number from above and follow with the coil/enclosure number based on voltage from Fig. 1. Example V935LB2150 for 120/60 becomes part number V935LB2150AB6A0Z. *Fig. 1 AC Power Consumption Rating VA Holding VA Inrush 17.5 32.5 DC Power Consumption Rating 12 VDC 24 VDC 120 VDC 0.71 0.35 0.07 C4 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way 5/2, 4-Way 2 Position Dual Solenoid – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air, Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 11/64 0.55 30 150 10 167 NBR 73477BN2KN00 73477BN2KNM0 73477BN2KN7A 7 C3 1/4 11/64 0.55 30 150 1.5 150 NBR 73477BN2KN00 73477BN2KNM0 73477BN2KN7A 11 C3 1/4 1/4 1.20 30 150 10 167 NBR 73477BN2PN00 73477BN2PNM0 73477BN2PN7A 7 C3 1/4 1/4 1.20 30 150 1.5 150 NBR 73477BN2PN00 73477BN2PNM0 73477BN2PN7A 11 C3 1/4 1/4 1.20 30 150 0.6 150 NBR 73477BN2PN90 – – 12 C3 1/2 5/8 4.00 30 150 10 167 NBR 73477BN4UN00 73477BN4UNM0 73477BN4UN7A 7 C11 1/2 5/8 4.00 30 150 1.5 150 NBR 73477BN4UN00 73477BN4UNM0 73477BN4UN7A 11 C11 1/2 5/8 4.00 30 150 0.6 150 NBR 73477BN4UN90 – – 12 C11 5/2, 4-Way 2 Position Single Solenoid – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air, Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 11/64 0.55 30 150 10 167 NBR 73417BN2KN00 73417BN2KNM0 73417BN2KN7A 7 C1 1/4 11/64 0.55 30 150 1.5 150 NBR 73417BN2KN00 73417BN2KNM0 73417BN2KN7A 11 C1 1/4 1/4 1.20 30 150 10 167 NBR 73417BN2PN00 73417BN2PNM0 73417BN2PN7A 7 C1 1/4 1/4 1.20 30 150 1.5 150 NBR 73417BN2PN00 73417BN2PNM0 73417BN2PN7A 11 C1 1/4 1/4 1.20 30 150 0.6 150 NBR 73417BN2PN90 – – 12 C1 1/2 5/8 4.00 30 150 10 167 NBR 73417BN4UN00 73417BN4UNM0 – 7 C10 1/2 5/8 4.00 30 150 1.5 150 NBR 73417BN4UN00 73417BN4UNM0 – 11 C10 1/2 5/8 4.00 30 150 0.6 150 NBR 73417BN4UN90 – – 12 C10 C5 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way 5/2, 4-Way 2 Position Single Solenoid – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air, Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 11/64 0.55 30 150 10 167 NBR 73417VN2KN00 73417VN2KNM0 73417VN2KN7A 7 C1 1/4 11/64 0.55 30 150 1.5 150 NBR 73417VN2KN00 73417VN2KNM0 73417VN2KN7A 11 C1 1/4 11/64 0.55 30 150 0.6 150 NBR 73417VN2KN90 – – 12 C1 1/4 1/4 1.20 30 150 10 167 NBR 73417VN2PN00 73417VN2PNM0 73417VN2PN7A 7 C1 1/4 1/4 1.20 30 150 1.5 150 NBR 73417VN2PN00 73417VN2PNM0 73417VN2PN7A 11 C1 5/2, 4-Way 2 Position Single Solenoid – Brass External Pilot* Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air, Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 1/4 1.20 0 150 10 167 NBR 74417BN2PN00 – – 7 C4 1/4 1/4 1.20 0 150 1.5 150 NBR 74417BN2PN00 – – 11 C4 * External pilot pressure to operate valve must be 30 – 150 psi. 5/2, 4-Way 2 Position Dual Solenoid – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air, Inert Gas Watt Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 11/64 0.55 30 150 10 167 NBR 73477VN2KN00 73477VN2KNM0 73477VN2KN7A 7 C3 1/4 11/64 0.55 30 150 1.5 150 NBR 73477VN2KN00 73477VN2KNM0 73477VN2KN7A 11 C3 1/4 11/64 0.55 30 150 0.6 150 NBR 73477VN2KN90 – – 12 C3 1/4 1/4 1.20 30 150 10 167 NBR 73477VN2PN00 73477VN2PNM0 73477VN2PN7A 7 C3 1/4 1/4 1.20 30 150 1.5 150 NBR 73477VN2PN00 73477VN2PNM0 73477VN2PN7A 11 C3 C6 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way 5/2, 4-Way 2 Position Single Solenoid – Aluminum Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air, Inert Gas Watt Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/8 5/32 0.35 15 150 10 167 NBR – 7341LAN1HNM0 – 7 C6 1/4 1/4 1.00 30 150 10 167 NBR 73419AN2NN00 73419AN2NNM0 – 7 C2 5/2, 4-Way 2 Position Single Solenoid – Zinc Alloy (Epoxy Coated) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air, Inert Gas Watt Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 5/16 1.40 15 150 10 167 NBR – 7341LMN2NNM0 – 7 C7 5/2, 4-Way 2 Position Single Solenoid – Stainless Steel – External Pilot* Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air, Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 11/64 0.55 0 150 10 167 NBR 74417VN2KN00 – – 7 C4 1/4 11/64 0.55 0 150 1.5 150 NBR 74417VN2KN00 – – 11 C4 1/4 1/4 1.20 0 150 10 167 NBR 74417VN2PN00 – – 7 C4 1/4 1/4 1.20 0 150 1.5 150 NBR 74417VN2PN00 – – 11 C4 * External pilot pressure to operate valve must be 30 – 150 psi. C7 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way Valve Reference C1 1.62 .5O 1/4 NPT TYP 1.25 .94 .94 4.77 1.65 1.24 .74 .3O .4O .85 3.68 2.OO .4O 2.39 1/2 NPT Valve Reference C2 6.61 3.68 2.O1 .13 .47 SYM 1.75 1.49 .94 SYM 2.O7 .72 SYM .268 DIA THRU 2 PLC*5 1/4″ NPT 5 PLC*5 2.OO 1.1O 62 3.9O 2.21 G 1/8 1/2″ NPT 4-Way 2 position single solenoid Port identification: Press-1/Cyl – 2,4/ EXH – 3,5 4-Way 2 position single solenoid Port identification: Press-P/A-Cylinder/ EA-Exhaust/ B-Cylinder/ EB- Exhaust 1.62 .5O 1/4 NPT TYP 1.25 .94 .94 4.77 1.65 1.24 .74 .3O .4O .85 3.68 2.OO .4O 2.39 1/2 NPT 6.61 3.68 2.O1 .13 .47 SYM 1.75 1.49 .94 SYM 2.O7 .72 SYM .268 DIA THRU 2 PLC*5 1/4″ NPT 5 PLC*5 2.OO 1.1O 62 3.9O 2.21 G 1/8 1/2″ NPT C8 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way 2 Manual override mechanical option .29 1/2 NPT .47 .61 2 12 3 5 2 4 MOUNTING HOLE THRU 1/4 NPT TYP 2.76 1.95 1.26 .62 1.256 3.68 .58 .40 .74 .94 .30 .94 .50 2.39 2.00 .003 .94 2.12 2.12 2.59 2.59 1.62 1.24 1.65 4.77 2 1 Valve Reference C3 1.62 TYP 3.68 TYP .85 .40 1.24 TYP 1.65 .94 1/4 NPT TYP .50 TYP 1.25 2.39 TYP 1/2 NPT 2 PLC’s .94 2.00 5.17 Valve Reference C4 4-Way 2 position dual solenoid Port Identification: Press-1/CYL-2,4/EXH – 3,5 4-Way 2 position solenoid external pilot Port Identification: Press-1/CYL-2,4/EXH – 3,5 1 Manual override mechanical option C9 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way Valve Reference C5 .86 .53 1.62 3.25 4.31 2.69 2.37 P E CYL CYL CYL CYL 2.56 3.25 1.31 1.73 2.24 1/4 Thru Bolt Holes 4 PLC’s Valve Reference C6 .71 5 .71 .71 3.70 2.76 1.95 1.36 2.36 1.45 .91 .45 3.20 .47 .55 .55 .35 1.57 .22 DIA Thru 2 PLC’s 1/8”-27 NPT 5 PLC’s 4-way direct acting V933xx: Normally Closed-Normally Closed v935xx: Normally Closed-Normally Open v955xx: Normally Open-Normally Open 4-way 2 position single solenoid Port identification: pressure-1/cyl.A-2/cyl.B-4/exh.A-3/exh. B-5 V933xx V935xx V955xx .71 5 .71 .71 3.70 2.76 1.95 1.36 2.36 1.45 .91 .45 3.20 .47 .55 .55 .35 1.57 .22 DIA Thru 2 PLC’s 1/8”-27 NPT 5 PLC’s C10 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way Valve Reference C7 1.62 o o o 5 1 3 4 2 1.02 1.02 .75 1.81 1.81 1.38 .88 .44 .91 .94 .94 6.84 .44 3.62 2.75 5.52 2.76 1.95 .69 .69 .75 1.32 2.25 .25 DIA 4 PLC’s Valve Reference C8 4-Way 2 position single solenoid Port identification: pressure-1/cyl.A-2/cyl.B-4/Exh.A-3/Exh. B-5 4-Way 2 position single solenoid Port identification: de-energized: pressure to A B to exhaust energized: pressure to B A to exhaust C11 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way Valve Reference C9 Valve Reference C10 4-Way 2 position single solenoid Port Identification: Press-1/CYL-2,4/EXH – 3,5 4-Way 2 position single solenoid 4-Way 2 position dual solenoid Port Identification: Press-P/CYL-A,B/EXH – E C12 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way Valve Reference C11 4-Way 2 position dual solenoid Port Identification: 1-Pressure/2, 4-Cylinder/3, 5-Exhaust C13 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way V933 Four-Way Normally Closed – Normally Closed Valves When de-energized, both inlet ports are closed by the two plungers preventing flow from the common inlet through both of the valves. The cylinder port in each valve is open to the common exhaust, permitting flow from the cylinders to the exhaust. When the coils are energized, both valve plungers rise, opening the inlet orifices, and at the same time closing the orifices in the sleeves. This stops flow from the cylinder ports to the exhaust, and permits flow from the inlet to the cylinder ports. SIDE #1 SIDE #2 EXH #3 IN #1 CYL PORT #C1 CYL PORT #C2 VALVE #1 VALVE #2 SIDE #1 SIDE #2 EXH #3 IN #1 CYL PORT #C1 CYL PORT #C2 VALVE #1 VALVE #2 SIDE #1 SIDE #2 EXH #3 IN #1 CYL PORT #C1 CYL PORT #C2 VALVE #1 VALVE #2 SIDE #1 SIDE #2 EXH #3 IN #1 CYL PORT #C1 CYL PORT #C2 VALVE #1 VALVE #2 V935 Four-Way Normally Closed – Normally Open Valves The plungers of the two valves are at opposite positions in both the energized and de-energized conditions – one normally open while the other is normally closed. When de-energized, fluid flows from the inlet of the valve through the inlet port of the normally open valve, through the sleeve, and out the cylinder port of the valve. At the same time, the normally closed valve inlet orifice is closed, but the orifice in the sleeve is opened, permitting flow from its cylinder port to the common exhaust. Therefore, fluid flows from the inlet of the valve to the cylinder port of the normally open valve and from the cylinder port of the normally closed valve to the exhaust. When energized, the two valves reverse in position. SIDE #1 SIDE #2 EXH #3 IN #1 CYL PORT #C1 CYL PORT #C2 VALVE #1 VALVE #2 SIDE #1 SIDE #2 EXH #3 CYL PORT #C1 CYL PORT #C2 VALVE #1 SIDE #1 SIDE #2 EXH #3 IN #1 CYL PORT #C1 CYL PORT #C2 VALVE #1 VALVE #2 SIDE #1 SIDE #2 EXH #3 IN #1 CYL PORT #C1 CYL PORT #C2 VALVE #1 VALVE #2 Typical cylinder operation with V933 Valves Both coils de-energized. The inlet pressure is closed to both sides of a double-acting cylinder. Side #1 and Side #2 of the cylinder are open to exhaust through cylinder ports #C1 and #C2. The piston can be shifted manually. Coil of valve #1 energized; coil of valve #2 de-energized. The inlet pressure is open to side #1 of the double-acting cylinder through cylinder port #C1, the exhaust is closed off by the plunger insert. Side #2 of the cylinder is open to exhaust through cylinder port #C2, the inlet is closed off by the plunger insert. The piston moves to the right. Coil of valve #1 de-energized; coil of valve #1 energized. The inlet pressure is closed off to side #1 of the double-acting cylinder; the exhaust is open through cylinder port #C1. Side #2 of the cylinder is closed to the exhaust and open to inlet pressure through cylinder port #C2. The piston moves to the left. Typical cylinder operation with V935 Valves Both coils de-energized. The inlet pressure is open to side #2 of the doubleacting cylinder through cylinder port #C2 and the plunger insert closes off the exhaust. Side #1 of the cylinder is open to exhaust through cylinder port #C1 and the inlet pressure is closed off. This causes the piston in the cylinder to move to the left. Both coils energized. The inlet pressure is open to side #1 of the cylinder through cylinder port #C1 and the exhaust is closed off. Side #2 of the cylinder is open to the exhaust through cylinder port #C2 and the inlet pressure is closed off by the plunger insert. The piston moves to the right. SIDE #1 SIDE #2 EXH #3 IN #1 CYL PORT #C1 CYL PORT #C2 VALVE #1 VALVE #2 SIDE #1 SIDE #2 EXH #3 IN #1 CYL PORT #C1 CYL PORT #C2 VALVE #1 VALVE #2 SIDE #1 SIDE #2 EXH #3 IN #1 CYL PORT #C1 CYL PORT #C2 VALVE #1 VALVE #2 C14 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way V955 Four-Way Normally Open – Normally Open Valves Both plungers are in the same position when the coils are de-energized. In this condition, fluid flows through the common inlet of the body, up through the sleeves of both valves, and out the cylinder ports of the valves. Both orifices in the sleeve stops are closed to the exhaust ports by the plunger. In the energized position, both valve plungers operate together to close the inlet ports, stopping flow into the valve. At the same time, the orifices in the sleeves are opened permitting flow from the cylinder ports to the common exhaust port in the body. SIDE #1 SIDE #2 EXH #3 IN #1 CYL PORT #C1 CYL PORT #C2 VALVE #1 VALVE #2 SIDE #1 SIDE #2 EXH #3 IN #1 CYL PORT #C1 CYL PORT #C2 VALVE #1 VALVE #2 IN #1 VALVE #1 VALVE #2 SIDE #1 SIDE #2 EXH #3 IN #1 CYL PORT #C1 CYL PORT #C2 VALVE #1 VALVE #2 Typical cylinder operation with V955 Valves Both coils de-energized. The inlet pressure is open to both sides of the double-acting cylinder through cylinder port #C2 and the plunger insert closes off the exhaust. Side #1 of the cylinder is open to exhaust through cylinder port #C1 and the inlet pressure is closed off. This causes the piston in the cylinder to move to the left. Coil of valve #1 energized; coil of valve #2 de-energized. The inlet pressure is closed to side #1 of the double-acting cylinder and open to exhaust through cylinder port #C1. Side #2 of the cylinder is open to the inlet pressure, through cylinder port #C2. The exhaust is closed off by the plunger insert. The piston moves to the left. C15 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way 4-Way Pilot Piped Materials of Construction** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 73417AN 10 5/2 1/4 Alum 304SS 430FR 430F 430FR 18-8SS Copper 167°F 73417BN 10 5/2 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 167°F 73417BN 10 5/2 1/2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 167°F 73417VN 10 5/2 1/4 303 304SS 430FR 430F 430FR 18-8SS Copper 167°F 73419AN 10 5/2 1/4 Alum 304SS 430FR 430F 430FR 18-8SS Copper 167°F 7341LAN 10 5/2 1/8 Alum 304SS 430FR 430F 430FR 301SS Copper 150°F 7341LMN 10 5/2 1/4 Zinc 304SS 430FR 430F 430FR 301SS Copper 150°F 73477BN 10 5/2 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 167°F 73477BN 10 5/2 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 167°F 73477BN 10 5/2 1/2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 167°F 73477VN 10 5/2 1/4 303 304SS 430FR 430F 430FR 18-8SS Copper 167°F 74417BN 10 5/2 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 167°F 04F48S2 11 4/2 1/4 Brass 305SS 430FR 430F 430FR 302SS Copper 77°F 04F48S2 11.5 4/2 1/4 Brass 305SS 430FR 430F 430FR 302SS Copper 77°F * Shows first 4 or 7 digits of pressure vessel part number. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. 4-Way Direct Acting Materials of Construction** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 71417BN 24 4/2 1/4 – 3/8 Brass 304SS 430FR 430F 430FR 18-8SS Copper 140°F 71477BN 24 4/2 1/4 – 3/8 Brass 304SS 430FR 430F 430FR 18-8SS Copper 140°F V933 20 NC-NC 1/4 Aluminum 304SS 430FR 430F 430FR 18-8SS Copper 122°F V935 20 NC-NO 1/4 Aluminum 304SS 430FR 430F 430FR 18-8SS Copper 122°F V955 20 NC-NC 1/4 Aluminum 304SS 430FR 430F 430FR 18-8SS Copper 122°F C16 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way Notes C17 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way General Description: The NAMUR mounting interface for direct mount pilot valves has become widely popular around the world. Parker’s Direct Mount NAMUR valves meet that global need and are supplied with the necessary mounting hardware and seals as standard to ensure proper mounting, interface sealing and valve function. These valves can be converted between 3-way and 4-way operation by using Parker’s patented mounting conversion plate which is unique in the industry. (See Conversion Plate Kit on P. C22) Installation Valves can be mounted in any position. The preferred orientation is with the coil vertical and upright Standard Materials of Construction Please refer to page C22. Compatible Fluids Lubricated Air and Inert Gases. Use of non-lubricated gaseous media can affect valve life. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60–110/50 240/60–220/50 DC – 12, 24 & 120 For other voltages – consult factory Coil Classification: Class F standard Class H available Agency Approvals: Standard valves with NEMA Type 4X or explosion proof solenoid enclosures are UL Listed and CSA Certified. For additional details, consult factory. SIL-3 Capable (Models 73417xxx, 73477xxx). See certificate on page F20 in Technical Section of this catalog. Please refer to page C22 for details. Minimum Ambient Temperature -40° F (Dew point must be more than 7° F below ambient temp. Maximum Ambient Temperature 167° F Applications: • Pilot valve actuation of larger control valves • Oil and gas applications including off-shore installations • Double acting cylinder control requiring direct pilot mount valves • Air Vises • Air Motors • Damper Control Direct Mount NAMUR 3/2, 3-Way — 5/2, 4-Way Direct Acting and Pilot Operated Valves 1/4″ – 1/2″ NPT C18 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way 3/2 3-Way 2 Position-Single Solenoid-NAMUR Direct Mount – Aluminum Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Fluid Temp. °F Seal Pressure Vessel Reference Min. Air Inert Gas Coil Valve 1/4 3/32 0.17 0 150 10 167 NBR 71315AKDKN00 7 C12 3/2 or 5/2, 3- or 4-Way 2 Position – Single Solenoid – NAMUR Direct Mount – Aluminum Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Fluid Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 11/64 0.55 30 150 10 167 NBR 73417AKDKN00 73417AKDKNM0 73417AKDKN7A 7 C13 1/4 11/64 0.55 30 150 1.5 150 NBR 73417AKDKN00 73417AKDKNM0 73417AKDKN7A 11 C13 1/4 11/64 0.55 30 150 0.6 150 NBR 73417AKDKN90 – – 12 C13 1/4 1/4 1.20 30 150 10 167 NBR 73417AKDPN00 73417AKDPNM0 73417AKDPN7A 7 C13 1/4 1/4 1.20 30 150 1.5 150 NBR 73417AKDPN00 73417AKDPNM0 73417AKDPN7A 11 C13 1/4 1/4 1.20 30 150 0.6 150 NBR 73417AKDPN90 – – 12 C13 3/2 or 5/2, 3- or 4-Way 2 Position – Dual Solenoid – NAMUR Direct Mount – Aluminum Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Fluid Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 11/64 0.55 30 150 10 167 NBR 73477AKDKN00 73477AKDKNM0 73477AKDKN7A 7 C14 1/4 11/64 0.55 30 150 1.5 150 NBR 73477AKDKN00 73477AKDKNM0 73477AKDKN7A 11 C14 1/4 11/64 0.55 30 150 0.6 150 NBR 73477AKDKN90 – – 12 C14 1/4 1/4 1.20 30 150 10 167 NBR 73477AKDPN00 73477AKDPNM0 73477AKDPN7A 7 C14 1/4 1/4 1.20 30 150 1.5 150 NBR 73477AKDPN00 73477AKDPNM0 73477AKDPN7A 11 C14 1/4 1/4 1.20 30 150 0.6 150 NBR 73477AKDPN90 – – 12 C14 3/2 or 5/2, 3- or 4-Way 2 Position – Single Solenoid – NAMUR Direct Mount – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Fluid Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 1/4 1.20 30 150 1.5 150 NBR 73417BKDPN00 73417BKDPNM0 73417BKDPN7A 11 C13 1/4 1/4 1.20 30 150 10 167 NBR 73417BKDPN00 73417BKDPNM0 73417BKDPN7A 7 C13 C19 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way 3/2 or 5/2, 3- or 4 – Way 2 Position – Dual Solenoid – NAMUR Direct Mount – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Fluid Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 1/4 1.20 30 150 1.5 150 NBR 73477BKDPN00 73477BKDPNM0 73477BKDPN7A 11 C14 1/4 1/4 1.20 30 150 10 167 NBR 73477BKDPN00 73477BKDPNM0 73477BKDPN7A 7 C14 3/2 or 5/2, 3- or 4-Way 2 Position – Single Solenoid – NAMUR Direct Mount – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Fluid Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 11/64 0.55 30 150 1.5 150 NBR 73417VKDKN00 73417VKDKNM0 73417VKDKN7A 11 C13 1/4 11/64 0.55 30 150 10 167 NBR 73417VKDKN00 73417VKDKNM0 73417VKDKN7A 7 C13 1/4 1/4 1.20 30 150 1.5 150 NBR 73417VKDPN00 73417VKDPNM0 73417VKDPN7A 11 C13 1/4 1/4 1.20 30 150 10 167 NBR 73417VKDPN00 73417VKDPNM0 73417VKDPN7A 7 C13 3/2 or 5/2, 3- or 4-Way 2 Position – Dual Solenoid – NAMUR Direct Mount – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Fluid Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 11/64 0.55 30 150 1.5 150 NBR 73477VKDKN00 73477VKDKNM0 73477VKDKN7A 11 C14 1/4 11/64 0.55 30 150 10 167 NBR 73477VKDKN00 73477VKDKNM0 73477VKDKN7A 7 C14 1/4 1/4 1.20 30 150 1.5 150 NBR 73477VKDPN00 73477VKDPNM0 73477VKDPN7A 11 C14 1/4 1/4 1.20 30 150 10 167 NBR 73477VKDPN00 73477VKDPNM0 73477VKDPN7A 7 C14 3/2 or 5/2, 3- or 4-Way 2 Position – Single Solenoid – NAMUR Direct Mount – Brass – External Pilot* Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Fluid Temp. °F Seal Pressure Vessel Number without Manual Override Pressure Vessel Number with Locking Manual Override Pressure Vessel Number with Momentary Manual Override Reference Min. Air Inert Gas Coil Valve AC/DC TECHNICAL SPECIFICATIONS 1/4 1/4 1.20 0 150 1.5 150 NBR 74417BKDPN00 – – 11 C15 1/4 1/4 1.20 0 150 10 167 NBR 74417BKDPN00 – – 7 C15 * External pilot pressure to operate valve must be 30-150 PSI. C20 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way Valve Reference C12 3-Way Normally Closed Port Identification: 1- Pressure/2 – Cylinder/3 – Exhaust Valve Reference C13 5/2, 4-Way 2 Position Single Solenoid Port Identification: 1- Pressure/2, 4 – Cylinder/3, 5 – Exhaust C21 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way 5/2, 4-Way 2 Position Single Solenoid Port Identification: 1- Pressure/2, 4 – Cylinder/3, 5 – Exhaust Valve Reference C14 5/2, 4-Way 2 Position Dual Solenoid Port Identification: 1- Pressure/2, 4 – Cylinder/3, 5 – Exhaust Valve Reference C15 C22 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd 4-Way 4-Way Pilot Direct Mount Materials of Construction** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 71315AK 10 3WNC NAMUR Alum 304ss 430FR 430F 430FR 19-8SS Copper 167°F 73417AK 10 3/2-5/2 1/4 Alum 304SS 430FR 430F 430FR 18-8SS Copper 167°F 73417BK 10 3/2-5/2 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 167°F 73417VK 10 3/2-5/2 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 167°F 73477AK 10 3/2-5/2 1/4 Alum 304SS 430FR 430F 430FR 18-8SS Copper 167°F 73477BK 10 3/2-5/2 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 167°F * Shows first 7 digits of pressure vessel part number. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. Parker’s 3-way/4-way Conversion Mounting Plate Kit This conversion mounting kit, unique in the industry, allows a common valve to be installed and used in either a 3-way or 4-way function. Available with U.S., or Metric mounting screws. Consult factory for the specific kit number that meets your requirements. D1 General Description: Parker Fluid Control Division offers a wide variety of products for many Specialty Applications. In this section: • Manifold mounted miniature cartridge valves • MB 3-way miniature – plastic • Dry operator 2-way • Hot water and steam valves • Intrinsically safe series • Manual reset / 3-way • Hydraulic 2-way & 3-way • Magnelatch® coil option • Fuel dispensing valves • Fuel selector manifold • CNG valves • Timer drain valves Specialty Service Valve Portfolio Parker’s solenoid valves have been sold in many markets for more than 60 years. Over that time, the offering has continually expanded to become a very extensive family of valves for both general purpose and special purpose applications. This section details Fluid Control Division’s special purpose line of valves. These valves were developed from years of experience in these specialty markets along with a thorough understanding of the unique needs required to ensure optimal performance. The valves in this section have NPT threads as standard, or specialty flange configurations and are equipped with coils and housings when needed that are designed to meet the National Electric Code in the US and Canadian standards. Most all of these valves are UL listed and CSA certified. Consult factory for further details. Specialty D2 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Specialty Contents Manifold mounted miniature cartridge valves 2-Way & 3-Way …………………………………………………………..D3 MB 3-Way miniature – plastic ………………………………………………………………………………………………………..D9 Dry operator 2-Way ……………………………………………………………………………………………………………………D13 Hot water & steam valves ……………………………………………………………………………………………………………D17 Intrinsically safe series ……………………………………………………………………………………………………………….D35 Manual reset / 3-Way valves ……………………………………………………………………………………………………….D53 Hydraulic 2-Way & 3-Way …………………………………………………………………………………………………………..D57 Magnelatch® coil option ……………………………………………………………………………………………………………..D63 Fuel dispensing valves ……………………………………………………………………………………………………………….D67 Fuel selector manifold ………………………………………………………………………………………………………………..D71 CNG valves ……………………………………………………………………………………………………………………………….D73 Timer drain valves ……………………………………………………………………………………………………………………..D75 D3 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty General Description: The manifold mounted miniature Cartridge Valve is offered in twoand three-way models with a stainless steel body. It offers a space-saving approach, with no manifold orifices to machine or press in, since the orifice is integral to the cartridge valve. Ultimately, less machining means lower manifold costs. These cartridge valves come fully assembled with no loose parts – the sleeve, plunger, spring and orifice are pressed together as one unit. Installation Valves can be mounted in any position. The preferred orientation is with the coil vertical and upright. Standard Materials of Construction Please refer to page D8. Compatible Fluids Lubricated Air, Inert Gases, Water, Light Oil (300 SSU) and additional fluids compatible with materials of construction. Use of non-lubricated gaseous media can affect valve life. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60–110/50 240/60–220/50 DC – 12, 24 For other voltages – consult factory Coil Classification: Class F standard Class H available AC & DC coils are interchangeable on the same pressure vessel. Agency Approvals: Standard valves with NEMA 4X are C-UL-US Listed or Recognized. For additional details, consult factory. Maximum Ambient Temperature 135°F (AC)/125°F (DC) In absence of moisture, applications at temps as low as -20°F are possible. Please refer to page D8 for details. Applications: • Analyzers and diagnostic equipment • Medical and dental equipment • Beverage dispensing and vending machines • Humidification and misting equipment • Pneumatic positioning • Automatic dispensing equipment • Irrigation equipment • Instrumentation panels • Lubrication equipment • Refrigerant reclaim • Automotive diagnostics/service Manifold Mounted Miniature Cartridge Valves 2-Way & 3-Way Direct Acting Miniature Cartridge Valves D4 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 2-Way Small Direct Acting – Normally Closed – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Watt Coil Valve AC TECHNICAL SPECIFICATIONS CONTINUED 1/8 3/64 0.06 0 950 950 950 8.5 240 FKM 209CL5EV4 9 D1 1/8 1/16 0.10 0 625 625 625 8.5 240 FKM 209CL5GV4 9 D1 1/8 5/64 0.15 0 450 450 450 8.5 240 FKM 209CL5JV4 9 D1 1/8 3/32 0.22 0 320 320 320 8.5 240 FKM 209CL5LV4 9 D1 1/8 7/64 0.28 0 245 245 245 8.5 240 FKM 209CL5MV4 9 D1 1/8 1/8 0.32 0 175 175 175 8.5 240 FKM 209CL5PV4 9 D1 1/8 5/32 0.38 0 100 100 100 8.5 240 FKM 209CL5QV4 9 D1 DC TECHNICAL SPECIFICATIONS CONTINUED 1/8 3/64 0.06 0 390 390 390 8 240 FKM 209CL5EV4 9 D1 1/8 1/16 0.10 0 255 255 255 8 240 FKM 209CL5GV4 9 D1 1/8 5/64 0.15 0 180 180 180 8 240 FKM 209CL5JV4 9 D1 1/8 3/32 0.22 0 130 130 130 8 240 FKM 209CL5LV4 9 D1 1/8 7/64 0.28 0 100 100 100 8 240 FKM 209CL5MV4 9 D1 1/8 1/8 0.32 0 60 60 60 8 240 FKM 209CL5PV4 9 D1 1/8 5/32 0.38 0 30 30 30 8 240 FKM 209CL5QV4 9 D1 2-Way Small Direct Acting – Normally Open – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Air, Inert Gas Water Light Oil Watt Coil Valve AC TECHNICAL SPECIFICATIONS CONTINUED 1/8 1/32 0.02 0 375 375 375 10 240 FKM 209FL5AV4 9 D2 1/8 3/64 0.06 0 230 230 230 10 240 FKM 209FL5EV4 9 D2 1/8 1/16 0.10 0 150 150 150 10 240 FKM 209FL5GV4 9 D2 1/8 5/64 0.14 0 105 105 105 10 240 FKM 209FL5JV4 9 D2 1/8 3/32 0.20 0 80 80 80 10 240 FKM 209FL5LV4 9 D2 DC TECHNICAL SPECIFICATIONS CONTINUED 1/8 1/32 0.02 0 375 375 375 8 240 FKM 209FL5AV4 9 D2 1/8 3/64 0.06 0 230 230 230 8 240 FKM 209FL5EV4 9 D2 1/8 1/16 0.10 0 150 150 150 8 240 FKM 209FL5GV4 9 D2 1/8 5/64 0.14 0 105 105 105 8 240 FKM 209FL5JV4 9 D2 1/8 3/32 0.20 0 80 80 80 8 240 FKM 209FL5LV4 9 D2 D5 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 3-Way Small Direct Acting – Normally Closed – Stainless Steel Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Watt Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.02 0.02 0 250 250 250 10 240 FKM 309CL5AV4 9 D2 1/8 3/64 3/64 0.05 0.05 0 200 200 200 10 240 FKM 309CL5EV4 9 D2 1/8 1/16 1/16 0.09 0.10 0 130 130 130 10 240 FKM 309CL5GV4 9 D2 1/8 5/64 5/64 0.15 0.14 0 90 90 90 10 240 FKM 309CL5JV4 9 D2 1/8 3/32 3/32 0.19 0.20 0 75 75 75 10 240 FKM 309CL5LV4 9 D2 1/8 7/64 3/32 0.25 0.20 0 50 50 50 10 240 FKM 309CL5MV4 9 D2 1/8 1/8 3/32 0.32 0.20 0 40 40 40 10 240 FKM 309CL5PV4 9 D2 1/8 5/32 3/32 0.38 0.20 0 25 25 25 10 240 FKM 309CL5QV4 9 D2 DC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.02 0.02 0 250 250 250 8 240 FKM 309CL5AV4 9 D2 1/8 3/64 3/64 0.05 0.05 0 200 200 200 8 240 FKM 309CL5EV4 9 D2 1/8 1/16 1/16 0.09 0.10 0 130 130 130 8 240 FKM 309CL5GV4 9 D2 1/8 5/64 5/64 0.15 0.14 0 90 90 90 8 240 FKM 309CL5JV4 9 D2 1/8 3/32 3/32 0.19 0.20 0 75 75 75 8 240 FKM 309CL5LV4 9 D2 1/8 7/64 3/32 0.25 0.20 0 50 50 50 8 240 FKM 309CL5MV4 9 D2 1/8 1/8 3/32 0.32 0.20 0 40 40 40 8 240 FKM 309CL5PV4 9 D2 1/8 5/32 3/32 0.38 0.20 0 25 25 25 8 240 FKM 309CL5QV4 9 D2 3-Way Small Direct Acting – Normally Open – Stainless Steel Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Watt Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.02 0.02 0 375 375 375 10 240 FKM 309FL5AV4 9 D2 1/8 3/64 3/64 0.05 0.05 0 230 230 230 10 240 FKM 309FL5EV4 9 D2 1/8 1/16 1/16 0.10 0.09 0 150 150 150 10 240 FKM 309FL5GV4 9 D2 1/8 5/64 5/64 0.14 0.15 0 105 105 105 10 240 FKM 309FL5JV4 9 D2 1/8 3/32 3/32 0.20 0.19 0 80 80 80 10 240 FKM 309FL5LV4 9 D2 DC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.02 0.02 0 375 375 375 8 240 FKM 309FL5AV4 9 D2 1/8 3/64 3/64 0.05 0.05 0 230 230 230 8 240 FKM 309FL5EV4 9 D2 1/8 1/16 1/16 0.10 0.09 0 150 150 150 8 240 FKM 309FL5GV4 9 D2 1/8 5/64 5/64 0.14 0.15 0 105 105 105 8 240 FKM 309FL5JV4 9 D2 1/8 3/32 3/32 0.20 0.19 0 80 80 80 8 240 FKM 309FL5LV4 9 D2 D6 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 3-Way Small Direct Acting – Universal – Stainless Steel Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number Reference In Exh. In Exh. Min. Air, Inert Gas Water Light Oil Watt Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.020 0.020 0 200 200 200 10 240 FKM 309UL5AV4 9 230 1/8 3/64 3/64 0.050 0.050 0 150 150 150 10 240 FKM 309UL5EV4 9 230 1/8 1/16 1/16 0.090 0.100 0 100 100 100 10 240 FKM 309UL5GV4 9 230 1/8 5/64 5/64 0.150 0.140 0 70 70 70 10 240 FKM 309UL5JV4 9 230 1/8 3/32 3/32 0.190 0.200 0 50 50 50 10 240 FKM 309UL5LV4 9 230 1/8 7/64 3/32 0.250 0.200 0 40 40 40 10 240 FKM 309UL5MV4 9 230 1/8 1/8 3/32 0.320 0.200 0 30 30 30 10 240 FKM 309UL5PV4 9 230 1/8 5/32 3/32 0.380 0.200 0 20 20 20 10 240 FKM 309UL5QV4 9 230 DC TECHNICAL SPECIFICATIONS 1/8 1/32 1/32 0.020 0.020 0 200 200 200 8 240 FKM 309UL5AV4 9 230 1/8 3/64 3/64 0.050 0.050 0 150 150 150 8 240 FKM 309UL5EV4 9 230 1/8 1/16 1/16 0.090 0.100 0 100 100 100 8 240 FKM 309UL5GV4 9 230 1/8 5/64 5/64 0.150 0.140 0 70 70 70 8 240 FKM 309UL5JV4 9 230 1/8 3/32 3/32 0.190 0.200 0 50 50 50 8 240 FKM 309UL5LV4 9 230 1/8 7/64 3/32 0.250 0.200 0 40 40 40 8 240 FKM 309UL5MV4 9 230 1/8 1/8 3/32 0.320 0.200 0 30 30 30 8 240 FKM 309UL5PV4 9 230 1/8 5/32 3/32 0.380 0.200 0 20 20 20 8 240 FKM 309UL5QV4 9 230 Port Marking Arrangement Function over seat body flow under seat body flow sleeve 2-Way normally closed Marking Function 2 inlet 1 outlet – 2-Way normally open Marking Function 2 inlet – 3 outlet Port Marking Arrangement Function over seat body flow under seat body flow sleeve 3-Way normally closed Marking Function 2 outlet 1 inlet 3 exhaust 3-Way normally open Marking Function 2 outlet 1 exhaust 3 inlet 3-Way universal Marking Function 2 common 1 NC 3 NO Product Features: • Space saving approach • Less manifold machining means lower manifold cost • No manifold orifices to machine or press in • Cartridge valves are 100% tested • Easy to assemble and disassemble with a 5/32″ hex wrench to a torque of 25-35 in-lbs. • Available with all coil options from Chart 9 in coil section. D7 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D2 Valve Reference D1 2-Way Normally Closed (209CLxx) 1.94 .54 5/32 HEX 2 WAY NORMALLY CLOSED 3/4-24 UNS-2A TH’D 2 2.30 .54 PORT 1 PORT 2 4 PLC’S PORT 3 3/4″ HEX 3/4-24 UNS-2A TH’D 2 1. ALL DIMENSIONS REFERENCE ONLY 2. MANIFOLD CAVITY FOR 3/4-24 UNS-2B THREAD PER VMR-0462 3. REF VALVE NUMBERS 209XL5XX4B4X & 309XL5XX4B4X. 1.13 1.74 1.65 B 2-Way Normally Open (209FLxx) 3-Way Normally Closed (309CLxx) 3-Way Normally Open (309FLxx) 3-Way Universal (309ULxx) 2 Manifold cavity for 3/4-24 UNS-2B thread per VMR-0462 (See page D8) 2 Manifold cavity for 3/4-24 UNS-2B thread per VMR-0462 (See page D8) D8 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 2-Way Miniature Direct Acting Cartridge Mounted Valve Materials of Construction** Product* Wattage Type Sleeve Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 209CL5 8.5 (AC) 2WNC – 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 135°F 209CL5 8 (DC) 2WNC – 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 125°F 209FL5 10 (AC) 2WNC 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 135°F 209FL5 8 (DC) 2WNC 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 125°F * Shows the first 6 digits of the pressure vessel part number. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. 3-Way Miniature Direct Acting Cartridge Mounted Valve Materials of Construction** Product* Watt Type Sleeve Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 309CL5 10 (AC) 3WNC 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 135°F 309CL5 8 (DC) 3WNC 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 125°F 309FL5 10 (AC) 3WNO 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 135°F 309FL5 8 (DC) 3WNO 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 125°F 309UL5 10 (AC) 3WU 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 135°F 309UL5 8 (DC) 3WU 1/8 303SS 304SS 430FR 430FR 430FR 18-8SS Copper 125°F * Shows the first 6 digits of the pressure vessel part number. ** Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. SECTION A-A SCALE 2 : 1 DETAIL B SCALE 4 : 1 DETAIL C SCALE 4 : 1 A A B C C D D D E n .768 ` .001 R.030 n .313` .001 60° n .354 .275 MIN TH’D DEPTH .359 .550 MIN n .125 DR 2 PLC’S 32 32 .238 – .000 +.010 .200 .100 .085 TO INT R .020 MAX 45° DIAMETER AND SURFACE FINISH MUST BE MAINTAINED TO DEPTH SHOWN. n.710 MINOR DIA REF DEPTH OF .125 DR DEPENDS ON MANIFOLD DESIGN FOR PORT 2. (OVER SEAT) B 3. MANIFOLD MOUNT VALVE MUST BE IDENTIFIED WITH A LABEL WITH VMR-0462 REV X. 1 1 1 1 2 2 4 A MACHINED SURFACE OF IS ACCEPTABLE IF THE MACHINED SURFACE HAS A CIRCULAR LAY. 63 4 4 Ø.156 DR MAX 5 5 DEPTH OF .156 DR DEPENDS ON MANIFOLD DESIGN FOR PORT #1. (UNDER SEAT) 3/4-24 UNS-2B TH’D TO DEPTH SHOWN Warning: Please contact factory for the latest version of this cavity drawing before proceeding with any manifold machining. VMR-0462 Cavity Dimensional Drawing D9 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty General Description: MB Series valves are designed for the actuation of small air cylinders and clamps, and are suited for applications requiring low air flow. For manifolding, 2 or 3 station bases are offered. Manifolds can be bolted together to provide the desired banking combination. The valves are direct acting, multipurpose valves with all ports in the body. The valve body is molded from plastic, while the internal parts are nylon, polyester and stainless steel. The valves will operate at up to 150 PSI, consuming only 4 watts per coil on AC operation, 5 watts per coil on DC. Functional design flexibility is assured given the wide variety of available valve configurations. The listed accessories enable the user to customize MB Series valves as 2-way normally open or normally closed by plugging one port; 3-way normally open, normally closed or directional control. Installation Valves can be mounted in any position. The preferred orientation is with the coil vertical and upright. Compatible Fluids Lubricated air, non-lubricated air, and inert gases compatible with materials of construction. Standard Materials of Construction • Body—plastic • Seals—NBR • Sleeve—stainless steel (305) • Plunger—stainless steel (430FR) • Stop—stainless steel (430FR) • Spring—stainless (17-7PH) • Shading ring—copper (AC valves only) • Manifold base—zinc Operating Speed • Up to 1000 cycles per minute Coil Classification • Class A Taped, leaded coil standard Response Time (approximate): AC: 3-12 ms to open 5-16 ms to close DC: 8-14 ms to open 5-15 ms to close Electrical Characteristics: Voltages • AC—24/60, 120/60, 240/60 • DC—12, 24 &120 Power Consumption • 4 watts AC per coil • 5 watts DC per coil Maximum allowable internal seat leakage is 3 SCCM @125 psi. No allowable external leakage. 3-Way MB (Mini B) Direct Acting Valves – Miniature #10-32 Ports, 1/8 NPT & Manifolded Plastic Body Valves/Zinc Manifold Base D10 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 3-Way Direct Acting Valves Port Size Orifice Diameter Cv Factor Operating Pressure (PSI) Wattage Class A Tapped Leaded Coil Valve Ref. NC Port NO Port NC Port NO Port Minimum Maximum AC DC #10-32 Ports 3/64 3/64 0.032 0.028 0 150 4 5 MBD002 D3 Manifold Mounted 3/64 3/64 0.032 0.028 0 150 4 5 MBD005 D4 Valve Accessories Accessories Contents Part Number Valve Reference 2-Station Manifold Base Kit (for mounting 2 valves) 4 Port plugs MB-60-S001 4 No. 5 self tapping screws — 3-Station Manifold Base Kit (for mounting 3 valves) 5 Port plugs MB-60-S002 6 No. 5 self tapping screws — Manifold Interface Kit (connects 2 manifold bases) 1 No. 8 screw MB-60-S003 2 ”O” rings — Manifold Blank Station Kit (for sealing an unused station) 1 Plate MB-60-S004 2 ”O” rings — 2 Screws 2-Station Manifold Base const. ref. 234 1 MB-01-003 manifold block 2 V1-31-254 nuts assembled MB-60-S005 D5 3-Station Manifold Base const. ref. 234 1 MB-01-004 manifold block 2 V1-31-254 nuts assembled MB-60-S006 D5 Ordering Instructions for Multiple Station Manifolds Step 3: Choose the accessory kits required to complete the system and determine if you want the valves assembled to the manifolds at the factory. Step 4: Specify the required voltage. Example: 1. You have selected a valve which is to be manifolded. 2. Your system requires a five-station manifold (i.e. one three-station manifold attached to one twostation manifold). Step 1: Determine the number of valve stations required. This will equal the number of subbase valves to order (MBD005). Step 2: Select the combination of two and three-station manifolds that sum to equal the number of valve stations required (i.e. five stations total = one three-station and one two-station manifold). 3. You require the manifold bases and an interface kit. You decide to assemble the valves and manifolds. If they were to be assembled by the factory, there would be a price-add. 4. Your system is 120/60 watts AC: Your order should read: 5-MBD005, 120/60 1-MB-60-S001 1-MB-60-S002 1-MB-60-S003 1-MB-60-S005 1-MB-60-S006 Fig. 1 Voltage 24/60* 120/60 240/60* 12VDC 24VDC Coil Code AB215A AB619A AB820A DC116A DC218A Coil Part Number* CMB2230N18 CMB2238N18 CMB2240N18 CMB2231N18 CMB2234N18 *When ordering a replacement coil, use Coil Part Number (not Coil Code) Select the MB series pressure vessel number from above and follow with the coil/enclosure number based on voltage from Fig. 1. Example MBD005 for 120/60 becomes part number MBD005AB619A *Not active – consult factory AC Power Consumption DC Power Consumption VA holding 6.5 VA inrush 12.0 12VDC 0.42 24VDC 0.21 120VDC 0.04 D11 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D3 Valve Reference D4 2 2 2 2 1 1 3 3 3-Way Universal Port Identification 1-NC / 2-COMMON / 3-NO 3-way, two station Universal D12 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D5 Zinc Manifold Base Notes D13 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty General Description: 2-Way Dry Operator valves are specially designed for non-contaminating and corrosive applications. The valves assure absolute purity and inertness to corrosion when used with a broad range of fluids. Dry Operator valves feature two basic construction innovations. The operator is physically isolated from the fluid by a diaphragm so only the seal and valve body come in contact with the fluid, and valve bodies of Noryl™ and Teflon™ provide the purity from contamination and resistance to corrosion many industries demand. Installation Valves can be mounted in any position. The preferred orientation is with the coil vertical and upright. Compatible Fluids Fluids compatible with diaphragm and body materials. See fluid compatibility chart in Technical Section of this catalog. Applications: • Medical & Dental Equipment • Chemical Dispensing • Photo processing • Instrumentation • Hydroponics “nutrient dispensing” • Food and beverage equipment Mechanical Characteristics: Standard Materials of Construction • Body—Noryl™, Teflon™ (PTFE), Stainless Steel (303) • Seals—PTFE and FKM as listed • Sleeve Tube—Stainless Steel (304) • Plunger—Stainless Steel (430FR) • Stop—Stainless Steel (430FR) • Springs—Stainless Steel (18-8) • Shading Ring—Copper 2-Way Dry Operator Direct Acting Valves 1/4″ NPT & 3/8″ Barb Electrical Characteristics: Agency Approvals • UL and CSA approvals are available on valves with applicable coil/enclosure combinations. Voltages • AC—24/60 120/60–110/50 240/60–220/50 • DC—12, 24 & 120 (consult factory for other voltages) Maximum Ambient Temperature 150°F D14 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Air Flow-SCFM Back Pressure PSIG 5 5 8 .5 2.0 1.5 1.0 Water Flow-GPM 5/32 & 3/16 Orifice Valves 5/64 & 1/8 Orifice Valves Important Application Information On Back Pressure Data Dry operator valves require consideration of back pressure since the back pressure acts on a large area of the diaphragm. Excessive back pressure can keep the valves open on de-energization. The back pressure a standard valve can operate against depends on the orifice size, pressure differential and whether the media is a gas or liquid. The following two charts provide a method to verify that the valve selected can meet the application back pressure requirements. For applications involving back pressure that cannot be handled by catalog valves, please consult Parker Fluid Control Division. Helpful Application Suggestions: To keep the back pressure to a minimum, the downstream line should be as short as possible and be of the largest practical size. All restricting or flow controlling elements should be installed upstream. Use of Back Pressure Charts: To use the charts, it is necessary to know the flow and back pressure. 1. First calculate the flow in GPM for liquids or SCFM for gases from the flow charts in the Technical Information Section. 2. The back pressure is the downstream pressure in the system. A catalog valve may be used if the intersection of flow and back pressure is below the curve for its orifice size. Direct Acting Noryl™** Valves—Normally Closed, 3/8″ BARB, FKM Seals Port Size NPT Orifice Size in. Cv Factor Operating Pressure Differential (PSI) Max. Fluid Temp. °F Pressure Vessel Number Reference Min. Maximum AC Ratings DC Ratings Coil Valve 10 Watt 10 Watt 3/8″ BARB 5/32 0.35 0 35 35 140 71214LT3QV00 7 D8 3/8″ BARB 3/16 0.47 0 20 20 140 71214LT3SV00 7 D8 Direct Acting Teflon™*** Valves—Normally Closed, 1/4″ NPT, PTFE or FKM Seals Port Size NPT Orifice Size in. Cv Factor Operating Pressure Differential (PSI) Max. Fluid Temp. °F Pressure Vessel Number Reference Min. Maximum AC Ratings DC Ratings Coil Valve 10 Watt 10 Watt 1/4″ NPT 5/64 0.16 0 70 70 140 71214TN2KT00 7 D7 1/4″ NPT 3/16 0.47 0 20 20 140 71214TN2SV00 7 D7 1/4″ NPT 3/16 0.47 0 20 20 140 71214TN2ST00 7 D7 Direct Acting Stainless Steel Valves—Normally Closed, 1/4″ NPT, PTFE Seals Port Size NPT Orifice Size in. Cv Factor Operating Pressure Differential (PSI) Max. Fluid Temp. °F Pressure Vessel Number Reference Min. Maximum AC Ratings DC Ratings Coil Valve 10 Watt 10 Watt 1/4″ NPT 3/16 0.47 0 20 20 140 71214VN2ST00 7 D6 **Noryl™- G.E. Plastics (SABIC) ***Teflon™ – E.I. Dupont 5 10 Back Pressure PSIG All Valves D15 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D6 Valve Reference D7 2-Way Normally Closed Port Identification: 1-OUT/2-IN 2-Way Normally Closed Port Identification: 1-OUT/2-IN D16 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D8 Port Identification: Flow arrow on body indicates flow direction. Ports are not marked. Teflon is a trademark of E. I. DuPont Coil Housing — can be rotated 360°. Wide selection of other types available. Spring provides positive plunger return – made of stainless steel, permits valve to be mounted in any position Operator is separated from media – provides resistance to corrosion or eliminates possible contamination of media. Molded glass filled Noryl plastic body – provides strength and chemical inertness. TeonTM also available. Media is in contact with body material and synthetic diaphragm only. Features of the 71214xxx D17 General Description: 2-Way Hot Water and Steam valves are specifically designed to withstand harsh application conditions. Many designs include integral stainless steel main and pilot orifices. Installation Valves should be mounted vertical and upright. Standard Materials of Construction Please refer to page D33. Compatible Fluids Ideal for the control of hot water and steam in a variety of applications. Electrical Characteristics: Standard Voltages: AC –24/60 120/60–110/50 240/60–220/50 DC –12, 24 & 120 For other voltages – consult factory Coil Classification: Class F Standard Class H Standard for media temperatures over 297°F Note: Magnalatch coils are not available on steam valves. 2-Way Hot Water and Steam Direct Acting & Pilot Operated Valves 1/4″ – 1 1/2″ NPT Agency Approvals: Standard valves with NEMA 4X or explosion psolenoid enclosures are UL Listed and CSA Certified. For additional details, consult factory. Maximum Ambient Temperature 150° F Please refer to Page D33 for details. Applications: • Industrial laundry machines • Industrial dish washing machines • Institutional cooking and food warming equipment • Steam tables, steam cookers/kettles • Sterilizers • Dry cleaning equipment and steam irons • Hospital equipment • Steam presses • Steam baths • Autoclaves Specialty D18 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 2-Way Hot Water and Steam – Normally Closed – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal*** Pressure Vessel Number** Reference Min. Hot Water Steam Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 13/64 0.76 0 100 – 10 210 EPDM 7121KBN2SE00 7 D21 1/4 13/64 0.76 0 – 40 10 285 EPDM 7121KBN2SES0 7 D21 1/4 7/16 2.00 3 150 – 10 210 EPDM 7321KBN2RE00 7 D22 1/4 7/16 2.00 3 – 45 10 293 EPDM 7321KBN2RES0 7 D22 3/8 7/16 2.50 3 150 – 10 210 EPDM 7321KBN3SE00 7 D22 3/8 5/8 3.00 0 150 50 11 300 EPDM 06FS3C2340ACF 4 D10 3/8 5/8 3.00 5 150 – 10 210 EPDM 73218BN3TE00 7 D20 3/8 5/8 3.00 0 100 – 10 210 EPDM 72218BN3TE00 7 D14 3/8 19/32 4.40 0 150 – 10 210 EPDM 7221GBN3VE00 7 D23 3/8 5/8 3.00 3 – 125 10 353 PTFE 73218BN3TTS0* 7 D20 3/8 1/2 3.00 1 – 125 11 353 PTFE 06FS5C2432ACH* 4 D9 3/8 1/2 3.00 1 – 80 11 320 PTFE 06FS5C2432ACF 4 D9 3/8 5/8 3.00 0 – 50 10 297 EPDM 72218BN3TES0 7 D14 3/8 5/8 3.00 5 – 50 10 297 EPDM 73218BN3TES0 7 D20 3/8 1/2 3.00 1 – 50 11 300 EPDM 06FS5C2332ACF 4 D9 3/8 19/32 4.40 0 – 45 10 293 EPDM 7221GBN3VES0 7 D23 1/2 7/16 3.00 3 150 – 10 210 EPDM 7321KBN4SE00 7 D22 1/2 5/8 4.00 5 150 – 10 210 EPDM 73218BN4UE00 7 D20 1/2 5/8 4.00 0 100 – 10 210 EPDM 72218BN4UE00 7 D14 1/2 19/32 4.40 0 150 – 10 210 EPDM 7221GBN4VE00 7 D23 1/2 5/8 4.00 0 150 50 11 300 EPDM 08FS3C2340ACF 4 D10 1/2 1/2 3.60 1 – 125 11 353 PTFE 08FS5C2432ACH* 4 D9 1/2 1/2 3.60 1 – 80 11 320 PTFE 08FS5C2432ACF 4 D9 1/2 1/2 3.60 1 – 50 11 300 EPDM 08FS5C2332ACF 4 D9 1/2 7/16 3.00 3 – 45 10 293 EPDM 7321KBN4SES0 7 D22 1/2 5/8 4.00 3 125 10 353 PTFE 73218BN4UTS0* 7 D20 1/2 5/8 4.00 0 – 50 10 297 EPDM 72218BN4UES0 7 D14 1/2 5/8 4.00 5 – 50 10 297 EPDM 73218BN4UES0 7 D20 1/2 19/32 4.40 0 – 45 10 293 EPDM 7221GBN4VES0 7 D23 * High pressure steam valves require Class ‘H’ coils only from referenced coil chart. ** Models xxS5xx have an integral stainless steel main orifice seat. Models 72218xxx & 7221Gxxx are direct lift and will open at zero pressure differential but not at full flow. *** Valves with EPDM (Ethylene Propylene) elastomers are limited to pressure range shown (45 or 50 psi) AND temperature rating shown (293-300º F). Do not use on higher pressure steam with pressure reducing valve; this may result in superheated steam. D19 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 2-Way Hot Water and Steam – Normally Closed – Brass (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal*** Pressure Vessel Number** Reference Min. Hot Water Steam Coil Valve AC TECHNICAL SPECIFICATIONS 3/4 3/4 5.00 5 150 – 10 210 EPDM 73218BN5VE00 7 D20 3/4 3/4 5.00 0 100 – 10 210 EPDM 72218BN5VE00 7 D14 3/4 19/32 5.50 0 150 – 10 210 EPDM 7221GBN51E00 7 D23 3/4 3/4 5.00 0 150 50 11 300 EPDM 12FS3C2348ACF 4 D11 3/4 5/8 4.50 3 – 125 10 353 PTFE 73218BN5VTS0* 7 D20 3/4 3/4 5.00 0 – 50 10 297 EPDM 72218BN5VES0 7 D14 3/4 3/4 5.00 5 – 50 10 297 EPDM 73218BN5VES0 7 D20 3/4 19/32 5.50 0 – 45 10 293 EPDM 7221GBN51ES0 7 D23 3/4 3/4 7.40 1 – 125 11 353 PTFE 12FS5C2448ACH* 4 D25 3/4 3/4 7.40 1 – 80 11 320 PTFE 12FS5C2448ACF 4 D25 3/4 3/4 7.40 1 – 50 11 300 EPDM 12FS5C2348ACF 4 D25 1 19/32 5.50 0 150 – 10 210 EPDM 7221GBN61E00 7 D23 1 1 1/16 13.50 5 125 – 10 210 EPDM 73218BN64E00 7 D16 1 1 11.70 0 150 – 10 210 EPDM 7221GBN64E00 7 D23 1 1 12.20 1 150 50 11 300 EPDM 16FS5C2364ACF 4 D12 1 19/32 5.50 0 – 45 10 293 EPDM 7221GBN61ES0 7 D23 1 1 11.70 0 – 45 10 293 EPDM 7221GBN64ES0 7 D23 1 1 12.20 1 – 125 11 353 PTFE 16FS5C2464ACH* 4 D12 1 1 12.20 1 – 80 11 320 PTFE 16FS5C2464ACF 4 D12 1 1 1/16 13.50 5 – 125 10 353 PTFE 73218BN64TS0* 7 D17 1 1 1/16 13.50 5 – 50 10 297 EPDM 73218BN64ES0 7 D16 1 1/4 1 1/8 15.00 5 125 – 10 210 EPDM 73218BN75E00 7 D16 1 1/4 1 1/8 15.00 5 150 50 6 300 EPDM 20FS4C2372AAF 1 D13 1 1/4 1 1/8 15.00 5 – 50 10 297 EPDM 73218BN75ES0 7 D16 1 1/4 1 1/8 16.00 5 – 125 10 353 PTFE 73218BN75TS0* 7 D17 1 1/2 1 1/4 22.50 5 125 – 10 210 EPDM 73218BN87E00 7 D19 1 1/2 1 1/2 22.50 5 150 50 6 300 EPDM 24FS4C2380AAF 1 D13 1 1/2 1 1/4 22.50 5 – 50 10 297 EPDM 73218BN87ES0 7 D19 1 1/2 1 1/4 22.50 5 – 125 10 353 PTFE 73218BN87TS0* 7 D19 * High pressure steam valves require Class ‘H’ coils only from referenced coil chart. ** Models xxS5xx have an integral stainless steel main orifice seat. Models 72218xxx & 7221Gxxx are direct lift and will open at zero pressure differential but not at full flow. *** Valves with EPDM (Ethylene Propylene) elastomers are limited to pressure range shown (45 or 50 psi) AND temperature rating shown (293-300º F). Do not use on higher pressure steam with pressure reducing valve; this may result in superheated steam. D20 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 2-Way Hot Water and Steam – Normally Closed – Brass (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal*** Pressure Vessel Number** Reference Min. Hot Water Steam Coil Valve DC TECHNICAL SPECIFICATIONS 1/4 13/64 0.76 0 40 – 10 210 EPDM 7121KBN2SE00 7 D21 1/4 13/64 0.76 0 100 – 22 210 EPDM 7121KBN2SE00 8 D21 1/4 7/16 2.00 3 150 – 22 210 EPDM 7321KBN2RE00 8 D22 1/4 7/16 2.00 3 60 – 10 210 EPDM 7321KBN2RE00 7 D22 1/4 13/64 0.76 0 – 40 22 285 EPDM 7121KBN2SES0 8 D21 1/4 7/16 2.00 3 – 45 22 293 EPDM 7321KBN2RES0 8 D22 3/8 7/16 2.50 3 150 – 22 210 EPDM 7321KBN3SE00 8 D22 3/8 7/16 2.50 3 60 – 10 210 EPDM 7321KBN3SE00 7 D22 3/8 5/8 3.00 0 40 – 22 210 EPDM 72218BN3TE00 8 D14 3/8 5/8 3.00 0 100 – 11.5 150 EPDM 06F22C2340A3F 6 D10 3/8 5/8 3.00 5 150 – 10 210 EPDM 73218BN3TE00 7 D20 3/8 5/8 3.00 5 40 – 11.5 150 EPDM 06F23C2340A3F 6 D10 3/8 19/32 4.40 0 100 – 22 210 EPDM 7221GBN3VE00 8 D23 3/8 19/32 4.40 0 – 45 22 293 EPDM 7221GBN3VES0 8 D23 1/2 7/16 3.00 3 150 – 22 210 EPDM 7321KBN4SE00 8 D22 1/2 7/16 3.00 3 60 – 10 210 EPDM 7321KBN4SE00 7 D22 1/2 5/8 4.00 5 150 – 10 210 EPDM 73218BN4UE00 7 D20 1/2 5/8 4.00 0 100 – 11.5 150 EPDM 08F22C2340A3F 6 D10 1/2 5/8 4.00 5 40 – 11.5 150 EPDM 08F23C2340A3F 6 D10 1/2 5/8 4.00 0 40 – 22 210 EPDM 72218BN4UE00 8 D14 1/2 19/32 4.40 0 100 – 22 210 EPDM 7221GBN4VE00 8 D23 1/2 7/16 3.00 3 – 45 22 293 EPDM 7321KBN4SES0 8 D22 1/2 19/32 4.40 0 – 45 22 293 EPDM 7221GBN4VES0 8 D23 3/4 3/4 5.00 5 150 – 10 210 EPDM 73218BN5VE00 7 D20 3/4 3/4 5.00 0 100 – 11.5 150 EPDM 12F22C2348A3F 6 D11 3/4 3/4 5.00 5 40 – 11.5 150 EPDM 12F23C2348A3F 6 D11 3/4 3/4 5.00 0 40 – 22 210 EPDM 72218BN5VE00 8 D14 3/4 19/32 5.50 0 100 – 22 210 EPDM 7221GBN51E00 8 D23 3/4 19/32 5.50 0 – 45 22 293 EPDM 7221GBN51ES0 8 D23 * High pressure steam valves require Class ‘H’ coils only from referenced coil chart. ** Models xxS5xx have an integral stainless steel main orifice seat. Models 72218xxx & 7221Gxxx are direct lift and will open at zero pressure differential but not at full flow. *** Valves with EPDM (Ethylene Propylene) elastomers are limited to pressure range shown (45 or 50 psi) AND temperature rating shown (293-300º F). Do not use on higher pressure steam with pressure reducing valve; this may result in superheated steam. D21 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 2-Way Hot Water and Steam – Normally Closed – Brass (Continued) Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal*** Pressure Vessel Number** Reference Min. Hot Water Steam Coil Valve DC TECHNICAL SPECIFICATIONS 1 19/32 5.50 0 100 – 22 210 EPDM 7221GBN61E00 8 D23 1 1 11.70 0 100 – 22 210 EPDM 7221GBN64E00 8 D23 1 1 1/16 13.50 5 125 – 10 210 EPDM 73218BN64E00 7 D16 1 19/32 5.50 0 – 45 22 293 EPDM 7221GBN61ES0 8 D23 1 1 11.70 0 – 45 22 293 EPDM 7221GBN64ES0 8 D23 1 1/4 1 1/8 15.00 5 125 – 10 210 EPDM 73218BN75E00 7 D16 1 1/2 1 1/4 22.50 5 125 – 10 210 EPDM 73218BN87E00 7 D19 2-Way Hot Water and Steam – Normally Closed – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal*** Pressure Vessel Number** Reference Min. Hot Water Steam Coil Valve AC TECHNICAL SPECIFICATIONS 1/4 5/32 0.52 0 – 110 11 344 PTFE 04FS0C3410ACH* 4 D24 3/8 5/8 3.00 0 100 – 10 210 EPDM 72218RN3TE00 7 D14 1/2 5/8 4.00 0 100 – 10 210 EPDM 72218RN4UE00 7 D14 1/2 5/8 4.00 0 – 50 10 297 EPDM 72218RN4UES0 7 D14 3/4 3/4 5.00 0 100 – 10 210 EPDM 72218RN5VE00 7 D14 3/4 3/4 5.00 0 – 50 10 297 EPDM 72218RN5VES0 7 D14 DC TECHNICAL SPECIFICATIONS 3/8 5/8 3.00 0 40 – 22 210 EPDM 72218RN3TE00 8 D14 1/2 5/8 4.00 0 40 – 22 210 EPDM 72218RN4UE00 8 D14 3/4 3/4 5.00 0 40 – 22 210 EPDM 72218RN5VE00 8 D14 * High pressure steam valves require Class ‘H’ coils only from referenced coil chart. ** Models xxS5xx have an integral stainless steel main orifice seat. Models 72218xxx & 7221Gxxx are direct lift and will open at zero pressure differential but not at full flow. *** Valves with EPDM (Ethylene Propylene) elastomers are limited to pressure range shown (45 or 50 psi) AND temperature rating shown (293-300º F). Do not use on higher pressure steam with pressure reducing valve; this may result in superheated steam. D22 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 2-Way Hot Water and Steam – Normally Open – Brass Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal*** Pressure Vessel Number** Reference Min. Hot Water Steam Coil Valve AC TECHNICAL SPECIFICATIONS 3/8 5/8 3.0 0 125 – 22 210 EPDM 72228BN3TE00 8 D18 3/8 5/8 3.0 5 – 125 10 353 PTFE 73228BN3TTS0 7 D15 3/8 5/8 3.0 0 – 50 10 297 EPDM 72228BN3TES0 7 D18 1/2 5/8 4.0 0 125 – 22 210 EPDM 72228BN4UE00 8 D18 1/2 1/2 3.6 1 – 125 11 353 PTFE 08FS5O2432ACH* 4 D9 1/2 5/8 4.0 5 – 125 10 353 PTFE 73228BN4UTS0* 7 D15 1/2 5/8 4.0 0 – 50 10 297 EPDM 72228BN4UES0 7 D18 3/4 3/4 5.0 0 125 – 22 210 EPDM 72228BN5VE00 8 D18 3/4 3/4 5.0 0 – 50 10 297 EPDM 72228BN5VES0 7 D18 3/4 3/4 7.5 5 – 125 10 353 PTFE 73228BN52TS0* 7 D15 3/4 3/4 7.4 1 – 125 11 353 PTFE 12FS5O2448ACH* 4 D25 1 1 1/16 13.5 5 – 125 10 353 PTFE 73228BN64TS0* 7 D17 1 1/4 1 1/8 16.0 5 – 125 10 353 PTFE 73228BN75TS0* 7 D17 1 1/2 1 1/4 22.5 5 – 125 10 353 PTFE 73228BN87TS0* 7 D19 DC TECHNICAL SPECIFICATIONS 3/8 5/8 3.0 0 125 – 22 210 EPDM 72228BN3TE00 8 D18 1/2 5/8 4.0 0 125 – 22 210 EPDM 72228BN4UE00 8 D18 3/4 3/4 5.0 0 125 – 22 210 EPDM 72228BN5VE00 8 D18 * High pressure steam valves require Class ‘H’ coils only from referenced coil chart. ** Models xxS5xx have an integral stainless steel main orifice seat. Models 72218xxx & 7221Gxxx are direct lift and will open at zero pressure differential but not at full flow. *** Valves with EPDM (Ethylene Propylene) elastomers are limited to pressure range shown (45 or 50 psi) AND temperature rating shown (293-300º F). Do not use on higher pressure steam with pressure reducing valve; this may result in superheated steam. D23 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 2-Way Hot Water and Steam – Normally Open – Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Watt Max. Media Temp. °F Seal Pressure Vessel Number* Reference Min. Hot Water Steam Coil Valve AC TECHNICAL SPECIFICATIONS 3/8 5/8 3.0 0 125 – 22 210 EPDM 72228RN3TE00 8 D18 1/2 5/8 4.0 0 125 – 22 210 EPDM 72228RN4UE00 8 D18 3/4 3/4 5.0 0 125 – 22 210 EPDM 72228RN5VE00 8 D18 DC TECHNICAL SPECIFICATIONS 3/8 5/8 3.0 0 125 – 22 210 EPDM 72228RN3TE00 8 D18 1/2 5/8 4.0 0 125 – 22 210 EPDM 72228RN4UE00 8 D18 3/4 3/4 5.0 0 125 – 22 210 EPDM 72228RN5VE00 8 D18 *Models 72228xxx is a direct lift and will open at zero pressure differential but not at full flow. D24 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D9 Valve Reference D10 2-Way Normally Closed 06FS5Cxx, 08FS5Cxx 2-Way Normally Closed Port Identification: In-In/Out-Out 2-Way Normally Open 08FS5Oxx Port Identification: In-In/Out-Out Valve Dimensions B C D E F G H 06FS5C2xxx 08FS5C2xxx 1/2 1 5/16 1 1/8 2 7/16 2 5/16 2 29/32 2 1/4 08FS5O2xxx 1/2 1 5/16 1 1/8 2 7/16 2 7/32 2 29/32 2 1/4 D25 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D11 2-Way Normally Closed Port Identification: In-In/Out-Out Valve Reference D12 2-Way Normally Closed: 16F25Cxx Port Identification: In-In/Out-Out 3.375 2.34 1.47 2.91 0.68 D26 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D13 1.56 0.72 3.31 4.16 1.31 2-Way Normally Closed: Port Identification: In-In/Out-Out Valve Reference D14 1.62 L C 2.76 P H 1.95 2.56 Valve Dimensions H P C L 72218BN3TXXX 72218BN4UXXX 3.78 3.23 2.21 2.64 72218BN5VXXX 72218RN3TXXX 72218RN4UXXX 72218RN5VXXX 3.99 3.33 2.31 2.72 2-Way Normally Closed Port Identification: P-IN/–OUT D27 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D15 1.62 R L 2.56 .81 C P 2.76 1.95 H Valve Dimensions H P C L R 73228BN3TTS0 5.36 4.81 3.75 2.65 1.39 73228BN4UTS0 5.57 4.91 3.85 2.73 1.43 73228BN52TS0 2-Way Normally Open: Port Identification: P-IN/–OUT Valve Reference D16 Valve Dimensions H P C B D G 73218BN64Exx 4.56 3.70 2.38 5.58 3.96 2.94 73218BN75Exx 4.85 3.85 2.52 5.58 3.96 2.94 2.13 3.86 2.76 1.95 1.02 3.56 C P H 2-Way Normally Closed Port Identification: P-IN/–OUT D28 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D17 2.76 1.95 P H C 2.13 3.86 D B G 1.62 Valve Dimensions H P C B D G 73228BN64TS0 73218BN64TS0 4.56 3.70 2.38 5.82 4.20 3.14 73228BN75TS0 73218BN75TS0 4.85 3.85 2.52 5.82 4.20 3.14 2-Way Normally Closed 73218 2-Way Normally Open: 73228 Port Identification: P-IN/–OUT Valve Reference D18 Valve Dimensions H P C L 72228BN3TXXX 72228BN4UXXX 72228RN3TXXX 72228RN4UXXX 4.04 3.49 2.43 2.64 72228BN5VXXX 72228RN5VXXX 4.24 3.58 2.52 2.72 2-Way Normally Open: Port Identification: P-IN/–OUT D29 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 2.76 1.95 4.47 2.24 5.42 4.27 3.06 1.62 6.27 3.25 4.32 2.76 1.95 4.47 2.24 5.42 4.27 3.06 1.62 6.27 3.25 4.32 Valve Reference D19 2-Way Normally Closed 73218BN87xx 2-Way Normally Open: 73228BN87xx Port Identification: P-IN/–OUT Valve Reference D20 1.62 L C P H 2.76 1.95 R P 2.56 .81 Valve Dimensions H P C L E 73218BN3TXXX 73218BN4UXXX 4.38 3.84 2.81 2.64 1.39 73218BN5VXXX 4.59 3.94 2.91 2.72 1.43 2-Way Normally Closed Port Identification: P-IN/–OUT D30 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D21 1.62 1.57 1.61 2.76 3.07 2.63 1.95 2-Way Normally Closed 7121KBNxx 2-Way Normally Open: 7122KBNxx Port Identification: 1-IN/ 2-OUT Valve Reference D22 1.62 L C 1.34 1.95 2.76 P H 2-Way Normally Closed Port Identification Flow arrow on body indicates flow directionports are not marked. Valve Dimensions H P C L 7121KBN44V00 7321KBN4SXXX 3.56 2.97 1.96 2.17 7321KBN2RXXX 7321KBN3SXXX 3.56 2.97 1.96 1.97 OUT IN IN OUT D31 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D23 Valve Dimensions H P C L W 7221GBN3VXXX 7221GBN4VXXX 3.66 3.07 2.06 2.95 2.09 7221GBN51XXX 3.75 3.07 2.06 3.15 2.09 7221GBN61XXX 4.03 3.15 2.12 3.35 2.09 7221GBN64XXX 4.25 3.35 2.34 3.94 2.75 2-Way Normally Closed Port Identification Flow arrow on body indicates flow direction. Ports are not marked. Valve Reference D24 2-Way Normally Closed Port Identification: IN-IN/OUT-OUT D32 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D25 1-23/32 1-17/32 7/8 1-3/16 1-13/16 2-11/32 1/2 NPT 1-5/8 3-21/32 2-13/32 5/8 2-1/4 3-15/32 1-1/2 3-1/8 2-Way Normally Closed: 2-29/32 12FS25Cxx 2-Way Normally Open: 12FS25Oxx Port Identification: IN-IN/OUT-OUT Valve Dimensions A B C D E F G H 12FS5C2148ACF 3 5/8 1/2 1 5/16 1 1/8 2 7/16 2 5/16 3 5/16 2 1/4 12FS5O2148ACF 3 21/32 5/8 1 5/8 1 1/2 3 1/8 2 1/4 3 15/32 2 29/32 D33 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Two-Way 210°F Hot Water with EPDM seals – Materials of Construction** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 06F22C2 11.5 2WNC 3/8 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 06F23C2 11.5 2WNC 3/8 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 08F22C2 11.5 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 08F23C2 11.5 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 12F22C2 11.5 2WNC 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 12F23C2 11.5 2WNC 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 7121KBN 10 2WNC 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 7121KBN 22 2WNC 1/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 72218BN 10 2WNC 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 72218BN 22 2WNC 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 72218RN 10 2WNC 3/8 – 3/4 316SS 304SS 430FR 430F 430FR 18-8SS Copper 150°F 72218RN 22 2WNC 3/8 – 3/4 316SS 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7221GBN 10 2WNC 3/8 – 1 Brass 304SS 430FR 430F 430FR 301SS Copper 150°F 7221GBN 22 2WNC 3/8 – 1 Brass 304SS 430FR 430F 430FR 301SS Copper 77°F 72228BN 10 2WNO 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 72228BN 22 2WNO 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 73218BN 10 2WNC 3/8 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 73218BN 22 2WNC 3/8 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7321KBN 10 2WNC 1/4 – 1/2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 7321KBN 22 2WNC 1/4 – 1/2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 73228BN 10 2WNO 1/2 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 150°F 73228BN 22 2WNO 1/2 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F Two-Way High Pressure Steam with PTFE Seals – Materials of Construction** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 06FS5C2 11 2WNC 3/8 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 131°F 08FS5C2 11 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 131°F 08FS5O2 11 2WNO 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 131°F 12FS5C2 11 2WNC 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 131°F 12FS5O2 11 2WNO 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 131°F 16FS5C2 11 2WNC 1 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 131°F 73218BN 10 2WNC 3/8 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 73228BN 10 2WNO 1/2 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F * Shows first 7 digits of pressure vessel **Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. D34 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Two-Way Low Pressure Steam with EPDM Seals – Materials of Construction** Product* Watt Type Port Size Body Sleeve Tube Sleeve Stop Sleeve Flange “Plunger Blank” Plunger Spring Shading Ring Max. Ambient Temp. 06FS3C2 11 2WNC 3/8 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 06FS5C2 11 2WNC 3/8 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 131°F 08FS3C2 11 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 08FS5C2 11 2WNC 1/2 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 131°F 12FS3C2 11 2WNC 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 12FS5C2 11 2WNC 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 131°F 16FS5C2 11 2WNC 1 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 131°F 20FS4C2 6 2WNC 1¼ Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 24FS4C2 6 2WNC 1½ Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 7121KBN 10 2WNC 1/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 122°F 7121KBN 22 2WNC 1/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 72218BN 10 2WNC 3/8 – 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 122°F 72218BN 22 2WNC 3/8 – 3/4 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 72218RN 10 2WNC 3/8 – 3/4 316SS 305SS 430FR 12L14 Plated 430FR 302SS Copper 122°F 72218RN 22 2WNC 3/8 – 3/4 316SS 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 7221GBN 10 2WNC 3/8 – 1 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 122°F 7221GBN 22 2WNC 3/8 – 1 Brass 305SS 430FR 12L14 Plated 430FR 302SS Copper 77°F 72228BN 10 2WNO 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 122°F 72228BN 22 2WNO 3/8 – 3/4 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 73218BN 10 2WNC 3/8 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 122°F 73218BN 22 2WNC 3/8 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 7321KBN 10 2WNC 1/4 – 1/2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 122°F 7321KBN 22 2WNC 1/4 – 1/2 Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F 73228BN 10 2WNO 1/2 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 122°F 73228BN 22 2WNO 1/2 – 1½ Brass 304SS 430FR 430F 430FR 18-8SS Copper 77°F * Shows first 7 digits of pressure vessel **Maximum ambient temperature shown is the rating when valve is operating at the maximum fluid temperature as shown in the product sections for each of the valves in this catalog. D35 General Description: For hazardous and low-power power applications Today, intrinsically safe systems and products are recommended, or in some cases compulsory, where the highest level of protection from explosion is required. They are also employed in applications that require low power. A hazardous (classified) location is where fire or explosion hazards exist due to the presence of flammable gases or vapors, flammable liquids, combustible dust, or easily ignitable fibers or flyings. Parker Fluid Control Division (FCD) has long served industry with innovative and safety related products. Our Intrinsically Safe solenoid valves have approvals for use in the United States and Canada in hazardous classifications for Classes I, II, III, Division 1 and 2, and in the United Kingdom for Division 0, 1 and 2. In Europe our valves are approved according to ATEX standards. All countries in Western Europe now follow common (ATEX) standards. All ATEX member countries should recognize apparatus which have been tested and certified by any ATEX member country. What is an intrinsically safe system? An intrinsically safe system is most often an assembly of approved intrinsically safe apparatus, associated apparatus, and interconnecting cables. Approved I.S. apparatus are devices that are incapable, during normal operation or under fault conditions, of causing explosive atmospheres to ignite by spark or thermal effect. Explosive atmospheres are mixtures of flammable or combustible material in air in ignitable concentrations. Solenoid valves are examples of I.S. apparatus and must be approved for use in specific hazardous (classified) locations. Associated apparatus, such as safety barriers, are devices which affect the energy in the I.S. circuit and are relied upon to maintain intrinsic safety. How does intrinsic safety apply to solenoid valves? When related to solenoid valves, intrinsic safety means that the coil’s current draw and resulting temperature is held to such a low level (by an approved safety barrier) that the valve no longer has the capability of igniting a mixture of flammable or combustible material, either during normal operation or under fault conditions. When designed into an intrinsically safe system, FCD’s Intrinsically Safe solenoid valves provide a number of significant performance advantages. Low Power Consumption FCD’s Intrinsically Safe valves are rated at 24 VDC nominal, and are calibrated to operate at a minimum current draw as low as 29 milliamps (0.029 amps). Low Temperature Rise FCD Intrinsically Safe valve enclosures are designed to maintain a maximum outside surface temperature of less than 85°C. This meets the T6 classification assigned by Underwriters Laboratories Inc. Variety of Mounting Possibilities FCD Intrinsically Safe valves can be mounted in any position and still operate normally. Media Compatibility Intrinsically Safe FCD valves in 2-way constructions are suitable for use with oil, air, water, and inert gases. Our 3- and 4-way valves are suitable for use with air and inert gases only. Watertight Construction All Intrinsically Safe FCD coil enclosures are equivalent to NEMA Type 4X Watertight construction. Note: See chart on page D51 for the allowable valve/coil combinations. Intrinsically Safe Series 2-way, 3-way and 4-way Valves Specialty D36 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Mechanical Characteristics: Standard Materials of Construction • Body—Brass • Seals—FKM, NBR • Compatible Media • Air, Inert Gas, Water and Lt. Oil (300 SSU) Electrical Characteristics: Based on coil selected. View the following coil and enclosure pages for detailed electrical information. Miscellaneous: For applications below 32°F, valves must be degreased. Consult Fluid Control Division prior to ordering. Intrinsically Safe 2-Way Direct Acting & Pilot Operated Valves Intrinsically Safe Solenoid Valves—Two-Position Port Size NPTF Orifice Size Valve Type Flow Rate Operating Pressure Differential (PSI) Min. Ambient Temp. °F/°C Max. Fluid Temp. °F/°C Valve Materials Seal/Body Part Number Valve Ref. Coil Ref. Cv 1/4″ 3/64″ 2W,NC 0.04 0-150 14/-10 165/75 FKM/Brass U121K0490 D30 ** 1/4″ 1.2mm 2W,NC 0.06 0-100 14/-10 165/75 FKM/Brass U121K0890 D30 ** 1/4″ 1.5mm 2W,NC 0.11 0-75 14/-10 165/75 FKM/Brass U121K0690 D30 ** 1/2″ 5/8″ 2W,NC 4.4 5-150 14/-10 165/75 FKM, NBR/Brass U321H1590 D31 ** 3/4″ 3/4″ 2W,NC 9.8 5-150 14/-10 165/75 FKM, NBR/Brass U321G3690 D32 ** 1 1/2″ 1 9/16″ 2W,NC 29.5 5-150 14/-10 165/75 FKM, NBR/Brass U321G3990 D32 ** 2″ 1 9/16″ 2W,NC 39.2 5-150 14/-10 165/75 FKM, NBR/Brass U321G4090 D32 ** ** For Coil Information, see page D48 Valve Reference D30 OUT 1 IN 2 2-Way Normally Closed Port Idnetification: 1-In/2-Out D37 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D32 Valve Reference D31 Valve Dimension A B C D E F G H IN IN IN IN IN IN NPT IN U321G3690 3-15/16” 5-5/16” 2” 7/8” 2-23/64” 1-5/8” 3/4” 2-3/4” U321G3990 5-17/32” 6-7/32” 3” 1-9/32” 2-7/8” 2-3/8” 1-1/2” 3-1/16” U321G4090 5-29/32” 6-25/32” 3-5/32” 1-21/32” 3-7/64” 3” 2” 3-1/16” OUT IN 2-Way Normally Closed Port Identification: Flow arrow on body indicates flow direction. Ports are not marked OUT IN 2-Way Normally Closed Port Identification: Flow arrow on body indicates flow direction. Ports are not marked D38 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D33 3-Way Normally Closed Port Identification: 1-Cylinder/2-Pressure/0-Exhaust Intrinsically Safe 3-way Direct Acting, Pilot Operated and Manual Reset Valves Mechanical Characteristics: Standard Materials of Construction • Body—Brass, Stainless Steel or Aluminum • Seals—FKM, NBR Compatible Fluids • Air and inert gases Electrical Characteristics: Based on coil selected. View the following coil and enclosure pages for detailed electrical information. Miscellaneous: Sleeve Exhaust Adaptor • U21-004 must be ordered separately. For applications below 32°F, valves must be degreased. Consult Fluid Control Division prior to ordering. Intrinsically Safe Solenoid Valves – Two Position , 3-way – Normally Closed *** Port Size NPT Orifice Size Cv Flow Factor Operating Pressure Differential (PSI) Min. Ambient Temp. °F Max. Fluid Temp. °F Valve Materials Seal/Body Pressure Vessel Part Number Valve Ref. Coil Minimum Maximum Ref. 3-Way 1/4″ 5/128″ 0.04 0 150 14 165 FKM/Brass U131K0490 D33 ** 1/4″ 5/128″ 0.04 0 150 14 165 FKM/316L S.S. U131V5490 D34 ** 1/4″ 3/64″ 0.06 0 150 14 165 FKM/Brass U131K0890 D33 ** 1/4″ 1.5mm 0.11 0 75 14 165 FKM/Brass U131K0690 D33 ** 1/4″ 13/64″ 0.5 0 150 -13 165 NBR/S.Steel (316) U133X5196* D35 ** 1/4″ 9/32″ 0.70 15 150 14 165 FKM, NBR/ Aluminum U331B7490 D38 ** 1/4″ 1/4″ 1.2 30 150 14 165 NBR/Brass 73317BN2PN90 D36 ** 3-Way – 4.0 Cv Single Solenoid 1/2″ 5/8″ 4.0 30 150 14 165 NBR/Brass 73317BN4UN90 D37 ** 1/2″ 5/8″ 4.0 30 150 -40 165 NBR/Brass 73317BN4UN9C D37 ** 1/2″ 5/8″ 4.0 7 150 14 165 FKM, NBR/ Aluminum U331L2190 D39 ** 3-Way – Manual Reset Valve 1/4″ 13/64″ 0.5 0 150 -13 165 FKM/S.Steel (316) U033X5156* D40 ** * U133X5196 and U033X5156: Consult factory for available coil/enclosure options. ** For Coil Information, see page D48 ***U133X5196 is a 3-way, two position, Universal construction. D39 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D34 1/4″ x 18 NPT 3-Way Normally Closed Port Identification: 1-Pressure/2-Cylinder/0-Exhaust 1 0 2 Valve Reference D35 3-Way Universal Port Identification: 1-Normally Closed/ 2-Common/3-Normally Open M14 x 1 D40 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D36 1.62 .5O 1/4 NPT TYP 1.25 .94 .94 4.77 1.65 1.24 .3O .4O .85 3.68 2.OO .4O 2.39 1/2 NPT Manual override mechanical option 3-Way Normally Closed Port Identification: 2-Cylinder/ 1-Pressure/ 3-Exhaust Valve Reference D37 3-Way Normally Closed Port Identification: 2-Cylinder / 1-Pressure/ 3-Exhaust D41 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D38 3-Way Normally Closed Port Identification: 1- Pressure/2-Cylinder/3-Exhaust Valve Reference D39 A P R 3-Way Normally Closed Port Identification: P-Pressure/A-Cylinder/R-Exhaust G 1/8″ D42 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D40 P E C M14 x 1 Intrinsically Safe 4-way Piped and 3/4-way NAMUR Direct Mount Valves Mechanical Characteristics: Compatible Fluids • Air and inert gases Electrical Characteristics: Based on coil selected. View the following coil and enclosure pages for detailed electrical information. Skinner Intrinsically Safe Solenoid Valves Port Size NPT Orifice Size Cv Flow Factor Operating Pressure Differential (PSI) Min. Ambient Temp. °F Max. Fluid Temp. °F Valve Materials Seal/Body Pressure Vessel Part Number Valve Ref. Coil Minimum Maximum Ref. 4-Way 1/4″ 5/128″ 0.04 0 150 14 167 NBR/Brass 73417BN2KN90 D41 ** 1/4″ 5/128″ 0.04 0 150 14 167 NBR/303 S.S. 73417VN2KN90 D41 ** 1/4″ 3/64″ 0.06 0 150 14 167 FKM-NBR/Alum. U341B3490 D42 ** 1/4″ 13/64″ 0.5 0 150 14 167 NBR/Brass 73417BN2PN90 D41 ** 1/4″ 5/16″ 1.4 15 150 14 167 NBR/Zinc Alloy U347L1190 D45 ** 4-Way – 4.0 Cv Single Solenoid 1/2″ 5/8″ 4.0 30 150 14 167 NBR/Brass 73417BN4UN90 D44 ** 1/2″ 5/8″ 4.0 30 150 -14 167 NBR/Brass 73417BN4UN9C D44 ** 1/2″ 9/16 4.0 7 150 14 167 FKM-NBR/Alum. U341L2190 D43 ** 4-Way – Double Solenoid 1/4″ 11/64″ 0.55 30 150 14 167 NBR/303 S.S. 73477VN2KN90 D49 ** 1/4″ 1/4″ 1.2 30 150 14 167 NBR/Brass 73477BN2PN90 D49 ** 4-Way – 4.0 Cv Double Solenoid 1/2″ 5/8″ 4.0 30 150 14 167 NBR/Brass 73477BN4UN90 D51 ** 1/2″ 5/8″ 4.0 30 150 -14 167 NBR/Brass 73477BN4UN9C D51 ** NAMUR 3/4-Way 1/4″ 11/64″ 0.55 30 150 14 167 NBR/Brass 73417AKDKN90 D62 ** 1/4″ 1/4″ 1.2 30 150 14 167 NBR/Brass 73417AKDPN90 D62 ** NAMUR 3/4-Way Double Solenoid 1/4″ 11/64″ 0.55 30 150 14 167 NBR/Alum. 73477AKDKN90 D63 ** 1/4″ 1/4″ 1.2 30 150 14 167 NBR/Alum. 73477AKDPN90 D63 ** ** For Coil Information, see page D48 Note: Dimensions for the drawing are in millimeters. 3-Way Universal Port Identification: P-Pressure/C-Cylinder/E-Exhaust D43 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D42 Valve Reference D41 1.62 .5O 1/4 NPT TYP 1.25 .94 .94 4.77 1.65 1.24 .74 .3O .4O .85 3.68 2.OO .4O 2.39 1/2 NPT 4-Way 2 position single solenoid Port identification: Press-1/Cyl – 2, 4/ EXH 3, 5 1.62 .5O 1/4 NPT TYP 1.25 .94 .94 4.77 1.65 1.24 .74 .3O .4O .85 3.68 2.OO .4O 2.39 1/2 NPT 4/2 4-Way Two Position Port Identification: 1-Pressure/2, 4-Cylinder/3-Exhaust 4 2 1 3 0 D44 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D43 4/2 4-Way Two Position Port Identification: P-Pressure/B, A-Cylinder/S, R-Exhaust 4 2 1 3 0 Valve Reference D44 4-Way 2 position single solenoid Port Identification: Press-1/CYL-2,4/EXH 3,5 1-11/32 A 1-45/64 485359 B R 1-11/32 1-11/32 19/32 1-1/2 2-23/64 2-23/64 P S D45 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D49 1.62 TYP 3.68 TYP .85 .40 1.24 TYP 1.65 .94 1/4 NPT TYP .50 TYP 1.25 2.39 TYP 1/2 NPT 2 PLC’s .94 2.00 5.17 4-Way 2 position dual solenoid Port Identification: Press-1/CYL-2,4/EXH 3,5 4-Way 2 position dual solenoid Port Identification: Press-1/CYL-2,4/EXH 3,5 1 Manual override mechanical option Valve Reference D45 D46 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D51 4-Way 2 position dual solenoid Port Identification: 1-Pressure/2, 4-Cylinder/3, 5-Exhaust Valve Reference D62 5/2, 4-Way 2 Position Single Solenoid Port Identification: 1-Pressure/2, 4-Cylinder/3, 5-Exhaust D47 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D63 5/2, 4-Way 2 Position Dual Solenoid Port Identification: 1-Pressure/2, 4-Cylinder/3, 5-Exhaust D48 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Intrinsically Safe Coil and Enclosure Information Valve Reference D46 Important: The intrinsically safe supply circuit should have enough capacity in all environmental and system conditions to insure delivery of at least the minimum specified operating current of the coil. Be sure to include the internal coil resistance and the bridge rectifier resistance (where applicable) when calculating circuit parameters. Splice Box Enclosure with Strain Relief Egress Specifications: Protection Class • IP 65 according to DIN 40050 and IEC 529 standards. Equivalent to NEMA 4 Watertight. Construction • Polyamid with fiberglass enclosure and cover. Electrical Entry and Connections • Cable entry through a blue cable gland M20 X 1.5. Screw terminals for leads 3 x 1.5mm. Additional ground connection possible with external screw terminal. Enclosure • Coil, printed circuit and other parts for I.S. specifications are completely encapsulated within the enclosure using epoxy material. Dielectric Strength • Greater than 500 V rms Bridge Rectifier Resistance • Less than 50 ohms at 29mA Coil Internal Resistance • 295 ohms at 20°C Voltage • 24 VDC nominal Minimum Operating Current • 29 milliamps Coil Temperature Rise • Less than 5°C Maximum Enclosure Temperature • <85°C (corresponding to T6 class) according to ATEX. Ambient Temperature • -13°F to + 149°F (-25°C to +65°C) F.M. Entity Parameters • Vmax = 30 volts • Imax = 100 mA • Ci = 0 • Li = 0 mH Options • 1/2" NPT Conduit Hub Adaptor. Order part number U22-001. Electrical Parts Reference Number Approvals Classification 490885 FM/CSA LCIE 02 ATEX 6024X Class I, Div. 1, Groups A,B,C,D, Class II, Div. 1, Groups E,F,G Class III, Div. 1 tD A20 IP66 T80°C 488650.01 LCIE 02 ATEX 6066X Ex ia IIC T6, tD A20 IP66 T80°C D49 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Intrinsically Safe Coil and Enclosure Information Valve Reference D47 Potted Lead Wire Coil with Strain Relief Egress Specifications Protection Class • IP 67 according to DIN 40050 and IEC 529 standards. Equivalent to NEMA 4 Watertight. Construction • Epoxy coated metal enclosure and cover. Electrical Entry and Connections • Fixed and potted two core (2 x 1mm2) blue connection cable of 2m length. Other cable lengths on request. Entry cable gland pg 11 (18.6mm) (DIN 46320). Additional ground connection possible with external screw terminal. Enclosure • Coil, welded lead connections, printed circuit and other parts for I.S. specifications are completely encapsulated within the enclosure using epoxy material. Dielectric Strength • Greater than 500 V rms Bridge Rectifier Resistance • Less than 50 ohms at 29mA Coil Internal Resistance • 295 ohms at 20°C Voltage • 24 VDC nominal Minimum Operating Current • 29 milliamps Coil Temperature Rise • Less than 5°C Maximum Enclosure Temperature • <85°C (corresponding to T6 class) according to ATEX. Ambient Temperature • -40°F to + 149°F (-40°C to +65°C) F.M. Entity Parameters • Vmax = 30 volts • Imax = 100 mA • Ci = 0 • Li = 0 mH Options • 1/2" NPT Conduit Hub Adaptor. Order part number U22-001. Electrical Parts Reference Number Approvals Classification 490890 FM/CSA LCIE 02 ATEX 6024X Class I, Div. 1, Grps A,B,C,D Class II, Div. 1, Grps E,F,G Class III, Div. 1 tD A20 IP66 T80°C 488660.01 LCIE 02 ATEX 6024X Ex ia IIC T6 D50 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Intrinsically Safe Coil and Enclosure Information Valve Reference D48 Splice Box Enclosure with Booster Circuit and Strain Relief Egress Specifications Protection Class • IP 65 according to DIN 40050 and IEC 529 standards. Equivalent to NEMA 4 Watertight. Construction • Polyamid with fiberglass enclosure and cover. Electrical Entry and Connections • Screw terminals within terminal box. Cable connection through M20x1.5 cable gland. Additional ground connection possible with external ground terminal. Enclosure • Coil, printed circuit and other parts for I.S. specifications are completely encapsulated within the enclosure using epoxy material. Booster Circuits • The electronic booster circuit consists of capacitor, diodes, thyristor and Zener diode. Voltage • Nominal: 24 VDC nominal • Maximum: 28 VDC • Minimum at Attraction: 21.6 VDC Circuit design must ensure that at least 21.6 VDC is available at the solenoid for proper operation. Minimum Holding Current • 60 mA Coil Temperature Rise • Less than 5°C Maximum Enclosure Temperature • <85°C (corresponding to T6 class) according to ATEX. Ambient Temperature • 13°F to + 140°F (-25°C to +60°C) Required Time Delay for Renewed Valve Actuation after Booster Discharge • Approximately 1-3 seconds at nominal voltage Duty Cycle • 100% solenoid duty Options • 1/2" NPT Conduit Hub Adaptor. Order part number U22-001. Electrical Parts Reference Number Approvals Classification 495910 LCIE 03 ATEX 6464X Ex ia IIC T6, T5, T4, Ex ia IIB T6, T5, T4, tD A20 IP67 T130°C/T95°C/T80°C Wiring Schematic for Booster Circuit Note: Dimensions are shown in millimeters D51 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Intrinsically Safe Valve ordering information Pressure Vessel Part Number Coil Part Numbers* and Descriptions 495910N7 Ex ia II T6 IP67 Ex tD A20 T80°C IP67 28VDC max Encapsulated DIN Coil with Terminal Box & Cable Gland Connector with booster circuit 490885L8 Ex ia IS I/II/III/1 ABCDEFG 24VDC Nominal Coil with Splice Box and Strain Relief Egress, rectification diodes, 30VDC max, FM/CSA Cl1 Div 1, 3W 490890L8 Ex ia IS I/II/III/1 ABCDEFG 24VDC Nominal Potted Coil with Lead Wires and Strain Relief Egress 30VDC max FM/CSA Cl1 Div 1, 3W 48866001N7 II 1 G-Ex ia IIC T6 II 1 D -80°C 24VDC Nominal Potted Coil with Lead Wires and Strain Relief Egress 28VDC max 3W 48865001N7 Ex ia IIC T6 Ex tD A20 T80C IP66 24VDC Nominal Coil with Splice Box and Strain Relief Egress 28VDC max 3W U121K0490 X X X X X U121K0690 X X X X X U121K0890 X X X X X U131E0390 obsolete obsolete obsolete obsolete obsolete U131K0490 X X X X X U131K0690 obsolete obsolete obsolete obsolete obsolete U131K0890 obsolete obsolete obsolete obsolete obsolete U131V5490 X X X X X U321G3690 X X X X X U321G3990 X X X X X U321G4090 X X X X X U321H1590 X X X X X U331B7490 X X X X X U331L2190 X X X X X U341B3490 X X X X X U341L2190 X X X X X U347L1190 X X X X X *Coil Part Numbers ending in ‘N7’ are ATEX and those ending in ‘L8’ are FM/CSA listed *Drop the first two digits (‘49’ or ‘48’) of the coil part number and add to Pressure Vessel Part Number to create the complete valve part number (i.e. U121K0490 with coil 495910N7 becomes U121K04905910N7) Note: For U133X5196 and U033X5196, consult factory for available coils and enclosures D52 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Hazardous Atmosphere Classifications Typical Gasses in Atmosphere Class I UK and ATEX (BS5501: Part 1 EN 50 014) US National Electrical Code Group Ethane, propane, butane, pentane, hexane, heptane, octane , nonane, decane, acetic acid, acetone, methanol, toluene, ethyl acetate IIA Group D Ethylene, Coke, oven gas, dimethyl ether, diehyl ether, ethylene oxide IIB Group C Hydrogen IIC Group B Carbon Disulphide No Classification Acetylene Group A Ethyl Nitrate No Classification Typical Dusts in Atmosphere Class I UK and ATEX US National Electrical Code Group Metal No Classification Group E Carbon/Coal No Classification Group F Grain No Classification Group G Surface Temp/Agency Code Cross Reference Maximum Surface Temperature US Standard (U. L.) ATEX 450°C T1 T1 300°C T2 T2a - 280°C T2b - 260°C T2c - 230°C T2d - 215°C T2 200°C T3 T3a - 180°C T3b - 165°C T3c - 160°C T3 135°C T4 T4a - 120°C T4 100°C T5 T5 T5 85°C T6 T6 T6 Hazardous Area Classifications Description US ATEX An explosive atmosphere is continuously present Division I Zone 0 An explosive atmosphere is intermittently present during normal operations Division I Zone 1 An explosive atmosphere is present during abnormal conditions Division II Zone 2 Note: These charts are provided for reference only. Consult the U.S. National Electrical Code or rating agencies such as Factory Mutual or Underwriter's Laboratories for specific details. Hazardous (Classified) Locations (In accordance with Article 500, National Electrical Code-1984) Hazardous Classifications (Class) Class I Gasses or Vapors Class II Dust Class III Fibers Division 1 Hazardous vapors present Group A Acetylene Group B Hydrogen, etc. Group C Ether, UDMH, ethylene, etc. Group D Acetone, hydrocarbons, acetates, alcohols, etc. Group E Metal: aluminum, magnesium, etc. Group F Carbon black, coal, coke dust, etc. Group G Flour, starch, grain, and organic food stuffs, etc. Division 2 Hazardous vapors contained but may be present Division 1 Air suspended Division 2 Surface accumulated non-air suspended Division 1 Handled, manufactured or used No Groups Textiles, wood, synthetic fibers Division 2 Handled and stored D53 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Power Consumption • 10, 22 watts Agency Approvals • cUL listed. Maximum Ambient Temperature 149°F Applications: • Pilot control on process valves • Fluid “circuit breakers” requiring manual intervention to reset after being tripped (safety feature). General Description: 3-Way Manual Reset solenoid valves are designed to start and stop the flow of media as the result of an electrical signal. This can be a problem in some power outage situations were the valve must remain in the no voltage supplied position until the system is manually restarted. Manual reset valves have an added safety device to address this issue. When the manual reset device is triggered, the valve remains in the at rest position until the reset mechanism is manually latched. Pilot operated versions require minimum operating pressure differential for proper operation. Installation: Valves can be mounted in any position. Mechanical Characteristics: Standard Materials of Construction • Body—brass or stainless steel (430) • Seals—NBR or FKM seals as listed • Sleeve tube—stainless steel (303 or 304) • Plunger—stainless steel (430FR) • Shading ring—copper • Stop—stainless steel (430FR) • Springs—stainless steel (18-8) • Pilot orifice—stainless steel (303) Compatible Fluids • Depending on the valve used, most common media including air, inert gases or petroleum products. • Hydraulic Fluids Electrical Characteristics: Voltages • AC—120/60–110/50 240/60–220/50 • DC—12, 24 & 120 3-Way Manual Reset Direct Acting & Pilot Operated Valves D54 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 3-Way Direct Acting Stainless Steel Valves—Normally Closed, NBR or FKM Seals Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (PSI) No-Voltage Release Pressure Vessel Number Valve Min.* Maximum Coil AC Ratings DC Ratings Ref. In Exh. In Exh. 10 Watt 22 Watt 10 Watt 22 Watt AC DC 1/4" 3/64 3/32 0.062 0.17 0 200 200 70315SN2EVVR 7 8 D51 1/4" 1/16 3/32 0.11 0.17 0 150 150 70315SN2GVVR 7 8 D51 1/4" 3/32 3/32 0.17 0.17 0 90 90 70315SN2KVVR 7 8 D51 3-Way Pilot Operated - Brass Valves—Normally Closed or NBR Seals Port Size NPT Orifice Size in. Cv Factor Operating Pressure Differential (PSI) No-Voltage Release Pressure Vessel Number Valve Min.* Maximum Coil AC Ratings DC Ratings Ref. 10 Watt 22 Watt 10 Watt 22 Watt AC DC 1/2" 1/2 3.6 10 180 180 70312BN4UNVR 7 8 D51 3-Way Direct Acting Brass Valves—Universal All-Ports-In-Body, FKM Seals Port Size NPT Orifice Size In. Flow Factor Cv Operating Pressure Differential (PSI) No-Voltage Release Pressure Vessel Number Valve Min.* Maximum Coil AC Ratings DC Ratings Ref In Exh. In Exh. 10 Watt 22 Watt 10 Watt 22 Watt AC DC 1/4" 5/64 5/64 0.14 0.14 0 100 100 7033TBN2JVVR 7 8 D51 1/4" 1/8 1/8 0.23 0.23 0 50 50 7033TBN2NVVR 7 8 D51 3-Way Direct Acting 316L Stainless Steel Valves—Intrinsically Safe, NBR Seals Port Size NPT Orifice Size in. Cv Factor Operating Pressure Differential (PSI) No-Voltage Release Pressure Vessel Number Valve Min.* Maximum AC Ratings DC Ratings Coil Ref. 10 Watt 22 Watt 10 Watt 22 Watt 1/4" 3/16 0.53 0 145 145 U033X5156* * D40 *Consult factory for available coil/enclosure options. * Pilot operated valves require the minimum pressure differential specified for proper valve operation. D55 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D51 Dimensions apply to Manual Reset feature only. Dimension No-Voltage Electrically Release Tripped A 4.64 4.40 B 4.31 4.07 C 1.79 1.59 D 3.26 3.06 Valve Specifications 70312, 70315, 7033T Part Numbers U033 Part Numbers Intrinsically Safe Valves Valve Function Multipurpose or Normally Closed Multipurpose Port Size ¼” NPT or ½” NPT ¼” NPT Body Material Brass or Stainless Steel Stainless Steel Seal Material FKM or NBR FKM Coil Temperature Rating Class F or Class H Not Applicable Power Consumption 10 Watt for AC or 22 Watt for DC 3 Watt Voltage 120/60 - 110/50, 24 VDC 24 – 28 VDC Coil Enclosure ½” Conduit for Hazardous Locations Splice Box Enclosure with Strain Relief Maximum Fluid Temperature 180°F 167°F Max Ambient Temperature 104°F 149°F 3-Way Normally Closed Principles of Operation No Voltage release models 3-Way Normally Closed Valves These valve types can only be actuated (opened) when the coil is energized and the hand lever is manually moved downward to the latched valve-open position. If the coil is not energized, the mechanism will not become latched in this position, as soon as the hand lever is released, it will return to the unlatched valve-closed position. The hand lever mechanism can only be engaged when the coil is energized. When the solenoid coil is de-energized, the handle and the mechanism are automatically tripped at the valve is returned to its original normally closed, unlatched position. 3-way Normally Open Valves The principles of operation for normally open valves are identical to the normally closed version except the valve's de-energized position is normally open. D56 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Notes D57 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty General Description: 2-Way & 3-Way hydraulic direct acting valves are specifically designed for use in hydraulic systems. These valves are spool type valves that can withstand a static pressure up to 3000 PSI. All internal parts are compatible with most hydraulic fluids. Installation Valves can be mounted in any position. Preferred orientation is with the coil vertical and upright. Standard Materials of Construction • Body—Stainless Steel (430F) • Seals—Metal • Flange Seal—NBR • Sleeve Tube—Stainless Steel (304) • Plunger—Stainless Steel (430FR) • Stop—Stainless Steel (430FR) • Springs—Stainless Steel (18-8) • Shading Ring—Copper • Spool—Stainless Steel (17-4PH) Compatible Fluids • Hydraulic Fluids Electrical Characteristics: Voltages • AC—24/60 120/60–110/50 240/60–220/50 • DC—12, 24 & 120 Power Consumption • 10, 14, 21 watts Coil Classification • Class F Standard • Class H available (71211, 71221, 71331) • Class B Coils Standard on (A11, A12, A13, A15, A16) Agency Approvals • UL and CSA approvals are available on valves with applicable coil/enclosure combinations. (Models 71211, 71221 and 71331 only) • Models A11, A12, A13, A15 & A16 do not carry any agency approvals Maximum Ambient Temperature • 185°F Maximum Allowable Leakage • Maximum Allowable Internal Seat Leakage at 70° F with MIL-H-5606 oil is 80cc/min at 1000 PSI. (Models 71211, 71221 and 71331) • Maximum Allowable Internal Seat Leakage at 70° F with MIL-H-5606 oil is 295cc/min at 3000 PSI. (Models A11, A12, A13, A15, A16) • External—None (All models) Applications: • Hydraulic Cylinders • Lift Trucks • Machine Tools • Sky Cranes • Hydraulic Door Openers 2-Way & 3-Way Hydraulic Direct Acting Valves 1/8" NPT D58 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 2-Way High Pressure Hydraulic Valves - Normally Closed - Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Max. Static Pressure (PSI) Max. Diff Pressure (PSI) Max. Flow (GPM) Watt Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/32 0.15 0 3000 3000 8.5 21 185 Metal A12LB13002 * D28 1/8 7/64 0.21 0 1000 900 6.5 10 185 Metal 71211SN1MM00 7 D26 DC TECHNICAL SPECIFICATIONS 1/8 3/32 0.15 0 3000 3000 8.5 14 185 Metal A126LB13001 * D28 1/8 7/64 0.21 0 1000 900 6.5 10 185 Metal 71211SN1MM00 7 D26 2-Way High Pressure Hydraulic Valves - Normally Open - Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Max. Static Pressure (PSI) Max. Diff Pressure (PSI) Max. Flow (GPM) Watt Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/32 0.15 0 3000 3000 9.0 21 185 Metal A11LB13002 * D28 1/8 7/64 0.21 0 1000 700 5.7 10 185 Metal 71221SN1MM00 7 D26 DC TECHNICAL SPECIFICATIONS 1/8 3/32 0.15 0 3000 3000 9.0 14 185 Metal A116LB13001 * D28 1/8 7/64 0.21 0 1000 700 5.7 10 185 Metal 71221SN1MM00 7 D26 3-Way High Pressure Hydraulic Valves - Normally Closed - Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Max. Static Pressure (PSI) Max. Diff Pressure (PSI) Max. Flow (GPM) Watt Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/32 0.15 0 3000 1000 5.7 21 185 Metal A13LB13002 * D29 1/8 3/32 0.15 0 3000 2000 7.0 21 185 Metal A13LB13002 * D29 DC TECHNICAL SPECIFICATIONS 1/8 3/32 0.15 0 3000 1000 5.7 14 185 Metal A136LB13001 * D29 1/8 3/32 0.15 0 3000 2000 7.0 14 185 Metal A136LB13001 * D29 * For coil information see chart on bottom of the next page. D59 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 3-Way High Pressure Hydraulic Valves - Normally Open - Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Max. Static Pressure (PSI) Max. Diff Pressure (PSI) Max. Flow (GPM) Watt Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/32 0.15 0 3000 3000 9.0 21 185 Metal A15LB13002 * D29 1/8 3/32 0.15 0 3000 3000 8.5 21 185 Metal A15LB13002 * D29 DC TECHNICAL SPECIFICATIONS 1/8 3/32 0.15 0 3000 3000 9.0 14 185 Metal A156LB13001 * D29 1/8 3/32 0.15 0 3000 3000 8.5 14 185 Metal A156LB13001 * D29 3-Way High Pressure Hydraulic Valves - Directional Control - Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Max. Static Pressure (PSI) Max. Diff Pressure (PSI) Max. Flow (GPM) Watt Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 3/32 0.15 0 3000 2000 7.0 21 185 Metal A16LB13002 * D29 1/8 3/32 0.15 0 3000 2000 7.0 21 185 Metal A16LB13002 * D29 DC TECHNICAL SPECIFICATIONS 1/8 3/32 0.15 0 3000 1000 7.0 14 185 Metal A166LB13001 * D29 1/8 3/32 0.15 0 3000 2000 7.0 14 185 Metal A166LB13001 * D29 3-Way High Pressure Hydraulic Valves - Universal - Stainless Steel Port Size NPT Orifice Size in. Flow Factor Cv Operating Pressure Differential (MOPD) PSI Max. Media Temp. °F Seal Pressure Vessel Number Reference Min. Max. Static Pressure (PSI) Max. Diff. Pressure (PSI) Max. Flow (GPM) Watt Coil Valve AC TECHNICAL SPECIFICATIONS 1/8 7/64 0.21 0 1000 See Table 1 (Top of next page) 10 185 Metal 71331SN1MM00 7 D27 DC TECHNICAL SPECIFICATIONS 1/8 7/64 0.21 0 1000 See Table 1 (Top of next page) 10 185 Metal 71331SN1MM00 7 D27 Figure 1* Voltage 24/60 120/60 240/60 12VDC 24VDC Coil Code AB2A44 AB6A46 AB8A48 DC1A22 DC2A23 Coil Part Number* AB720S24 AB728S24 AB731S24 A7724F24 A7727F24 *When ordering a replacement coil, use Coil Part Number (not Coil Code) *Select the Series A pressure vessel model number as shown above and follow with the appropriate coil/enclosure part number based or required voltage from Fig. 1 Example A15LB13002 for 120/60 becomes part number A15LB13002AB6A46 Example A166LB13001 for 12VDC becomes part number A166LB13001DC1A22 D60 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D26 Table 1: 3-Way High Pressure Hydraulic Valves (Series A) Maximum Permissible Flow & Pressure Differentials Valve Function Flow Path Maximum Pressure Differential (PSI) Maximum Flow (GPM) 3-Way Normally Closed Port 1 to Port 2 1000 5.7 Port 2 to Port 3 1000 7.0 3-Way Normally Open Port 3 to Port 2 3000 9.0 Port 2 to Port 1 3000 8.5 3-Way Universal (Directional) Port 2 to Port 3 2000 7.0 Port 2 to Port 1 2000 7.0 Flow Limits The spool in A10 Series valves will fail to shift when the flow exceeds the maximum rated value. Each catalog listing indicates the flow and pressure drop for which these valves will operate without malfunction. The static pressure listed for each valve will not adversely affect valve operation as long as the rated flows and pressure differentials are not exceeded. The maximum flows (GPM) and pressure differentials (PSI) are based on Mil-H-5606A hydraulic oil at 80°F. Response Times: AC = Approximately 4-8 ms to open or close DC = Approximately 15-30 ms to open, 15-25 ms to close. Operating Speed: Up to 300 cycles per minute 71211 2-Way Normally Closed 71221 2-Way Normally Open 1.62 2.76 1.95 2.50 1.22 .47 3.52 1 3 2 .80 1.62 DIA A12 A11 D61 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D28 Valve Reference D27 1.62 2.76 1.95 2.50 1.22 .47 3.52 1 3 2 .80 1.62 DIA Port Identification: NC NO Universal Directional Control 1 Pressure Exhaust NC NC 2 Cylinder Cylinder Cylinder IN 3 Pressure Pressure NO NO 3-Way Normally Closed 3-Way Universal 3-Way Normally Open 3-Way Diverting A11 2-Way Normally Open A12 2-Way Normally Closed Port Identification A11 A12 1-plugged 1-IN 2-OUT 2-OUT 3-IN 3-Plugged D62 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D29 Port Identification A13 A15 A16 1-IN 1-Exhaust 1-Normally Closed 2-Cylinder 2-Cylinder 2-In 3-Exhaust 3-IN 3-Normally Open A13 3-Way Normally Closed A15 3-Way Normally Open A16 3-Way Directional Control Notes D63 General Description: Solenoid valves are typically operated by an on/off coil that remains on, generates heat, and consumes power while operating. Power consumption can be a problem for continuous duty applications. Parker Fluid Control Division offers a no power solution for your nonsafety shut-off applications. This solution is the Magnelatch® coil option. This coil option is offered on the products in this section. The Magnelatch® operator contains a permanent magnet that is shifted on (latched) or off (released) by a momentary electrical current pulse of approximately twenty milliseconds (.02 seconds). The conventional solenoid valve is in one of two positions – off or de-energized, or on – energized. The Magnelatch® requires no continuous power thus the term latch position is used for on and release position for off. Valves with Magnelatch coils remain in their last energized position and do not return to their de-energized position in the event of a power outage. Magnelatch coils are not available on valves for steam service. Valves with Magnelatch coils have the same pressure rating as that valve with a 10 watt coil. Applications: Instrumentation No heat build up – eliminates constant calibrations and permits confinement and compactness. Can be used with such sensors as thermistors and thermocouples. Machine Tools Operates with simple switches and eliminates holding relays and relayed circuitry required to sequence and position operations. Remote Control Equipment pulsing circuitry, low power consumption permit the use of Magnelatch® coils in many custom operations. Operation can be controlled by radio frequency or mechanical timer, etc. Other Applications • Medical equipment • Transportation products • Material handling equipment • Solar panels • Pilot valve on control valve (3-Way) • Single acting Cylinder Actuation (3-way) • Natural gas service Magnelatch® Coil Option Magnelatch® coil option eliminates power consumption and heat rise Specialty D64 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Pulse DC Operation Minimum pulse for Latching is 10 milliseconds. Minimum pulse for Releasing is 25 milliseconds. Maximum “ON” time is 5 minutes with minimum “OFF” time 40 minutes. If the “ON” time is of a shorter duration, the “OFF” time would be shorter proportionally. Wiring Circuits Leads/Wires Description 2 For use with standard duty DC power source Pulse Coils - Current Draw Latch Release 12v DC Latch 2.10 amps. Release 1.95 amps. 2-Way Direct Acting Normally Closed Stainless Steel Port Size NPT Orifice Size in. Cv Flow Factor Operating Pressure Max. Fluid Temp. °F Seal DC IN Exhaust IN Exhaust Min. Watt Voltage Wire Enclosure Pressure Vessel Number Air, Inert Gas DC 1/8 3/64 N/A 0.06 N/A 0 450 185 NBR 18 24VDC 2 Grommet 71215SN1ENP6M2J011C2 3-Way Direct Acting Universal Stainless Steel Port Size NPT Orifice Size in. Cv Flow Factor Operating Pressure Max. Fluid Temp. °F Seal DC N.C. N.O. N.C. N.O. Min. Watt Voltage Wire Enclosure Pressure Vessel Number Air, Inert Gas 1/4 1/16 1/16 0.10 0.10 0 125 77 NBR 15 12VDC 3 Hazardous X5RBM55740DC1A3K 1/4 1/16 1/16 0.10 0.10 0 125 77 NBR 15 24VDC 3 Hazardous X5RBM55740DC2A4K 1/4 1/16 1/16 0.10 0.10 0 115 185 NBR 18 12VDC 3 ½" Conduit 71335SN2GNJ1M1G011C1 1/4 3/32 3/32 0.17 0.17 0 80 185 NBR 18 12VDC 2 ½" Conduit 71335SN2KNJ1M1J011C1 3-Way Direct Acting Normally Closed Stainless Steel Port Size NPT Orifice Size in. Cv Flow Factor Operating Pressure (PSI) Max. Fluid Temp. °F Seal DC IN Exhaust IN Exhaust Min. Watt Voltage Wire Enclosure Pressure Vessel Number Air, Inert Gas, Water, Light Oil 1/8 3/64 1/16 0.06 0.09 0 250 185 FKM 18 24VDC 2 Grommet 71315SN1EVJ1M2J011C2 1/4 3/64 1/16 0.06 0.09 0 250 185 NBR 18 12VDC 2 ½" Conduit 71315SN2ENJ1M1J011C1 1/4 1/16 1/16 0.11 0.09 0 200 185 NBR 18 12VDC 2 ½" Conduit 71315SN2GNJ1M1J011C1 1/4 3/32 3/32 0.17 0.17 0 125 185 NBR 18 12VDC 2 ½" Conduit 71315SN2KNM5M1J011C1* 1/4 3/64 1/16 0.06 0.09 0 235 77 FKM 15 24VDC 3 Hazardous X5RBM66890DC2A4K 1/4 1/16 1/16 0.11 0.09 0 100 77 NBR 16 12VDC 2 Hazardous X53RBM2100DC1A9J 1/4 1/16 1/16 0.11 0.09 0 100 77 NBR 16 24VDC 2 Hazardous X53RBM2100DC2A0K 1/4 1/8 3/32 0.23 0.17 0 50 77 NBR 16 12VDC 3 Hazardous X5RBM64640DC1A3K * Valve includes manual override as a standard feature D65 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D52 3 wire - Pulse Power Source 2 wire - Standard Duty Power Source Coil Kits Wire DC Voltage M1J011C1 2 12 M2G011C1 3 12 M2G011C2 3 24 AC voltage Magnelatch coils are available, although minimum order quantities may apply. Consult factory for further information. Pulse DC Operation Minimum pulse for Latching is 10 milliseconds. Minimum pulse for Releasing is 24 milliseconds Maximum “ON” time is 5 minutes with minimum “OFF” time 40 minutes. If the “ON” time is of a shorter duration, the “OFF” time would be shorter proportionally. Latch Release 12VDC Latch 2.10 amps Release 1.95 amps 24VDC Latch 1.22 amps Release 1.21 amps Voltage Nominal Values Pulse Duration for Momentary Operation (Milliseconds) Nominal Values Current Drain in Amperes Latch Release Latch Release 12VDC 10 12 1.40 .75 24VDC 10 25 0.710 0.380 Note: Shown for coil/enclosure dimensional reference only. RED MAGNELATCH® WIRING SCHEMATIC MAGNELATCH® WIRING SCHEMATIC BLACK WHITE RED BLACK WHITE RED BLACK WHITE LATCH POSITION RELEASE POSITION BLACK RED BLACK RED SW1 SW2 BLACK RED SW1 SW2 LATCH POSITION RELEASE POSITION RED MAGNELATCH® WIRING SCHEMATIC MAGNELATCH® WIRING SCHEMATIC BLACK WHITE RED BLACK WHITE RED BLACK WHITE LATCH POSITION RELEASE POSITION BLACK RED BLACK RED SW1 SW2 BLACK RED SW1 SW2 LATCH POSITION RELEASE POSITION D66 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Notes D67 Dual-Flow Dispensing Valve For the Fuel Dispensing Market General Description: Parker Fluid Control Division’s Dual- Flow solenoid valves are designed to control two flow rates on command. The valves are actually two valves in one compact assembly using a single dual-wound coil. The valves accurately dispense a predetermined amount of liquid by providing a high-flow (full-flow) for delivery of the bulk amount, and then switch to the low-flow mode to dispense the final amount required. Installation: Valves can be mounted in any position. Mechanical Characteristics: Flow Sequence Off-Low-High-Low-Off Standard Materials of Construction: • Body – Brass • Seals – fluorocarbon (FKM) • Sleeve – stainless steel • Plunger – stainless steel (430 FR) • Diaphragm – NBR • Shading Ring – copper • Springs – stainless steel Enclosure Explosion proof, 1/2" conduit, NEMA Type 7 (UL Class I, Groups C & D) Electrical Characteristics: Standard Voltages: AC – 120/60 110/50 DC & other voltages – consult factory Power Consumption • High flow - 15 watts • Low flow - 8 watts Agency Approvals UL listed and CSA certified (ATEX and IECEx available upon request) Coil Classification Class F taped with 3 gasoline vapor resistant lead wires. Applications: • Fuel dispensing • Pre-pay • Process industries (blending/mixing/batching) • Petrochemical • Refining • Food • Pharmaceutical Maximum Ambient and Fluid Temperature 104°F Specialty D68 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 2-Way Normally Closed - XLG Fuel Dispensing - Brass Port Size NPT Orifice Size Flow Factor Cv Operating Pressure Differential PSI Max. Media Temp. °F Seal Pressure Vessel Number Reference Full Flow Low Flow Full Flow Low Flow Min. Max AC Coil Valve 3/4 3/4 3/32 5.5 0.17 5 50 140 FKM XLG20600 * D54 1 1-1/2 1/16 13 0.12 5 50 140 FKM XLG201030 * D61 1-1/2 1-1/4 1/16 21 0.12 5 50 140 FKM XLG201530 * D55 *Consult factory for coil/enclosure selection Valve Reference D54 WIRING SCHEMATIC YELLOW BLACK RED GREEN GROUND (OPTIONAL) FLOW STATUS NO FLOW FULL FLOW LOW FLOW SWITCH POSITION A OPEN CLOSED CLOSED B EITHER CLOSED OPEN LINE VOLTAGE SWITCH A SWITCH B D69 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Valve Reference D55 Valve Reference D61 WIRING SCHEMATIC YELLOW BLACK RED GREEN GROUND (OPTIONAL) FLOW STATUS NO FLOW FULL FLOW LOW FLOW SWITCH POSITION A OPEN CLOSED CLOSED B EITHER CLOSED OPEN LINE VOLTAGE SWITCH A SWITCH B WIRING SCHEMATIC YELLOW BLACK RED GREEN GROUND (OPTIONAL) FLOW STATUS NO FLOW FULL FLOW LOW FLOW SWITCH POSITION A OPEN CLOSED CLOSED B EITHER CLOSED OPEN LINE VOLTAGE SWITCH A SWITCH B D70 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Notes D71 General Description: Parker Fluid Control's Fuel Selector Valve Manifolds are designed for electrically controlled remote tank selection in application with multiple diesel fuel tanks. Unique in design, the Fuel Selector Valve Manifold permits continuous engine function during tank switching from a safe and convenient location. These innovative manifold solutions include 2-way, normally closed solenoid operators that are rated for fuel safety shut-off and feature a manual operator (standard) for system operation during a power outage. Installation: Valves can be mounted in any position. Standard Materials of construction: Body – Anodized Aluminum Seals – Fluorocarbon (FKM) Sleeve – 300 Series Stainless Plunger/Stop – 430 FR Stem – Stainless Steel Electrical Characteristics: Standard Voltages DC - 12, 24 Coil Classification: Class F standard (10 watt) Maximum Ambient Temperature: 176º F System Specifications: • Six Port Diesel Manifolds • Four 2-Way normally closed operators ensure fuel shutoff and return flow. • 5 PSI (0.34 bar) check valve included with manifold to be installed between engine supply and return ports. Applications: • Marine/mobile applications • Multiple tank selection • Fuel polishing (marine) • Power generation • Multiple tank selection Mechanical Characteristics: • Recommended Filtration: 150 micron (not included) • Flow Capacity: • 180 GPH - 6 port diesel Fuel Selector Manifolds 6 Port Manifold with Manual Override and 5 PSI Check Valve Specialty D72 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty Maximum Ambient Temperature: 176ºF Per ABYC H23 (Diesel Fuel Systems) and ABYC H-24 (Gasoline Fuel Systems) Maximum Fluid Temperature: 71ºC or 160ºF Current Draw: .83A each coil Power Consumption: 10 watts each coil Coil: Molded Class F coil with 18” leads Electrical Enclosure: External Yoke Body Material: Aluminum Seal Material: FKM Dimensional Drawings for the 6 port Fuel Selector Manifold Schematic shows the ease of incorporating the Fuel Selector Manifold into your system For equivalent 3 port versions of the valve. For gasoline service, please contact Parker Hannifin Fluid Control Division @ 1800-VALVE05. ENGLISH UNITS METRIC UNITS Port Size NPT Orifice Size (in.) Cv Factor Operating Pressure Differential PSI Complete Valve Number* Orifice Size (mm) Kv Factor (m3/h) Operating Pressure Differential (bar) Min. Max. Min. Max. 1/2 7/16 2.25 0 3 7121Z027F1J111xx 11.1 1.935 0 0.207 *In place of 'xx' in the part number, use 'C1' for 12VDC or 'C2' for 24VDC voltages. D73 General Description: In an effort to be environmentally conscious, comply with government emission laws and decrease dependence on foreign oil, clean burning alterative fuels such as CNG (compressed natural gas) have become a viable solution. Parker Fluid Control Division is committed to providing system solutions for these and many other alternative fuel applications. Parker Fluid Control Division is now pleased to offer the high pressure, high flow, low leakage CNG natural gas valve. This product is designed for integration into compressed natural gas fuel delivery systems (i.e. trucks, buses, & etc…) utilizing single and multi-tank applications. Installation: Valves can be mounted in any position. The preferred orientation is with the coil vertical and upright. Standard Materials of Construction: Body - Stainless steel (430F) Seals - HNBR (7121Z033xxx)* - Nylon (7121Z015xxx) Plunger/Stop - Stainless steel (430F) Spring - Stainless steel (17-7 PH) Sleeve - Stainless steel (305) *HNBR is a proprietary seal material Product Advantages: • Valves range in flow for single and multi-tank systems • Wide pressure range of 0-4500 PSI for working and maximum operating tank pressure • Max Allowable Internal Seat Leakage • 7121Z033xxx - Bubble-tight from 0-4500 psi • 7121Z015xxx - <100 cc/min from 300-4500 psi Note: Consult Factory for other CNG valves used in installations after the CNG is regulated to a much lower pressure. CNG Valve High pressure and high flow valves for compressed natural gas Electrical Characteristics: Standard Voltages DC - 12, 24 Coil Classification: Class H standard Maximum Ambient Temperature: 170º F Current Drain: • 1.6 amps (12VDC) • 0.83 amps (24VDC) Specialty D74 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 2-Way Normally Closed - Stainless Steel Port Size Orifice Size Flow Factor Cv Operating Pressure Differential PSI Min. Media Temp. °F Max. Media Temp. °F Watt Seal Valve Assembly Part Number** Reference Pilot Body Pilot Body Min. Compressed Natural Gas Coil Valve SAE-6 .031 .109 .021 0.2 0 4500 -10 180 22 HBNR* 7121Z033NOL322xx 8 D58 *Proprietary Seal Material ** Replace "xx" at the end of the part number with "C1" for 12 VDC or "C2" for 24 VDC voltages. Valve Reference D58 Valve Reference D59 .875 .450 .875 OUTLET PORT INLET PORT 2.225 .929 .438 .438 SAEJ1926 #6 TUBE SIZE, 9/16-18 TH'D 2 PLC'S 1. ALL DIMENSIONS REF. 2. REF VALVE P/N 7121Z033N0L322C1 #10-32 UNF-2B TH'D ~x .250 (2 PLC'S) IN OUT 3.749 n 1.617 2-Way Normally Closed - Stainless Steel Port Size NPT Orifice Size Flow Factor Cv Operating Pressure Differential PSI Min. Media Temp. °F Max. Media Temp. °F Watt Seal Valve Assembly Part Number** Reference Min. Compressed Natural Gas Coil Valve 1/4 0.031 0.021 0 4500 -10 170 22 Nylon 7121Z015NOL322xx 8 D59 ** Replace "xx" at the end of the part number with "C1" for 12 VDC or "C2" for 24 VDC voltages. D75 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty General Description: Parker Fluid Control’s Timer Drain Valves automatically eliminate condensate that has collected up in compressed air lines. These timers can be used on a wide variety of our 2-way solenoid Normally Closed valves as well as 3-way valves for piloting our larger Angle Body control valve, using DIN 43650A / ISO 440 coils. Timers are available to control both the duration and frequency of the valves energized period during which condensate is evacuated. Installation: Preferred orientation is with the coil vertical and upright. Standard Materials of Construction: Body – Brass Seals – FKM Plunger/Stop – Stainless steel (430F) Sleeve – Stainless steel (304/305) Springs – Stainless steel (18-8) Shading Ring – Copper Electrical Characteristics: Standard Voltages AC – 24-240/50-60Hz DC – 24-240 VDC Coil Classification Class F Standard Class H Available Agency Approvals • UL listed and CSA certified • Meets NEMA Type 4X requirements • CE Certification Maximum Ambient Temperature • -23º F to 122°F for Timer • See Product Page for Valve Temperature Range Applications: • Air Compressors • Air Drying Systems • Refrigerated Dryer Systems Key Features: • Selectable Timer Ranges for duration and frequency to precisely match contaminant load – 0.5 - 10 seconds ON – 0.5 - 45 minutes OFF • Integral Strainer available to prevent contaminant from affecting valve operation • Manual reset & test button • LED’s to indicate operation • Rated for Continuous Duty Timer Drain Valves For Compressed Air Systems D76 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Specialty 2-Way Pilot Operated Brass Timer Drain Valves – Normally Closed, FKM Seals Port Size NPT Orifice Size (inch) CV Factor Operating Pressure Differential (PSi) Max. Fluid Temp. Min.* (F) Pressure Vessel Number** Maximum AC Ratings DC Ratings 10 watt 10 watt 1/4" 7/16 1.75 3 150 60 210 7321KBN2NF00N0D1DMxx 1/4" 7/16 1.75 3 300 45 210 7321KBY61640N0D1DMxx 3/8" 7/16 2.5 3 300 45 210 7321KBY63200N0D1DMxx 1/2" 7/16 2.7 3 300 45 210 7321KBY6320AN0D1DMxx *Pilot operated valves require the minimum pressure differential specified for proper valve operation. ** Replace 'xx' at the end of part number with: 'B2' for 24/60, 'P3' for 120/60-110/50, 'Q3' for 240/60-220/50, 'C2' for 24VDC and 'B6' for 120VDC voltages. Consult Factory for List pricing and minimum order quantities that may apply for certain voltages. Valve Reference D60 OUT IN 2-Way Normally Closed Port Identification: Flow arrow on body indicates flow direction. Ports are not marked. 76.0 E1 General Description: Solenoid Enclosure and Coil Information Coils are electrical devices that produce magnetic flux when electrical power is applied to the windings. Surrounding the coil is the metal solenoid enclosure and frame. Together with the plunger and stop, it forms the magnetic circuit that operates the valve. Without the enclosure, the magnetic circuit is not complete. Without a complete magnetic circuit, the magnetic field is reduced and valve performance suffers. Depending on the coil voltage and power rating, the pressure rating of the valve can vary. Solenoid enclosures come in a variety of constructions offering varying levels of protection against the elements and other forces. NEMA identifies the different enclosures as “Types” and NEC sets standards for their safety and performance. Integrated coils have an epoxy or thermoplastic "over-molding" creating a one-piece coil/enclosure for modularity and protection from the environment. The National Electrical Manufacturers Association (NEMA) recommends suitable materials and components to meet each enclosure type. The enclosures listed here will only meet the applicable NEMA recommendations when properly installed and operated to NEMA specifications and in accordance with the NEC. Electrical Characteristics: Standard Voltages: AC – 24/60 120/60 110/50 240/60 220/50 DC – 12, 24 &120 For other Voltages – Consult Factory Coil Classification: Class F Standard Class H Available Agency Approvals: Standard valves with NEMA Type 4X or Explosion Proof solenoid enclosures are UL Listed and CSA Certified. DIN coils are UL Recognized. For additional details, consult factory. Optional coils feature ATEX and IECEx Approvals. Ultra Low Power Coils (Coil Chart 12) are used on valves with a unique solenoid operator designed to keep current draw to a minimum, thus achieving the extremely low power consumption of 0.6 watts with no refresh time required for subsequent energization. These valves are ideally suited for use in automated control systems, applications where minimizing energy consumption is critical or where heat rise in the coil must be kept to a minimum. Due to the low power consumption, an increased number of solenoid valves can be driven from the same power source, reducing the overall installation cost. Coil Reference Coil Portfolio and Solenoid Enclosures (Integrated Modular Coils and Replacement Coils for Non-integrated) Coil Reference E2 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 1-3 Integrated Coil Offering Part Number Type of Termination* Voltage Wattage Class CHART 1 AF4C01 1/2" NPT Conduit/18" Leads 24/60 6 F AF4C05 120/60, 110/50 6 F AF4C15 240/60, 220/50 6 F AH4C01 1/2" NPT Conduit/18" Leads 24/60 6 H AH4C05 120/60, 110/50 6 H AH4C15** 240/60, 220/50 6 H AFPH01 DIN 43650A/ISO 4400 24/60 6 F AFPH05 120/60, 110/50 6 F AFPH15** 240/60, 220/50 6 F CHART 2 BF4C01 1/2" NPT Conduit/18" Leads 24/60 10.2 F BF4C05 120/60, 110/50 10.2 F BF4C15 240/60, 220/50 10.2 F BH4C01** 1/2" NPT Conduit/18" Leads 24/60 10.2 H BH4C05 120/60, 110/50 10.2 H BH4C15** 240/60, 220/50 10.2 H BFPH01** DIN 43650A/ISO 4400 24/60 10.2 F BFPH05 120/60, 110/50 10.2 F BFPH15 240/60, 220/50 10.2 F BHPH01** DIN 43650A/ISO 4400 24/60 10.2 H BHPH05 120/60, 110/50 10.2 H BHPH15 240/60, 220/50 10.2 H CHART 3 1F4C75 1/2" NPT Conduit/18" Leads 12VDC 9.5 F 1F4C80 24VDC 9.5 F 1H4C75** 1/2" NPT Conduit/18" Leads 12VDC 9.5 H 1H4C80** 24VDC 9.5 H 1FPH75 DIN 43650A/ISO 4400 12VDC 9.5 F 1FPH80 24VDC 9.5 F 1HPH75** DIN 43650A/ISO 4400 12VDC 9.5 H 1HPH80 24VDC 9.5 H * 1/2" NPT conduit and DIN coils offer NEMA Types 1, 2, 3, 4 and 4X protection with a suitable conduit installation or mating DIN connector and gasket. ** Not in list price book. Minimum order quantities may apply. Consult factory. E3 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 4-5 Integrated Coil Offering Part Number Type of Termination* Voltage Wattage Class CHART 4 CF4C01 1/2" NPT Conduit/18" Leads 24/60 11 F CF4C05 120/60, 110/50 11 F CF4C15 240/60, 220/50 11 F CH4C01 1/2" NPT Conduit/18" Leads 24/60 11 H CH4C05 120/60, 110/50 11 H CH4C15 240/60, 220/50 11 H CFPH01 DIN 43650A/ISO 4400 24/60 11 F CFPH05 120/60, 110/50 11 F CFPH15 240/60, 220/50 11 F CHPH01 DIN 43650A/ISO 4400 24/60 11 H CHPH05 120/60, 110/50 11 H CHPH15 240/60, 220/50 11 H CHART 5 DF4C01 1/2" NPT Conduit/18" Leads 24/60 16 F DF4C05 120/60, 110/50 16 F DF4C15 240/60, 220/50 16 F DH4C01** 1/2" NPT Conduit/18" Leads 24/60 16 H DH4C05 120/60, 110/50 16 H DH4C15** 240/60, 220/50 16 H DFPH01 DIN 43650A/ISO 4400 24/60 16 F DFPH05 120/60, 110/50 16 F DFPH15 240/60, 220/50 16 F DHPH01** DIN 43650A/ISO 4400 24/60 16 H DHPH05 120/60, 110/50 16 H DHPH15 240/60, 220/50 16 H * 1/2" NPT conduit and DIN coils offer NEMA Types 1, 2, 3, 4 and 4X protection with a suitable conduit installation or mating DIN connector and gasket. ** Not in list price book. Minimum order quantities may apply. Consult factory. E4 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Chart 6 Integrated Coil Offering Part Number Type of Termination* Voltage Wattage Class CHART 6 3F4C75 1/2" NPT Conduit / 18" Leads 12VDC 11.5 F 3F4C80 24VDC 11.5 F 3H4C75** 1/2" NPT Conduit / 18" Leads 12VDC 11.5 H 3H4C80 24VDC 11.5 H 3FPH75 DIN 43650A/ISO 4400 12VDC 11.5 F 3FPH80 24VDC 11.5 F 3HPH75** DIN 43650A/ISO 4400 12VDC 11.5 H 3HPH80 24VDC 11.5 H * 1/2" NPT conduit and DIN coils offer NEMA Types 1, 2, 3, 4 and 4X protection with a suitable conduit installation or mating DIN connector and gasket. ** Not in list price book. Minimum order quantities may apply. Consult factory. E5 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 1-6 Additional Coil Options for Charts 1-6 (Below are replacement coils only; no enclosures except as noted) Part Number Type of Termination Voltage Wattage Class AFSB01 NEMA 1 Splice Box w/ 6" Leaded Coil 24/60 6 F AFSB05 120/60, 110/50 6 F AFSB15 240/60, 220/50 6 F BFSB01* NEMA 1 Splice Box w/ 6" Leaded Coil 24/60 10.2 F BFSB05* 120/60, 110/50 10.2 F BFSB15* 240/60, 220/50 10.2 F CFSB01 NEMA 1 Splice Box w/ 6" Leaded Coil 24/60 11 F CFSB05 120/60, 110/50 11 F CFSB15 240/60, 220/50 11 F DFSB01* NEMA 1 Splice Box w/ 6" Leaded Coil 24/60 16 F DFSB05 120/60, 110/50 16 F DFSB15* 240/60, 220/50 16 F 1FSB75** NEMA 1 Splice Box w/ 6" Leaded Coil 12 VDC 9.5 F 1FSB80 24 VDC 9.5 F 3FSB75 NEMA 1 Splice Box w/ 6" Leaded Coil 12 VDC 11.5 F 3FSB80 24 VDC 11.5 F AFEC01* 18" Leaded Coil for NEMA 7/9 hazardous location enclosure 24/60 6 F AFEC05 120/60, 110/50 6 F AFEC15 240/60, 220/50 6 F BFEC01 18" Leaded Coil for NEMA 7/9 hazardous location enclosure 24/60 10.2 F BFEC05 120/60, 110/50 10.2 F BFEC15 240/60, 220/50 10.2 F CFEC01* 18" Leaded Coil for NEMA 7/9 hazardous location enclosure 24/60 11 F CFEC05 120/60, 110/50 11 F CFEC15 240/60, 220/50 11 F DFEC01* 18" Leaded Coil for NEMA 7/9 hazardous location enclosure 24/60 16 F DFEC05 120/60, 110/50 16 F DFEC15 240/60, 220/50 16 F 1FEC75* 18" Leaded Coil for NEMA 7/9 hazardous location enclosure 12 VDC 9.5 F 1FEC80 24 VDC 9.5 F 3FEC75 18" Leaded Coil for NEMA 7/9 hazardous location enclosure 12 VDC 11.5 F 3FEC80 24 VDC 11.5 F * Not in list price book. Minimum order quantities may apply. Consult factory. E6 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 1-6 DIN Electrical Accessories for Charts 1-6 Part Number Description ELECD1 Cable Gland DIN Plug ELECD2 1/2" Conduit DIN Plug Additional Coil Options for Charts 1-6 Cont. (Below replacement coils only, no enclosures) Part Number Type of Termination Voltage Wattage Class AHEC01* AHEC05* AHEC15* 18" Leaded Coil for NEMA 7/9 hazardous location enclosure 24/60 120/60, 110/50 240/60, 220/50 6 H BHEC01* BHEC05* BHEC15* 18" Leaded Coil for NEMA 7/9 hazardous location enclosure 24/60 120/60, 110/50 240/60, 220/50 10.2 H CHEC01 18" Leaded Coil for NEMA 7/9 hazardous location enclosure 24/60 CHEC05 120/60, 110/50 11 H CHEC15 240/60, 220/50 DHEC01 DHEC05 DHEC15 18" Leaded Coil for NEMA 7/9 hazardous location enclosure 24/60 120/60, 110/50 16 H 240/60, 220/50 IHEC75 IHEC80 18" Leaded Coil for NEMA 7/9 hazardous location enclosure 12 VDC 9.5 H 24 VDC 3HEC75 3HEC80 18" Leaded Coil for NEMA 7/9 hazardous location enclosure 12 VDC 11.5 H 24 VDC * Not in list price book. Minimum order quantities may apply. Consult factory. E7 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 1-6 1.640 R1.096 1.350 .430 .640 1.330 2.188 Coil Charts 1-6 Integrated Coil Dimensional Values 1.63 1.67 .89 .48 .69 .674 .674 1.35 .189 Ax4Cxx AxPHxx 1.62 1.95 1.53 1.25  .77 1.61 1.10 2.04 .476 .71 .65 .77 Cx4Cxx 1.53 CxPHxx E8 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 1-6 Valves using coil charts 1-6 (Gold RingTM brand) Part Numbering Information: Reference ONLY 1 & 2 3 4 5 6 7 8 9 & 10 11 Connection Size Connection Type Construction Operation Body Material Trim Orifice Size Current Design Series Designations 02 1/8" 04 1/4" 06 3/8" 08 1/2" 12 3/4" 16 1" 20 1 1/4" 24 1 1/2" 32 2" 48 3" F Female Pipe Thread NPT 2 2-way 3 3-way 4 4-way H Diaphragm, Hung 5 Diaphragm, Pivoted Edge S Steam 0 Direct Acting 2 Diaphragm Center pilot 3 Diaphragm Hung 4 Diaphragm Offset pilot 5 Diaphragm Pivoted Edge 6 Piston 8 Piston piloted C Normally Closed O Normally Open U Universal S 4-Way Single Solenoid 1 Brass (Bar Stock) 2 Brass (Forging) 3 303 Stainless Steel (Bar) 5 Brass Nickel Plate 6 316 Stainless Steel (Cast) 7 Aluminum (Bar Stock) 8 316 Stainless Steel (Bar) 9 Bronze (Cast) 1 NBR 2 FKM 3 EPDM 4 PTFE 5 Urethane 6 CR 8 FDA EPR 9 Kalrez D Delrin K KEL F Valve orifice diameter in 1/64-inch increments. Example: a 1/2-inch orifice diameter has an orifice size designation of 32. ALERT: Table is for interpreting product specifications only. Consult Parker Fluid Control Division for available combinations not shown in catalog. E9 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 1-6 Valves using coil charts 1-6 (Gold RingTM brand) 12 13 14 15 16 & 17 Coil Wattage AC (nominal) Coil Wattage DC (normal) Coil Class Solenoid Enclosure Coil Termination Coil Voltage AC Coil Voltage DC A 6 Watts B 10.2 Watts C 11 Watts D 16 Watts 1 9.5 Watts 3 11.5 Watts F Standard (Class 155) H High Temperature (Class 180) E Explosion-Proof/ Watertight G Type 1 Gen. Purpose M 316 SS Explosion-Proof/ Watertight O Open Frame P Epoxy Encapsulated S Type 1 Splice Box U 316 SS Explosion-Proof/ Watertight W Submersible Splice Box Y Explosion-Proof/ Watertight with Ground Lead Z Grounded M 4 Type 4, 4X C 18" Leads (Standard) H DIN K Screw S Spade 01 24/60 02 24/50 05 110/50 120/60 10 208/60 15 220/50 240/60 20 440/50 480/60 41 24/60 rectified 42 120/60 rectified 44 240/60 rectified 51 120- 240/60 53 240- 480/60 70 75 80 90 95 6 12 24 120 125 ALERT: Table is for interpreting product specifications only. Consult Parker Fluid Control Division for available combinations not shown in this catalog. E10 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Chart 7 Integrated Coil Offering Part Number Type of Termination* Voltage Wattage Class CHART 7 C111B2 1/2" NPT Conduit / 18" Leads 24/60 10 F C111P3 120/60, 110/50 C111Q3 240/60, 220/50 C111C1 12VDC C111C2 24VDC C111C6 120VDC C222B2 1/2" NPT Conduit / 18" Leads 24/60 10 H C222P3 120/60, 110/50 C222Q3 240/60, 220/50 C222C1 12VDC C222C2 24VDC C222C6 120VDC D100B2 DIN 43650A/ISO 4400 24/60 10 F D100P3 120/60, 110/50 D100Q3 240/60, 220/50 D100C1 12VDC D100C2 24VDC D100C6** 120VDC D200B2 DIN 43650A/ISO 4400 24/60 10 H D200P3 120/60, 110/50 D200Q3 240/60, 220/50 D200C1 12VDC D200C2 24VDC D200C6** 120VDC * 1/2" NPT conduit and DIN coils offer NEMA Types 1, 2, 3, 4 and 4X protection with a suitable conduit installation or mating DIN connector and gasket. ** Not in list price book. Minimum order quantities may apply. Consult factory. E11 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Chart 7 Integrated Coil Offering Part Number Type of Termination Voltage Wattage Class CHART 7 (Continued) L111B2 18" Leads 24/60 10 F L111P3 120/60, 110/50 L111Q3 240/60, 220/50 L111C1 12VDC L111C2 24VDC L111C6* 120VDC L222B2* 18" Leads 24/60 10 H L222P3 120/60, 110/50 L222Q3 240/60, 220/50 L222C1 12VDC L222C2 24VDC L222C6 120VDC T100B2* 1/4" Tab (spade) 24/60 10 F T100P3 120/60, 110/50 T100Q3 240/60, 220/50 T100C1 12VDC T100C2* 24VDC T100C6* 120VDC S100B2* Screw Terminal 24/60 10 F S100P3 120/60, 110/50 S100Q3 220/50, 240/60 S100C1* 12VDC S100C2 24VDC S100C6 120VDC S200B2 Screw Terminal 24/60 10 H S200P3 120/60, 110/50 S200Q3* 240/60, 220/50 S200C1* 12VDC S200C2* 24VDC S200C6* 120VDC * Not in list price book. Minimum order quantities may apply. Consult factory E12 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Chart 7 Integrated Coil Offering Part Number Type of Termination* Voltage Wattage Class CHART 7 (Continued) H111B2** UL Hazardous Locations NEMA Type 7/9 w/ 18" Leaded Coil 24/60 10 F H111P3 120/160, 110/50 H111Q3 240/60, 220/50 H111C1 12VDC H111C2 24VDC H111C6** 120VDC H222B2** UL Hazardous Locations NEMA Type 7/9 w/ 18" Leaded Coil 24/60 10 H H222P3 120/60, 110/50 H222Q3 240/60, 220/50 H222C1** 12VDC H222C2 24VDC H222C6 120VDC * Hazardous location coil approvals: Class I, Div 1 & 2, Groups A, B, C, D; Class II, Div 1 & 2, Groups E,F,G; Class III, Div 1. Additional Coil Options for Chart 7 (Below are replacement coils only, no enclosures) Part Number Type of Termination Voltage Wattage Class J111B2 Molded coil w/ 18" Leads 24/60 10 F J111P3 120/60, 110/50 J111Q3 240/60, 220/50 J111C1 12VDC J111C2 24VDC J111C6** 120VDC J222B2** Molded coil w/ 18" Leads 24/60 10 H J222P3 120/60, 220/50 J222Q3** 240/60, 220/50 J222C1 12VDC J222C2** 24VDC J222C6** 120VDC ** Not in list price book. Minimum order quantities may apply. Consult factory. E13 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Chart 8 Integrated Coil Offering Part Number Type of Termination* Voltage Wattage Class CHART 8 C322B2 1/2" NPT Conduit /18" Leads 24/60 22 H C322P3 120/60, 110/50 C322Q3 240/60, 220/50 C322C1 12VDC C322C2 24VDC C322C6** 120VDC D300B2** DIN 43650A/ISO 4400 24/60 22 H D300P3 120/60, 110/50 D300Q3 240/60, 220/50 D300C1 12VDC D300C2 24VDC D300C6** 120VDC L322B2** 1/2" NPT Conduit /18" Leads 24/60 22 H L322P3 110/50, 120/60 L322Q3 220/50, 240/60 L322C1 12VDC L322C2 24VDC L322C6** 120VDC S300B2** Screw Terminal 24/60 22 H S300P3 120/60, 110/50 S300Q3** 240/60, 220/50 S300C1** 12VDC S300C2** 24VDC S300C6** 120VDC * 1/2" NPT conduit and DIN coils offer NEMA Types 1, 2, 3, 4 and 4X protection with a suitable conduit installation or mating DIN connector and gasket. ** Not in list price book. Minimum order quantities may apply. Consult factory. E14 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Chart 8 J322B2** Molded coil w/ 18" Leads 24/60 22 H J322P3 120/60, 110/50 J322Q3** 240/60, 220/50 J322C1 12VDC J322C2 24VDC J322C6** 120VDC * Hazardous location coil approvals: Class I, Din I & 2, Groups A,B,C,D; Class II, Div 1 & 2, Groups E, F, G; Class IV, Div 1 ** Not in list price book. Minimum order quantities may apply. Consult factory. Coil Options for Chart 8 cont. (Below replacement coils only, no enclosures) Part Number Type of Termination* Voltage Wattage Class H322B2 UL Hazardous Locations NEMA Type 7 & 9 w/ 18" Leaded Coil 24/60 22 H H322P3 120/60, 110/50 H322Q3 240/60, 220/50 H322C1 12VDC H322C2 24VDC H322C6** 120VDC * Hazardous location coil approvals: Class I, Din I & 2, Groups A,B,C,D; Class II, Div 1 & 2, Groups E, F, G; Class IV, Div 1 ** Not in list price book. Minimum order quantities may apply. Consult factory. Part Number Type of Termination Voltage Wattage Class Additional Coil Options for Chart 8 (Below are replacement coils only, no enclosures) E15 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 7-8 1.62 1.95 1.53 1.25  .77 1.61 1.10 2.04 .476 .71 .65 .77 1.53 1.61 2.11 1.12 .35 .75 .25 .17 .77 1.53 1.30 2.23 1.60 .35 .21 .77 1.53 .84 1.53 1.61 2.15 1.21 .78 .36 .48 .66 q #8-32 SCREW Coil Charts 7, 8, 10 & 11 Integrated Coil Dimensional Values C111xx, H111xx, C222xx, H222xx, C322xx, H322xx D100xx D200xx D300xx L100xx L222xx L322xx T100xx S100xx S200xx S300xx E16 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 7-8 Valves using coil charts 7, 8, 10, 11 & 12 (7000 Series Skinner™ Brand) Part Numbering Information: Reference ONLY 1 2 Actuation 3 Functional Type 4 Flow Pattern 5 Family 6 Body Material 7 Threading Process Connection 8 Port Size (NPT) 9 Orifice Code 10 Seals/ Elastomers 11 & 12 Mechanical Options 7 0 Manual Reset 1 Direct Acting 2 Direct Lift 3 Pilot Operated Internal Pilot Supply 4 Pilot Operated External Pilot Supply 5 Remote Pressure Operated 6 Manual/Mech. Operated 2 Two-Way 3 Three-Way 4 Four-Way 2-Way Valves 1 Normally Closed 2 Normally Open pressure in/out of body 3 Multi/Dual purpose 9 Normally Open pressure in the body, pressure out the sleeve 3-Way Valves 1 Normally Closed 2 Normally Open pressure in/out of body 3 Multi/Dual Purpose 8 Diverting 9 Normally Open pressure in the sleeve, pressure out the body 4-Way Valves 1 2-position, single operator 2 3-position, dual operator center closed 3 3-position, dual operator center open 4 3-position, dual operator center open 6 2-position, dual operator bi-stable 7 2-position, dual operator bi-stable, with latching 1 2 3 4 5 6 7 8 9 E F G K L T X A Aluminum B Brass L Noryl M Zinc Die Cast R 316 SS S 430F SS T Teflon V 303 SS A SAE E Male NPT F Flange G BSP-Parallel J Bib Fitting K Direct Mount N NPT(Female Nat’l Pipe thread) P NPTF R BSP-Taper S Subbase Mounted T Barbed Fitting 1 1/8" 2 1/4" 3 3/8" 4 1/2" 5 3/4" 6 1" 7 1 1/4" For K 8 1 1/2" 9 2" For K in Pos. 7 D M5 E #10-24 F #10-32 A B C D E F G H J K L M N P Q R S T U V 0 thru 9 C CR E EPDM F PCTFE K PFPM L Nylon M Metal N NBR R Ruby T PTFE U PTFE V FKM 00 No Option 7A Momentary Manual Override 7C 7A + J1 7F Captured Exhaust Pilot 7G 7F + 7A 7H 7F + MO 7M Plugged Manual Override A2 Silver Shading Ring CB Cylinder “B” normally open to pressure inlet C0 4-Step Variable Closing ET Electrically Tripped / Manual Reset J0 Pilot Exhaust Return Pipe J1 Exhaust Adaptor Nut M0 Manual Override M5 Manual Override w/Exhaust Adaptor (M0 + J1) MC Manual Override w/Var. Closing MJ Manual Override w/Exhaust Return Pipe MR Manual Override w/Main Stream Metering N0 Cleaned for oxygen service R1 Mainstream Metering S0 Steam Service Rated VR No Voltage Release / Manual Reset W0 Anti-Water Hammer (fixed) ALERT: Table is for interpreting product specifications only. Consult Parker Fluid Control Division for available combinations not shown in this catalog. E17 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 7-8 Valves using coil charts 7, 8, 10, 11 & 12 (7000 Series Skinner™ Brand) Part Numbering Information: Reference ONLY 13 & 14 Enclosure 15 & 16 Coil Construction and Type 17 & 18 Terminations and Option Codes 19 & 20 Voltage A0 B0 F0 G0 J0 M1 M2 N0 7/8" Knockout 1/2" Conduit Yoke Water Tight Junction Box Magnelatch 1/2" Conduit Magnelatch Grommet Nut and Washer Readily Available Integrated Coils C1 1/2" NPT Conduit, 10 Watt Class F, NEMA 4X C2 1/2" NPT Conduit, 10 Watt Class H, NEMA 4X C3 1/2" NPT Conduit, 22 Watt Class H, NEMA 4X C6 1/2" NPT Conduit, 1.5 Watt, Class F, NEMA 4X C7 1/2" NPT Conduit, 0.6 Watt, Class F, NEMA 4X D1 DIN, 10 Watt Class F D2 DIN, 10 Watt Class H D3 DIN, 22 Watt Class H H1 1/2" NPT Conduit, 10 Watt Class F, NEMA 7, 9 H2 1/2" NPT Conduit, 10 Watt Class H, NEMA 7, 9 H3 1/2" NPT Conduit, 22 Watt Class H, NEMA 7, 9 H7 1/2" NPT Conduit, 0.6 Watt, Class F, NEMA, 7, 9 Non-Integrated Coils L1 18" leads, 10 Watt Class F L2 18" leads, 10 Watt Class H L3 18" leads, 22 Watt Class H S1 Screw Terminal, 10 Watt Class F S2 Screw Terminal, 10 Watt Class H S3 Screw Terminal, 22 Watt Class H T1 1/4" Tab Terminal, 10 Watt Class F Conventional Coils J1 18" leads, 10 Watt Class F J2 18" leads, 10 Watt Class H J3 18" leads, 22 Watt Class H Specialty Coils F6 Fluxtron 4-wire, 1 Watt molded J6 Fluxtron 2-wire, 1 Watt molded J7 Fluxtron 2-wire, 2 watt J0 Magnelatch 2-wire DC only G0 Magnelatch 3-wire AC/DC (DC pulse) 00 Standard DIN, Screw, Tab Coils (no leads) 11 Class F Coils with 18” leads 22 Class H Coils with 18” leads GL C1,C2,C3 & H1,H2, H3 Coils with Ground lead D1 All DIN Coils with Cable Gland Connector D2 All DIN Coils with 1/2” Conduit Connector D4 D1,D2,D4 coils for timer assembly with fixed-off and adjustable on-time DB All DIN Coils with Terminal Box TB S1,S2,S3 Coils with Terminal Box S1 Hazardous stainless steel yoke with 18” leads and ground lead B2 24/60 C1 12VDC C2 24VDC C4 48VDC C6 120VDC P0* 24,50/60 P3 110/50-120/60 Q3 220/50-240/60 Q8 440/50-480/6 2K 208/60 3N 125 VDC Fluxtron Coils* 2W 110-120,50/60 3W 220-240, 50/60 C1 12 VDC C2 24 VDC C4 48 VDC C6 120 VDC P0 24/50-60 *Fluxtron Only ALERT: Table is for interpreting product specifications only. Consult Parker Fluid Control Division for available combinations not shown in this catalog. E18 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 7-8 Electrical Accessories for Charts 7-8 Various electrical accessories are available with 7000 series integrated coils. These accessories are available as individual pieces; see chart. To order a coil with the accessory attached, write the electrical option code in place of the last two digits of the coil code. Coil Option Picture Accessory Part # Coil Option Code Description Coil Types Coil Codes ELECD1 D1* Cable Gland DIN Plug DIN D1D1, D2D1, D3D1 ELECD2 D2* 1/2" Conduit DIN Plug DIN D1D2, D2D1, D3D2 * The plug comes complete with gasket. ^ Meets NEMA 4, 4x when connected to a screw terminal or DIN Coil, as applicable. It is provided with a 1/2" NPT conduit thread and ground screw. Electrical Accessories for Charts 7-8 Option Picture Option Code Description Coil Codes AO Standard Connection, 7/8" knockout to accommodate strain relief, adapter or fittings for lead wires, NEMA Type 2 J111, J222,J322, F611, J611 BO 1/2" Conduit Connection for attachment of conduit, 1/2" NPT fittings or BX cable, NEMA Type 2 F611, J611 FO Yoke for use where open enclosure is suitable (Does not carry any NEMA Type approvals) F611, J611 GO Watertight, 1/2" conduit hub accommodating 1/2" NPT fittings or BX cable, NEMA Type 4x F611, J611 JO Splice box, 7/8" knockout allowing for internal splice, NEMA Type 2 J111, J222, J322, F611,J611 NO Nut and Washer All Integrated Coils E19 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 7-8 About the IECEx IECEx System Objective The objective of the IECEx System is to facilitate international trade in equipment and services for use in explosive atmospheres, while maintaining the required level of safety: • reduced testing and certification costs to manufacturer • reduced time to market • international confidence in the product assessment process • one international database listing • maintaining International Confidence in equipment and services covered by IECEx Certification What is an Ex area? Ex areas can be known by different names such as “Hazardous Locations”, “Hazardous Areas” “Explosive Atmospheres”, and the like and relate to areas where flammable liquids, vapours, gases or combustible dusts are likely to occur in quantities sufficient to cause a fire or explosion. The modern day automation of industry has meant an increased need to use equipment in Ex areas. Such equipment is termed “Ex equipment” International Electrotechnical Commission 1. The IECEx Certified Equipment Scheme This IECEx Scheme is an International Certification Scheme covering product that meets the requirements of International Standards, e.g. IEC Standards prepared by TC 31. The IECEx Certified Equipment Scheme provides both: a) A single International Certificate of Conformity that requires manufacturers to successfully complete:- • Testing and Assessment of samples for compliance with Standards • Assessment and auditing of manufacturers premises • On-going surveillance audits of manufacturers premises or b) A “fast-track” process for countries where regulations still require the issuing of national Ex Certificates or approval. This is achieved by way of global acceptance of IECEx equipment Test and Assessment Reports. 3. The Ex Mark of Conformity System This IECEx System is an International Conformity System where a Mark of Conformity will be granted by approved IECEx certifiers (ExCBs) located in IECEx participating countries for equipment that is covered by an IECEx Certificate of Conformity and hence has been tested and manufactured under systems that are under ongoing surveillance by ExCBs. It will help governments, safety regulators, and industry to have greater assurance that the equipment being operated or supplied for use in areas where flammable gases and vapours and combustible dusts (termed explosive atmospheres) are present, meet the world’s most respected and vigorous safety standards. The Mark shall only be placed on products or on packaging and promotional material covered by a valid IECEx Certificate of Conformity issued in accordance with the IECEx System rules. 4. IECEx Certified Persons Scheme This IECEx Scheme is an International Conformity Scheme that provides the global Ex industries with a single system for the assessment and qualification of persons meeting the competency prerequisites needed to properly implement the safety requirements based on the suite of IEC International Standards covering explosive atmospheres, e.g. the IEC 60079 and IEC 61241 series of standards. The Certified Persons Scheme provides the international Ex industries with a qualification system that is transportable across borders. IECEX Worldwide Member Countries Australia Brazil Canada China Croatia Czech Republic Denmark Finland France Germany Hungary India Italy Japan Korea Malaysia Netherlands New Zealand Norway Poland Republic of Serbia Romania Russia Singapore Slovenia South Africa Sweden Switzerland Turkey United Kigndom United States E20 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 7-8 2.1 Explosive gas environments Mixture with air, under atmospheric conditions, of flammable substances in the form of gases, vapor, mists or dusts in which, after combustion has occurred, combustion spreads to the entire unburned mixture. 2.2 Hazardous areas A hazardous area is an area in which an explosive gas environment is present, or may be expected to be present, in quantities such as to require special precautions for construction, installation and use of electrical apparatus. 2.3. Ingredients for an explosion When combustible materials are mixed with air, an explosive mixture is produced. Danger of explosion therefore exists wherever these hazardous materials are handled: such a condition is to be found on the biggest chemical plant as well as at the smallest filling station. Nowadays with the use of electronic and electrical instrumentation in process control, the risk of combustion by electrical energy has increased sharply. To protect personnel and expensive equipment special precautions should be taken to prevent combustion of those dangerous substances. Conditions likely to ignite explosive mixtures are as follows: • Electrical sparks and arcs produced when circuits are opened and closed (e.g. relay contacts) • Conductors heated by passage of current or by faulty apparatus. • Mechanical sparks; moving object hitting stationary object. • Electrostatic sparks caused by charged components. • Chemical action. • Lightning strikes. • Radio waves Parker Fluid Control Division is pleased to announce the addition of several new ATEX coils designed for explosive atmospheres to comply with European directive 94/9/EC and standards IEC / EN 60079 for gases and IEC / EN 61241 for dust. Coil marking complies with the updated standards. Declaration of Conformity documents for specific part numbers are provided with the electrical product and also provided upon request. Background: The ATEX directive is a European initiative undertaken to ensure the safety of products used in potentially explosive atmospheres. It is a European mandate that all products that could provide ignition to a potentially explosive atmosphere be produced to specific requirements, under controlled conditions, by a manufacturer certified compliant to the directive by an independent notification body. Certification requires approval of the entire quality management system to the requirements of ISO 9001 with additional requirements imposed for product verifications, testing and records thereof. The International Electrotechnical Commission (IEC) is the global organization overseeing the development of international standards for electrical, electronic & related technologies. The IECEx scheme provides a means of International Certification for manufacturers of electrical equipment intended for explosive atmospheres thereby eliminating the need for multiple national certifications in all participating countries. Any recognized certified body can provide a product Certificate of Conformity stating the product design conforms to the relevant IEC standards and the product is manufactured under a quality plan assessed by an accepted certification body. The IECEx scheme is adopting the ATEX principles and this scheme is becoming internationally accepted. Within North America, UL is the only U.S. accepted certification body (ACB) and an Ex Assessment & Testing Lab (ExTL) under the IECEx scheme. The United States has recently integrated both the zone and division system requirements into their respective installation codes. Specifically for the U.S., the 1996 National Electric Code Article 505 (NEC). The Canadian Standards Association (CSA) has implemented the IEC system. All new installations follow the threezone area classification while following the two-division system for existing facilities. To reflect the new system, CSA E79 covers the IEC based standards. The introduction of zones area classifications in North America as an accepted alternative to divisions sees the introduction of the IECEx scheme and its continued acceptance on a global basis. The European ATEX and global IECEx standards apply to hazardous environments from intrinsically safe apparatus to flameproof control systems to increased safety requirements. 2.4 Zones The hazardous areas are classified in zones based on the frequency of the occurrence and the duration of an explosive gas environment as follows: • Zone 0 An area in which an explosive gas environment is present continuously or is present for long periods Type of protection: ia - intrinsic Safety • Zone 1 An area in which an explosive gas environment is likely to occur in normal operations. Type of protection: d - flameproof enclosure, e - increased safety, ib - intrinsic safety, m - encapsulation • Zone 2 An area in which an explosive gas environment is not likely to occur and if it does occur it will exist for a short period only. Type of protection: n - protection (IEC 60079-15) Definitions (ref. IEC 60079-10) ATEX/IECEx General Information E21 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 7-8 Classification of Hazardous Location Explosive Environment Continuos Presence Intermittent Presence (normal operation conditions) Occasional Presence (abnormal operation) IEC Zone 0 (gas) Zone 20 (dust) Zone 1 (gas) Zone 21 (dust) Zone 2 (gas) Zone 22 (dust) Europe Zone 0 (gas) Zone 20 (dust) Zone 1 (gas) Zone 21 (dust) Zone 2 (gas) Zone 22 (dust) Canada (CEC)* USA (NEC)** CI. I Div.1 (gas) CI. II Div.1 (dust) CI. III Div.1 (fibres) CI. I Div.1 (gas) CI. II Div.1 (dust) CI. III Div.1 (fibres) CI. I Div.1 (gas) CI. II Div.1 (dust) CI. III Div.1 (fibres) * (CEC): Code Canadian d'Electricite ** (NEC): National Electrical Code Zones and Types of Protection (gas applications) Some additional tests for gas and dust applications are applied to the product according to the new ATEX directive related to the EN 50281-1-1 and EN 50281-1-2 standards: Example of Zones Division: ZONE 0 ZONE1 ZONE2 E22 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 7-8 5 Types of Protection used by Parker 5.1 Flameproof enclosure "d" A type of protection where the parts that can ignite an explosive environment are placed in an enclosure which can withstand the pressure developed during an internal explosion of an explosive mixture and which prevents the transmission of the explosion to the explosive environment surrounding the enclosure. 5.2 Increased Safety "e" Type of protection applied to electrical apparatus that does not produce arcs or sparks in normal service, in which additional measures are applied so as to give increased security against the possibility of excessive temperatures and of the occurrence of arcs and sparks. 5.3 Pressurized Apparatus "p" A type of protection by which the entry of a surrounding environment into the enclosure of the electrical apparatus, is prevented by maintaining, inside the said enclosure, a protective gas at a higher pressure than that of the surrounding environment. The overpressure is maintained either with or without a continuous flow of the protective gas. IIB Special Enclosure Contact Seal IIB i i diametrical clearance Threaded joint IIC At least 5 threads engaged min. height engaged 8mm for volume > 100cm3 For volume > 2 dm3 Mini lenght L = 12.5 mm Max gap i = 0.15 mm For volume > 2 dm3 Mini lenght L = 25 mm Max dia. clearance i = 0.15 mm Ordinary screw closure for Group II Ordinary screw closure for Group II Scavenging gas outlet to safe zone or antiflame device Safety valve Protective gas, purified air or nitrogen Safety pressure switch Tight envelope IP54 Tight envelope IP40 without spark Creepages and air gap distance conductor fastening insulator category heating L IIC P L E23 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 7-8 5.4 Encapsulation “m” A type of protection in which the parts which could ignite an explosive environment by either sparking or heating are enclosed in a compound in such a way that this explosive environment cannot be ignited. (IEC60079-18) 5.5 Intrinsic Safety “i” A circuit in which no spark or any thermal effect produced in the test conditions prescribed in the standard IEC60079-11 (which include normal operation and specified fault conditions) is capable of causing combustion of a given explosive environment. Potting Metallic envelope e > 1 mm Safe area Electronic assembly Sensor “i” Zene barrier [i] 230 V Dangerous area Potting Insulating envelope If p > 1 mm, e non-imposed If p > 1mm, e + p > 3mm Casing Without envelope e > 3mm Coil “T” Ratings Temperature Classification Maximum Allowable Surface Temperature ºC ºF T1 450 842 T2 300 572 T3 200 392 T4 135 257 T5 100 212 T6 85 185 E24 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 7-8 ATEX Explosion Proof Rated Coil Offering Coil Code* Wattage/ Cable Length Protection/Temp. Class Marking Certificate of Conformity HZ04xx 2w/3000mm Ex mb II T6 tD A21 IP67 T80°C 0344 II 2 G / D LCIE 02 ATEX 6019 X IECEx LCI 08.0026 X HZ09xx 10w/3000mm Ex d mb IIC T4/T5 -40°C +65°C/+40°C tD A21 IP65 T130°C/95 °F 0344 II 2 G / D LCIE 02 ATEX 6009 X HZ10xx 10w/3000mm Ex mb II T4/T5 tD A21 IP65 T130°C / 95°C 0344 II 2 G / D LCIE 02 ATEX 6020 X IECEx LCI 08.0027 X HZ11xx 22w/3000mm Ex mb II T4/T5 tD A21 IP65 T130°C / 95°C 0344 II 2 G / D LCIE 02 ATEX 6020 X/03 IECEx LCI 08.0027 X HZ12xx 1.5w/3000mm Ex mb II T6 tD A21 IP65 T80°C 0344 II 2 G / D LCIE 02 ATEX 6021 X IECEx LCI 08.0028 X HZ13xx 0.6w/3000mm Ex mb II T6 tD A21 IP65 T80°C 0344 II 2 G / D LCIE 02 ATEX 6021 X IECEx LCI 08.0028 X VZ03xx (492190) 11w(AC), 9w(DC) / screw terminal Ex e mb II T3/T4/T5/T6 tD A21 IP66 T195°C / 130°C / 95°C / 80°C 0081 II 2 G / D LCIE 02 ATEX 6023 X IECEx LCI 06.0011 X 495900 (HZ95xx) 3w/screw terminal Ex d mb IIC T4 tD A21 IP67 T130°C 0081 II 2 G / D LCIE 03 ATEX 6451 X IECEx LCI 06.0004X 495905 (HZ96xx) 9w/screw terminal Ex d mb IIC /T4/T5/T6 tD A21 IP67 T130°C 0081 II 2 G / D LCIE 03 ATEX 6451 X IECEx LCI 06.0004X 496555 6w/screw terminal Ex d mb IIC T4 tD A21 IP67 T130°C 0081 II 2 G / D LCIE 07 ATEX 6075 X IECEx LCI 07.0014 X 496560 9w/screw terminal Ex d mb IIC T4 tD A21 IP67 T130°C 0081 II 2 G / D LCIE 07 ATEX 6075 X IECEx LCI 07.0014 X * *For 24VDC use code C2 in place of xx. For 120/60, use code P3 in place of xx. For 240/60, 220/50 use code Q3 in place of xx. For 230/50, use code F4 in place of xx. E25 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 7-8 ATEX (IECEx) Coils HZ04, HZ10, HZ11, HZ12, HZ13 HZ09 HZ95, HZ96 VZ03, 496555, 496560 E26 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 7-8 ATEX Documentation available upon request. Consult Factory’. E27 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Chart 9 CHART 9 C4E 1/2″ NPT Conduit w/ 18″ Leads 24/60 10 8 F C4F 120/60, 110/50 C4G 240/60, 220/50 C4A 12VDC C4B 24VDC D6E DIN 43650A/ISO 4400 24/60 10 8 H D6F 120/60, 110/50 D6G 240/60, 220/50 D6A 12VDC D6B 24VDC B4E 18″ Leads 24/60 10 8 F B4F 120/60, 110/50 B4G 240/60, 220/50 B4A 12VDC B4B 24VDC C5E 1/2″ NPT Conduit w/ 18″ Leads 24/60 10 8 H C5F 120/60, 110/50 C5G 240/60, 220/50 C5A 12VDC C5B 24VDC * 1/2″ NPT conduit and DIN coils offer NEMA Types 1, 2, 3, 4 and 4X protection with a suitable conduit installation or mating DIN connector and gasket. ** 2-Way Normally Closed AC Valves are 8.5 Watts (20CCxx) Part Number Type of Termination* Voltage Wattage Class AC** DC Integrated Coil Offering Electrical Accessories for Chart 9 Coil Option Picture Accessory Part # Coil Option Code Description Coil Types Coil Codes ELECD1 D6x* Cable Gland DIN Plug DIN D6E, D6F, D6G, D6A, D6B ELECD2 D6x* 1/2″ Conduit DIN Plug DIN D6E, D6F, D6G, D6A, D6B * The plug comes complete with gasket. E28 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Chart 9 2-Way/3-Way Miniature and Manifold Mounted Valves Using Coil Chart 9 Part Numbering Information: Reference ONLY. 1 2 3 4 5 & 6 7 Service Type Design Style Body Material Function Port Orifice Size 2 2 Way 3 3 Way 0 Direct Acting B Brass C 303 Stainless 9 Manifold Mount Cartridge C Normally Closed F Normally Open U Universal 02 1/8″ NPT L5 3/4-24 Manifold Mount Cartridge 04 1/4″ NPT A 1/32 E 3/64 G 1/16 J 5/64 L 3/32 M 7/64 P 1/8 Q 5/32 ALERT: Table is for interpreting product specifications only. Consult Parker Fluid Control Division for avaliable combinations not shown in this catalog. Viton™ is a Dupont Co. Trademark. Teflon™ is a Dupont Co. Trademark. Additional Coil Options for Charts 9 (Coils ordered will be assembled to the pressure vessel) Part Number Type of Termination Voltage Wattage Class AC* DC B2E Grommet Housing w/ Taped Coil w/ 18″ Leads 24/60 10 8 F B2F 120/60, 110/50 B2G 240/60, 220/50 B2A 12VDC B2B 24VDC L2E Molded Coil with 18″ Leads and Yoke 24/60Hz 10 8 F L2F 120/60, 110/50 L2G 240/60, 220/50 L2A 12VDC L2B 24VDC T2E Molded Coil with 1/4″ Tab and Yoke 24/60 10 8 F T2F 120/60, 110/50 T2G 240/60, 220/50 T2A 12VDC T2B 24VDC * Wattage is 8.5 on all 2-Way, Normally Closed (20CCxx) AC valves E29 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Chart 9 Check out the 2-way and 3-way Manifold Mounted Miniature Cartridge valves in the Specialty section of this catalog. Product Features • Space saving approach • Less manifold machining means lower manifold cost • Cartridge valves are 100% tested ‘C4’ and ‘C5’ 1/2″ NPT coils have a rotating conduit hub for easier installation • No loose parts: sleeve, plunger, spring, orifice are pressed to gether as one unit • Available with all coils/enclosures from Chart 9 above 2-Way/3-Way Miniature and Manifold Mounted Valves Using Coil Chart 9 8 9 10 & 11 Coil & Enclosure 12 13 & 14 Main Seal Material Operator Size Voltage Optional & Special Features V FKM- Viton™ Fluoroelastomer E EPDM N Nitrile NBR T TeflonTM C Neoprene 4 0.442 Dia. 1.125″ Integrated Modular Coils B4 Integrated, class F, 18″ leads, 3-wire B5 Integrated, class H, 18″ leads, 3-wire C4 Integrated, 1/2″ Conduit, class F, 18″ leads, 3-wire C5 Integrated, 1/2″ Conduit, class H, 18″ leads, 3-wire D6 Integrated, DIN 43650A class H 1.125″ Standard Coils B2 Leaded with metal enclosure, class F, 18″ leads L2 Molded leaded coil with Yoke,class F, 18″ leads T2 Molded 1/4″ tab with Yoke, class F A 12VDC B 24VDC E 24/60 F 120/60; 110/50 G 240/60; 220/50 Consult Factory ALERT: Table is for interpreting product specifications only. Consult Parker Fluid Control Division for avaliable combinations not shown in this catalog. VitonTM is a Dupont Co. Trademark. TeflonTM is a Dupont Co. Trademark. E30 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Chart 9 Coil Information Conventional Coil & Enclosures for Fully Assembled Valves Only Grommet Coil Coil Code: B2* Construction: – Grommet enclosure – Taped wrapped coil – Class F – 18” leads- 2 wire AC: 7 Watts DC: 8 Watts Leaded Coil Coil Code: L2* Construction: – Open frame enclosure – Molded leaded coil – Class F – 18” leads- 2 wire AC: 10 Watts except 2 Way Normally Closed is 8.5 Watts DC: 8 Watts Tab Coil Coil Code: T2* Construction: – Open frame enclosure – 1/4” tab terminals – Class F AC: 10 Watts except 2 Way Normally Closed is 8.5 Watts DC: 8 Watts Coil Information Encapsulated Watertight Designs. Available as Modular Coils or for Fully Assembled Valves. Conduit Coil Coil Code: C4* Construction: – Class F – 18” lead wires – Ground wire – 1/2” NPT conduit hub – NEMA 4X, IP65 protection AC: 10 Watts except 2 Way Normally Closed is 8.5 Watts DC: 8 Watts Leaded Coil Coil Code: B4* Construction: – Class F – 18” lead wires – Ground wire AC: 10 Watts except 2 Way Normally Closed is 8.5 Watts DC: 8 Watts DIN Coil Coil Code: D6* Construction: – Class H – DIN 43650A/ISO 4400 conguration – NEMA 4X, IP65 protection with a suitable plug and gasket AC: 10 Watts except 2 Way Normally Closed is 8.5 Watts DC: 8 Watts * ADD VOLTAGE CODE: A= 12VDC B= 24VDC E= 24/60 F= 120/60, 110/50 G= 240/60, 220/50 E31 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Coil Charts 10-12 Integrated Coil Offering Part Number Type of Termination* Voltage Wattage Class CHART 10 C8GLB2*** 1/2″ NPT Conduit w/ 18″ Leads 24/60 24 H C8GLP3 120/60, 110/50 C8GLQ3 240/60, 220/50 D800B2*** DIN 43650A/ISO 4400 24/60 D800P3*** 120/60, 110/50 24 H D800Q3*** 240/60, 220/50 H8GLB2 UL Hazardous Locations; NEMA Types 7 & 9 w/ 18″ Leads** 24/60 24 H H8GLP3 120/60, 110/50 H8GLQ3 240/60, 220/50 LOW POWER COILS ULTRA LOW POWER COILS CHART 11 H611C2*** UL Hazardous TYPE 7 & 9 24VDC 1.5 F CHART 12 C711C2 1/2″ NPT Conduit Type 4X 24VDC 0.6 F H711C2 UL Hazardous TYPE 7 & 9 24VDC 0.6 F * 1/2″ NPT conduit and DIN coils offer NEMA Types 1, 2, 3, 4 and 4X protection with a suitable conduit installation or mating DIN connector and gasket. ** Hazardous location coil approvals: Class I, Div 1 & 2, Groups A, B, C, D: Class II, Div 1 & 2, Groups E, F, G: Class III, Div I. *** Not in list price book. Minimum order quantities may apply. Consult factory. Part Number Type of Termination* Voltage Wattage Class Part Number Type of Termination* Voltage Wattage Class E32 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference General Data-Solenoid Coils Power and Voltage All coils used in Parker FCD solenoid valves are designed for continuous duty except where noted. On AC, inrush current occurs at the moment the solenoid is energized. The continuous current after inrush is holding current. Typical AC current values are shown to the right. DC solenoids have no inrush. Typical amp ratings for DC are determined by dividing DC watts by DC voltage. All Parker FCD solenoid valves are tested to operate at 15% undervoltage and full pressure ratings. AC and DC voltage ratings (nominal) and normal operating ranges, as shown in the following table, are standard. For special voltages, consult the factory. AC/DC Voltage Range All coils used in Parker FCD valves are designed for continuous duty except where noted. They can remain energized continuously without damage from overheating or mechanical failure. AC and DC voltage ratings (nominal) and normal operating ranges, as shown in the following table, are standard. All coils used in Parker FCD solenoid valves are either Class “F” or Class “H” molded epoxy, and are constructed in accordance with UL, IEEE, NEMA and other accepted standards. Holding and Inrush Current (Reference coil charts 1-5 in coil section) Small, Direct-Acting 2-Way, 3-Way and 4-Way Series 20, 30, 35, 38, and 48 (1/8 to 3/8”)Watt Rating and Volt Amperage Standard Coil Insulation Class AC Watts VA Holding VA Inrush F 6 16 26 F 10.2 23 37 F 11 20 34 F 16 31 50 2-Way, Direct-Acting Series 20 (3/8 to 3/4”) Watt Rating and Volt Amperage Standard Coil Insulation Class AC Watts VA Holding VA Inrush F 6 16 36 F 11 20 61 F 16 31 88 Pilot 2-Way Series 22, 23, 24, 25, 26, 28, (3/8 to 1-1/2”) Watt Rating and Volt Amperage Standard Coil Insulation Class AC Watts VA Holding VA Inrush F (Offset Pilot) 6 16 26 F (Center Pilot) 6 16 34 F 11 20 53 F 16 31 76 AC DC Normal Voltage Rating Normal Operating Range Normal Voltage Rating Normal Operating Range 24 20-24 12 10.2-12.6 120 102-120 24 20-25 240 204-240 120 102-126 Current Drain To determine approximate Holding or Inrush Current for 24/60, 120/60, 240/60 and 480/60 volts in amperes, divide the voltage into the “VA” indicated in the table on this page. DC Inrush/Holding Current (Amperes) Coil Type 12 Volt 24 Volt 10 Watt Integrated Conventional 0.81 0.73 0.41 0.39 16 Watt DIN 1.3 0.64 22 Watt Integrated 1.64 1.85 0.83 0.86 8 Watt Integrated Conventional 0.67 0.33 16 Watt DIN 1.3 0.64 E33 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference AC Power Consumption (Reference Coil Charts 7–12 in Coil Section) Valve Type AC Power Consumption 10 Watt Integrated Coils 10 Watt Conventional Coils 13 Watt Integrated Coils 22 Watt Integrated Coils VA Holding VA Inrush VA Holding VA Inrush VA Holding VA Inrush VA Holding VA Inrush 71211, 71311, 71321, 71331, 71381, 71221 16 32 13 30 16 32 – – 71214 16 29 14 27 16 29 – – 71215 (3/64″-1/8″ orifice), 73218 16 31 14 28 16 31 35 54 71215 (5/32″-5/16″ orifice) 17 35 14 33 17 35 34 61 71215 (3/8″ orifice) 16 36 14 34 16 36 34 63 71216, 73216 17 32 15 31 17 32 – – 7121F 18 32 16 30 18 32 35 56 7121K (EPDM seals) 19 36 18 34 19 36 – – 7121K (NBR, FKM seals 1/16″-1/8″ orifice) 18 32 16 30 18 32 35 56 7121K (NBR, FKM seals 5/32″-1/4″ orifice) 18 36 16 34 18 36 – – 7121K (NBR, FKM seals 7/16″ orifice) 18 37 16 35 18 37 35 65 7121V 19 36 19 36 19 36 39 66 71221 16 32 13 30 16 32 – – 71225 20 32 18 30 20 32 – – 7122K 20 32 17 30 20 32 – – 71235, 71313, 71335, 71385, 71395, 73312 17 27 16 26 17 27 – – 71295, 71315 (0.19″-0.25″ orifice) 16 30 15 29 16 30 – – 72218 17 41 15 38 17 41 – – 7221G (NBR, FKM seals) 17 41 16 39 17 41 – – 7221G (EPDM seals) 19 41 18 39 19 41 – – 72228 20 46 18 43 20 46 47 80 73212 (1/4″ orifice) 16 31 14 28 16 31 35 54 73212 (1/2″-1″ orifice), 71315 (0.05″-0.11″ orifice) 17 27 16 26 17 27 – – 73217*, 73477*, 73317* 17 27 – – – – – – 73218 16 31 14 28 16 31 35 54 7321G 18 32 16 30 18 32 35 56 7321H 18 32 16 30 18 32 35 56 7321K (EPDM seals) 19 41 18 39 19 41 – – 7321K (NBR, FKM seals) 17 39 15 36 17 39 – – 73222 20 32 18 30 20 32 – – 73228 20 32 18 30 20 32 – – 7322G 20 32 17 30 20 32 – – 7322H 20 32 17 30 20 32 – – 74232, 73322, 73383, 73419, 74332 17 27 16 26 17 27 – – 7131E, 7341L 17 31 15 29 17 31 – – 7131F, 7131K, 7133F, 7133K 17 31 15 29 17 31 – – 7131K 17 31 15 29 17 31 – – 7131T, 7132T, 7133T 17 35 16 33 17 35 – – 70312 (N.V.R), 70315 (N.V.R.), 7033T (N.V.R.) 20 32 20 32 – – – – 20CC (These are 8.5 Watt coils) 13 28 13 28 – – – – 20CF, 30CC, 30CF, 30CU 17 25 17 25 – – – – 71417 (These are 24 Watt coils) 38.3 76 – – – – – – * Available with 1.5 Watt coil also (2.1 VA holding and Inrush) E34 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Degrees of Protection “IP” – IEC/EN 60529 Full enclosure protection is often required, either in the standards concerning “potentially explosive environments” or for other specific needs. First figure indicates protection against dangerous access and foreign objects Index IP Index Second figure indiciates protection against water penetration Non-protected 0 0 Non-protected Protected against solid objects Ø 50 mm or more 1 1 Protected against solid objects 12.5 mm or more 2 2 Protected against solid objects 2.5 mm or more 3 3 Protected against solid objects 1 mm or more 4 5 4 4 Dust protected 5 5 Dust-tight 6 6 7 Protected against immersion 8 Protected aganst continuous immersion Table 1: Correlation between IP (IEC) and NEMA 250 standards IP 10 NEMA 1 IP 11 NEMA 2 IP 14 NEMA 3R IP 52 NEMA 5-12-12K IP 54 NEMA 3-3S-13 IP 65 NEMA 4-4X IP 67 NEMA 6- 6P Note; The above correlation between NEMA Type and IP (IEC) is for REFERENCE ONLY. E35 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Hazardous (Classified) Locations (In accordance with Article 500, National Electrical Code-1984) Division 1 Hazardous vapors present Hazardous Classifications (Class) Class I Gasses or Vapors Class II Dust Class III Fibers Division 2 Hazardous vapors contained but may be present Division 1 Air suspended Division 2 Surface accumulated non-air suspended Division 1 Handled, manufactured or used Division 2 Handled and stored Group A Acetylene Group B Hydrogen, etc. Group C Ether, UDMH, ethylene, etc. Group D Acetone, hydrocarbons, acetates, alcohols, etc. Group E Metal: aluminum, magnesium, etc. Group F Carbon black, coal, coke dust, etc. Group G Flour, starch, grain, and organic food stuffs, etc. No Groups Textiles, wood, synthetic fibers Industrial Limits Total Coil Temperatures AC DC AC/DC NEMA Limits 155°C (311°F) 180°C (356°F) 155°C (311°F) 180°C (356°F) 155°C (311°F) 180°C (356°F) 155°C (311°F) 180°C (356°F) 155°C (311°F) 180°C (356°F) Class H Class F Temperature Margin for Higher Fluid or Ambient Temperature 135°C (243°F) 115°C (239°F) 115°C 110°C (239°F) 90°C (223°F) (194°F) 90°C (194°F) 106°C (223°F) Energized Coil Temperatures in 25°C Ambient Temperatures 85°C (185°F) 85°C (185°F) Normal Room Temperature Nominal Watt Rating 6 11 6 11 10.2 16 10.2 16 9.5 11.5 10 10 Coil Class F H F H F H F H F H Coil Chart 1 – 6 7 E36 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Coil Reference Notes F1 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Two-Way Solenoid Valve Operation Two-way solenoid valves have one inlet and one outlet connection with one main orifice and flow path. A normally closed valve is closed when the solenoid is de-energized, open when the solenoid is energized. A normally open valve is open when the solenoid is de-energized, closed when the solenoid is energized. Consideration should be given to the desired fail-safe condition of the valve when selecting the type of operation. Operational Sequence: Direct-Acting Normally Closed To Open: When the solenoid receives an electrical signal, a magnetic field is formed which attracts the plunger. The plunger lifts off the main orifice allowing flow through the valve. Normally Closed, De-Energized To Close: When the solenoid is de-energized, it releases its hold on the plunger. The plunger drops and covers the main orifice. Normally Closed, Energized Introduction Solenoid valves are highly engineered products that can be utilized in many diverse and unique applications. In addition to operational functionality, it is important to consider safety, reliability, media compatibility and suitability for the operating environment when selecting the best product for a given application. This section provides a brief overview of the components and functional varieties of solenoid valves available from Parker. General Information Operation Solenoid valves are electrically operated devices used to control flow. They are used for the remote on/off or directional control of liquids, gases and steam. They do not regulate flow. Solenoid valves consist of two main elements: 1.) An electrical coil in the solenoid, and 2.) A valve body or pressure vessel. The solenoid is the electromagnetic unit that powers (acts to open or close) the valve. The valve is the pressure containing unit that acts to shut off or open media flow. When the solenoid is energized by an electrical signal, current flow results in the build up of a magnetic field. The field attracts a moveable plunger in the valve. Physical movement of the plunger opens or closes a valve orifice which gives the valve on/off or directional control of media. In general, solenoid valves are constructed to be: 1.) Normally-Open, or 2.) Normally- Closed. Both designations refer to action of the valve on flow when the solenoid is not energized. There would be, for example, no media flow through a normally closed valve until the solenoid is energized. The most common types of solenoid actuated valves are: 1.) Direct-Acting, and 2.) Pilot-Operated. In a direct-acting valve, the plunger is in direct contact with the body main orifice, and opens or closes the orifice. In a pilot-operated valve, the main orifice is not directly controlled by the plunger, but by a diaphragm, piston or spool. Pilot operated valves contain both a pilot and a bleed orifice. Operational Specifications All solenoid valves are individually rated. Pilot-operated solenoid valves may also have an additional specification, Minimum Operating Pressure Differential (MOP). This is the minimum system pressure differential required to operate the valve and maintain it in the open position. MOP applies only to pilot-operated solenoid valves where system pressure is used to lift the diaphragm off the seat (normally-closed) when the solenoid is energized. Directacting or hung-diaphragm valves do not require a minimum operating pressure. There will be a pressure differential ΔP before the solenoid of a normally-closed valve is energized. Just after flow begins moving through the valve, the pressure differential may decrease. When sizing any normally-closed, normally-open, or universal solenoid valve, pressure differential before and after flow begins must be considered. Solenoid valves are also rated for Maximum Fluid (media) Temperature due to temperature limitations of the various disc or diaphragm materials used in their construction. Response Time, the time necessary for a fully open valve to fully close, or the time necessary for a fully closed valve to fully open, is affected by several factors including: electrical service, media, valve size, system pressure, pressure drop, and operating mode. The following general response times (nominal) apply for air service using alternating current (AC). • Large direct-acting valves (3/8 to 3/4-inch) 20 to 40 milliseconds • Small Direct Acting Valves (1/8 to 1/4-inch) 0.5 to 10 milliseconds • Small pilot (diaphragm) valves (3/8 to 3/4-inch) 15 to 50 milliseconds • Large pilot (diaphragm) valves (1 to 3-inch) 50 to 75 milliseconds Viscous liquids have very little effect on response time on small direct-acting valves. However, on all other valves, viscous liquids may increase response time by 50 to 100 percent. DC operated solenoid valves will generally increase response time (relative to AC operated solenoids) by as much as 50 percent. Where response time is critical, consult your authorized local Fluid Control Division distributor. Technical Information F2 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Operational Sequence: Direct-Acting Normally Open In a normally open valve, the sequence of operation is reversed from that of a normally closed valve. The main orifice is open when the solenoid is de-energized. To Close: When the solenoid is energized, it attracts the plunger. The plunger covers the main orifice stopping media flow through the valve. Normally Open, De-energized To Open: When the solenoid is de-energized, it releases its hold on the plunger. The plunger uncovers the main orifice allowing flow through the valve. Normally Open, Energized Normally Closed, Bi-Directional Allows for flow in either direction when energized. (De-energized shown) Operational Sequence: Pilot-Operated Normally Closed To Open: When the solenoid receives an electrical signal, a magnetic field is formed which attracts the plunger. The plunger covering the pilot orifice lifts off, causing system pressure (holding the diaphragm closed) to drop. As system pressure on top of the diaphragm is reduced, full system pressure on the opposite side of the diaphragm acts to lift the diaphragm away from the main orifice, thus allowing full media flow through the valve. Since the bleed orifice is dimensionally smaller than the pilot orifice, system pressure cannot rebuild on top of the diaphragm as long as the pilot orifice remains open. Normally Closed, De-Energized To Close: When the solenoid is de-energized, it releases its hold on the plunger. The plunger drops and covers the main orifice. System pressure then builds up on top of the diaphragm through the bleed orifice, forcing the diaphragm down until it covers the main orifice and stops media flow through the valve. Normally Closed, Energized Operational Sequence: Pilot-Operated Normally Open In a normally open valve, the sequence of operation is reversed from that of a normally closed valve. The main orifice is open when the solenoid is de-energized. All other relationships (e.g., the size relationship between the pilot and bleed orifice) still apply. To Close: When the solenoid is energized, it attracts the plunger. The plunger covers the pilot orifice. System pressure then builds up on top of the diaphragm through the bleed orifice, forcing the diaphragm down until it covers the main orifice and stops media flow through the valve. Normally Open, De-Energized To Open: When the solenoid is de-energized, it releases its hold on the plunger. The plunger uncovers the pilot orifice causing system pressure holding the diaphragm closed to drop. As system pressure on top of the diaphragm is reduced, full system pressure on the opposite side of the diaphragm acts to lift the diaphragm away from the main orifice, thus allowing full media flow through the valve. Normally Open, Energized F3 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Three-Way Solenoid Valve Operation The difference between two-, threeand four-way solenoid valves lies in the construction of the valve body. Three-way valves have three connections and two main orifices. One orifice is always closed, the other always open. Which orifice is open, and which is closed, determines whether the valve is operationally normally open or normally closed. Operational Sequence: Direct-Acting Normally Closed As with a normally closed, two-way valve, the system pressure orifice is closed when the solenoid is de-energized. The second orifice is open to whatever device it is connected to. When energized, the system pressure orifice is opened and the second orifice is closed. This allows system pressure to be applied to the device that was previously being exhausted through the second orifice (now closed). Normally Open As with a normally open, two-way valve, the system pressure orifice is open when de-energized. The second orifice is closed to whatever device it is connected to. With the solenoid energized, the system pressure orifice is closed, the second orifice opened and the device exhausted. Universal Construction This type of three-way valve may be used in either the normally closed or normally open mode. It can be piped either way. The valve can be used to divert media flow from one outlet connection to the other, or to select one of two inlet flows. Operational Sequence: Pilot-Operated Normally Closed As with pilot-operated two-way valves, the plunger movement controls the pilot orifice which controls the pressure holding one of the diaphragms closed against the main orifice. As with direct-acting three-way valves, one orifice is closed when the other is open. When de-energized, flow is from the pressurized device to exhaust and the system pressure port is closed. When energized, flow is from the pressure port to the controlled device and the exhaust port is closed. Normally Four-Way Solenoid Valve Operation A four-way valve is generally used to operate double-acting cylinders vs. a three-way for single acting cylinders. A double-acting cylinder has a port at either end of the cylinder body by which fluid can enter and exit. This allows the piston to be moved (propelled) in either direction (double-acting). To distinguish the ports on a double-acting cylinder, one is usually marked “A” and the other “B”. A four-way solenoid valve acts to change the direction of fluid flow from the “A” port to the “B” port and, therefore, change direction of the cylinder. In addition to the “A” and “B” cylinder ports, the four-way valve has a pressure and exhaust port. When de-energized, the pressure port is internally connected to the “A” cylinder port, and the “B” cylinder port is internally connected to the valve’s exhaust port. Energizing the four-way valve reverses the system, routing the “A” port to exhaust and the “B” port to pressure. A minimum pressure drop is required for proper operation. Care should be taken not to restrict the exhaust port. Speed controls should be installed in cylinder lines. Energized Direct-Acting Normally Closed Normally Open Universal Construction Pilot-Operated Normally Closed Normally Open De-Energized Direct-Acting Normally Closed Normally Open Pilot-Operated Normally Closed Normally Open De-Energized Closed Universal Construction Direct-Acting Normally Closed Normally Open Pilot-Operated Normally Closed Normally Open De-Energized Direct-Acting Normally Closed Normally Open Pilot-Operated Normally Closed Normally Open De-Energized De-Energized F4 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference General Data-Solenoid Coils Power and Voltage All coils used in Parker FCD solenoid valves are designed for continuous duty except where noted. On AC, inrush current occurs at the moment the solenoid is energized. The continuous current after inrush is holding current. Typical AC current values are shown in the Coil Section of the catalog. DC solenoids have no inrush. Typical amp ratings for DC are determined by dividing DC watts by DC voltage. All Parker FCD solenoid valves are tested to operate at 15% under-voltage and full pressure ratings. AC and DC voltage ratings (nominal) and normal operating ranges, as shown in the following table, are standard. For special voltages, consult the factory. AC/DC Voltage Range All coils used in Parker FCD valves are designed for continuous duty except where noted. They can remain energized continuously without damage from overheating or mechanical failure. All coils used in Parker FCD solenoid valves are either Class “F” or Class “H” molded epoxy, and are constructed in accordance with UL, IEEE, NEMA and other accepted standards. unless otherwise noted Testing All Parker FCD solenoid valves are 100% tested. Coil insulation systems must satisfy performance standards set by the National Electrical Manufacturers Association (NEMA) and tested by Under-writer’s Laboratories. Electrical components of AC and DC coils are tested in accordance with ASTM D2307-78 and become a recognized component under U.L.1446. The procedure produces data for an evaluation which concludes, a coil with 20,000 hours continuous operation will perform within the same specifications of a zero time coil (new coil). Coil Construction Parker FCD coils are epoxy encapsulated. This compound is waterproof and impervious to oil, dust, moisture and most corrosive fumes and vapors. Coils used in Parker FCD valves are molded and constructed in accordance with UL, IEEE, NEMA and other accepted standards, and are 100% tested. Insulated copper magnet wire Coil bobbin All coils are 100% tested Lead wire, 18 gauge Cross linked polyethylene Coil encapsulation When ambient temperature is greater than 25°C (77°F), add the difference of ambient and 25°C (77°F) to the energized coil temperature shown in the table. The effect of higher fluid temperatures needs to be considered only when fluid temperature is greater than 180°F. Do not exceed the catalog maximum temperature limitation for the valve. Add the difference of your fluid temperature and 180°F to the energized coil temperature shown in the table. Use the “Saturated Steam Temperature Table” when working with saturated steam. Do not exceed the catalog maximum temperature limitation for the valve. Add the difference of steam temperature and 180°F to the energized coil temperature shown in the table. Total of additional ambient and fluid or steam temperature to the energized coil temperature shown must not exceed the industrial limit of the coil class selected. Class “H” coil is required if total temperature exceeds “F” Class coil limits. Consult your Fluid Control Division authorized distributor if total temperature exceeds the “H” Class coil limit. Maximum allowable fluid temperatures are listed for all valves in each section of the catalog. Minimum allowable fluid temperature is 32º F if moisture is present. Otherwise, -40º F for direct acting valves with NBR seals, -10º F with FKM seals and -10º F for 71214. Consult factory for confirmation of low fluid temperature limit for specific complete, part number. Temperature Just as fluid (media) temperatures affect valve body trim; ambient, fluid and power input temperatures affect solenoid coils. Temperature rise due to power input varies with coil design. Temperature rise due to power input and ambient temperature is directly additive and helps determine the class of coil required for specific valve applications. Industrial Limits Total Coil Temperatures AC DC AC/DC NEMA Limits 155°C (311°F) 180°C (356°F) 155°C (311°F) 180°C (356°F) 155°C (311°F) 180°C (356°F) 155°C (311°F) 180°C (356°F) 155°C (311°F) 180°C (356°F) Class H Class F Temperature Margin for Higher Fluid or Ambient Temperature 135°C (243°F) 115°C (239°F) 115°C 110°C (239°F) 90°C (223°F) (194°F) 90°C (194°F) 106°C (223°F) Energized Coil Temperatures in 25°C Ambient Temperatures 85°C (185°F) 85°C (185°F) Normal Room Temperature Nominal Watt Rating 6 11 6 11 10.2 16 10.2 16 9.5 11.5 10 10 Coil Class F H F H F H F H F H Coil Chart 1 – 6 7 F5 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Valve Sizing Any given application requires proper sizing of the Parker FCD solenoid valve. If the valve selected is too small, flow conditions will not be met. If too large, system cost will be excessive. Parker FCD solenoid valves are tested and rated using the industry accepted Cv method. This method, used in both the U.S. and Europe, is both simple and accurate. The correct size valve for an application can be determined by either using the engineered formulae shown below, or by using the curves and simplified formulae on the following pages. Using Flow Formulas Gases If P2 > P critical Qm = Cv P ΔP SG x 520* T If P2 < P critical Qm = Cv P 2SG x 520* T Qm = Rate of flow SCFM (Standard Cubic Feet per Minute) at 14.7 psia and 60 degrees F (standard conditions) Cv = Flow coefficient P1 = Inlet pressure (PSI) P2 = Downstream pressure, psia P critical is approximate 53% P1 ΔP = Pressure differential (PSI) (P1-P2) SG = Specific gravity of gas, relative to air at 14.7 psi and 60 degrees F (standard conditions) T = Absolute (degrees Rankin) temperature in degrees F. (460 + degrees F.) Note*: 520 is 460°F + 60°F Liquids Q = Cv ΔP SG Q = Rate of flow, in gallons per minute Cv = Flow coefficient ΔP = Pressure differential (PSI) (P1-P2) SG = Specific gravity relative to water at 60 degrees F Steam If P2 > P critical W = 3Cv P ΔP X If P2 < P critical W = 3Cv P 2x W = Rate of flow in pounds per hour Cv = Flow coefficient P1 = Inlet pressure (PSI) P2 = Downstream pressure, psia Basic Formulae Using Graphs Liquid Cv = QL KL x Ksg Steam Cv = Qs Ks Gas Cv = QG Kg x Ksg x Kt The correction for temperature in the range of 20°F to 150°F is very small, and, therefore, can be ignored in ordinary applications. P critical is approximate 57% P1 ΔP = Pressure differential (PSI) (P1-P2) X = Quality of steam (Fraction Dry Steam) Critical pressure has the following significance in the flow of compressible fluids (gases and steam) through valves. Assuming a fixed upstream pressure of P1, an increase in flow is obtained as the downstream pressure P2 is reduced below P1. Continuing increases in flow are experienced until P2 is reduced to a critical value (P critical). When P2 is reduced below P critical, no further increase in flow results. P critical can be expressed as a percentage of P1 with approximate values (53% to 57%) given above. Note: PSIA is absolute pressure which is gauge pressure plus atmospheric pressure (14.7 psi at sea level). Definition of Symbols Cv = Flow coefficient QL = Liquid flow (GPM) Qg = Gas flow, standard cu-ft-hr (SCFH) Qs = Steam flow (lb./hr.) P1 = Inlet pressure (PSI) P2 = Outlet pressure (PSI) ΔP = Pressure differential (PSI) (P1-P2) KL = Liquid flow curve factor Kg = Gas flow curve factor Ks = Steam flow curve factor Ksg = Specific gravity factor Kt = Temperature factor There will be a pressure differential ΔP before the solenoid of a normally closed valve is energized. Just after flow begins moving through the valve, the pressure differential may decrease. When sizing any normally closed, normally open, or universal solenoid valve, pressure differential before and after flow begins must be considered. Curves to correct for specific gravity (Ksg) and temperature (Kt) are included. These curves apply to liquids and gases only, not saturated steam. For liquids with viscosity in excess of 300 SSU, consult your Parker FCD authorized distributor or contact the factory. The simple and easy to read flow curves for liquids, gases and steam will help in properly sizing valves. There is a constant relationship between gas and saturated steam flow curves. The flow curve for gases can be used for steam by reading the Ks steam scale. Specific gravity for various compounds are also included. Liquid Flow Factor KL 34 30 26 22 18 14 10 Pressure Drop Across Valve ΔP (PSI) 0 200 400 600 800 1000 Liquid Flow Factor KL 10 9876543 Pressure Drop Across Valve ΔP (PSI) 0 20 40 60 80 100 3 Liquid Flow Factor KL 1 2 Pressure Drop Across Valve ΔP (PSI) 0 2 4 6 8 10 Specific Gravity Specific Gravity Factor Ksg 1.5 1.0 .5.5 1.0 1.5 Temperature Factor Kt 2.5 2.0 1.5 1.0 .5 -200° 200° Temperature (°F) 0° √ √ 1 √ 1 √ √ √ 1 √ 1 F6 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference F7 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Sample Problems Problem: Liquids Determine Cv when the required flow is 30 GPM, media is light oil with a specific gravity of 0.82, inlet pressure (P1) is 36 PSI and outlet pressure (P2) is 0 (ΔP = 36 PSI). Solution Use the formula: Cv = QL KL x Ksg From the liquid flow curve using the pressure drop (36 PSI), read vertically up to the curve. Read horizontally to KL= 6. From the specific gravity curve using the specific gravity value (0.82), read vertically to the curve. Read horizontally to Ksg=1.1. From the formula: Cv = 30 (GPM) 6 x 1.1 Cv = 30 6.6 Cv = 4.5 Problem: Air and Gases Determine Cv when the required flow is 700 SCFH, media is air (sg=1.0), inlet pressure (P1) is 70 PSI, outlet pressure (P2) is 55 PSI, ΔP (P1 - P2) = 15 PSI, and air is at 50°F. Solution Use the formula: Cv = Qg Kg x Ksg x Kt From the gas and steam flow curve using the inlet pressure (70 PSI), read horizontally to the curve for pressure drop (ΔP=15 PSI). Read vertically down to Kg = 2025. Air at (50°F) falls into an area of the temperature correction curve where Kt is approximately 1 and can be ignored. Cv = 700 2025 x 1.0 Cv = 700 2025 Cv = 0.35 Steam Determine Cv when the required flow is 30 lb./hr., media is saturated steam, inlet pressure (P1) is 80 PSI, outlet pressure (P2) is 60 PSI and ΔP (P1 - P2) is 20 PSI. Solution Use the formula: Cv = QS KS Remembering that the gas and steam flow curves have been combined, from the gas and steam flow curve using the inlet pressure value (80 PSI) read horizontally to the curve for the pressure drop (ΔP=20PSI). Read vertically down to KS = 121. From the formula: Cv = 30 121 Cv = 0.25 Formula Variations The examples used here for liquids, gases, and steam show how to determine Cv. These same formulae can be transposed to determine other Media Known Find Formula Curve Liquids CV, ΔP, Ksg QL QL = CV x KL x Ksg Liquids P1, CV, Qg, Ksg ΔP KL = QL Cv x Ksg Liquids Apply KL to the liquid factor curve with P1 to find ΔP. Gases CV, Kg, Ksg, Kt Qg Qg, CV x Kg x Ksg x Kt Gases P1, CV, Qg, Ksg, Kt ΔP Kg = Qg Cv x Ksg x Kt Gases Apply Kg to the gas factor curve with P1 to find ΔP. After solving for P (pressure differential), a general rule of 2(ΔP) will equal the minimum pressure for a required flow. Steam* CV, ΔP Qs Qs = CV x Ks Gases Steam Scale P1, CV, Qs ΔP Ks = Qs Cv Gases Steam Scale Apply Ks to the gas factor curve with P1 to find ΔP. * In all cases, steam is considered saturated. useful data once a specific value has been selected to meet the desired Cv (see formula variations table below). F8 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Specific Gravity for Liquids and Gases Liquid Gas Liquid Gas Acetic Acid, 10% 1.01 - Liquid petroleum Gas (LPG) 0.06 2.067 Acetic Acid, Pure 1.06 - Mercury 13.6 - Acetone 0.79 - Methane 0.50 0.554 Acetylene 0.60 0.91 Mineral Oil, USP 0.89 - Alcohol Amyl 0.81 - Motor Oil-SAE #10, etc. 0.89 - Alcohol Ethyl (Ethanol) 0.79 - Naptha 0.76 - Alcohol Methyl (Methanol) 0.81 - Natural Gas 0.55 0.554 Ammonia 0.93 0.596 Oxygen 1.15 1.105 Ammonium Nitrate 1.72 - Perchloroethylene 1.50 - Ammonium Phosphate 1.69 - Petroleum Oils 0.89 - Argon Gas 1.40 1.379 Potassium Sulfate 1.05 - Beer 1.01 - Prestone Anti-Freeze 1.03 - Benzene Benzol (Benzene) 0.88 - Propane 1.10 1.56 Butadiene (Gas) 0.65 2.00 Pydraul (Mansanto) 1.28 - Butane (L.P. Gas) 0.60 2.067 Sodium Hydroxide (100%) 2.13 - Carbon Dioxide Dry - 1.53 Sodium Hydroxide (50%) (Caustic Soda) 1.45 - Carbon Disulfide 1.26 - Steam Condensate 1.00 0.62 Carbon Tetrachloride 1.59 - Stoddards Solvent 0.80 - Cellulube 0.91 - Sulfuric Acid (10%) 1.08 - Coffee 1.05 - Toluene (Toluol) 0.87 - Corn Oil 0.92 - Transmission Fluid (Type A) 0.90 - Cottonseed Oil 0.90 - Trichloroethylene 1.36 - Diesel Fuel 0.88 - Turpentine 0.87 - Distilled Water 1.00 0.62 Vegetable oils 0.92 - Ethylene Glycol 1.11 - Vinegar 1.01 - Fatty Acids 0.92 - Water Formaldehyde 0.82 - Carbonated 1.00 0.62 Freon BF (Solvent) 1.57 - Distilled 1.00 0.62 Freon MF (Solvent) 1.48 - Fresh 1.01 0.65 Freon TF (Solvent) 1.57 - Boiler Feed 1.00 0.62 Fuel Oils 0.88 - Return Condensate 1.00 0.62 Gasoline 0.68 - Brackish 1.02 0.67 Heptane (Liquid) 0.68 - Sea 1.03 0.68 Hydraulic Oil 0.91 - Hydrogen 0.07 0.0696 JP4-5 Fuel 0.79 - Kerosene 0.81 - Linseed Oil 0.94 - Saturated Steam Temperature Table PSIA PSIG Temp. °F Heat of Sat. Liquid (BTU/lb) Latent Heat of Evap. (BTU/lb) Total Heat of Steam (BTU/lb) 15 1 213 181.2 969.7 1150.9 20 5 227 196.2 960.1 1156.3 30 15 250 218.9 945.2 1164.1 40 25 267 236.1 933.6 1169.7 50 35 281 250.2 923.9 1174.1 60 45 292 262.2 915.4 1177.6 70 55 302 272.7 907.8 1180.5 80 65 312 282.1 900.9 1183.0 90 75 320 290.7 894.6 1185.3 100 85 327 298.5 888.6 1187.1 110 95 334 305.8 883.1 1188.9 120 105 341 312.6 877.8 1190.4 130 115 347 319.0 872.8 1191.8 140 125 353 325.0 868.0 1193.0 150 135 358 330.6 863.5 1194.1 F9 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Fluid Compatibility General Information The following table lists many of the liquids and gases commonly considered for handling with solenoid valves. In some cases, specific limitations are listed, and in other cases, Parker FCD solenoid valves are not recommended. For media not listed in the tables, consult the factory for specific recommendations. Trim Materials Buna “N” (Nitrile) Symbol NBR A soft synthetic compound, Buna “N” is the most widely used elastomer in industry today. Buna “N” is standard disc and diaphragm material in Parker FCD solenoid valves. It has excellent service characteristics for use with water, light oil and gas in a temperature range of (-10°F) to 180°F. Ethylene Propylene Symbol EPDM Introduced to the rubber industry in 1961, Ethylene Propylene is used primarily for applications involving hot water or steam service. It has excellent service characteristics for many liquids in a temperature range from (-10°F) to 300°F. Viton* Symbol FKM A soft fluoroelastomer, Viton was originally developed to handle hydrocarbons including gasoline, jet engine fuels and various solvents. It handles media in a broader temperature range than Ethylene Propylene. Its temperature range extends from (-10°F) to 350°F. Viton is also an ideal material for handling a wide range of chemical media. Teflon* Symbol PTFE Another fluorocarbon, Teflon is available as a solid material or combined with fillers. Teflon will withstand chemical attack from almost any fluid. Its temperature range extends from (-320°F) to 350°F. Because it is not easily fabricated and known to have cold flow characteristics, its applications are limited. * DuPont Co. Trademark Neoprene Symbol CR Most elastomers are resistant to either petroleum lubricants or oxygen. Neoprene has limited resistance to both. Combining wide spectrum of resistance with a temperature range of (-10°F) to 180°F account for its use in many applications. Urethane Symbol U A synthetic compound, Urethane is widely used where high strength and abrasive resistance are required. Its temperature range is similar to Buna “N” (-10°F) to 160°F. Guide to Media andMaterial Compatibility for Parker FCD Solenoid Valves T = PTFE U = Urethane V = FKM F = KEL-F (PCTFE) K = Kalrez (PFPM) DEL = Delrin 1 Available by special order only. 2 Stainless Steel 302, 303, 305, 316 Factors of temperature, pressure and concentration may render material compatibility unacceptable. Seal Material Designations ASTM Designation Commercial Designations and/or Trade Names NBR Buna-N, Nitrile EPDM Ethylene Propylene FKM Fluorinated Hydrocarbon, Viton® PCTFE Kel-F PTFE Teflon®, Rulon® PFPM Kalrez CR Neoprene U Urethane R Ruby Viton® and Teflon® are Registered Dupont Co. trademarks. Rulon®AR is a Furon-Advanced Polymers Division trademark. Fluid Compatibility Chart The fluid compatibility charts on the next two pages are presented merely as a guide. This data has been compiled from available information obtained from laboratory tests. Actual valve applications may be more severe than the laboratory conditions, so the information presented here should be used as a guideline in choosing materials that are compatible with the fluid to be controlled and the ambient conditions of the installation. This information should by no means be used alone in determining the proper materials of construction of a valve. Please consult factory for further information if needed. Key: A = Aluminum1 AT = Acetal BR = Brass C = Copper CE = Celcon CR = Neoprene EP = Ethylene Propylene NBR = Buna “N” R = Ruby S = Silver SS = Stainless Steel2 F10 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Fluid Compatibility Fluids Metals Elastomers and Plastics+ Aluminum Brass Copper Silver Stainless Steel EPDM FKM NBR Nylon PCTFE PSF Polysulfone Ruby PFPM CR PTFE Noryl 18-8 302 303 304 305 316 430F Acetic Acid 8% S NR NR S S S S S NR NR S S S S S S S S Acetone S S S S S S S S NR NR S S NR S S NR S NR Acetylene, Dry S S NR S S S S S S S S S NR U S NR S U Air, Lubricated 120°C (248°F) S S S S S S S NR S NR NR S NR S S NR S S Air, Lubricated 82°C (180°F) S S S S S S S NR S S S S S S S NR S S Air, Unlubricated 120°C (248°F) S S S S S S S NR S NR NR S NR S S NR S S Air, Unlubricated 82°C (180°F) S S S S S S S S S S S S S S S S S S Alcohol, Ethyl (Ethanol) F F F S F F F S NR S NR S U S S S S F Alcohol, Ethyl (Methanol) T F F S S S NR S NR S S S U S S S S F Ammonia Gas, Anhydrous 20 S NR NR F S S S S NR F F S S S S S S S Argon S S S S S S S U S S U S U U S S S U Beer S U F S S S S U S S U S U S U U S S Benzene S S S S S S S NR S NR S S NR S S NR S NR Boric Acid NR NR F S S S S NR S NR S S T S S S S S Citric Acid 10% NR NR NR S S S S S S S S S T S S S S S Cod Liver Oil S S U S S S S S S S S S S S U NR S U Coffie S S U S S S S S S S S S S S U S S U Diesel Fuel S S S S S S S NR S T S S S S S NR S NR Ethylene Glycol (Antifreeze) S S S S S S S S S S S S S S S S S S Freon 12 S S S S S S S NR U S S S S S NR S S NR Freon 22 S S S S S S S U NR NR S S S S S S S NR Fuel Oil S S F S S S S NR S T S S S S S NR S S Gasoline, Leaded S S S S S S S NR S S S S U S S NR S NR Gasoline, Unleaded S S S S S S S NR S NR S S U S S NR S NR Helium S S S S S S S S S S S S S S S S S S Hydraulic Fluids - Fire Resistant Cellulube, Phosphate Ester S S S S S S S S NR NR S S S S U U S U Pydraul S S S S S S S NR S NR S S S S U NR S U Skydrol S S S S S S S S NR NR S S S S U U S NR Petroleum S S S S S S S NR S S S S S S U NR S NR Jet Fuel S S S S S S S NR S T S U U S S NR S NR Kerosene S S S S S S S NR S S S S S S S NR S NR Ketones T T U U T S T S NR NR S T NR U S NR S NR Lard (Animal Fat) S S T S S S S F S S S U U U S NR S U Lead Acetate NR NR NR F NR NR NR S T NR S S U U S NR S F Linseed Oil T NR NR S S S S NR S S S U S U S NR S S Lime & Water NR NR NR U NR NR NR S S S S S U U S S S U Lubricating Oil S S S S S S S NR S S S S S S S NR S T Methane S S S S S S S NR S S S S S S S NR S U Methanol Alcohol-Methyl S S NR U S S NR S NR S NR S S S S T S T Methyl Ethyl Ketone (MEK) S S S S F S F S NR NR S S S S S NR S NR Mineral Spirits S S S S S S S NR S S U U U U NR NR S T Motor Oil S S S S S S S NR S S T S U U NR T S S Naphtha S S S S S S S NR S NR S S S S S NR S NR Natural Gas S S S S S S S NR S S T U U U S S S U Nickle Nitrate NR NR NR U T NR NR S S T S U U U S T S S F11 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Fluid Compatibility Fluids Metals Elastomers and Plastics+ Aluminum Brass Copper Silver Stainless Steel EPDM FKM NBR Nylon PCTFE PSF Polysulfone Ruby PFPM CR PTFE Noryl 18-8 302 303 304 305 316 430F Nitrobenzene T NR T U NR S NR T NR NR NR T U U S NR S NR Nitrogen S S S S S S S S S S S S S S S S S S Nitrous Oxide NR NR S U T T T T T S NR S U U S T S U n-Octyl Alcohol U U U U U U U S T T U U U U S T S U Olive Oil S S U U S S NR NR S S T U U U S NR S S Oxygen S S S S S S S S S NR NR S NR U S S S S Ozone T U U U T S T T T NR NR S U U S NR S U Perchloroethylene S F F S F S F NR S NR S S NR U NR NR S NR n-Propyl Acetone U U U U U U U S NR NR U U U U S NR S U Propyl Alcohol S S NR U S T S T S T NR U U U S T S U Pyridine NR NR NR U S S NR NR NR NR NR S U U S NR S T Pyrolube U U U U U U U NR S NR U U U U U NR U U Quick Silver U U U U U U U S S S T U U U U S S U Red Oil U U U U U U U NR T S T U U U S NR S U Rust Inhibitors U U U U U U U U S S U U U U U NR U U Shellac S S S U S S S S S S S U U U S NR S U Silicone Oil S S S S S S S S S S S S S S U S S S Sodium Phosphates NR T S S T T NR T T S NR S U U S T S S Steam 148°C (298°F) U S S S S S S S NR NR NR S NR U U NR S S Steam 180°C (356°F) NR S S S S S S NR NR NR NR NR NR U U NR S Y Stoddard Solvent S S S U S S S NR S S T S U U S NR S NR Sucrose Solution U U NR U S S S S S S T U U U S T S S Sulfur S NR NR U T T T S S NR T S U U S U S S Sulfur Hexaflouride S S S S S S S S NR NR T U U U T S S U Toluene S S S S S S S NR S NR S S NR U S NR S NR Trichloroethylene T NR T U T T T NR T NR NR NR U S S NR S NR Trimethylpentane U U U U U U U NR S S T U U U S NR S U Trisodium Phosphate NR NR NR F T T T S S F T S U U S F S S Turpentine S S S S S S S NR F S S S U U S NR S S Urea T U U S S F U T T T T U U U U T S S Varnish S T S U S S S NR S T T S U U S NR S U Vegetable Oil S S S U S S S NR S S S S U U U NR S U Vinegar T NR NR S T S T T NR T NR S U U U T S S Water, Boiler Feed S T T S S S S U T S T S U S S NR S U Water, Deionized, Distilled S T T S S S S/T S S T S S S S S NR S S Water, Fresh <82°C (180°F) S S S S S S S S S S S S S S S NR S S Water, Fresh <100°C (212°F) T S S S S S S S S NR S S S S S NR S S Water, Return Condensate S T T S S S S S T S T S U S S NR S U Water, Sea/Salt NR NR F S T S NR S S S S S S S S NR S S Whiskey NR T NR U S S NR S S S S S U U S S S S Wine NR NR NR U S S T S S S S S U U S S S S Xylene S S S S S S S NR S NR S S NR S S NR S NR Zinc Chloride NR NR NR F NR NR NR S S S T S U U S S S S Zinc Sulfate NR NR NR S T T NR S S T U T U U S T S S Note: Please read the introduction section before using this chart. The following data should be used as a guide, and not as a final recommendation. When flammable gas applications are being considered, consult Fluid Control Division. T = Test to Verify; F = Fair; U = No Data Available, Unknown Compatibility; NR = Not Recommended Unless Media are at 100% Concentration and at Room Temperature. F12 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Glossary of Terms Bleed Orifice - An internal orifice which controls the closing rate of a pilot operated solenoid valve. Also called the equalizer hole. Bubbletight Sealing - Air leakage between the internal sealed ports of a valve in either the energized or de-energized position is undetectable in a 5 second soap bubble test. Equivalent to 2 cc/min. Continuous Duty - A rating given to a valve that can be energized indefinitely without overheating or failure under normal operating conditions. Cover - The upper half of a diaphragm type solenoid valve. Current Drain - The amount of current (expressed in amperes) that flows through the coil of a solenoid valve when it is energized. Cv Factor - The Cv factor of a valve is the quantity of 60°F water, expressed in gallons per minute, which flows through a valve with one PSI pressure drop. Cv values for Parker solenoid valves are indicated in the catalog listings in each section. Cycle - A complete operation of a solenoid valve. For example: opening a normally closed valve and then closing it is one cycle. Cycle Rate - The number of times a valve is capable of opening and closing its main orifice in a particular time interval. Cycles Per Minute (CPM) - The number of times a valve is capable of opening and closing its main orifice in one minute. Dead End Gas Service - A condition in which a valve is energized but has no cooling fluid flowing through it because of a dead end line (for example: a cylinder pressurized for a long period of time). Diaphragm - An elastomeric or other material seal which covers the main orifice. Disc - A material used in a plunger to seal an orifice. Drip-proof - See NEMA classifications Drip-tight - See NEMA classifications Dust-tight - See NEMA classifications Unit Conversion Charts Fractional Conversions mm Inches Decimal Inches 0.79 1/32 0.031 1.59 1/16 0.063 2.38 3/32 0.094 3.18 1/8 0.125 3.97 5/32 0.156 4.76 3/16 0.188 5.56 7/32 0.219 6.35 1/4 .0250 7.14 9/32 0.281 7.94 5/16 0.313 8.73 11/32 0.344 9.53 3/8 0.375 10.3 13/32 0.406 11.1 7/16 0.438 11.9 15/32 0.469 12.7 1/2 0.500 13.5 17/32 0.531 14.3 9/16 0.563 15.1 19/32 0.594 15.9 5/8 0.625 16.7 21/32 0.656 17.5 11/16 0.688 18.3 23/32 0.719 19.1 3/4 0.750 19.8 25/32 0.781 20.6 13/16 0.813 21.4 27/32 0.844 22.2 7/8 0.875 23.0 29/32 0.906 23.8 15/16 0.938 24.6 31/32 0.969 25.4 1 1.000 Measures 1 inch = 25.4mm 1 inch = 2.54cm 1 U.S. gal = 3.785 liters 1 Imperial gallon = 4.546 liters Pressure 1 psi = 0.0703 Kg/square cm 1 psi = 27.73 inches water (@60/F) 1 psi = 2.036 inches of mercury (@32/F) 1 psi = 51.7 mm of mercury (@32/F) 1 psi = 0.0689 bar Vacuum 1 torr = 1 mm mercury 1 micron = 0.001 torr Volumetric Flow Rate 1 Cv = 14.28 Kv 1 gpm = 3.785 liters/min (U.S. gallon) 1 cfm = 28.317 liters/min 1 liter/min = 0.0353 cfm Temperature Degrees C = (Degrees F- 32) (5/9) Degrees F = (Degrees C) (9/5) + 32 Torque 1 in lb. = 0.113 Nm 1 in lb. = 1.15 cm Kg Duty Cycle - The longest time that a valve is energized, followed by the shortest time that it is de-energized. Expressed in percent = on time x 100 on time + off time Elastomer – Material having elastic properties. These materials are generally used for sealing purposes. Electromagnet - Electrical part consisting of a copper windings (solenoid) which, with a magnetic yoke (armature), when electrical current flows through it, generates a magnetic flux attracting the plunger. Explosion-Proof Construction - A solenoid valve constructed to meet the specifications of the appropriate approval agency for operation in hazardous locations. See also NEMA classifications. Floating Top Seal - A plunger assembly construction in two-way normally open and three-way valves in which the top seal is moveable against a spring within the plunger. The purpose of this construction is to prevent seal swell or shrinkage due to fluid or temperature from interfering with valve operation. It also allows the spring to continue to move the seal against the valve seat in spite of wear. Flow - The continuous movement of fluid caused by a pressure differential. Flow Capacity -The amount of fluid a valve will pass under given temperature and pressure conditions in gallons per minute or cubic feet per minute as measured at the outport. Cv is a measure of flow capacity. Flow-rate - The amount of fluid that passes a given point at a given period of time. Flux Frame - The magnetic steel frame surrounding the coil which provides for efficient travel of magnetic flux. Also called magnetic frame assembly. Flux-plate - A magnetic steel plate used in the magnetic circuit of a solenoid valve to help carry magnetic flux from the housing to the sleeve assembly. F13 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Hazardous Locations - As defined by Underwriter’s Laboratories, Inc. most Parker explosion-proof valves are approved for use in the following hazardous locations: Class I, Group C and D, Class II, Group E, F and G. See also NEMA classifications. Class I locations are those in which flammable gases or vapors are or may be present in the air in sufficient quantities to produce explosive or ignitable mixtures. Group C atmospheres contain: acetaldehyde, cyclopropane, diethyl ether, ethylene and isoprene. Group D atmospheres contain: gasoline, hexane, naphtha, benzene, alcohols, acetone, lacquer, solvent vapors and natural gas. Class II locations are hazardous because of the presence of mixtures of combustible dust. Group E atmospheres contain metal dust including aluminum, magnesium, and their commercial alloys, and other metals of similarly hazardous characteristics. Group F atmospheres contain carbon black, coal or coke dust. Group G atmospheres contain flour, starch or grain dust. Heat Rise - The difference between the temperature of the solenoid coil when energized and de-energized in a constant ambient temperature. As current flows through a coil, heat is generated. The coil temperature rises until the coil housing dissipates heat as fast as it is generated, and the temperature stays at a stabilized level. Holding Current - The current flowing through the coil after it as stabilized, to hold the plunger in the energized position. Value is normally about ½ of inrush current. Inrush Current – The current at the moment of energization of AC voltage coils. This current is of greater value than holding current due to low inductance at the moment of energization. Supply transformers should be sized using this value. Insert - A material used in a plunger assembly to seal an orifice. Insert Materials BUNA-N - A soft synthetic rubber used as the standard insert material in valves having rubber inserts. Also known as nitrile. Ethylene Propylene - A soft synthetic insert material used for water above 180°F and steam. Delrin - A thermoplastic used in precision parts requiring high stiffness, low friction and excellent dimensional stability. FKM - A soft synthetic insert material used for high temperature and with many fluids not handled by Buna-N. Standard seal material in several valve series. Neoprene – A soft synthetic rubber used as an insert material on certain types of freons. Nitrile -See Buna-N. PCTFE- A synthetic material used for many semi corrosive and corrosive media. Also for high temperatures. Ruby - A synthetic corundum (hard stone) with high hardness values and total inertia for all types of fluids. Working temperatures from -40° to +180°C Rulon - A synthetic plastic material used for semi corrosive media. Intermittent Duty Coil - A valve coil not designed for continuous duty but which will perform satisfactorily for a specified duty cycle. Leakage, External - The leakage between the internal part of the valve and the external part of the valve. Parker valves are bubbletight. Leakage, Internal - The leakage between the internal sealed ports of a valve in either the energized or de-energized position. Leakage rate is normally described in cc (cubic centimeters) per minute or as bubbletight. Manual Override - A mechanical device that permits manual opening of normally closed valves or closing of normally opened valves. Media – The fluid flowing through the valve. Metering - A mechanical device that permits manual adjustment of fluid flowing through a valve. Often referred to as speed control. NEMA - National Electrical Manufacturers Association. Recommends suitable materials and constructions to meet coil enclosure installation types. NEMA Classifications (Enclosures) Drip-proof - NEMA Type 2 enclosure must prevent failing moisture or dirt from interfering with operation. Drip-tight - NEMA Type 2 enclosure must exclude falling liquids or solids. Dust-tight - NEMA Type 5. Option EX meets this requirement. General Purpose - NEMA Type 1 enclosure suitable for general purpose application indoors under normal atmospheric conditions. Hazardous Locations - NEMA Type 7, 9, 9A explosion proof construction. Submersible - NEMA Type 6. Watertight - NEMA Type 4X. Weather Resistant - NEMA Type 3. Oxygen Service - Valves specified for use with oxygen are furnished free of any petroleum based oil. Special cleaning may be required and should be so specified. Pilot Orifice - An internal orifice which controls opening characteristics of a pilot operated solenoid valve. In a pilot operated solenoid, the plunger covers the pilot orifice. Plunger - Moveable portion of a solenoid valve operator which controls media flow. Plunger Spring (or return spring) - Used to hold the MP in position and to return it to position after the action of the electromagnet. Port - An opening or passageway for the inlet or outlet of fluid in a valve. The terminus of the port is threaded with National Pipe Threads (NPT) to accommodate line connection. A port designated with an NTPF port indicates one with dry seal threads. Port, Cylinder - A port which provides a passage to or from an actuator. This port is a common port and in multi-purpose valves is called a common port. Port, Exhaust - A port which provides a passage to the atmosphere or downstream piping. F14 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Port, In - A port which provides a passage from the source of fluid. Port, Out - The port where the fluid leaves the two-way valve. Port, Normally Closed - The port that is closed to fluid flow when the valve is de-energized. Port, Normally Open - The port that is open to fluid flow when the valve is de-energized. Power Consumption - The number of watts a solenoid valve draws when it is energized. Pressure - A force per unit area used as a propellant of air or fluid. Pressure is induced into a system by means of a pump, compressor or gravity. Absolute pressure is measured in pounds per square inch absolute (PSIA). Absolute pressure is the reference of pressure with atmospheric pressure used as a base (14.7 pounds per square inch absolute at sea level). (0 PSIG = 14.7 PSIA). Pressure Definitions Burst Pressure - The pressure that would cause the weakest section of the valve to fail and cause external leakage when pressure is reduced back to rated pressure. Dependent on the individual valve constructions. For most valves it is at least 5 times rated pressure. (This is a destructive test.) In some of the higher pressure valves (2000 PSI or more) the factor may be slightly lower. Consult factory. Maximum Operating Pressure Differential (MOPD) - The maximum difference in between the pressure at an INlet port and the pressure at an OUTlet port at which a solenoid will operate, either to open or close one or more ports when energized or de-energized. Minimum Operating Pressure (MOP) - The minimum pressure a pilot operated valve requires for proper operation. Minimum Operating Pressure Differential - The minimum difference between the pressure at an INlet port and the pressure at an OUTlet port required for proper operation of the solenoid valve. The minimum operating pressure must be maintained throughout the operating cycle of pilot-operating valves to assure proper shifting from the closed position to the open position or vice-versa. Note: Two- and three-way pilot-operated valves will start to move to their normal positions when the pressure falls below the minimum operating pressure. Direct acting valves do not require a minimum pressure to operate. Proof Pressure - The maximum pressure the valve may be exposed to without suffering any damage. It need not be operable at this pressure. For most valves it is at least 1½ times the rated pressure. (This is a non-destructive test). Pressure Ratings Extended Pressure Ratings - Are pressure ratings which can be extended beyond the Higher Than Standard Pressure Ratings by means of mechanical or electrical modifications. When higher than standard or extended pressure ratings are to be employed, consideration must be given to the possible adverse effect on valve life, flow, and noise level. Higher Than Standard Rating - Are pressure ratings which can be made available through minor changes on a solenoid valve. In most cases, this is possible only when UL approval is not a factor. Safe Working Pressure - Twenty percent of the pressure which causes external leakage. The valve is not expected to operate at this pressure unless the MOPD is a value less than the SWP. Standard Catalog Ratings - Are pressure ratings established to conform to Underwriter’s Laboratories, Inc., and to do so under the most adverse conditions of pressure, low or high voltage, maximum heat rise, etc. The standard ratings listed in this catalog for most applications should be considered conservative. Response Time - The length of time required for an operating mechanism of a valve to move from the fully closed to the fully open position, or vice versa. Response time will vary according to pressure, media, voltage and system. It also varies with the type of valve (direct operated or pilot operated). For specific valves consult factory with complete application details. The following general response times (nominal) apply for air service using alternating current (AC). • Large direct-acting valves (3/8 to 3/4-inch) 20 to 40 milliseconds • Small Direct Acting Valves (1/8 to 1/4-inch) 0.5 to 10 milliseconds • Small pilot (diaphragm) valves (3/8 to 3/4-inch) 15 to 50 milliseconds • Large pilot (diaphragm) valves (1 to 3-inch) 50 to 75 milliseconds Viscous liquids have very little effect on response time on small direct-acting valves. However, on all other valves, viscous liquids may increase response time by 50 to 100 percent. DC operated solenoid valves will generally increase response time (relative to AC operated solenoids) by as much as 50 percent. Where response time is critical, consult your authorized local Fluid Control Division distributor. F15 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Shading Ring - A single coil located in the stop in which a secondary flux wave is induced during AC current operation. Sleeve - The stainless steel tube of the solenoid operator housing the plunger and stop, and over which the coil is positioned. Solenoid - The electrical portion containing the coil and magnetic frame and/or enclosure. Specific Gravity - The ratio of the density (mass of a unit volume) of a substance to the density of a reference substance. Normally the reference substance is water for liquids and air for gases. Spring-Loaded - The term used to indicate that the valve has a plunger return spring. A spring-loaded plunger permits the valve to be mounted in any position without causing malfunction. Standard Construction - The type of construction used in manufacturing valves listed in this catalog that have grommet or conduit electrical outlets not including explosion-proof type. Stop - The stationary portion of the magnetic attractor inside the sleeve assembly. Temperature Range - Parker valves are equipped with high quality coils suitable for continuous energization. If the normal ambient temperature of 25°C is continuously exceeded or if 40°C is occasionally exceeded, a higher class coil may be required depending on the fluid temperature, flow rate, duty cycle, other heat sinks and ventilation of the area. The permissible coil temperature by the change of resistance method for standard coils is 110°C for Class A and 130°C for Class B. Higher coil classes available are F 155°C and H 180°C.* * Underwriter's Laboratories Inc. requires for listed valves that coil temperature stays lower than the stated limits. The limits are 120°C for Class B, 140°C for Class F and 160°C for Class H. Ambient And Media Temperature Limitations Minimum Media - If moisture is present 32°F, otherwise minus 40°F for poppet valves. Maximum Media And Maximum Ambient - As listed in catalog for each valve. Note: Ambient temperature and coil temperature rise are additive. Media temperature is not. Valve Body - Main part of the pressure vessel with the process connections (fittings), seat and main pilot orifices. Velocity - The speed at which fluid moves, expressed in terms of distance per time, such as feet per second. Vibration And Shock - Most valves will resist 10G’s or more. For V40 series valves, consult Parker. Viscosity - The amount of resistance to flow. Specific for each media. F16 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Port Marking (2-Way Valves) - A The table below indicates how the ports of 7000 Series solenoid valves are identified. Valve Type Port Marking Inlet Outlet 71211 1 2 71214 (Noryl Body) ** * 71214 (Teflon, SS Body) 2 1 71215 2 1 71216B P A 71216S 2 1 7121F 1 2 7121K (1/8",1/4",3/8" ports) 1 2 7121K (1/2" port) * * 71221 3 2 71225 2 1 7122K 1 2 71235 ** ** 71295 2 3 72218 P - 7221G * * 72228 P - 73212B (1/4" ports) P A 73212S (1/4" ports) 2 1 73412 (3/8", 1/2", 3/4" ports) IN OUT 73212 (1" ports) P A 73216B P A 73216S 2 - 73218 P * 7321G * * 7321H * * 7321K * A 73222B (1/4" port) P 1 73222S (1/4" ports) 2 OUT 73222 (3/8", 1/2",3/4" ports) IN A 73222 (1" ports) P - 73228 P * 7322G * * 7322H * * 74232 (3/8",1/2",3/4" ports) IN OUT 74232 (1" ports) P A 75232 (3/8", 1/2",3/4" ports) IN OUT 75232 (1" ports) P A * Flow arrow on body indicates flow direction-ports are not marked. ** Pressure can be applied at either port. - Port(s) are not marked. # Valves can be normally closed or normally open, depending on piping - of external pilot. Port Marking (3 & 4-Way Valves) - A The table below indicates how the ports of 7000 Series solenoid valves are identified. Three-Way Valves: Normally Closed Valves Valve Type Port Identification Pressure Cylinder Exhaust 71311 1 2 3 71313 1 2 3 71315 1 2 3 7131E 1 2 3 7131F 2 1 0 7131K 2 1 0 7131T 1 2 3 73312 1 2 3 Normally Open Valves Valve Type Port Identification Pressure Cylinder Exhaust 71321 3 2 1 73322 3 2 1 7132T 3 2 1 71395 3 2 1 Multipurpose Valves Valve Type Port Identification 71331 Pressure can be applied at either port. 71335 7133F 7133K 7133T 74332 75332 Diverting Valves Valve Type Port Identification N.C. IN N.O. 71381 1 2 3 71385 1 2 3 73382 1 2 3 4-Way Valves Valve Type Port Identification ANSI Pressure Cyl. A Exh. A Cyl. B Exh. B symbol 73419 P A EA B EB 14 75419 P A EA B EB 15 7341LAN 1 2 3 4 5 16 7341LMN 1 2 3 4 5 17 F17 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference General Troubleshooting Discussion Note 4) In most installations, after a solenoid valve has been energized for a short time, the solenoid housing will be hot to the touch. This is not an indication of a failure or possible failure. It is perfectly normal. Note 5) Regardless of system size, water hammer must be considered and controlled to protect piping systems and solenoid valves from its effects. Water hammer occurs when the flow of a non-compressible fluid in a pipe is abruptly stopped. Water hammer is not always identified by noise and vibration. Examine diaphragms, plunger discs and other internal parts for tears, distortion and other damage. Replace internal parts with a rebuild kit and modify the piping system. Commercially available water hammer arresters range from flexible rubber hose, a simple extension pipe to a type of permanently sealed chamber. Hints 1.) Never replace a burned-out coil or unit solenoid until the cause of the burn-out has been determined, ie: missing parts, plugged plunger tube, worn plunger, over voltage, etc. Note 1) If the valve fails to operate because of a burn-out or shorted coil, the cause of the burn-out must be determined before the new unit solenoid, or coil for explosionproof valves, is installed. Usually the cause is in the mechanical portion of the unit body, therefore, the entire solenoid valve must be inspected. Note 2) If the coil has failed, a complete Parker FCD unit solenoid, or coil for explosion-proof valves, should be installed. Be sure to turn off all electrical power in the valve circuit prior to any disassembly. Note 3) If the solution requires the replacement of a defective part or parts, a complete Parker FCD rebuild kit should be used. Be sure all parts in the rebuild kit are installed in the valve, not only the part or parts deemed defective. As this procedure requires opening the valve body (pressure vessel), be sure to bleed all system pressure to zero. If either the plunger tube assembly or the bonnet screws are loosened to relieve trapped valve pressure, do so carefully. Do not completely remove the plunger tube assembly or the cover screws until the bleeding is complete. Refer to the appropriate I & M Sheet for instructions. 2.) Before reassembly of valve body, if possible, flush out inlet to valve. 3.) Use a flat screwdriver placed on top of plunger tube to test magnetic circuit. 4.) If the cause of failure is the presence of foreign matter, install a strainer or filter in the upstream (inlet) side of the valve. Symptoms Five basic symptoms indicate a solenoid valve is not operating properly to specifications: 1.) Failure to operate (shift position) when energized. 2.) Failure to operate (shift position) when deenergized. 3.) Internal or external leakage. 4.) Erratic flow. 5.) Excessive solenoid noise when energized even though any of the above symptoms does not exist. (In some AC installations, a very slight hum may be noticeable and is normal.) Fails to Close/ Shift X X X X X X X X X X X X Fails to Open/ Shift X X X X X X X X X X X X Internal Leakage X X X X X X X External Leakage X X X Excessive Noise/Hum X X X X X X Short Coil Life X X X Failure Symptom* Series Valve Pilot Operated Valves High Flow 3 Way & 4 Way *Partial list Note: This check list is intended to serve as a preliminary guide to common valve failure troubleshooting, and is not intended to contain recommendations for proper solenoid valve or systems operation or design. For proper solenoid valve usage, follow manufacturer's recommendations. Improper system design may result in ineffective valve operation. Improper / No Voltage Restricted Outlet Inadequate Flow Torn / Hole in Diaphragm Blocked Bleed Hole Blocked Pilot Hole Worn Plunger / Tube / Pole Piece Worn Disc Seat Erosion Dirt In Valve / Media Loose Body Assembly Incorrectly piped In System Missing / Loose Solenoid Retainer Over Pressurization Non-Compatible Media Excessive Ambient / Media Temperature Faulty Electrical Circuit Open / Shorted Coil Restricted inlet F18 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Agency Approvals Most solenoid valves are approved by Underwriter’s Laboratories (UL) and certified by the Canadian Standards Association (CSA). Some FCD valves meet the requirements and are SIL3 capable, see sample certificates on the following pages. Consult factory for additional details. Vacuum While many 2-Way direct acting/direct lift solenoid valves with elastomeric seals listed in this catalog can be used on vacuum, the standard 100% production leakage test does not ascertain that the valves are sufficiently tight for severe vacuum applications. We do, however, design, produce, and test many vacuum valves to meet specific OEM customer requirements. Therefore, we invite you to consult us for your vacuum valve applications. Note: vacuum source should be connected to the outlet port for the proper operation. Fluid Temperature Limitations 32°F Minimum Fluid Temperature if moisture is present. Otherwise minus 40°F for direct acting valves with NBR seals, minus 10°F with FKM seals. For exceptions, consult the factory. Temperature Classifications Temp. Class. Maximum Allowable Surface Temperature C F T1 450 842 T2 300 572 T3 200 392 T4 135 257 T5 100 212 T6 85 185 Types of Protection of Solenoids for Hazardous Environments Standards are established by the European Committee for Electro-Technical Standards (ATEX). Degrees of Protection of electrical parts and operating temperatures are defined by various European standards. The following chart show the Degree of Protection for the selected coils along with the maximum surface temperatures for each temperature code classification. Types of Protection Protection Class Degree of Protection IP-65 Protection against ingress of dust (dust proof) Protection against contact with internal parts Protection against a water jet from a nozzle from all directions IP-67 Protection against ingress of dust (dust proof) Protection against contact with internal parts Protection against a water when the equipment is immersed in water under specific pressure and time conditions Response Time The response time of a solenoid valve depends on many factors such as voltage, frequency, pressure, media, temperature (including coil) and the type of valve. Variations in these factors can have a significant effect on the response time. The following tabulation lists the approximate response times for several different types of valves. The times given are for the valves to go from closed position to open or from open position to closed. Valve Response Time AC* (on Air) Valve Type Response Time (milliseconds) Direct Acting 4-15 Small Pilot Operated (Piston) 30-90 Large Pilot Operated (Piston) 100-150 Small Pilot Operated (Diaphragm) 30-60 Large Pilot Operated (Diaphragm) 60-160 Direct Lift (Diaphragm) 30-60 Operating Speed (Cycle Rates) Operating speed is defined as the maximum number of cycles (On/Off) per minute that a solenoid valve is capable of completing. It is dependent upon the response time characteristics of the valve. Many of our small, short stroke, direct acting valves are capable of operating at rates over 2,000 cycles per minute. However, for normal operation lower cycle rates as shown are usually recommended. Valve Operating Speed AC* (on Air) Valve Type Operating Speed (Cycles/min.) Direct Acting 600 Small Pilot Operated (Piston) 400 Large Pilot Operated (Piston) 150 Small Pilot Operated (Diaphragm) 300 Large Pilot Operated (Diaphragm) 200 Direct Lift (Diaphragm) 200 * Response times and operating speeds for DC valves used on air or any valves used on liquids can be much greater than listed above. (As much as 50-100% greater in some cases). Consult Factory for exact operating specifications if response time and operating speed are critical to the application. F19 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference F20 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference F21 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Model No. Mounting Bracket Ref. No. Mounting Bracket P/N 02F20Oxxx 02F30Cxxx 02F30Oxxx 02F30Uxxx A KC99-003 06F25Cxxx 06F25Oxxx 08F25Cxxx 08F25Oxxx 06FS5Cxxx 06FS5Oxxx 08FS5Cxxx 08FS5Oxxx B MA99-007 04F20C2xx 04F20O2xx C KB99-007 04F30C1xx 04F30O1xx 04F30U1xx D AB99-002 06F22xxxx 08F22xxxx 12F22xxxx 06F23xxxx 08F23xxxx 12F23xxxx 08F20C2xx 12F20C2xx 08F20O2xx 12F20O2xx E MA99-014 20CC02xxx 20CF02xxx 30CC02xxx 30CF02xxx 30CU02xxx F 4K007 73212BN3xx 73212BN4xx 73222BN3xx 73222BN4xx 74232BN3xx 74232BN4xx G MECHB2 Model No. Mounting Bracket Ref. No. Mounting Bracket P/N 73218BN3xx 72218xN3xx 73218BN4xx 72218xN4xx 73218BN5xx 72218xN5xx 73218BN64xx 73218BN75xx 73218BN87xx 73228BN3xx 72228xN3xx 73222BN4xx 72228xN4xx 73228BN5xx 72228xN5xx 73228BN64xx 73228BN75xx 73228BN87xx H MECHB8 04F20C1xx 04F20O1xx 04F20C3xx 04F20O3xx I KB99-016 71214xxxxx 71215SNxxx 71225SNxxx 71235SNxxx 71295SNxxx 71315SNxxx 71335SNxxx 71385SNxxx 71395SNxxx 71216SNxxx J MECHB5 F22 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference 2-1/2 REF Mechanical Options - Mounting Brackets Mounting Bracket A Part No. KC99-003 For the following valves: Bracket is available as a standard feature with these valves. Mounting Bracket B Part No. MA99-007 For the following valves: Bracket is available as an option for these valves. Use a suffix "w" on complete part number. Mounting Bracket C 1 - 9/16” Part No. KB99-007 For the following valves: Bracket is avaialble as an option for these valves. Use a suffix "w" on com. F23 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Mounting Bracket D Part No. AB99-002 For the following valves: Bracket is available as a standard feature with these valves. Mounting Bracket E Part No. MA99-014 For the following Part Numbers: Bracket is available as an option for these valves. Use a suffix "w" on the complete valve part number. Mounting Bracket F Part No. 4K007 For the following valves: Bracket is available as an option. F24 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Mounting Bracket G Part No. Mech B2 For the following valves: Mounting Bracket H Part No. Mech B8 For the following valves: Allows for a flexible side mounting option. Mechanical Options - Mounting Brackets (continued) F25 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Mounting Bracket J Part No. Mech B5 For the following valves: Available as an option. Mounting Bracket I Part No. KB99-016 For the following valves: Bracket is available as an option on these valves. Use suffix "w" on complete valve part number.  .27 .44 .36 .42 .30 .78 .75 .05 R.13 1.36 2.19 R.10 .06 .63 .78 .64 1.38 1.63 .81 R.11 .88 .88 F26 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Parker Safety Guide for Selecting and Using Fluid Control Division Products including Valves, Assemblies and Related Accessories WARNING: Failure or improper selection or improper use of Parker Fluid Control Division Products, including valves, assemblies or related accessories (“Products”) can cause death, personal injury and property damage. Possible consequences of failure or improper selection or improper use of these Products include but are not limited to: • Gas leakage leading to explosion or rupture of a pressure vessel. • Leakage or other release of toxic or otherwise hazardous liquids or gases. • Unintended or mistimed cycling or motion of machine members. Or failure of machine members to cycle. • Sudden moving or falling objects. • Work piece or component parts being thrown off at high speeds. • Failure of a device to function properly. For example, failure to clamp or unclamp an associated item or device. • Electrical shorts, burns, burn out of equipment or res. Before selecting or using any of these Products, it is important that you read and follow the instructions below. 1.0 GENERAL INSTRUCTIONS 1.1. Scope: This safety guide is designed to cover general guidelines on the selection, installation, operation, and maintenance of these Products. This safety guide is a supplement to and is to be used with the specic Parker publication for the valve, assembly or related accessory being considered for use. Parker publications are available at www.parker.com or by calling 1-800-CPARKER. 1.2. Fail-Safe: All Products can and do fail without warning for many reasons. Design all systems in a fail-safe mode so that failure of the Products will not endanger persons or property. 1.3 Distribution: Provide a copy of this safety guide to each person that is responsible for installation, operation, and maintenance of these Products. Do not select or use these Products without thoroughly reading and understanding this safety guide as well as the specic Parker publications for the Products considered or selected. 1.4 User Responsibility: Due to the wide variety of operating conditions and applications for these Products, Parker and its distributors do not represent or warrant that any particular Parker Fluid Control Product is suitable for any specic end use system. This safety guide does not analyze all technical parameters that must be considered in selecting a Product. The user, through its own analysis and testing, is solely responsible for: • Making the nal selection of the Product; • Assuring that the user’s requirements are met and that the application presents no health or safety hazards; • Providing all appropriate health and safety warnings on the equipment on which the Products are used; and • Assuring compliance with all applicable government and industry standards. 1.5 Additional Questions: Call the appropriate Parker technical service department if you have any questions or require any additional information. See the Parker publication for the Product being considered or used, or call 1-800-CPARKER, or go to www.parker.com for telephone numbers of the appropriate technical service department. 2.0 PRODUCT SELECTION INSTRUCTIONS 2.1 Selection: Consult the specic Parker Fluid Control publication for the Product being considered for use. Conrm the choice of Product with Parker Fluid Control’s technical consultants prior to placing orders for the Product or installing and using the Product. 2.2 Chemical Compatibility: Elastomer seal material used in the Products must be properly selected based on compatibility with the gases, liquids or additives being conveyed in the Product. Any exposure to non-compatible gases, liquids or additives may result in failure or degradation of the seals and leakage from the Product. Such failure or degradation could happen immediately or at any time over the life of the Product. 3.0 PRODUCT ASSEMBLY AND INSTALLATION INSTRUCTIONS 3.1 Inspection: Prior to assembly, all components must be checked for correct style, part number, and physical properties such as size or the presence of physical damage. Do NOT use any component that displays any signs of nonconformance. 3.1.1 A careful examination of the Unit Valve and Unit Solenoid must be performed. If you purchase a Unit Valve and a Unit Solenoid, be sure that the last two digits of the Unit Valve match the rst two digits of the Unit Solenoid. If they do not match then do not install. 3.1.2 Check nameplate for correct catalog number, pressure, voltage and service. Do not install if unsuitable. 3.1.3 Valves to be installed in Hazardous Locations must be outtted with Hazardous Location coils only. Verify nameplate data and coil part number before installing the valve. 3.2 Product Assembly: Do not assemble, install or use a Parker Fluid Control Division Product in any end use or application that exceeds the specied operating parameters as listed by Parker such as but not limited to, pressure, voltage and frequency, and medium. Do not mix components or solenoids from a Parker valve with valves or solenoids from another manufacturer. Do not mix components or solenoids from one Parker valve with components or solenoids from another Parker valve. F27 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference 3.2.1 Threaded Connections: Proper procedures for the application of tape or liquid pipe sealant or thread compound must be followed so these contaminants do not enter the Product. 3.2.2 Sweating or Brazing: Products requiring the sweating or brazing of pipe connections must have precautions taken to protect the internal product components from excessive heat during the sweating or brazing operation. Follow the directions in the specic Parker Fluid Control Division publication for the Product in question. 3.2.3 Mounting: Check the specic Parker Fluid Control Division publication for the Product in question for limitations on mounting prior to mounting the Product. 3.2.4 Electrical Connection: Turn off electrical power before connecting or disconnecting the Product to the power source. Wiring must comply with local and national electrical codes. 3.2.5 Voltage: Some coils contain solid state components that can be damaged by voltage spikes, transient voltage, over temperature, over voltage, or improper assembly. To protect against premature failure, please read the instructions in the specic Parker Fluid Control Division publication for the Product in question. 3.2.6 Port Connection: Parker Product operating parameters assume that the user connects the uid to the proper inlet, outlet and exhaust ports. Connecting to the wrong ports may result in a complete failure or degraded performance. Use caution when applying and activating the uid connection. Take the necessary precautions to protect personnel and property from injury and damage when turning on the uid to the Product. Make sure the voltage is in the correct state (on or off) to control the applied pressure as required for the application in question. 3.2.7 Screw Terminal Coil and Terminal Box Assembly: When the DIN or screw terminal coils are used with the terminal box assembly, be sure to apply a wrench to the wrench ats on the conduit hub when installing electrical conduit. 3.2.8 Pressure: Turn off line pressure and bleed off trapped pressure from the lines before installing, removing or disassembling the Product. 4.0 PRODUCT AND SYSTEM OPERATION INSTRUCTIONS 4.1 Pressure Differential: Pressure differential dependent Products require a minimum pressure differential to operate properly. Make sure the chosen Product is sized properly for the application to maintain the required pressure differential across the Product. 4.2 System Check-out: Once installed, the Product installation must be tested to insure proper operation and that no external leakage exists. All safety equipment must be in place including but not limited to safety glasses, helmets, ear protection, splash guards, coveralls and any shields on the equipment. All air entrapment must be eliminated and the system pressurized to the maximum system pressure (at or below the Product maximum working pressure) and checked for proper function and freedom from leaks. Personnel must stay out of potentially hazardous areas while testing and using. 5.0 PRODUCT MAINTENANCE AND REPLACEMENT INSTRUCTIONS 5.1 Maintenance: Even with proper selection and installation, Product life or performance may be signicantly reduced without a continuing maintenance program. The severity of the application, risk potential from a possible Product failure, and experience with any Product failures in the application or in similar applications should determine the frequency of the inspection and the replacement for the Products so that Products are replaced before any failure occurs. A maintenance program must be established and followed by the user and, at minimum, must include instructions 5.1.1 through 5.1.3. 5.1.1 Product Lubrication and filtration: Almost all products require ltration. Consult the specic Parker Fluid Control Division publication for the Product in question. Note, too, that some Products require lubrication or ltration or both as a regular maintenance item due to the nature of the application’s environment. Consult the specic Fluid Control Division publication for the Product in question to determine this. Other Products, such as proportional valves, do not require any maintenance if the uid is properly ltered. If a failure should occur, then these proportional valves should not be repaired but replaced. 5.1.2 Cleaning: Do not expose plastic or elastomeric materials to any type of commercial cleaning uid. Parts should be cleaned with a mild soap and water solution. 5.1.3 Fluid Spills: Necessary precautions should be taken during maintenance to avoid exposing personnel or the surrounding area to any spilled uid if the uid is regulated, harmful, or damaging when exposed to or in contact with personnel or the surrounding environment. 5.2 Service and Repair: 5.2.1 General: Do not repair Products unless the specic Fluid Control Division publication for the Product in question allows this procedure. Not all Products can be safely repaired in the eld. Repair and replacement must be in accordance with the specic Parker Fluid Control Division publication for the Product in question and any Parker replacement kit instructions. 5.2.2 Replacement Parts: If you purchase any replacement parts they must be original equipment manufactured by Parker Fluid Control Division. 5.2.3 Lock-Out / Tag-Out: Follow all lock-out and tag-out procedures before undertaking service or repairs. This includes de-energizing all electrical, uid and mechanical energy sources. 5.2.4 Hazardous Location Coils - When replacing coils, Products equipped with Hazardous Location coils must use Hazardous Location replacement coils only. Verify nameplate data and coil part number before installing the replacement coil. F28 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference OPPORTUNITY DATA SHEET TARGET ACCOUNT DATE: ADDRESS: DISTRIBUTOR (if applicable) TELEPHONE # CONTACT: TITLE TELEPHONE #: APPLICATION: NEW APPLICATION EXISTING APPLICATION TARGET PRICE: $ CRITICAL DATES FEASIBILITY; SAMPLE DELIVERY: QUOTATION: PRODUCTION: INITIAL ORDER YEAR 1 YEAR 2 YEAR 3 VOLUME (UNITS) TOTAL QUANTITY OF SOLENOID VALVES USED BY THIS COMPANY PARKER’S SHARE: % COMPETITOR’S SHARE: % VALVE CURRENTLY USED: MANUFACTURER: MODEL: COMPANY’S MOTIVATION TO BUY PARKER VALVES (CHECK ONLY ONE) QUALITY COST REDUCTION DIST. SERVICE SECOND SOURCE PROBLEM WITH CURRENT SUPPLIER: OTHER: Valve Type 2 Way 3 Way 4 Way PRESSURE OR VACUUM DE-ENERGIZED POSITION Normally Open Directional Control Normally Closed Multipurpose Maximum Static Pressure PSI Maximum Pressure Differential PSI Minimum Pressure Differential PSI Maximum Vacuum PSI inches HG PORT SIZE FLUID CONNECTION FLUID BEING HANDLED Inch NPT Other Description ORIFICE DIAMETER Inlet or CV Exhaust or CV If Gas lubricated Non-lubricated Temperature Min. F, Max. F Viscosity (if over no. 10 SAE or 100 SSU at 100F) FLOW RATE Gases: SCFM when inlet pressure is PSIG and outlet pressure is PSIG Liquids GPM when inlet pressure is PSIG and outlet pressure is PSIG ALLOWABLE INTERNAL LEAKAGE None cc/min at PSID VOLTAGE Min. Max. Nom. AC HZ DC CURRENT DRAW LIMITATIONS Max. Amps Max. Watts ELECTRICAL ENCLOSURE Standard Connection Conduit Explosion Proof Junction Box Grommet Watertight Other COIL TYPE Lead Wire in. long AWG Spade Terminal DIN Other DUTY CYCLE Continuous Duty: Energized more than 1 hour Energized hrs. De-Energized hrs. Intermittent Duty: Energized less than 1 hour Max. Energized Minutes Min. De-Energized: Minutes AMBIENT CONDITIONS Temperature Max F Min. F Spade Terminal DIN Other CYCLING DATA Operating Speed CPM LIFE EXPECTANCY Total cycles per year Number of Years VIBRATION AND SHOCK Not a Factor Vibration CPS at G’s Shock G’s duration for M. Sec. Mounted in Vertical Plane Horizontal Plane APPROVAL REQUIRED None UL Listed CSA CE Cenelec UL Component Recognition Other Additional features desired Completed by Name Company Telephone DATASHET.DOC NOTE: Agency approval charges may apply. Consult Factory. F29 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Offer Of Sale: The items described in this document are hereby offered for sale at prices to be established by Parker Hannifin Corporation, its subsidiaries and its authorized distributors. This offer and its acceptance by any customer (“Buyer”) shall be governed by all of the following Terms and Conditions. Buyer’s order for any item described in its document, when communicated to Parker Hannifin Corporation, its subsidiary or an authorized distributor (“Seller’] verbally or in writing, shall constitute acceptance of this offer. 1. Terms and Conditions of Sale: All descriptions, quotations, proposals, offers, acknowledgments, acceptances and sales of Seller’s products are subject to and shall be governed exclusively by the terms and conditions stated herein. Buyer’s acceptance of any offer to sell is limited to these terms and conditions. Any terms or conditions in addition to, or inconsistent with those stated herein, proposed by Buyer in any acceptance of an offer by Seller, are hereby objected to. No such additional, different or inconsistent terms and conditions shall become part of the contract between Buyer and Seller unless expressly accepted in writing by Seller. Seller’s acceptance of any offer to purchase by Buyer is expressly conditional upon Buyer’s assent to all the terms and conditions stated herein, including any terms in addition to, or inconsistent with those contained in Buyer’s offer. Acceptance of Seller’s products shall in all events constitute such assent. 2. Payment: Payment shall be made by Buyer net 30 days from the date of delivery of the items purchased hereunder. Any claims by Buyer for omissions or shortages in a shipment shall be waived unless Seller receives notice thereof within 30 days after Buyer’s receipt of the shipment. The minimum order amount is $125.00 net, unless otherwise noted on the quotation . 3. Delivery: Unless otherwise provided on the face hereof, delivery shall be made F.O.B. Seller’s plant. Regardless of the method of delivery, however, risk of loss shall pass to Buyer upon Seller’s delivery to a carrier. Any delivery dates shown are approximate only and Seller shall have no liability for any delays in delivery. Shipments are made by common carrier. Any premium freight must be requested and paid for by the Buyer. 4. Warranty: Seller warrants that the items sold hereunder shall be free from defects in material or workmanship for a period of 2 years from the date of shipment to Buyer, or 2,000 hours of use, whichever expires first. Exception to this is the Angle Body Valve line has a 1 year warranty. THIS WARRANTY COMPRISES THE SOLE AND ENTIRE WARRANTY PERTAINING TO ITEMS PROVIDED HEREUNDER. SELLER MAKES NO OTHER WARRANTY, GUARANTEE, OR REPRESENTA TION OF ANY KIND WHATSOEVER. ALL OTHER WARRANTIES, INCLUDING BUT NOT LIMITED TO, MERCHANTABILITY AND FITNESS FOR PURPOSE, WHETHER EXPRESS, IMPLIED, OR ARIS. ING BY OPERATION OF LAW, TRADE USAGE, OR COURSE OF DEAL ING ARE HEREBY DISCLAIMED. NOTWITHSTANDING THE FOREGOING, THERE ARE NO WARRANTIES WHATSOEVER ON ITEMS BUILT OR ACQUIRED WHOLLY OR PARTIALLY, TO BUYER’S DESIGNS OR SPECIFICATIONS. 5. Limitation Of Remedy: SELLER’S LIABILITY ARISING FROM OR IN ANY WAY CONNECTED WITH THE ITEMS SOLD OR THIS CONTRACT SHALL BE LIMITED EXCLUSIVELY TO REPAIR OR REPLACEMENT OF THE ITEMS SOLD OR REFUND OF THE PURCHASE PRICE PAID BY BUYER, AT SELLER’S SOLE OPTION. IN NO EVENT SHALL SELLER BE LIABLE FOR ANY INCIDENTAL, CONSEQUENTIAL OR SPECIAL DAMAGES OF ANY KIND OR NATURE WHATSOEVER, INCLUDING BUT NOT LIMITED TO LOST PROFITS ARISING FROM OR IN ANY WAY CONNECTED WITH THIS AGREEMENT OR ITEMS SOLD HEREUNDER, WHETHER ALLEGED TO ARISE FROM BREACH OF CONTRACT, EXPRESS OR IMPLIED WARRANTY, OR IN TORT, INCLUDING WITHOUT LIMITATION, NEGLIGENCE, FAILURE TO WARN OR STRICT LIABILITY. 6. Changes, Reschedules and Cancellations: Buyer may request to modify the designs or specifications for the items sold hereunder as well as the quantities and delivery dates thereof, or may request to cancel all or part of this order, however, no such requested modification or cancellation shall become part of the contract between Buyer and Seller unless accepted by Seller in a written amendment to this Agreement. Acceptance of any such requested modification or cancellation shall be at Seller’s discretion, and shall be upon such terms and conditions as Seller may require. 7. Special Tooling: A tooling charge may be imposed for any special tooling, including without limitation, dies, fixtures, molds and patterns, acquired to manufacture items sold pursuant to this contract. Such special tooling shall be and remain Seller’s property notwithstanding payment of any charges by Buyer. In no event will Buyer acquire any interest in apparatus belonging to Seller which is utilized in the manufacture of the items sold hereunder, even if such apparatus has been specially converted or adapted for such manufacture and notwithstanding any charges paid by Buyer. Unless otherwise agreed, Seller shall have the right to alter, discard or otherwise dispose of any special tooling or other property in its sole discretion at any time. 8. Buyer’s Property: Any designs, tools, patterns, materials, drawings, confidential information or equipment furnished by Buyer or any other items which become Buyer’s property, may be considered obsolete and may be destroyed by Seller after two (2) consecutive years have elapsed without Buyer placing an order for the items which are manufactured using such property. Seller shall not be responsible for any loss or damage to such property while it is in Seller’s possession or control. 9. Taxes: Unless otherwise indicated on the face hereof, all prices and charges are exclusive of excise, sales, use, property, occupational or like taxes which may be imposed by any taxing authority upon the manufacture, sale or delivery of the items sold hereunder. If any such taxes must be paid by Seller or if Seller is liable for the collection of such tax, the amount thereof shall be in addition to the amounts for the items sold. Buyer agrees to pay all such taxes or to reimburse Seller therefore upon receipt of its invoice. If Buyer claims exemption from any sales, use or other tax imposed by any taxing authority, Buyer shall save Seller harmless from and against any such tax, together with any interest or penalties thereon which may be assessed if the items are held to be taxable. 10. Indemnity For Infringement of Intellectual Property Rights: Seller shall have no liability for infringement of any patents, trademarks, copyrights, trade dress, trade secrets or similar rights except as provided in this Part 10. Seller will defend and indemnify Buyer against allegations of infringement of U.S. patents, U.S. trademarks, copyrights, trade dress and trade secrets (hereinafter ‘Intellectual Property Rights’). Seller will defend at its expense and will pay the cost of any settlement or damages awarded in an action brought against Buyer based on an allegation that an item sold pursuant to this contract infringes the Intellectual Property Rights of a third party. Seller’s obligation to defend and indemnify Buyer is contingent on Buyer notifying Seller within ten (10) days after Buyer becomes aware of such allegations of infringement, and Seller having sole control over the defense of any allegations or actions including all negotiations for settlement or compromise. If an item sold hereunder is subject to a claim that it infringes the Intellectual Property Rights of a third party, Seller may, at its sole expense and option, procure for Buyer the right to continue using said item, replace or modify said item so as to make it noninfringing, or offer to accept return of said item and return the purchase price less a reasonable allowance for depreciation. Notwithstanding the foregoing, Seller shall have no liability for claims of infringement based on information provided by Buyer, or directed to items delivered hereunder for which the designs are specified in whole or part by Buyer, or infringements resulting from the modification, combination or use in a system of any item sold hereunder. The foregoing provisions of this Part 10 shall constitute Seller’s sole and exclusive liability and Buyer’s sole and exclusive remedy for infringement of Intellectual Property Rights. If a claim is based on information provided by Buyer or if the design for an item delivered hereunder is specified in whole or in part by Buyer, Buyer shall defend and indemnify Seller for all costs, expenses or judgments resulting from any claim that such item infringes any patent, trademark, copyright, trade dress, trade secret or any similar right. 11. Force Majeure: Seller does not assume the risk of and shall not be liable for delay or failure to perform any of Seller’s obligations by reason of circumstances beyond the reasonable control of Seller (hereinafter ‘events of Force Majeure]. Events of Force Majeure shall include without limitation, accidents, acts of God, strikes or labor disputes, acts, laws, rules or regulations of any government or government agency, fires, floods, delays or failures in delivery of carriers or suppliers, shortages of materials and any other cause beyond Seller’s control. 12. Entire Agreement/Governing Law: The terms and conditions set forth herein, together with any amendments, modifications and any different terms or conditions expressly accepted by Seller in writing, shall constitute the entire Agreement concerning the items sold, and there are no oral or other representations or agreements which pertain thereto. This Agreement shall be governed in all respects by the law of the State of Ohio. No actions arising out of the sale of the items sold hereunder or this Agreement may be brought by either party more than two (2) years after the cause of action accrues. PD4099 9/88 (Rev B) Terms & Conditions of Sale F30 Parker Hannifin Corporation Fluid Control Division 1 800 825 8305 (1 800 Valve05) www.parker.com/fcd Technical Reference Notes AEROSPACE Key Markets • Aircraft engines • Business & general aviation • Commercial transports • Land-based weapons systems • Military aircraft • Missiles & launch vehicles • Regional transports • Unmanned aerial vehicles Key Products • Flight control systems & components • Fluid conveyance systems • Fluid metering delivery & atomization devices • Fuel systems & components • Hydraulic systems & components • Inert nitrogen generating systems • Pneumatic systems & components • Wheels & brakes CLIMATE CONTROL Key Markets • Agriculture • Air conditioning • Food, beverage & dairy • Life sciences & medical • Precision cooling • Processing • Transportation Key Products • CO2 controls • Electronic controllers • Filter driers • Hand shut-off valves • Hose & fittings • Pressure regulating valves • Refrigerant distributors • Safety relief valves • Solenoid valves • Thermostatic expansion valves ELECTROMECHANICAL Key Markets • Aerospace • Factory automation • Food & beverage • Life science & medical • Machine tools • Packaging machinery • Paper machinery • Plastics machinery & converting • Primary metals • Semiconductor & electronics • Textile • Wire & cable Key Products • AC/DC drives & systems • Electric actuators • Controllers • Gantry robots • Gearheads • Human machine interfaces • Industrial PCs • Inverters • Linear motors, slides and stages • Precision stages • Stepper motors • Servo motors, drives & controls • Structural extrusions HYDRAULICS Key Markets • Aerospace • Aerial lift • Agriculture • Construction machinery • Forestry • Industrial machinery • Mining • Oil & gas • Power generation & energy • Truck hydraulics Key Products • Diagnostic equipment • Hydraulic cylinders & accumulators • Hydraulic motors & pumps • Hydraulic systems • Hydraulic valves & controls • Power take-offs • Rubber & thermoplastic hose & couplings • Tube fittings & adapters • Quick disconnects FILTRATION Key Markets • Food & beverage • Industrial machinery • Life sciences • Marine • Mobile equipment • Oil & gas • Power generation • Process • Transportation Key Products • Analytical gas generators • Compressed air & gas filters • Condition monitoring • Engine air, fuel & oil filtration & systems • Hydraulic, lubrication & coolant filters • Process, chemical, water & microfiltration filters • Nitrogen, hydrogen & zero air generators SEALING & SHIELDING Key Markets • Aerospace • Chemical processing • Consumer • Energy, oil & gas • Fluid power • General industrial • Information technology • Life sciences • Military • Semiconductor • Telecommunications • Transportation Key Products • Dynamic seals • Elastomeric o-rings • EMI shielding • Extruded & precision-cut, fabricated elastomeric seals • Homogeneous & inserted elastomeric shapes • High temperature metal seals • Metal & plastic retained composite seals • Thermal management FLUID & GAS HANDLING Key Markets • Aerospace • Agriculture • Bulk chemical handling • Construction machinery • Food & beverage • Fuel & gas delivery • Industrial machinery • Mobile • Oil & gas • Transportation • Welding Key Products • Brass fittings & valves • Diagnostic equipment • Fluid conveyance systems • Industrial hose • PTFE & PFA hose, tubing & plastic fittings • Rubber & thermoplastic hose & couplings • Tube fittings & adapters • Quick disconnects PNEUMATICS Key Markets • Aerospace • Conveyor & material handling • Factory automation • Food & beverage • Life science & medical • Machine tools • Packaging machinery • Transportation & automotive Key Products • Air preparation • Compact cylinders • Field bus valve systems • Grippers • Guided cylinders • Manifolds • Miniature fluidics • Pneumatic accessories • Pneumatic actuators & grippers • Pneumatic valves and controls • Rodless cylinders • Rotary actuators • Tie rod cylinders • Vacuum generators, cups & sensors PROCESS CONTROL Key Markets • Chemical & refining • Food, beverage & dairy • Medical & dental • Microelectronics • Oil & gas • Power generation Key Products • Analytical sample conditioning products & systems • Fluoropolymer chemical delivery fittings, valves & pumps • High purity gas delivery fittings, valves & regulators • Instrumentation fittings, valves & regulators • Medium pressure fittings & valves • Process control manifolds Parker’s Motion & Control Technologies At Parker, we’re guided by a relentless drive to help our customers become more productive and achieve higher levels of profitability by engineering the best systems for their requirements. It means looking at customer applications from many angles to find new ways to create value. Whatever the motion and control technology need, Parker has the experience, breadth of product and global reach to consistently deliver. No company knows more about motion and control technology than Parker. For further info call 1 800 C-Parker (1 800 272 7537). Parker Hannifin Corporation Fluid Control Division 95 Edgewood Avenue New Britain, CT 06051 phone 860 827 2300 fax 860 827 2384 www.parker.com/fcd 147 West Hoy Road Madison, MS 39110 www.parker.com/fcd © 2011 Parker Hannifin Corporation. CAT FCDFL0911 September 2011