Parker气动产品介绍Moduflex比例调压阀

派克比例阀参数-概述说明以及解释1.引言1.1 概述概述部分:派克比例阀是一种常用的工业控制阀，用于调节液体或气体流量。

其特点是通过改变阀门的开度来控制介质的流量，以达到精确控制的目的。

派克比例阀广泛应用于自动化控制系统中，特别是在需要准确控制流量的场合，如工厂生产线、机械加工、化工以及液压系统等领域。

派克比例阀的参数是指影响其性能和控制精度的各项指标。

常见的派克比例阀参数包括响应时间、线性度、灵敏度、控制精度等。

响应时间是指控制信号作用到阀门上所需的时间，通常以毫秒为单位。

线性度是指阀门在不同开度下流量的变化关系，通常以百分比表示，线性度越好，阀门的流量控制越精确。

灵敏度是指阀门对控制信号的响应程度，灵敏度越高，阀门的调节范围越大。

控制精度是指阀门输出流量与期望流量之间的误差，通常以百分比表示，控制精度越高，阀门的流量控制越准确。

了解派克比例阀的参数对于正确选择和使用该阀门至关重要。

根据实际需求，我们可以根据阀门参数来判断适合的使用场景和控制要求，从而保证流体系统的稳定运行和可靠性。

在接下来的文章中，我们将重点介绍派克比例阀的各项参数，并探讨其对流体控制的影响，帮助读者深入理解和应用派克比例阀。

1.2 文章结构文章结构部分的内容如下：文章结构是指整篇文章的组织方式和内容的排列顺序。

一个良好的文章结构可以使读者更容易理解和把握文章的主题和要点。

本文将按照以下结构来组织内容：引言部分（Introduction）：该部分主要对派克比例阀参数进行概述，介绍派克比例阀的基本概念及其在实际应用中的重要性。

同时还会介绍文章的结构和目的，让读者对全文有一个整体的了解。

正文部分（Body）：正文部分是整篇文章的核心部分，将详细介绍派克比例阀参数的相关内容。

其中，第一个要点将重点介绍派克比例阀的工作原理、结构特点以及参数的定义和计算方法；第二个要点将深入讨论派克比例阀参数在实际应用中的影响因素和调节方法。

结论部分（Conclusion）：结论部分将对正文部分的内容进行总结，并提炼出文章的主要观点和结论。

Parker比例换向阀使用操作技术手册资料Parker比例换向阀使用操作技术手册资料PARKER比例换向阀简称比例阀。

普通液压阀只能通过预调的方式对液流的压力、流量进行定值掌控。

但是当设备机构在工作过程中要求对液压系统的压力、流量参数进行调整或连续掌控，例如：要求工作台在工作进给时按慢、快、慢连续变动的速度实现进给，或按肯定精度模拟某个掌控曲线实现旅力掌控。

普通液压阀则实现不了。

这时可以用电液比例阀对液压系统进行掌控。

派克比例换向阀是一种按输入的电信号连续地、按比例地掌控液压系统的液流方向、流量和压力的阀类。

比例换向阀转换装置和液压掌控阀本体两大部分构成。

前者将输入的电信号连续地按比例地转换为机械力和位移输出，后者在接受这种机械力和位移之后、按比例连续地输出压力和流量.Parker比例换向阀有两组密封组件。

每组密封组件（图2）由阀瓣、密封圈、调整块、调整螺钉、夹板和螺栓构成。

阀瓣为碳钢板焊件，设有加强筋，即加添阀瓣强度又起导向作用，保证每组阀瓣间的同轴度。

阀瓣上镶嵌聚氨脂橡胶圈，该料子具有耐油、耐磨损、性能稳定、密封良好和使用寿命长的特点。

在凸轮的作用下，密封圈的球面与阀体密封面相接触产生挤压弹性变形，实现密封效果。

调整块和调整螺钉在两组密封组件不能同步到位时可起调整作用，确保各通道密封性能同步到位。

1夹板 2螺栓 3调整块 4阀瓣 5密封圈 6调整螺钉（3）阀杆与阀体隔板和上阀盖间的轴向密封采用O形圈。

（4）阀体隔板及上阀盖轴孔部位镶有铜套，可减小与O形圈间的摩擦力矩，密封组件开启与关闭敏捷，操作力矩小。

（5）上阀盖设有指示牌及限位螺钉，阀杆上安装指针，明确指示各通道的接通情形，易于操作。

派克Parker比例阀D1FB系列内置OBE放大器版本：这款内置了放大器位于一个坚固的金属外壳中，可以在特别恶劣的环境条件下使用。

标称值在出厂时已经设定。

串行RS232接口的电缆连接可作为附件供应。

派克D1FB系列外置放大器版本：这些参数可以与数字功率放大器PWD00A400结合起来进行保管、更改和复制。

PARKER派克B53424MTF气动电磁阀技术参数讲解说明PARKER派克B53424MTF气动电磁阀技术参数讲解说明HYLIK海历克张涛张经理今天给大家讲讲关于PARKER派克B53424MTF气动电磁阀没有现货的额，需要订货的，订货周期8-10周左右的。

这款B53424MTF气控阀这个型号自带线圈的，客户不需要再单独购买线圈了哦。

下面带给大家是到货实物图以及技术参数讲解等。

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无论怎样，不要气馁，更别放弃，请昂首阔步走下去。

唯有历经风雨的洗涤，方可与彩虹不期而遇。

”B系列，一种性能越的工业阀门，尺寸紧凑，流量范围增强。

有电磁先导操作和远程空气先导型号可供选择。

B系列采用Parker久经考验的WCS（磨损补偿密封）系统，保使用寿命长、响应快。

PARKER派克B53424MTF气动电磁阀适用于端环境Viking Xtreme系列阀是用于劣环境工业的管接式阀。

电磁先导控制&气控先导，可选择汇流板和震动线圈。

抗盐雾和抗冲击。

温度从40F到140F；工作压力从真空到232PSIG；接口螺纹尺寸从1/8"到1/2"。

-Viking Xtreme系列Viking Lite系列阀是用于通用工业的管接式阀。

是先导控制、汇流板安装式。

温度范围从14F到122F，工作压力从22到145PSI；接口螺纹尺寸从1/8" 到 3/8"。

派克B53424MTF技术规格：最高运行温度：122°F,59°c低运行温度：14°F,-10°c最大运行压力：10bar ,145 psig 阀门类型：3通，4通位置数量：2位,3位端口数量：5通启动类型：电磁先导控制超控功能：非锁定和锁定手动按钮安装类型：管接，IEM 汇流棒歧管出口数量：10端口尺寸：1/8 1/4 3/8 端口类型：BSPP,NPT最小流速：0.6Cv 最大流速：2.5Cv输入电压：24VDC,120VAC 电气连接：22mm：3针（DIN 43659 B型）符合规格：IP65,RoHs,CE 额定压力：22到145psig ，1.5到10bar最小运行压力：22,43.5 psig 工作温度：-10到+50°c，+14到+122°F介质：空气润滑剂：无需润滑功耗：2.5w 阀体材质：阳极氧化铝密封材质：丁晴橡胶Viking Lite阀是一种坚固的，多功能的管接式阀，结合了高性能和紧凑的安装尺寸，非常适合于一般通用的工业应用。

派克比例阀价格表派克PARKER电磁阀、派克PARKER止回阀、派克PARKER比例阀、派克PARKER单向阀、派克PARKER 伺服阀、D41FHB31C1NE00D41FHB31E1NE00D41FHE01C1NB00D41FHB31C1NE0048D41FHB31E1NB0048D41FHE01C1NB00D41FHE01C1NE00D41FHE01E1NB00D41FHE01E1NE00D41FHE01F1NE00D41FHE01F4NB00D31FBE01CC4NF00D31FHE01A4NB00D3FXE01HCNBJ00D91FBE01HC1NF00D41FHB31C1NB00D41FHB31E1NE00D41FHB31F1NB00D41FHB31F1NE00D91FBE01HC1NG00D91FHB31F1NE00D31FBE01CC1NF00D31FBE01CC1NG00D41FBE01FC1NF00D41FBE01FC1NG00D41FBE01FC4NF00D41FBE02FC1NF00D91FBB32HC4NG00D91FBE01HC4NF00D111FBB32LC1NG00D111FHE01L4NB00BD15AAABN10D1FVE02BCVFOA37PGP517A0330CD1H3NL3L2B1B1PV016R1K1T1NMMCPV028R1K1JHNMMCPV028R1L1T1NMMCPV032R1K1T1NMMCPV046R1K1T1NMMCPV046R1L1T1NMMCPV080R1K1T1NMMCPV092R1K1T1NMMCPV140R1K1T1NMR1PV180R1K1T1NMMCSSRB080E065004072TE0330CW260AAABBD15AAANB10PV046R1K1T1NMRDD41FTE01FC2NF0038TE0330CW260AAABPCD00A-400PV140R1K1T1NFR1RE10R25W4SN1XWMPVS25AZ140C1E015 N3571A1E010 N35870D1400520171D0059422 PWD00A-400VRD350-010-006 D31FTE02CC4NG00D31FTE01CC4NG00RE32E17T1SNG0D91FTE02HC4NG00D91FTE01HC4NF0040SD500A06V+H06SDVD3W004CNJWRDM2PT35KVG15D1VW011CNJWPRDM2PP16SVGCVH161PSVH101S20FV102SCV102PD31FHE02C1NB0040TE0330CW260AAABSD500A06V+H06SDVPVS08AZ140C2R4R03-535-11B1D3W1CNJP30D31FHE02C1NB00404D01-3208-0302-B1-GOQBD15AAABN10PV016R9K1T1NMMCK0188R4V03-533-10-P2GOPA1DWEE527P20ELAFPV023R1K1T1NMM1EPP34CC1I60010PV140R1K1TINFR1BD15AAABN10派克PARKER Herl T5F-CO2 DN50 PV140R1K1TINFR1PV023R1K1T1NMR1D3W1CNJP30PS100-POHO DBD1VW20DVJW75D41VW004C1NJWFM2DDSVZDV-ABS-02-5-S0-D1V-C1DB101E320S9900D91FWB32HC4NLW028D1VW020DNJWD41VW020D1NJWR4V1053511A1D1FVE02BCF0A37CPOM6AAVDK-D1VW75-10D3W4CNJWD41FTE01FC1NF0040D3W004CVJWCPOM4AAHTVC032BN12VPRDM2PP16SVGD3W20BNJWD1VW020HVJWD81VW020D1VJWCPOM6DDVC063AA20VSVLB1086E32SD3W4CNJWPVCRER1N1PVACPPCMN35R4V03-533-10-P2GOPA1PRDM2PP06SVGPRDM2PP16KVG15D1VW034CNJWD3W001CNTWPRDM2PT35KVGD31FHE02C1NBOOD1VW020BNJW91FM3DDSV51PD140PS02SRS5AC00S100D3W004CNJWD3W020BNJW42PD100PS02SRS5AC10S300公司主要做欧美品牌，我们在德国、美国有公司，可以采购欧洲任何国家的品牌，比如德国的优势品牌有：德国宝德BURKERT，德国DEMAG德马格、德国HAWE哈威，德国REXROTH力士乐，德国HYDAC贺德克，德国PILZ皮尔兹继电器，德国FESTO费斯托,德国IFM易福门传感器，德国E+H恩德斯豪斯，德国海德汉HEIDENHAIN,德国P+F倍加福传感器，德国施克SICK,德国TURCK图尔克，德国HIRSCHMANN赫斯曼工业交换机。

Material specificationsValve body Cast aluminumPoppet assembly Aluminum and stainless steel Pilot Valve Zinc, stainless steel, brass,copper, zinc plated steel SealsNitrileFeatures• Continuous duty rated option • Non-lube service• Hi-flow, short stroke poppet • Indicator lights available Specifications • 2-way NC• 3-way NO & NC • Selector functionPorts• 3/8" Body – 3/8", 1/2" NPT • 3/4" Body – 1/2", 3/4", 1" NPT• 1-1/4" Body – 1", 1-1/4", 1-1/2" NPT • BSPP “G” threads availableCertification / approval• Approved to be CE marked (Standard L-Pilot & P-Pilot)• NEMA 4 Option• Hazardous Duty Option IP 65 Rating / NEMA 4LubricationThe high speed poppet valves are pre-lubricated to permit use with non-lubricated air. However, air should be lubricated to assure maximum seal life.F442 lubricating oil is recommended. This oil is speciallyformulated to provide peak performance and maximum service life from air-operated equipment.InstallationCAUTION: DO NOT RESTRICT THE INLET TO POPPET VALVESRestriction of the inlet can starve the air supply to the pilot section of internally piloted poppet valves and result in slow shifting or failure of the valve to shift properly. Always connect the supply line directly to the inlet of the valve using the full pipe size of the valve inlet. Never use a quick coupling to connect a poppet valve to the air supply. On valves with a small inlet port, use of an upstream surge tank may be required at lower operating pressures to insure an adequate air supply and proper operation.Single Solenoid, Locking manual override, internal “P” pilot 140 PSI, standard service, junction box w/ light.Body In / cyl Exhaust 2-way, 2-position 3-way, 2-position 3-way, 2-positionSingle Remote Pilot, 1/4" NPT remote pilot port with internal pilot return.Body In / cyl Exhaust 2-way, 2-position 3-way, 2-position 3-way, 2-positionSingle Solenoid, Locking manual override, internal “P” pilot 125 PSI, standard service, P-pilot junction box w/ light.Body In / cyl Exhaust 2-way, 2-position 3-way, 2-position 3-way, 2-positionSingle Remote Pilot, 1/4" NPT remote pilot port with internal pilot return.Body In / cyl Exhaust 2-way, 2-position 3-way, 2-position 3-way, 2-positionParker PneumaticN Series Valves Model Number Index“N” Series 3/8", 3/4" & 1-1/4" Body Sizes - Solenoid ‘L’ PilotNote: BSPP is to the ISO 228 standard, and requires an R-BSPT male fitting.“N” Series 1-1/4" Body Sizes - Solenoid Hi-Flow ‘P’ PilotR-BSPT male fitting.Parker PneumaticReplacement PilotsDescriptionHazardous duty L-pilot NEMA 4 L-pilot Hazardous duty L-pilot - UL & CSA K0451025**N/AOverride typeLocking Non-Locking Locking Non-Locking Hazardous duty with override K0453025**K0452025**NEMA 4 with overrideK2553025**K255202549** Voltage code - 49 & 53N Series Valve Replacement PartsReplacement PilotsDescription Standard L-pilot Continuous duty L-pilot Override type Locking Non-locking Locking Non-locking Basic with overrideK0653035**K0652035**K0853025**K0852025**JIC with junction box & override K0656035**K0655035**K0856025**K0855025**JIC pilot with junction box &override & indicator lights (120VAC only)K0659035**K0658035**K0859025**K0858025**** Voltage code - (reference model index for availability)Replacement PilotsDescription Heavy duty P-Pilot Override type No override Non-locking Locking Basic with overrideK1351045**N/A N/AJIC with junction box & override N/A K1355045**K1356045**JIC Pilot with junction box & override & indicator lights (120VAC only)N/AK135804553K135904553** Voltage code - 49 & 53Voltage Code **Voltage Coil 60Hz 50Hz DC 19" Leads 72" Leads 4224——K593099—43—24—K593098—45——12K593094—49—— 24K593097—51——48—K59325453115——K593108—58—230—K593111—Coils for L-Pilot Operated ValvesCoils for P-Pilot Operated ValvesVoltage Code **Voltage Coil60Hz 50Hz DC 19" Leads 72" Leads 4012——K593007—41,4224—6K593003—45*——12K593010—49*——24 (Standard)K593014—79——24 (ArcSuppressed)K593271—51*——48—K59318553*120110—K593025—57*240240—K593035—60240220—K593035—61——120K593041—* Indicates voltages approved for solenoid operators designed for use inhazardous locations.NVoltage Code* *Internal Pilot -3/8" & 3/4" Basic BodyKey 3/8" Body3/4" Body Inch mm Inch mm A 1.5640 2.1354B 1.5038 1.9449C1.8146 1.3434D .5614.5614E 3/8-16UNC 7/16" deep 3/8-16UNC 9/16" deepF 1.7544 2.2557G 1.5038 1.5038H 5.921507.14181J3.1981 3.7595K 1.8847 2.4462N 1.4437 1.7845P 7.361968.58218Q2.31593.0984216891351051A 10AKey 3/8" Valve 3/4" Valve Description4*H14510H13676U-cup (3/8), o-ring (3/4)5K493002K493009Stem6K202001K202002Lower piston assy.7*H14509H13676U-cup (3/8), o-ring (3/4)8H17811H17813Washer (2)9H06326H06332Stop nut (2)10K103035K103053Bottom cap (N.C.)10A K092020K092034Bottom cap assy. (N.O.)11*K183049K183057Gasket 12K473014K473015Spring 13K563015K563017Adapter 14*K41RB72121K41RB72221O-ringKey3/8" Valve 3/4" Valve Description1—1/2" Tap K053075Body (N.C.)3/8" TapK0530223/4" Tap K0530761/2" Tap K0530231" Tap K0532201A—3/4" Tap K053077Body (N.O.)3/8" Tap K0530253/4" Tap K0530781/2" Tap K0530261" Tap K0532182K212001K212002Upper piston assy Top view indicates flow through 3-Way valve with coil de-energized.NOTE: For normal valve operation, override must be in “out” position.Service KitsInclude all parts normally required for in-service maintenance:3/8" Basic valve with standard service L -Pilots .................K352076 3/8" Basic valve with continuous duty L -Pilots .....................K3522763/4" Basic valve with standard service L -Pilots .................K3520773/4" Basic valve with continuous duty L -Pilots .....................K352277Exhaust PressureNormally Closed1351A 10A216891351410Key 3/8" Valve 3/4" Valve Description 4*K41RB72211H13676O-ring 5K493002K493009Stem6K202001K202002Lower piston assy.7*K41RB72210H13676O-ring 8H17811H17813Washer (2)9H06326H06332Stop nut (2)10K103035K103053Bottom cap (N.C.)10A K092020K092034Bottom cap assy. (N.O.)11K473014K473015Spring 12*K183049K183057Gasket 13K563016K563021Adapter 14*K41RB72121K41RB72221O-ringKey 3/8" Valve 3/4" Valve Description1—1/2" Tap K053067Body (N.C.)3/8" TapK0530193/4" Tap K0530691/2" Tap K0531571" Tap K0532211A—3/4" Tap K053065Body (N.O.)3/8" Tap K0530183/4" Tap K0530701/2" Tap K0530641" Tap K0532192K212001K212002Upper piston assy 3*H13648H13728SealNormally ClosedNormally OpenExternal Pilot -3/8" & 3/4" Basic BodyKey 3/8" Body 3/4" Body Inch mm Inch mm A 1.5640 2.1354B 1.5038 1.9449C1.8146 1.3434D .5614.5614E3/8-16UNC 7/16" deep 3/8-16UNC 9/16" deepF 1.7544 2.2557G 1.5038 1.5038H 6.421637.45189J 3.1981 3.7595K 1.8847 2.4462N1.4437 1.7845P 7.862008.89226Q2.31593.0984R4.341105.38137Top view indicates flow through 3-Way valve with coil de-energized.NOTE: For normal valve operation, override must be in “out” position.Service KitsInclude all parts normally required for in-service maintenance:3/8" Basic valve with standard service L -Pilots .................K3520763/8" Basic valve with continuous duty L -Pilots .....................K3522763/4" Basic valve with standard service L -Pilots .................K3520773/4" Basic valve with continuous duty L -Pilots .....................K352277Exhaust PressureTop view indicates flow through 3-Way valve with coil de-energized.NOTE: For normal valve operation, override must be in “out” position.Service KitsInclude all parts normally required for in-service maintenance:1-1/4" Basic valve with standard service P-Pilots ............K352078Exhaust Pressure5Key 1-1/4" Valve Description 4*H13728Seal 5K493016Stem6K313028Lower piston 7*H13728Seal 8H17817Washer 9H06338Stop nut10K092046Bottom cap (N.C.)10A K103061Bottom cap (N.O.)11*K183058Gasket 12K473016Spring 13K012003Adapter 14*K41RB72143O-ringKey1-1/4" Valve Description11" Tap K053111Body (N.C.)1-1/4" Tap K0531121-1/2" Tap K0531131A1" Tap K053114Body (N.O.)1-1/4" Tap K0531151-1/2" Tap K0531162K313029Upper piston assy 3*H13752O-ringInternal Pilot - 1-1/4" Basic BodyInternal Pilot - 1-1/4" Basic BodyKey 1-14" BodyInch mm A 3.0076B2.2557C 1.3434D 1.1930E 1/2-13 UNC 3/4 DeepF 3.1380G 1.5038H 9.30236J5.34136K 3.4487N2.3159P 11.14283Q4.56116Continuous Duty Pilot - 1-1/4" Basic BodyContinuous Duty Pilot - 1-1/4" Basic BodyKey 1-1/4" BodyInch mm A 3.0076B 2.2557C1.3434D 1.1930E 1/2-13 UNC 3/4 DeepF 3.1380G 1.5038H 9.02229J 5.34136K 3.4487N2.3159P 10.45265Q4.561165Key 1-1/4" Valve Description 4*H13728Seal 5K493016Stem6K313028Lower piston 7*H13728Seal 8H17817Washer 9H06338Stop nut10K092046Bottom cap (N.C.)10A K103061Bottom cap (N.O.)11*K183058Gasket 12K473016Spring 13K012003Adapter 14*K41RB72143O-ringKey1-1/4" Valve Description11" Tap K053111Body (N.C.)1-1/4" Tap K0531121-1/2" Tap K0531131A1" Tap K053114Body (N.O.)1-1/4" Tap K0531151-1/2" Tap K0531162K313029Upper piston assy Normally ClosedTop view indicates flow through 3-Way valve with coil de-energized.NOTE: For normal valve operation, override must be in “out” position.Service KitsInclude all parts normally required for in-service maintenance:1-1/4" Basic valve with continuous duty L -Pilot ...................K352080Exhaust PressureInternal Return - 3/8", 3/4", 1-1/4" Basic BodyKey3/8" Body 3/4" Body 1-1/4" Body Inch mm Inch mm Inch mmH 3.1981 3.7595 5.34136J 1.8848 2.4462 3.4487M 1.4437 1.7845 2.6667N 4.22107 5.311357.19183Q2.31593.09784.56116Key 3/8" Valve 3/4" Valve1-1/4" Valve Description 5K493002K493009K493016Stem6K202001K202002K313028Lower pistonassy.7*H13499H13676H13728Seal 8H17811H17813H17817Washer (2)9H06326H06332H06338Stop nut (2)10K092020K092034K092046Bottom cap(N.C.)10A K103035K103053K103061Bottom cap(N.O.)11*K183049K183057K183058Gasket 12K473014K473015K473016Spring 14*K41RB72121K41RB72221K41RB72143O-ring 21K123018K123021K123024CoverKey 3/8" Valve 3/4" Valve1-1/4" ValveDescription1—1/2" TapK0530751" Tap K053111Body (N.O.)3/8" Tap K0530223/4" Tap K0530761-1/4" Tap K0531121/2" Tap K0530231" Tap K0532201-1/2" Tap K0531131A—1/2" TapK0530771" Tap K053114Body (N.C.)3/8" Tap K0530253/4" Tap K0530781-1/4" Tap K0531151/2" Tap K0530261" Tap K0532181-1/2" Tap K0531162K212001K212002K313029Upper piston assy 3*H13648H13728H13752Seal 4*H14510H13676H13728Seal2152151A 7*10Service KitsInclude all parts normally required for in-service maintenance:3/8" Basic valve ........................K3520733/4" Basic valve .........................K3520741-1/4" Basic valve .....................K352075Normally ClosedTop view indicates flow through 3-Way valve.NOTE: For normal valve operation, override must be in “out” position.Exhaust PressureTop view indicates flow through 3-Way valve.NOTE: For normal valve operation, override must be in “out” position.Exhaust Pressure132151051A 7*Internal Return - 3/8", 3/4", 1-1/4" Basic BodyKey 3/8" Body 3/4" Body 1-1/4" Body Inch mm Inch mm Inch mm A 1.5640 2.1354 3.0076B 1.5038 1.9449 2.2557C 1.1329 1.1329 2.3860D .5614.5614 1.1930E 3/8–16UNC 7/16" deep 3/8– 16UNC 9/16" deep 1/2–13UNC 3/4" deep F 1.7544 2.2557 3.1379G 1.5640 2.1354 3.1379H 3.1981 3.7595 5.34136J 1.8848 2.4462 3.4487K 2.3159 3.0978 4.56116L 4.34110 5.381377.31186M5.311356.341617.88200N Left of centerOn center.53 13 1.0025Q1.4437 1.78452.3159Key 3/8" Valve 3/4" Valve1-1/4" Valve Description 5K493002K493009K493016Stem6K202001K202002K313028Lower pistonassy.7*H13499H13676H13728Seal 8H17811H17813H17817Washer (2)9H06326H06332H06338Stop nut (2)10K092020K092034K092046Bottom capassy. (N.C.)10A K103035K103053K103061Bottom cap(N.O.)11*K183049K183057K183058Gasket 12K473014K473015K473016Spring 13K563016K563021K563027Adapter 14*K41RB72121K41RB72221K41RB72143O-ring 21K323027K323027Not used CoverKey3/8" Valve 3/4" Valve 1-1/4" Valve Description11/4" Tap K0530111/2" Tap K0530671" Tap K053143Body (N.O.)—3/4" Tap K0530691-1/4" Tap K0531101/2" TapK0531571" Tap K0532211-1/2" Tap K0531461A 1/4" Tap K0530101/2" Tap K0530651" Tap K053159Body (N.C.)—3/4" Tap K0530701-1/4" Tap K0531441/2" Tap K0530641" Tap K053 2191-1/2" Tap K0531452K212001K212002K313029Upper piston assy 3*H13648H13728H13752Seal 4*H13529H13676H13728SealNormally ClosedService KitsInclude all parts normally required for in-service maintenance:3/8" Basic valve ........................K3520313/4" Basic valve ........................K3520561-1/4" Basic valve .....................K352083Catalog PDN1000-2USParker PneumaticParker Hannifin Corporation Pneumatic Division Richland, Michigan/pneumaticsD66Valve ProductsN Series Valve DimensionsInternal Return -3/8" & 3/4" Basic BodyKey 3/8" Body 3/4" Body 1-1/4" Body Inch mm Inch mm Inch mm A 1.5640 2.1354 3.0076B 1.5038 1.9449 2.2557C 1.1329 1.1329 2.3860D .5614.5614 1.1930E 3/8–16UNC 7/16" deep 3/8–16UNC 9/16" deep 1/2–13UNC 3/4" deep F 1.7544 2.2557 3.1379G 1.5640 2.1354 3.1379H 3.1981 3.7595 5.34136J 1.8848 2.4462 3.4487K .5013.5013.5013L .113.164.256M 1.4437 1.7845 2.6667N 4.22107 5.311357.19183P 4.78121 5.561417.53191Q2.31593.09784.56116Internal Return -3/8" & 3/4" Basic Body3/8" Body 3/4" Body 1-1/4" Body Key Inch mm Inch mm Inch mm A 1.5640 2.1354 3.0076B 1.5038 1.9449 2.2557C 1.1329 1.1329 2.3860D .5614.5614 1.1930E3/8–16UNC 7/16" deep 3/8–16UNC 9/16" deep 1/2–13UNC 3/4" deep F 1.7544 2.2557 3.1379G 1.5640 2.1354 3.1379H 3.1981 3.7595 5.34136J 1.8848 2.4462 3.4487K 2.3159 3.0978 4.56116L 4.34110 5.381377.31186M 5.31135 6.341617.88200N Left of centerOn center.53 13 1.0025Q1.44371.78452.3159Internal Return - 3/8" & 3/4" Basic BodyExternal Return - 3/8" & 3/4" Basic Body1/4 NPT 。

!DescriptionProportional valve (Electronic Pressure Regulator)with micro processor which enables you to adjust all parameters settings by means of push buttons.Features•Alarm Output Signal 24VDC when Required Pressure is Reached•Connector M12 4P Male (Plug and Cable are Not Supplied)•Fits in the Parker Pneumatic Frame-block (Air Service Unit)•Free Programmable Software•Integrated and Adjustable Slow-Start FunctionsAccuracyLinearity...................................................< 0.3% of F .SAir ConsumptionUnder normal conditions and in steady state there is no air consumption.Alarm Output SignalWithin the signal band an output signal is available:24VDC, PNP open collector, max 50mA, prevented against short-circuit (accepts inductive loads).Available OptionsAnalog Output:0 - 10 VoltsFor additional information, please contact factory.Change the Control SignalFrom 0 - 10 V to 4 - 20mA (Ri = 500.): (Parameter 4)EPDN SeriesProportional ValveWARNINGDo not adjust any of the other parameters. These are factorysettings. Any other change can have a big influence on the performance of the regulator.Parker Pneumatic does not warranty units which have not been properly used and / or adjusted.Class of Protection ...............................IP 65Control Signal0 - 10V , Ri = 100K or 4 - 20mA, Ri = 500The control signal can be changed.Dimensions: See page 18Electrical ConnectionsUse plug M12: 4-Pole female(Other connectors available on request)The electrical connections are as follows:Pin No.Function Color 124V SupplyBrown 20-10V Control signal Ri = 100kWhite 30V (GND)SupplyBlue 424VAlarm Output SignalBlackFlow Capacity:1/2" = 63.6 SCFM, 1" = 148.3 SCFM Hidden Functions EPDN4-MPDuring start-up unit. (Power goes on)When keys DOWN and UP are pressed during start-up, (connecting to the 24V power supply) manual mode is activated. This means that the user is able to increase / decrease the output pressure of the EPD,by pressing the UP or DOWN key. During this action the display will blink, indicating that the manual mode is activated.Pressing the UP and DOWN key againsimultaneously will cause the EPD to terminate manual mode.After Start-up (Power is on)Parameter 0 = 3Entering this value in parameter 0 will store the calibrated factory data into the working parameters.(Default calibration data is used)Behavior ControlThe regulation speed of the pressure regulator can be modified by means of one parameter. (P 20)The value in this parameter has a range from 0-5, a higher value means slower regulation speed (but more accurate). When the value 0 is entered, you are able to create your own custom settings. For details see page 12, parameter 20.Materials Housing......................Anodized Aluminum and PlasticSeals....................................................................NBRValves......................................................PolyurethaneOthers....................................Delrin, Brass, AluminumMountingThe unit preferably is to be mounted vertically with the electrical connection to the top.Parameters.Functonality of EPD can be manipulated by means of parameter settings. These settings can be changed by means of the 3 buttons at the front side of the EPD.For details see page 12 “How to Change Parameters”.Pilot Valve ProtectionWhen the required output pressure can not be achieved because of a lack of input pressure the unit will display “No.P”. The output pressure will then approximately be equal to the inlet pressure. As soon as the input pressure is back on the required level the normal control function follows.Pressure RangePrimary (Input Pressure):..........................max. 16 barSecondary (Output Pressure):.....................0 to 12 barThe output pressure is indicated on a built-in digital display. Pressure drop input / output min. 0,5 bar Response TimesFor a volume of 330 cm³ directly on the outlet of the regulator:Pressure increase from 2 to 4 bar.................32 msecsPressure increase from 2 to 8 bar...............137 msecsPressure decrease from 4 to 2 bar................64 msecsPressure decrease from 8 to 2 bar..............159 msecsFor a volume of 330 cm³ on a distance of 20 meters from the regulator (Connected with tubing -inner Ø 10 mm)Pressure increase from 2 to 4 bar.................56 msecsPressure increase from 2 to 8 bar...............200 msecsPressure decrease from 4 to 2 bar................69 msecsPressure decrease from 8 to 2 bar................96 msecsSupply Voltage..........................24V DC ± 10%Reverse Protected.....................Max. 200 mA. Safety ExhaustThe valve will force exhaust at a control signal below 0.1 volt or 4.2 Ma.SettingsThe regulator is pre-set at the factory as indicated on label. If required, adjustments can be made, seepage 12.Dead Band:..± 1% of FS (= ± 0 to12 bar) = Hysteresis Proportional Band:...............±10% of FS (= ± 1,2 bar) Signal Band:.........................±10% of FS (= ± 1,2 bar)Specific ApplicationsSo far the EPD has been used in a wide variety of applications such as:1.Regulating welding forces on spot weld guns.2.Regulating protective gases in laser cuttinginstallations.3.Maintaining pressure in cutting head chamberson tunnel drilling equipment.4.Maintaining a small overpressure in clean rooms.5.Regulating air-humidity in storage and handlingrooms for e.g. tobacco or wood.6.Regulating sprays of paint through the nozzles ofpainting installations.7.Maintaining a protective shield of inert gases infurnaces in steel mills to avoid the contaminationwith air of gas in the metal.8.Adjusting of braking forces on ships winches.9.Adjusting governors on marine diesel engines.10.Blowing plastic of glass bottles.11.Controlling specific gas mixtures in laboratories.12.Regulating speed control on a roll of carpetwhilst rolling up in order to maintain the samestretch through the entire cloth.13. Controlling vacuum in tube expansion purposes.Temperature Range...................14°F to 122°F(-10°C to 50°C) Type......................................................EPDN Working MediumCompressed air or inert gases, filtered to min. 40µ, lubricated or non-lubricated, once lubricated air is supplied, this must be maintained.Parameter Setting ChangeableStandard User SettingValue Description Unit Action Resultparameters*000N/A1N/A2N/A3Back to factory settings Back to NormalSettings 401mA Set Setpoint Input to mA0(4)-20mA, (P29) 1V Set Setpoint Input to volt0-10V 600Alarm Output Set Output to Digital Alarm Output24V= In Band 1Analog Output Set Output to Analog Output0-10V~P_out 880 to 120100% F.S.Set Analog Output Span Span = 0-11V 1250 to 250100x 10 mbar Set Proporitonal Area0,5 to 2,5 bar13 2 to 4015x 10mbar Set Deadband Area20 to 400 mbar1400bar Change Display Reading bar 1PSI PSI15 1 to 2501x 10 mbar Set Slow Area0 to 2,5 bar1615*****Set Slow Steps Highest Speed to 20Lowest Speed 180 to 2000x 10 mbar Set Preset Pressure (x10 mbar)0 to 2 bar 190 to 100100 % F.S.Pressure Correction0 to P-max 200Custom Set Set Behavior Control P 12,13, 21 1Fastest Adjustable2Fast Only with33Normal0 Custom Set4Slow5Slowest21510Set Proportional Value Fastest Regulation to 100Slowest Regulation *Other parameter settings are available. Consult factory.How to Change Parameters:Pressing Accept key for more than 3 sec, will activateparameter change mode. User can select parameterby pressing up or down key on EPD. (display showsPxx). When parameter number is correct, pressingaccept again will enter parameter number. (displayshows parameter value now). Pressing the up or downkey will change the parameter. (blinking display pointshows parameter editing mode). Pressing the acceptkey will accept the new parameter value. (all digits willblink during acception). After releasing all keys , thenext parameter number will be presented on thedisplay. When no key is pressed, after 3 sec thedisplay will show the actual output pressure.Ordering-key SpecialsTypePassage Flow RateConnections SCFM Internal Thread 412 mm 63.61/2" BSPP 512 mm 63.61/2" NPT 825 mm 148.31" BSPP 925 mm148.31" NPTEPDN 4M 0145P 0U 10CMinimum Maximum MicroPressure Pressure Control Type ProcessorControlControlSignalOptionPressure Control-required minimum pressure,expressed in B bar of M mbar or PSI (preset pressure)-required maximum pressure (=F .S.*),expressed in B bar of M mbar or PSI (max. 12 bar or 174 PSI)Control Signal0U100 ± 10 VDC, Ri = 100 kohm 4I 20 4 ± 20 mA, Ri = 500 ohm 8BIT 8 Bit DigitalB bar P PSIOptionBlank No Option C Slow Start Function DSuitable for OxygenWelding Products EPDN Dimensions。

V2阀-微型气动parker电磁阀万星耀科技（深圳）有限公司成立于2009年3月，是世界500强企业Parker Hannifin的国内重要分销商，主要代理Parker 的液压元件、液压成套、流体连接件、密封件以及过滤设备等自动化和过程控制产品，且拥有丰富的液压系统测试、调试和加工能力。

我们提供的服务∙性能可靠、种类齐全的parker流体传动产品∙完善、安心的售后与现场服务∙优质、专业的技术咨询服务V2微型气动电磁阀是一种经过验证的产品，以其可靠和一致的性能而闻名。

为医疗设备和系统制造商设计，V2微型气动电磁阀是由轻质PBT塑料制成，并提供灵活的安装和终止选项。

V2微型气动电磁阀也提供气动和电气设计的灵活性。

它可在多种安装或1/8“(3毫米)带刺管配置，也可与电线引线，快速连接铲子或4针印刷电路板电气端接.·重量轻的PBT塑料车身，以减轻系统重量·增加系统设计灵活性的流形安装或模制有刺配件·印刷电路板安装，快速连接铁锹或导线线圈端接，以便于集成.对2500万次生命周期进行了经证明的性能测试,遵守RoHS标准典型应用·氧缩合器·流量控制/关闭阀.便携式医疗器械技术规格典型应用氧气浓缩器，呼吸机，病人模拟器，压缩疗法性能：流量范围0至35贫民窟性能：压力范围0至100 psi尺寸：宽度0.63英寸(15.88毫米)尺寸：高度0.67英寸(17.02毫米)尺寸：长度 2.02英寸(51.31毫米)湿材料：身体PBT，36000 HO2黄铜，430 FR不锈钢湿材料：密封件(弹性体) FKM洁净度标准阀门配置类型2/3路数控，2/3路NO，3路分配器生命(#循环) 最多2500万个周期气动连接选项多管山、倒钩电气连接选项电线引线，PC安装漏泄率<0.2 sccm响应时间<30 msec功率要求(W) 0.5W, 1.0W 2.0W体重(磅) 1.2盎司(35克)公司秉承“以人为本，以德治业，诚信守用，互惠双赢”的经营理念，坚持“以客户为中心，以市场为向导，以质量求发展，以服务求市场”的经营方针，用性能可靠的优质产品，专业的工程技术，优秀的销售团队，完善的售后服务，坚持实施品牌战略和客户满意工程，在行业内外树立了良好的信誉。

Value Proposition:The two-stage, tied diaphragm design of Parker’s 735 Series regulator provides constant outlet pressure regardless of inlet pressure fluctuations. Corrosive or hazardous gases are shut off in the event a leak across the seat occurs. Unique compression member loading eliminates threads in the wetted area, thus reducing particle entrapment. For sub-atmspheric pressure control, a negative pressure 735 regulator (NPR735) is available.735 SeriesTwo-Stage,Tied Diaphragm RegulatorHigh Pressure • Stainless SteelINSTRUMENTATION PRODUCTS DIVISIONSpecifications:For additional information on materials of construction, functional performance and operating conditions, please contact factory.A-LOK ® is a registered trademark of Parker Hannifin Corporation.Hastelloy C-22® and Hastelloy C-276® are registered trademarks of Haynes International, Inc.PEEK™ is a trademark of Victrex plc.Inconel ® and Monel ® are registered trademarks of Special Metals Corporation.Vespel ® is a registered trademark of DuPont Performance Elastomers L.L.C.Product Features:• T ied Diaphragm for added safety• Unique compression member loads the seal to body eliminating threads in the wetted area •Metal-to-metal diaphragm-to-body seal assures high leak integrity2735 Series Lit.# 25000004 10/18Instrumentation Products Division735 SeriesDimensional Drawing:Flow Curve:100959085807570Flow (slpm)O u t l e t P r e s s u r e (p s i g )Flow (slpm)These tests were performed using Nitrogen at ambient conditions.735 30 Range Option735 100 Range Option3735 Series Lit.# 25000004 10/18Instrumentation Products Division735 SeriesOrdering Information:For additional information on materials of construction, functional performance and operating conditions, please contact factory.Hastelloy ® C-22 and Hastelloy ® C-276 are registered trademarks of Haynes International, Inc.Vespel ® is a registered trademark of DuPont Performance Elastomers L.L.C.Parker Instrumentation Products Division reserves the right to plug NPT portsOffer of SaleThe items described in this document are available for sale by Parker Hannifin Corporation, its subsidiaries or its authorized distributors. Any sale contract entered by Parker will begoverned by the provisions stated in Parker's standard terms and conditions of sale (copy available upon request).©2018 Parker Hannifin Corporation | Instrumentation Products Division Literature #: 25000004 Oct 2018Parker WorldwideAE – UAE, Dubai Tel: +971 4 8875600********************AR – Argentina, Buenos Aires Tel: +54 3327 44 4129******************AT – Austria, Wiener Neustadt Tel: +43 (0)2622 23501-0*************************AT – Eastern Europe, Wiener NeustadtTel: +43 (0)2622 23501 970****************************AU – Australia, Dandenong Tel: +61 (0)3 9768 5555******************************AZ – Azerbaijan, Baku Tel: +994 50 2233 458****************************BE/LX – Belgium, Nivelles Tel: +32 (0)67 280 900*************************BR – Brazil, Sao Jose dos Campos Tel: +55 12 4009 3504******************BY – Belarus, Minsk Tel: +375 17 209 9399*************************CA – Canada, Grimsby, Ontario Tel +1 905-945-2274*********************CH – Switzerland, Etoy Tel: +41 (0) 21 821 02 30*****************************CL – Chile, Santiago Tel: +56 (0) 2 2303 9640******************CN – China, Shanghai Tel: +86 21 2899 5000*****************************CZ – Czech Republic, Klecany Tel: +420 284 083 111*******************************DE – Germany, Kaarst Tel: +49 (0)2131 4016 0*************************DK – Denmark, Ballerup Tel: +45 43 56 04 00*************************ES – Spain, Madrid Tel: +34 902 33 00 01***********************FI – Finland, VantaaTel: +358 (0)20 753 2500*************************FR – France, Contamine s/Arve Tel: +33 (0)4 50 25 80 25************************GR – Greece, Athens Tel: +30 210 933 6450************************HU – Hungary, Budapest Tel: +36 1 220 4155*************************ID – Indonesia, Tangerang Tel: +62 (0)21 7588 1906********************IE – Ireland, DublinTel: +353 (0)1 466 6370*************************IN – India, MumbaiTel: +91 22 6513 7081-85IT – Italy, Corsico (Ml)Tel: +39 02 45 19 21***********************JP – Japan, Tokyo Tel: +(81) 3 6408 3900******************KR – South Korea, Seoul Tel: +82 2 559 0400*******************KZ – Kazakhstan, Almaty Tel: +7 7272 505 800****************************LV – Latvia, Riga Tel: +371 6 745 2601************************MX – Mexico, Toluca Tel: +52 722 275 4200*******************MY – Malaysia, Selangor Tel: +603 784 90 800*******************NL – The Netherlands, Oldenzaal Tel: +31 (0)541 585 000********************NO – Norway, Stavanger Tel: +47 (0)51 826 300************************NZ – New Zealand, Mt Wellington Tel: +64 9 574 1744PL – Poland, Warsaw Tel: +48 (0)22 573 24 00************************PT – Portugal, Leca da Palmeira Tel: +351 22 999 7360**************************RO – Romania, Bucharest Tel: +40 21 252 1382*************************RU – Russia, Moscow Tel: +7 495 645-2156************************SE – Sweden, Spånga Tel: +46 (0)8 59 79 50 00************************SG – Singapore,Tel: +65 6887 6300*******************SK – Slovakia, Banská Bystrica Tel: +421 484 162 252**************************SL – Slovenia, Novo Mesto Tel: +386 7 337 6650**************************TH – Thailand, Bangkok Tel: +66 2 186 7000*********************TR – Turkey, Istanbul Tel: +90 216 4997081************************TW – Taiwan, Taipei Tel: +886 2 2298 8987*************************UA – Ukraine, Kiev Tel: +380 44 494 2731*************************UK – United Kingdom, Warwick Tel: +44 (0)1926 317878********************USA – IPD, Huntsville Tel: +1 256 881 2040*****************USA – Autoclave Engineers, Erie Tel: +1 814 860 5700*******************VN – Vietnam, Hochi Minh City Tel: +84 (0)8337 546 51**********************ZA – South Africa, Kempton Park Tel: +27 (0)11 961 0700*****************************WARNINGFAILURE, 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 your application and review the information concerning the product or system in the current product catalog. 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 products and systems and assuring that all performance, safety and warning requirements of the application are met. The prod-ucts 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.Proposition 65 Warning: This product contains chemicals known to the state of California to cause cancer or birth defects or other reproductive harm.Instrumentation Products Division 1005 A Cleaner WayHuntsville, AL 35805 • USA Tel: 256 881 2040Fax: 256 881 5072******************** /ipdusMobile Application: /ipd735 SERIES: Two Stage, Tied Diaphragm Regulator。

派克比例阀中文说明书引言：派克比例阀是一种用于控制流体流量的重要装置。

它通过调节阀芯的位置，使流体流经阀体时的流量与输入信号的比例保持一致。

本文将详细介绍派克比例阀的工作原理、结构组成、安装使用注意事项等内容，以便用户能更好地了解和操作派克比例阀。

第一部分：派克比例阀的工作原理派克比例阀采用先进的电磁比例调节技术，通过控制阀芯的位置来调节流体流量。

当输入信号改变时，阀芯位置也会相应地改变，从而实现流量的调节。

该阀具有快速响应、精确控制的特点，能够满足各种工况下的流量控制需求。

第二部分：派克比例阀的结构组成派克比例阀主要由阀体、阀芯、驱动器、比例电磁铁等组成。

阀体是整个阀的主体部分，用于容纳阀芯和驱动器。

阀芯是控制流体流量的关键部件，通过电磁铁的驱动来实现位置的调节。

比例电磁铁是阀芯的驱动器，能够根据输入信号的变化产生相应的电磁力，从而使阀芯运动。

第三部分：派克比例阀的安装使用注意事项1. 安装前应仔细检查派克比例阀的外观是否完好，阀体是否有损坏或漏油现象，阀芯是否灵活。

2. 在安装时，应确保派克比例阀与管道连接牢固，不得有松动或泄漏现象。

3. 安装位置应选择在通风良好、无腐蚀性气体和振动的环境中，以确保派克比例阀的正常运行。

4. 在使用过程中，应注意定期检查派克比例阀的工作状态，如有异常应及时处理。

5. 在操作派克比例阀时，应遵守相应的操作规程，避免过大的冲击力或过大的负荷对阀芯造成损坏。

6. 定期清洗和维护派克比例阀，保持其良好的工作状态。

7. 使用派克比例阀时应遵循相关的安全操作规范，确保人员和设备的安全。

结论：派克比例阀是一种重要的流量控制装置，具有快速响应、精确控制的特点。

本文介绍了派克比例阀的工作原理、结构组成和安装使用注意事项，希望能为用户提供一些有用的信息。

在使用派克比例阀时，用户应仔细阅读产品说明书，并按照相关规范进行操作，以确保其正常运行和延长使用寿命。

D3FB*C*0Spool/Sleeve DesignD3FB*CD*FB*KD*FB*E D*FB*CGeneral DescriptionSeries D1FB (NG6) and D3FB (NG10) proportional directional valves with CANopen interface are based on the series for standard digital electronics of the same name.CANopen-ProfileCANopen Application Layer and Communication Layer CiA DS - 301 Version 4.01CANopen Layer Setting Services (LSS) and Protocols CiA DS – 305 Version 2.0Device Profile in accordance with CiA DSP – 408 Version 1.5.2The baud rate and node ID can be set by dip switches or Layer Setting Service (LSS).The valve parameters are factory set. Additionally the ProPxD software permits the editing of all parameters via the separate communication port. The software is also used for the valves with digital onboard electronics and the electronics modules. The cable for connection to a serial RS232 interface is available as accessory.The digital onboard electronics is situated in a robust metal housing and can be used in rough environments.The series D1FB and D3FB are available with spool/sleeve design as well as with spool/body design.Features• CANopen interface.• Spool/sleeve design and spool/body design.• High repeatability from valve to valve.• Low hysteresis.• Manual override.• Failsafe center position.Directional ControlSizeFlowStyleSealOptions Weight:D1FB2.5 kg (5.5 lbs.)Spool DesignCode DescriptionSpool/sleeve design3Spool/body designDesign Series NOTE: Not required when ordering.Standard Bolt Kit:BK209 (4) 10-24x1.25 SHCS BK375 4x M5x30Parametrizing cable OBE => RS232 Item no. 40982923CommunicationDesign Series NOTE: Not required when ordering.Directional ControlSizeFlow StyleSealWeight:D3FB7.0 kg (15.4 lbs.)Parametrizing cable OBE => RS232 Item no. 40982923Spool OptionsDesignCode DescriptionSpool/sleeve design3Spool/body designStandard Bolt Kit:BK98 (4) 1/4-20x1.625 SHCS BK385 4x M6x40Communication* Flow rate for different ∆p per control edge: Qx = QNom.· √ ∆p x∆p Nom.Continued on the next pageAll performance curves measured with HLP46 at 50°C (122°F).Flow LimitAt 25%, 50%, 75% and 100% command signal (symmetric flow). At asymmetric flow a reduced flow limit has to be considered – typically approx. 10% lower.All performance curves measured with HLP46 at 50°C (122°F).Flow LimitAt 25%, 50%, 75% and 100% command signal (symmetric flow). At asymmetric flow a reduced flow limit has to beconsidered – typically approx. 10% lower.All performance curves measured with HLP46 at 50°C (122°F).All performance curves measured with HLP46 at 50°C (122°F).Flow Limit100% command signal (symmetric flow). At asymmetric flow a reduced flow limit has to be considered – typically approx. 10% lower.All performance curves measured with HLP46 at 50°C (122°F).Series D*FB with CANopenSupply Voltage Connection 6 + PEA Supply voltage 18...30VB Supply voltage 0VC hCD hCE hCF hCG PECANopen ConnectionCAN in: M12, 5 pole male terminals. Pin 1: CAN_SHLD Pin 2: ncPin 3: CAN_GND Pin 4: CAN_H Pin 5: CAN_LShield is CAN_GND.CAN out: M12, 5 pole female terminals. Pin 1: CAN_SHLD Pin 2: ncPin 3: CAN_GND Pin 4: CAN_H Pin 5: CAN_L Shield is CAN_GND.Wiring ConnectionsSeries D*FB with CANopen Technical InformationNode–ID Adjustment with DIP SwitchesBaud Rate Adjustment with DIP SwitchesSeries D*FB with CANopenTechnical Information The parametrizing cable may be ordered under item no. 40982923.Features• Simple editing of all parameters.• Storage and loading of optimized parameter adjustments.• Executable with all Windows ®operating systems fromWindows ® 95 upwards.• Communication between PC and electronics via serial interface RS-232.• Simple to use PC user software, free of charge:/euro_hcd – see "Software Downloads"ProPxD Interface ProgramThe ProPxD software permits comfortable param-eter setting for the module electronics. Via the clearly arranged entry mask the parameters can be noticed and modified. Storage of complete parameter sets is possible as well as printout or record as a text file for further documentation. Stored parameter sets may be loaded anytime and transmitted to other valves. Inside the electronics a nonvolatile memory stores the data with the option for recalling or modification.D1FB*CD1FB*ED3FB*C OBED3FB*E OBE。

Piston PumpsCatalog 2600-102-1/USAQuick Reference Data ChartDisplacement Pump Delivery† Approx. Noise Levels dB(A)Input Power AtOperatingPressurePumpcc/rev @ 21 bar (300 PSI)@ Full Flow 1800 RPM (1200 RPM)1800 RPM, Max.Speed (RPM)bar (PSI)Model(In3/rev)in LPM (GPM)34 bar69 bar138 bar207 bar248 bar Displacement &(Maximum)Continuous 1200 RPM1800 RPM(500 PSI)(1000 PSI)(2000 PSI)(3000 PSI)(3600 PSI)248 bar (3600 PSI)(Maximum)PVP1616 (.98) 19.7 (5.2) 29.5 (7.8) 53 (47) 55 (50) 59 (54) 62 (56) 65 (59) 13.1 kw (17.5 hp) 3000 248 (3600) PVP2323 (1.4) 28.0 (7.4) 42.0 (11.1) 61 (57) 64 (59) 67 (63) 69 (65) 70 (65) 19.7 kw (26.5 hp) 3000 248 (3600) PVP3333 (2.0) 39.4 (10.4) 59.0 (15.6) 64 (59) 66 (59) 68 (62) 70 (64) 71 (65) 27.2 kw (36.5 hp) 3000 248 (3600) PVP4141 (2.5) 49.2 (13.0) 73.8 (19.5) 68 (60) 70 (61) 73 (65) 74 (67) 75 (69) 33.2 kw (44.5 hp) 2800 248 (3600) PVP4848 (2.9) 57.6 (15.2) 86.4 (22.8) 69 (60) 71 (62) 73 (65) 75 (68) 76 (69) 40.3 kw (54.0 hp) 2400 248 (3600)†Measured in an anechoic chamber to DIN 45635, measuring error + 2 dB(A).Fluid used: petroleum oil to ISO VG 46; temperature = 50°C (122°F).Since many variables such as mounting, tank style, plant layout, etc., effect noise levels, it cannot be assumed thatthe above readings will be equal to those in the field. The above values are for guidance in selecting the proper pump.Displacement Pump Delivery*Approx. Noise Levels dB(A)Input Power AtOperatingPressurePumpcc/rev @ 21 bar (300 PSI)@ Full Flow 1800 RPM (1200 RPM)1800 RPM, Max.Speed (RPM)bar (PSI)Model(In3/rev)in LPM (GPM)34 bar69 bar138 bar207 bar248 bar Displacement &(Maximum)Continuous 1200 RPM1800 RPM(500 PSI)(1000 PSI)(2000 PSI)(3000 PSI)(3600 PSI)248 bar (3600 PSI)(Maximum)PVP6060 (3.7) 71.9(19.0) 106.0 (28.0) 72 (68) 73 (69) 75 (70) 77 (70) 77 (70) 47.7 kw (64.0 hp) 2200 248 (3600) PVP7676 (4.6) 91.2(24.1) 134.4 (35.5) 75 (70) 75 (69) 75 (70) 77 (70) 78 (72) 61.9 kw (83.0 hp) 2200 248 (3600) PVP100100 (6.1) 120.0(31.7) 180.0 (47.5) 73 (67) 75 (69) 78 (72) 79 (75) 81 (75) 83.5 kw (112.0 hp) 1800 248 (3600) PVP140140 (8.54) 171.0(45.5) 252.0 (67.0) 80 (71) 80 (72) 80 (75) 82 (76) 84 (77) 117.8 kw (158.0 hp) 1800 248 (3600) *Since many variables such as mounting, tank style, plant layout, etc., effect noise levels, it cannot be assumed that the above readingsFeatures•High Strength Cast-Iron Housing •Fast Response Times•Two Piece Housing For Ease of Service •Metric Pilot, Shaft and Ports Available •Replaceable Bronze Clad Port Plate •Thru-Shaft Capability •Low Noise Levels•Replaceable Piston Slipper PlateControls•Pressure Compensation •Load Sensing•Horsepower Limiting•Horsepower and Load Sensing •Remote Pressure Compensation •Adjustable Maximum Volume Stop •Hi/Lo T orque (Power) Limiting (PVP 41/48, 60/76, 100/140 Only)•Low Pressure StandbySERVO COMPENSA TORPUMP CASE BIAS PLA TE BARREL PLA TE BEARING SEALGeneral DescriptionAll control is achieved by the proper positioning of the swash plate. This is achieved by a servo piston acting on one end of the swash plate working against the combined effect of the off-setting forces of the pistons and centering spring on the other end. The control spool acts as a metering valve which varies the pressure behind the servo piston.As shown in Figure 1, the amount of flow produced by the Parker Piston Pump is dependent upon the length of stroke of the pumping pistons. This length of stroke,in turn, is determined by the position of the swash plate. Maximum flow is achieved at an angle of 15-17degrees. The rotating barrel, driven by the prime mover,moves the pistons in a circular path and the piston slippers are supported hydrostatically against the face of the swash plate. When the swash plate is in a vertical position, perpendicular to the centerline of the piston barrel, there is no piston stroke and consequently no fluid displacement. When the swash plate is positioned at an angle, the pistons are forced in and out of the barrel and fluid displacement takes place.The greater the angle of the swash plate, the greater the piston stroke.BARRELPressure Compensated Control (OMIT)The swash plate angle controls the output flow of the pump. Swash plate angle is generated by the hydraulic force of the pumping pistons and the mechanical force of the swash plate bias spring.Control of the pump’s outlet flow is obtained by over-riding the force of the pumping pistons and bias spring with the hydraulic force of the servo piston by means of internal porting. Pressure is connected from the outlet port to the servo piston via a compensator spool. The compensator spool is held against the spring guide by the outlet pressure. When the outlet pressure reaches the setting of the compensator control, the compensator spool moves, allowing outlet pressure oil to be metered into the servo piston. This metered oil provides adequate force to power the servo piston and override swash plate forces. The outlet pressure causes the servo piston to move which reduces the angle of the swash plate and thereby reduces the pump’s output flow. When flow is again demanded by the system, the outlet pressure will momentarily fall allowing the compensator spool to move. This movement closes off the outlet pressure to the servo piston and vents the servo piston to case. The result of this venting allows the swash plate forces to move the swash plate angle to maximum displacement, thus responding to the demand for additional flow. Note that the compensator spring chamber is vented to the pump case via a hole internal to the compensator spool.PORTRemote Pressure Control (M)The pump swash plate actuation is identical to the standard pressure compensator but can be controlled via a remote pressure control.Remote control of the pump output pressure can be achieved by controlling the pressure at port A,Figure 3 on the compensator. Flow is metered through the orifice in the spool from outlet pressure into the spring chamber. The spring chamber pressure is limited by an external relief connected to port A. The controlled pressure at port A is sensed at the differential spring chamber. The compensator spool will move to the right when the pump outlet pressure reaches a force equal to the differential spring setting plus the controlledport pressure setting. When the spool moves to the right, outlet pressure oil is metered to the servo piston and the pump swash plate angle is controlled accordingly. With this option the pump outlet pressure can be controlled and varied from a remote location.This control also incorporates a pressure limiting feature preset at the factory. When the pressure in the differential spring chamber reaches the maximum relief setting, the dart unseats allowing the spring chamber to vent to the pump case and limits the maximum pressure attainable.Flow Control (Load Sensing) (A)Figure 4 shows a PVP pump with flow control. The control is identical to the remote pressure compensation control except for an integral orifice, a solid compensator spool and adjustable differential pressure control. Port A is connected downstream of an orifice (variable or fixed) to sense the actual working pressure required. This pressure plus the differential spring force act on the right side of the compensator spool and will urge the spool to the left until output pressure acting on the left side of the spool balances the forces. As the load increases, output pressure will increase and maintain a constant differential pressure across the orifice and thus a constant flow. Maximum pressure is limited by the internal dart setting. This setting is adjustable up to the maximum preset at the factory.PORTPressure & Power Control (H)(Not Available on PVP 60/76 and 100/140)This control option is a Torque Limiting Control, but for constant speed applications it is generally referred to as a Horsepower Control. This control works in conjunction with the Remote Pressure Compensator,control option “M”. A second pressure control device called a horsepower control block, is assembled to the main pump housing. The HP block is plumbed to one of the ports on the remote compensator via steel tubing. The control dart in the HP block and the maximum pressure compensator dart in the remote compensator are connected in parallel. What makes the control dart in the HP block different from any other external relief valve is the pressure setting is mechanically linked to the pump swashplate angle.The cracking pressure of the HP dart is generally lower than the cracking pressure of the remote compensatordifferential spring cavity is lowered allowing the compensator spool to meter system pressure in the servo piston. As the servo piston extends, it rotates the swashplate and in turn rotates the HP cam. As the cam rotates it increases the force on the HP dart control spring. As the system pressure is allowed to increase,the pump gradually reduces its stroke (flow). When the system pressure reaches the setting of the maximum pressure dart the normal action of the remote compensator takes over. If the HP control is set low enough, the pump may reach zero stroke before the system pressure ever gets a chance to open the maximum compensator dart. This should be considered when making low power settings on systems requiring high working pressures.Pressure, Power & Flow Control (C) (Not Available on PVP 60/76 and 100/140)Refer to the previous section(s) on Flow Control and Power Control. This is another case where multiple controls can be combined in parallel. Since the Power Control is just a special version of Remote Pressure Control, it can be combined with the Flow Control (Load Sense) option. The main point to remember here is that the pressure drop which is required to begin and maintain compensation comes from an external device (such as a proportional valve). This sensed pressure drop will control flow until one of the limits of the other controls has been exceeded. The pump will always respond to the lowest control setting for any given pressure. In addition to Load Sensing, Power Control,and on-pump Pressure Control, Remote Pressure Control can also be included in this parallel device package. There is a remote port on the compensator body and one on the HP Control body, either of which may be used for remote pressure control. The important concept to remember in load sense circuits is that each pressure control device in and connected to the compensator must be protected from saturation. For this reason, use only the uppermost port on the compensator for connection of the load sense line and insure that an appropriate orifice is installed. All control options using a load sense compensator spool are supplied with this orifice.PORTHi/Lo Power Control (HLM)(Available with PVP41 through PVP140 only)The graph shown below represents the flow-pressure characteristics of a Hi-Lo control for PVP pumps. There are up to four separate adjustments that must be made with the pump controls to get a particular setting, all of which influence the shape of the curve. To get the proper settings, it is very important that all pertinent information is supplied with each Hi-Lo pump ordered.As you can see from the graph below, there are two peak power points. Our intention is to have the same magnitude of power required for both peaks. Of course many combination of settings are possible but specification of the settings becomes very difficult. To make factory settings, we need to know the required flow (applicable if pump has a maximum volume stop), the shaft speed , the required Power limit , and the compensation pressure . Based on these requirements, we will adjust the low pressure set point and the reduced flow set point of the Hi-Lo control to best match the requested parameters called out on the order.Important note: As with power controls, not all combinations of flow, power, pressure, etc. are possible.The first rule is that the settings must conceptually be pressure or in a de-stroked condition can have a much lower overall efficiency than expected. The other thing to keep in mind is that the pump will require the peak power at only two points. All other operating pressures will require less than maximum power and therefore the pump will deliver less hydraulic power in the appropriate ratio based on the actual pump efficiency at those conditions.System PressureO u t l e t F l o wTypical Hi-Lo ControlFlow/Pressure CharacteristicsPORT。

派克比例阀工作原理
派克比例阀是一种广泛应用于流体控制领域的阀门，它的工作原理基于流体介质的压力调节原理。

具体工作原理如下：
1. 结构：派克比例阀由主阀、控制阀和电磁线圈组成。

主阀和控制阀之间通过控制阀芯连接。

2. 压力调节：流体介质通过主阀流过时，主阀弹簧对介质施加恒定的压力，使介质通过主阀的面积与主阀的动作力平衡。

由于主阀面积固定，弹簧力也是恒定的，所以主阀弹簧和主阀面积的乘积即为主阀的恒定工作力。

3. 控制信号：通过电磁线圈给控制阀提供控制信号，控制信号的大小决定了线圈的电流大小。

较大的电流会产生对应的较大的磁场力，将控制阀芯向主阀方向推动。

4. 工作原理：根据控制信号的大小，控制阀芯的位置会调整。

当线圈没有电流通过时，控制阀芯收缩到最小位置，主阀打开，流体介质通过主阀全流通。

当电流通过线圈时，控制阀芯会向主阀方向移动，减小主阀的有效面积，限制介质通过主阀的流量。

通过调整电磁线圈的电流大小，即可控制主阀开度的大小，从而实现对流体介质的压力调节和流量控制。

总结：派克比例阀通过电磁线圈控制控制阀芯的位置，进而改变主阀的面积，实现对流体介质的压力和流量的精确控制。

灵活的调节范围和精确的控制能力使其在许多工业领域得到广泛应用。

This product can expose you to chemicals including Lead, Nickel (Metallic), or 1,3-Butadiene which are known to the State of California to go to .General DescriptionSeries RE06M*W proportional relief valves are direct operated proportional valves typically used as remote control valves for flow rates of below 3 LPM (0.8 GPM).FunctionWhen the pressure in port P or A exceeds the pres-sure setting at the solenoid, the cone opens to port T and limits the pressure in port P to the adjusted level.The optimum performance can be achieved in combi-nation with the digital amplifier module PCD00A-400.Features• Direct operated by proportional solenoid • Very low pressure adjustment of p min .• T wo pressure ports, A and P• Subplate mounting according to ISO 6264• Four pressure ranges availableSpecificationsPerformance CurvesOrdering Information20406080P r e s s u r e p21.58.26453 1.06.791.32Flow (Q)LPMGPM21.58.26453 1.06.791.32Flow (Q)LPMGPM50100150200250350300P r e s s u r e pp/Q CurvesPressure Stage 105 BarPressure Stage 350 BarDesign Series NOTE: Not required when ordering.REProportional Pressure Relief ValvePressure Range Offboard ElectronicsSealValve Openat Zero CommandSolenoid TypeElectronic Connection1Weight: 1.8 kg (4.0 lbs.)W2Code Description10up to 105 Bar (1522 PSI)17up to 175 Bar (2538 PSI)25up to 250 Bar (3625 PSI)35up to 350 Bar (5075 PSI)Code Solenoid Voltage K*12 V , 2.5 A X**16 V , 1.3 A* Use with “PCD” Series Driver cards** Order if currently using “ED” cardCode DescriptionWSocket Connector DIN 43650 without plugManifold MountingSize06WMCode Description N Nitrile V FluorocarbonBolt Kit Qty Size BK209410-24 X 1.25”BK3754M5 x 30mmCode Description06NG6 D03, CETOP 3Please order plug separately. See Accessories.P i l o t P r e s s u r e p m i n21.58.26453 1.06.791.32Flow (Q)LPMGPM560801004020Command Signal (%)P r e s su r e60801004020Command Signal (%)P r e s su r ep min /Q CurvesPressure Stage 105 BarPressure Stage 350 Barp set-voltage CurvesPressure Stage 105 BarPressure Stage 350 Bar2468P i l o t P r e s s u r e p m i n21.58.26453 1.06.791.32Flow (Q)LPMGPMPort B: O-ring recess diameter on valve body.Mounting Pattern ISO 6264-03-04-*-97Inch equivalents for millimeter dimensions are shown in (**)。

OperationPrior to installing flanged A2, A4A, and A4Y regulating valves, the included safetybulletin must be read and understood.ENGLISHFlanged A2, A4A, and A4Y Regulating ValvesInstallation InformationRefrigerantsSuitable for ammonia and othercommon refrigerantsTemperature Range-50ºC to 105ºC (-60ºF to 220ºF)Maximum Rated Pressure (MRP)Standard - 27.6 bar (400 psig)PED 2014/68/EU - 28 bar (406 psig)PressureRegulatorRangeSet Point Range Pressure Change per Turn of the Adjustment Screw Factory Set Point [1]V500mm Hg - 8.3 bar (20in Hg - 120 psig)Approximate 1.7 bar (25 psig) 1.0 bar (15 psig)A0.35 - 10.3 bar (5 - 150 psig)Approximate 1.7 bar (25 psig) 2.8 bar (40 psig)D 5.2 - 19.3 bar(75 - 280 psig)Approximate 3.7 bar (53 psig)9.7 bar (140 psig)Flange Connection Types Threaded (FPT)Socket Weld (SW)Butt Weld (BW)Copper (ODS)1. The factory set point changes based on regulator type. Example “K” feature for range A is 4.8 bar (70 psig).Type Suffix Variation Product Bulletin (Valve Style)-No Variation 20-02 (A2), 23-05 (A4A)B Regulator with Electric Wide Opening 23-06 (A4A)D Dual Regulator 23-06 (A4A)E Externally Equalized 23-05 (A4A), 21-02 (A4A)K Re-Seating Relief Regulator 21-03 (A2), 23-05 (A4A)L Differential Regulator 23-10 (A4A)O Outlet Regulator 21-02 (A2), 23-07 (A4A)P Pneumatically Compensated 23-08 (A4A)S Regulator with Electric Shut-Off 23-06 (A4A)R Remote Piloting 23-05 (A4A)Y Non-Spin Plug Z Basic Regulator Assembly 23-06 (A4A)Figure 1: A2-Series Pressure Regulators Valves (two bolt flanged valves)Figure 2: 20mm - 25mm (3⁄4” - 1”) A4-Series Pressure Regulators (two bolt flangedvalves)Installation All regulators are packed for maximum protection. Unpack carefully. Check the carton to make sure all flanges and other items are unpacked. Save the enclosed instructions for the installer and eventual user. Do not remove the protective coverings from the inlet and outlet of the regulator until the regulator is ready to be installed. Protect the inside of the regulator from moisture, dirt and chips throughout installation. When welded or brazed flange connections are used, all slag, scale and loose particles should be removed from the flange interior before the regulator is installed between the flanges. It is advisable to install a close-coupled companion strainer (RSF) at the inlet of the regulator to help protect it from any foreign materialin the system.42311212Figure 3: 32mm - 100mm (11⁄4” - 4”) A4-Series Pressure Regulators (four bolt flanged valves)Note: All valves come with bolts, nuts and flange gaskets.132The A4A series of regulators will give optimum performance if mounted in a horizontal line in a vertical position with the manual opening stem on bottom. Where other positions are desired, the factory should be consulted; please give application and piping details. The regulator must be installed with the arrow on the valvebody pointing in the direction of the fluid flow for the regulator to function properly. Backward flow through the regulator is uncontrolled and will vary with the valve model and the reverse pressure drop encountered. The regulator is not a check valve.The regulator should be installed in a location where it is easily accessible for adjustment and maintenance. The location should be such that the regulator can not be easily damaged by material handling equipment. When it is necessary to insulate the regulator (and companion strainer), the insulation should be installed to provide access to the regulator (and companion strainer) for adjustment and maintenance. Proper indicating gauges should be installed to be easily visible to the operating engineer for system checking and adjusting purposes.Suggested Flange Tightening Instructions for Manufacturer’s Instructions Verify that piping into which a valve or flange is to be installed is properly supported and aligned. Be certain that the mating surfaces of the gasketed joints are parallel, aligned, perpendicular to the pipe axis, in good condition and free of debrisand corrosion. Use only undamaged gaskets suitable for service in an ammonia refrigerating system. Verify that all the nuts, bolts, cap screws and washers meet Parker’s requirements for the application and tighten progressively in a diametrically staggered pattern. Leak test upon completing the installation.Tighten the flange bolts and nuts evenly to provide proper seating of the flange gasket as well as to avoid damage to gaskets or flanges (as shown in figures 1 through 3). Avoid using the regulator flange bolts to stretch or align pipe. Even the heavy-duty iron alloy body of an A4A can be distorted, causing the precision parts to bind.For more information please reference the IIAR 2-2008 Section 10.Important Note:The control air supplied to the type A4AP valve regulators must be clean, dry andoil free. To avoid the possibility of rust and of moisture from the compressed air freezing in the bonnet or in other parts of the control system, dehydrated air must be used whenever it may come in contact with temperatures below freezing. For applications where temperatures are below 0ºC (32ºF), the type A4AR main valve with a remote pneumatic pilot should be used. The pilot can be located in a non-refrigerated space, connected to the main valve by a pair of3⁄8” pilot control lines. Coils must be wired separately for valve variations with multiple coils.。

2Parker Hannifin Corporation Pneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q Series IndexFAILURE 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 your application including consequences of any failure, and review the information concerning the product or system in the current product catalog. 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 products and systems and assuring that all performance, safety and warning requirements of the application are met.The products 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.Offer of SaleThe 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 © Copyright 2014 Parker Hannifin Corporation. All Rights ReservedFeatures ......................................................................................................................................3Technical InformationMain data ...........................................................................................................................4 Material specification .........................................................................................................4 Working medium, air quality ...............................................................................................4 Cylinder forces ...................................................................................................................5 Front profiles by bore size ..................................................................................................5Application Guide .......................................................................................................................6DimensionsNon-magnetic.....................................................................................................................7 Magnetic.............................................................................................................................8Order code key ...........................................................................................................................9Part numbers - Double acting / Non magnetic ........................................................................10 Part numbers - Double acting / Magnetic ................................................................................11MountingsFlange ...............................................................................................................................12 Foot ..................................................................................................................................12 Clevis ................................................................................................................................13AccessoriesSensors .......................................................................................................................14-163Parker Hannifin Corporation Pneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q Series P1Q Compact CylinderParker’s P1Q series cylinders provide an economical, compact design suited for a variety of applications. With its modular flexibility, the P1Q will provide the ideal solution machine builders need today.The P1Q series is available in 10 bore sizes from 12 mm to 100 mm and standard strokes from 5 mm to 100 mm. The cylinder is supplied in a choice of magnetic or non-magnetic function, the non-magnetic version offers very short axial dimensions. For optimum compactness the P1Q range is supplied with female piston rod thread.The P1Q provides quieter operation due to its built in buffer cushioning which is standard on all bore sizes. Included within the magnetic versions bores 32 - 100 mm is a teflon piston wear ring providing superior life.Sensors and AccessoriesWhen position signals are needed anywhere along the stroke the integrated sensor grooves provide flexible mounting of any combination of PNP , NPN, reed sensors with flying leads and M8 cord options within the Parker P8S Global Sensor Family. In addition to the compactness and modular design flexibility of P1Q are a range of cylinder mountings including flange, foot and clevis brackets to ease installation.Threaded through holes as standardBSPP porting standard Ø32 mm – Ø100 mmPiston wear ringØ32 mm – Ø100 mmBuffer cushioning both ends as standardFeatures4Parker Hannifin CorporationPneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q SeriesMaterial specificationGeneral technical dataProduct type Compact Bore size 12 - 100 mm Stroke length100 mmVersions P1Q...B Double acting, Non magneticP1Q...G Double acting, Magnetic CushioningElastic cushioning Position sensingProximity sensor Installation Direct Through holesFemale thread on front and rear end faceAccessories Cylinder mountings Mounting positionAnyOperating and environmental dataOperating medium For best possible service life and trouble-free operation it is recommended to use dry, filtered compressed air to ISO 8573-1:2010 quality class 3.4.3. This specifies a dew point of +3o C for indoor operation (a lower dew point should be selected for outdoor operation) and is in line with the air quality from most standard Pre-lubricated Further lubrication is normally not necessary. If additional lubrication is introduced it must be continued.Corrosion resistance High resistance to corrosion and chemicals. Materials and surface treatment have been selected for industrialapplications where solvents and detergents are frequently used.Technical InformationNon magneticMagnetic41572861215101211935Parker Hannifin Corporation Pneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q SeriesTechnical InformationCylinder forces, double acting variantsCyl. bore/ pist. rod mm Piston area Max theoretical force in N (bar)cm 21.02.03.04.05.06.07.08.09.010.012/6 1.10.811823 17342545345742685179599068102761138516/8 2.0 1.52015403060458060101751219014110616112118113620115120/10 3.1 2.43124634794711269415711818814122016525118828321231423625/12 4.9 3.84938987614711319615124518929522734426439330244234049137832/168.06.0806016112124118132224140230248336256342264348372454380460340/1612.610.6126106251211377317503422628528754633880739100584411319501257105650/20 19.616.519616539333058949578566098282511789901374115515711319176714841963164963/20 31.228.03122806235619358411247112115591402187016822182196224942242280625233117280380/2550.345.450345410059071508136120111814251322683016272135193175402136294524408250274536100/3078.571.5785715157114302356214531422860392735754712429054985005628357207069643578547150+ = Outward stroke - = Return strokeNote:Select a theoretical force 50-100% larger than the force requiredFront profiles by bore sizes+-+-+-+-+-+-+-+-+-+-StrokeØ12Ø16Ø20, Ø25 Ø50 to Ø100Ø32, Ø40 Main data: P1QCylinder designation Cylinder bore area Piston rodarea Thread (female)at0 mm stroke addition per 5 mm stroke Air consumption litres Port size mm cm 2mm cm 2kg kg P1Q01212 1.160.28M3 x 0.50.060.010.01391)M5P1Q01616 2.080.50M4 x 0.70.070.020.02461)M5P1Q02020 3.1100.79M5 x 0.80.090.030.03851)M5P1Q02525 4.912 1.1M6 x 1.00.130.030.06331)M5P1Q032328.016 2.0M8 x 1.250.190.030.10501)G1/8P1Q0404012.616 2.0M8 x 1.250.250.030.16201)G1/8P1Q0505019.620 3.1M10 x 1.50.450.040.25301)G1/4P1Q0636331.220 3.1M10 x 1.50.680.050.41401)G1/4P1Q0808050.325 4.9M16 x 2.0 1.250.070.66901)G3/8P1Q10010078.5307.0M20 x 2.51.930.151.04301)G3/81)Free air consumption per 10 mm stroke length for a double stroke at 6 bar6Parker Hannifin Corporation Pneumatic Division - EuropeModuflex Valve System• Stand-alone valves, short-build valve manifold, or large valve manifold configurations available • Cv range from 0.18 – 0.80• Peripheral modules available— flow control, pressure regulation, P .O. check valves and vacuum generatorsCylinder to Valve: The below chart contains recommendations for selecting air valve products based on 5.5 bar with a0.35 bar pressure drop. The values within the chart show the corresponding Cv values.Cylinder bore sizeC y l i n d e r s p e e d (m m /s )50100150200250300350400450500Isys Micro / ISO Valve System• Isys Micro Cv range 0.30 – 0.35• IsysNet system fieldbus, Turck system fieldbus, 25 pin D-sub, or low cost Moduflex fieldbus options available • Isys ISO offers 5 sizes with Cv range 0.55 – 6.0Cylinder bore sizeC y l i n d e r s p e e d (m m /s )50100150200250300350400450500Isys MicroH2H1HA HB Valve range7Parker Hannifin Corporation Pneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q Series Bore size Ø [mm]ETGFOHRT 6HBGKFAF ØRRLBØDT ØMM f8SWPL1PL2EEX1X2WHZAZB5 to 50mm 75 to 100mm 5 to 50mm 75 to 100mm122515.5±0.3-12.5M411.0M36 3.5 4.0 6.565 5.07.5M500 3.5±1.517.0-20.5-162920±0.3-14.5M411.0M48 3.5 4.0 6.586 5.07.5M5 3.53.5 3.5±1.517.0-20.5-203625.5±0.37.618.0M617.0M57 5.47.09.0108 5.59.0M5 5.55.5 4.5±1.519.5-24.0-254028±0.316.420.0M617.0M612 5.47.09.01210 5.511.0M5 6.56.55±1.522.5-27.5-324534±0.314.027.0M617.0M813 5.57.09.016147.510.5G1/810.010.07±223.033.030.040.0405240±0.314.031.0M617.0M813 5.57.09.016148.011.0G1/811.011.07±229.539.536.546.5506450±0.526.039.0M822.0M1015 6.68.011.0201710.510.5G1/415.015.08±230.540.538.548.5637760±0.519.044.5M1028.5M10159.010.514.0201710.515.0G1/418.018.08±236.046.044.054.0809877±0.526.055.0M1235.5M162111.013.517.5252212.516.0G3/822.022.010±243.553.553.563.510011794±0.526.065.0M1235.5M202711.013.517.5302713.023.0G3/822.022.012±2.553.063.065.075.0Dimensions (mm)Double acting, non magnetic piston, elastic cushioning, piston rod with internal threadNon-magneticS = stroke, following ISO tolerance on ZB is ±2, bore sizes 12 and 16 mm are not in the ISO standardØ32 - 100ETG FE TGE TGE TGBGLBBGLBAFAFPL2PL1ZA + S WH ZB + S3,44,3X1X1AAØ12 to 100Ø20 - 25Ø16Ø12Ø32 - 100Ø12 - 25Ø12 - 100T GET GET GEET GO HR TK FØR RØD TK FR TØR RØD TØM MS WX 2X 2EEThe non magnetic version is not in the ISO standard, ZA and ZB could be different depending on the cylinder’s manufacturer WH and ZB are without pressure in the cylinder, deformation of elastic bumpers under pressure gives different dimensions8Parker Hannifin Corporation Pneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q SeriesBore size Ø [mm]ETGFOHRT 6H BG KFAFØRRLBØDT ØMM f8SWPL1PL2EEX1X2WHZAZB122515.5±0.3-12.5M411.0M36 3.5 4.0 6.565 5.07.5M500 3.5±1.522.025.5162920±0.3-14.5M411.0M48 3.5 4.0 6.586 5.07.5M5 3.5 3.5 3.5±1.522.025.5203625.5±0.37.618.0M617.0M57 5.47.09.0108 5.59.0M5 5.5 5.5 4.5±1.529.534.0254028±0.316.420.0M617.0M612 5.47.09.01210 5.511.0M56.56.55±1.532.537.5324534±0.314.027.0M617.0M813 5.57.09.016147.510.5G1/810.010.07±233.040.0405240±0.314.031.0M617.0M813 5.57.09.016148.011.0G1/811.011.07±239.546.5506450±0.526.039.0M822.0M1015 6.68.011.0201710.510.5G1/415.015.08±240.548.5637760±0.519.044.5M1028.5M10159.010.514.0201710.515.0G1/418.018.08±246.054.0809877±0.526.055.0M1235.5M162111.013.517.5252212.516.0G3/822.022.010±253.563.510011794±0.526.065.0M1235.5M202711.013.517.5302713.023.0G3/822.022.012±2.563.075.0MagneticWH and ZB are without pressure in the cylinder, deformation of elastic bumpers under pressure gives different dimensions S = stroke, following ISO tolerance on ZB is ±2, bore sizes 12 and 16 mm are not in the ISO standardDimensions (mm)Double acting, magnetic piston, elastic cushioning, piston rod with internal threadØ32 - 100E TG FE TGE TGE TGBGLBBGLBAFAFPL2PL1ZA + S WH ZB + S3,44,3X1X1AAØ12 to 100Ø20 - 25Ø16Ø12Ø32 - 100Ø12 - 25Ø12 - 100T GET GET GEET GO HR TK FØR RØD TK FR TØR RØD TØM MS WX 2X 2EE9Parker Hannifin Corporation Pneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q SeriesOrder Code KeyOrder Code Key10Parker Hannifin Corporation Pneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q SeriesPart Numbers - Double Acting / Non MagneticDouble Acting/Non Magnetic - Female Threaded Piston Rod ISO 15524 - Ø20 to 100Ø12 & 16 not in the ISO standard12 mmStroke [mm]Order Code 5P1QS012DC7B000510P1QS012DC7B001015P1QS012DC7B001520P1QS012DC7B002025P1QS012DC7B002530P1QS012DC7B003016 mm5P1QS016DC7B000510P1QS016DC7B001015P1QS016DC7B001520P1QS016DC7B002025P1QS016DC7B002530P1QS016DC7B003020 mm10P1QS020DC7B001015P1QS020DC7B001520P1QS020DC7B002025P1QS020DC7B002530P1QS020DC7B003040P1QS020DC7B004050P1QS020DC7B005025 mm10P1QS025DC7B001015P1QS025DC7B001520P1QS025DC7B002025P1QS025DC7B002530P1QS025DC7B003040P1QS025DC7B004050P1QS025DC7B005032 mmStroke [mm]Order Code 10P1QS032DC7B001015P1QS032DC7B001520P1QS032DC7B002025P1QS032DC7B002530P1QS032DC7B003040P1QS032DC7B004050P1QS032DC7B005075P1QS032DC7B0075100P1QS032DC7B010040 mm15P1QS040DC7B001520P1QS040DC7B002025P1QS040DC7B002530P1QS040DC7B003040P1QS040DC7B004050P1QS040DC7B005075P1QS040DC7B0075100P1QS040DC7B010050 mm15P1QS050DC7B001520P1QS050DC7B002025P1QS050DC7B002530P1QS050DC7B003040P1QS050DC7B004050P1QS050DC7B005075P1QS050DC7B007563 mmStroke [mm]Order Code 15P1QS063DC7B001520P1QS063DC7B002025P1QS063DC7B002530P1QS063DC7B003040P1QS063DC7B004050P1QS063DC7B005075P1QS063DC7B007580 mm15P1QS080DC7B001520P1QS080DC7B002025P1QS080DC7B002530P1QS080DC7B003040P1QS080DC7B004050P1QS080DC7B005075P1QS080DC7B0075100 mm15P1QS100DC7B001520P1QS100DC7B002025P1QS100DC7B002530P1QS100DC7B003040P1QS100DC7B004050P1QS100DC7B005075P1QS100DC7B007511Parker Hannifin Corporation Pneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q SeriesDouble Acting/Magnetic - Female Threaded Piston Rod ISO 15524 - Ø20 to 100Ø12 & 16 not in the ISO standard12 mmStroke [mm]Order Code5P1QS012DC7G000510P1QS012DC7G001015P1QS012DC7G001520P1QS012DC7G002025P1QS012DC7G002530P1QS012DC7G003016 mm5P1QS016DC7G000510P1QS016DC7G001015P1QS016DC7G001520P1QS016DC7G002025P1QS016DC7G002530P1QS016DC7G003020 mm10P1QS020DC7G001015P1QS020DC7G001520P1QS020DC7G002025P1QS020DC7G002530P1QS020DC7G003040P1QS020DC7G004050P1QS020DC7G005025 mm10P1QS025DC7G001015P1QS025DC7G001520P1QS025DC7G002025P1QS025DC7G002530P1QS025DC7G003040P1QS025DC7G004050P1QS025DC7G005032 mmStroke [mm]Order Code 10P1QS032DC7G001015P1QS032DC7G001520P1QS032DC7G002025P1QS032DC7G002530P1QS032DC7G003040P1QS032DC7G004050P1QS032DC7G005075P1QS032DC7G0075100P1QS032DC7G010040 mm15P1QS040DC7G001520P1QS040DC7G002025P1QS040DC7G002530P1QS040DC7G003040P1QS040DC7G004050P1QS040DC7G005075P1QS040DC7G0075100P1QS040DC7G010050 mm15P1QS050DC7G001520P1QS050DC7G002025P1QS050DC7G002530P1QS050DC7G003040P1QS050DC7G004050P1QS050DC7G005075P1QS050DC7G0075100P1QS050DC7G010063 mmStroke [mm]Order Code 15P1QS063DC7G001520P1QS063DC7G002025P1QS063DC7G002530P1QS063DC7G003040P1QS063DC7G004050P1QS063DC7G005075P1QS063DC7G007580 mm15P1QS080DC7G001520P1QS080DC7G002025P1QS080DC7G002530P1QS080DC7G003040P1QS080DC7G004050P1QS080DC7G005075P1QS080DC7G0075100 mm15P1QS100DC7G001520P1QS100DC7G002025P1QS100DC7G002530P1QS100DC7G003040P1QS100DC7G004050P1QS100DC7G005075P1QS100DC7G0075Part Numbers - Double Acting / Magnetic12Parker Hannifin Corporation Pneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q SeriesCylinder MountingsIntended for fixed mounting of cylinder. Flange can be fitted to front or rear of cylinder.MaterialFlange: surface treated steelSupplied complete with mounting screws for attachment to cylinder.Intended for fixed mounting of cylinder. Angle bracket can be fitted to front and rear of cylinder.MaterialAngle bracket: surface treated steel Supplied in pairs with mounting screws for attachment to cylinder.* Weight per itemFlangeFoot brackets MS9Ø12 to Ø25Ø12 to Ø25Ø32 to Ø100Ø32 to Ø100Bore [mm]FD [mm]FT [mm]FV [mm]FX [mm]FZ [mm]M [mm]N [mm]N1 [mm]Weight [kg]Part number 12 4.5 5.525455515.5 4.57.50.08P1Q-4DMB 16 4.5 5.530455520 4.57.50.10P1Q-4FMB 20 6.5839486025.5 6.510.50.16P1Q-4HMB 25 6.5842526428 6.510.50.20P1Q-4JMB 32 5.5848566534 6.510.50.23P1Q-4KMB 40 5.5854627240 6.510.50.28P1Q-4LMB 50 6.59677689508.513.50.53P1Q-4MMB 639980921086010.516.50.71P1Q-4NMB 801111991161347712.518.5 1.59P1Q-4PMB 10011111171361549412.518.52.19P1Q-4QMBBore [mm]LD [mm]LH [mm]LT [mm]LX [mm]LY [mm]LZ [mm]X [mm]Y [mm]M [mm]N [mm]Weight (kg]Part number 12 4.51723429.5448 4.515.5 4.50.02*P1Q-4DMF 16 4.51923833.5488520 4.50.02*P1Q-4FMF 20 6.524 3.24842629.2 5.825.5 6.50.04*P1Q-4HMF 25 6.526 3.252466610.7 5.828 6.50.05*P1Q-4JMF 32 6.513 3.257207111.2 5.834 6.50.06*P1Q-4KMF 40 6.513 3.264207811.2740 6.50.08*P1Q-4LMF 508.514 3.279229512.28508.50.16*P1Q-4MMF 6310.516 3.2952611313.796010.50.25*P1Q-4NMF 801320.5 4.51183214016.51177130.50*P1Q-4PMF 10013246137361622311.594130.85*P1Q-4QMF13Parker Hannifin Corporation Pneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q SeriesIntended for flexible mounting of cylinder. Clevis bracket can be fitted to the rear of cylinder.MaterialClevis bracket: surface treated steel, black Supplied complete with mounting screws for attachment to cylinder.Clevis bracketBore [mm]CD [mm] CU [mm]CW [mm]CX [mm]CZ [mm]N [mm] RR [mm]M[mm] E [mm] Weight[kg]Part number 1259.514 5.39.8 4.5615.5250.02P1Q-4DMT 16510.515 6.811.8 4.5620290.03P1Q-4FMT 20812.5188.315.8 6.5925.5360.05P1Q-4HMT 251014.52010.319.8 6.51028400.06P1Q-4JMT 321014.52018.335.8 6.5103445.50.08P1Q-4KMT 4010152218.335.8 6.5104053.50.11P1Q-4LMT 5014202822.343.88.5145064.50.14P1Q-4MMT 6314213022.343.810.5146077.50.29P1Q-4NMT 8018283828.355.812.5187798.50.36P1Q-4PMT 10022324532.363.812.52294117.50.64P1Q-4QMTCylinder Mountings14Parker Hannifin CorporationPneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q SeriesSensorsGlobal P8S Sensor SeriesThe P8S family of sensors provides a broad range of reed and solid state sensor types with flying lead or M8 options available. Mounting on all cylinders is within the integrated sensor grooves allowing for compact installation. For 12mm and 16mm bores the sensors can be mounted on 3 sides and on 20mm to 100mm bores on four sides for flexible mounting and ease of installation.Electronic SensorsThe electronic sensors utilise “Solid State” technology,providing operation with no moving parts. These switches are available in NPN and PNP type, both provide built in short circuit and transient protection as standard. The solid state operation allows for high switching on off frequency, ideal for applications where long service life is required.Technical dataDesign GMR (Giant Magnetic Resistance) magneto-resistive function Installation Mounts within cylinder switch GrooveOutputs PNP or NPN, normally open Voltage range 5-30 V DC Voltage drop 1.5 V max Switching Current 50 mA max Switch Rating 1.5 W max Leakage current 0.01 mA max Internal consumption10 mA max (NPN) 12 mA max (PNP)On/off switching frequency 1000 Hz max Encapsulation IP67 (NEMA 6) Temperature range –10 °C to +70 °C Indication LED Red (NPN)LED Green (PNP)Cable PolyurethaneReed SensorsReed type sensors are based on proven reed switchtechnology and provide reliable function in many applications. Simple installation and the available AC voltage range are advantages for this range of sensors.Technical dataDesign Reed elementInstallation Mounts within cylinder switch Groove Output Normally open Voltage range 5-120 V DC/AC Voltage Drop 2.5 V max Switching Current100 mA max Switch Rating 10 W max Encapsulation IP67 (NEMA 6) Temperature range–10 °C to +70 °C IndicationLED RedCable Polyurethane15Parker Hannifin CorporationPneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q SeriesSensorsM8 Quick Connector3 wire QC wiring 2 wire QC wiring 3 wire QC wiring SizeDescriptionOrder Code Flush Mount Style PNP Type, normally open 0.165 m cable and M8 screw male connector P8S-EPSUS PNP Type, normally open 2 m PUR cable without connectorP8S-EPFXS NPN Type, normally open 0.165 m cable and M8 screw male connector P8S-ENSUS NPN Type, normally open 2 m PUR cable without connectorP8S-ENFXS Reed Type, normally open 0.15 m cable and M8 screw male connector P8S-ERSUS Reed Type, normally open2 m PUR cable without connectorP8S-ERFXS16Parker Hannifin Corporation Pneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q SeriesConnecting cables with one connectorThe cables have an integral snap-in female connector.AccessoriesTechnical dataOperating voltagemax. 32 V AC/DC Operating current per contact max. 4 AConnection cross section 0.25... 0.5 mm²(conductor diameter min 0.1 mm)Protection IP65 and IP67 when plugged and screwed down Temperature range-25... +85°CMale connectors for connecting cablesCable connectors for producing your own connecting cables. The connectors can be quickly attached to the cable without special tools. Only the outer sheath of the cable is removed. The connectors are available for M8 and M12 screw connectors and meet protection class IP 65.ConnectorWeight [kg]Order Code M8 Screw Connector 0.017P8CS0803J M12 Screw Connector0.022P8CS1204JType of cable Cable/connectorWeight [kg]Order Code Cables for sensors, complete with one female connectorCable, Flex PVC 3 m, 8 mm Snap-in connector 0.0791********Cable, Flex PVC 10 m, 8 mm Snap-in connector 0.219126344342Cable, Super Flex PVC 3 m, 8 mm Snap-in connector 0.0791********Cable, Super Flex PVC 10 m, 8 mm Snap-in connector 0.219126344344Cable, Polyurethane 3 m, 8 mm Snap-in connector 0.019126344345Cable, Polyurethane10 m, 8 mm Snap-in connector0.20912634434617Parker Hannifin Corporation Pneumatic Division - EuropePDE2663TCUKCompact ISO Cylinders - P1Q SeriesSpecifying air quality (purity) in accordance with ISO8573-1:2010, the international standard for Compressed Air QualityISO8573-1 is the primary document used from the ISO8573 series as it is this document which specifies the amount of contamination allowed in each cubic metre of compressed air.ISO8573-1 lists the main contaminants as Solid Particulate, Water and Oil. The purity levels for each contaminant are shownseparately in tabular form, however for ease of use, this document combines all three contaminants into one easy to use table.Specifying air purity in accordance with ISO8573-1:2010When specifying the purity of air required, the standard must always be referenced, followed by the purity class selected for each contaminant (a different purity class can be selected for each contamination if required).An example of how to write an air quality specification is shown below:ISO 8573-1:2010 Class 1.2.1ISO 8573-1:2010 refers to the standard document and its revision, the three digits refer to the purity classifications selected for solid particulate, water and total oil. Selecting an air purity class of 1.2.1 would specify the following air quality when operating at the stand-ard’s reference conditions :Class 1 - ParticulateIn each cubic metre of compressed air, the particulate count should not exceed 20,000 particles in the 0.1 - 0.5 micron size range, 400 particles in the 0.5 - 1 micron size range and 10 particles in the 1 - 5 micron size range.Class 2 - WaterA pressure dewpoint (PDP) of -40°C or better is required and no liquid water is allowed.Class 1 - OilIn each cubic metre of compressed air, not more than 0.01mg of oil is allowed. This is a total level for liquid oil, oil aerosol and oil vapour.ISO8573-1:2010 Class zero• Class 0 does not mean zero contamination.• Class 0 requires the user and the equipment manufacturer to agree contamination levels as part of a written specification. • The agreed contamination levels for a Class 0 specification should be within the measurement capabilities of the test equipment and test methods shown in ISO8573 Pt 2 to Pt 9.• The agreed Class 0 specification must be written on all documentation to be in accordance with the standard.• Stating Class 0 without the agreed specification is meaningless and not in accordance with the standard.• A number of compressor manufacturers claim that the delivered air from their oil-free compressors is in compliance with Class 0.• If the compressor was tested in clean room conditions, thecontamination detected at the outlet will be minimal. Should the same compressor now be installed in typical urban environment, the level of contamination will be dependent upon what is drawn into the compressor intake, rendering the Class 0 claim invalid. • A compressor delivering air to Class 0 will still require purification equipment in both the compressor room and at the point of use for the Class 0 purity to be maintained at the application.• Air for critical applications such as breathing, medical, food, etc typically only requires air quality to Class 2.2.1 or Class 2.1.1.• Purification of air to meet a Class 0 specification is only cost effective if carried out at the point of use.。

Double-Acting Cylinder and 5/2Solenoid ValveSolenoid PilotsSpoolAs early as the 1980s, large numbers of stand-alone valves on each machine made the installation and piping work long and costly. As with hydraulic valves, designers developed manifolded pneumatic valves, thereby reducing the number of tube connections to be made.The sketches show a typical 5/2 valve manifold incorporating 3 common channels: common pressure supply 1, and exhaust collection channels 3 and 5.Depending on the valve and manifold design, output ports to cylinders can either be on top of the valve or in the bottom or on the side of the manifold.Installation and piping time was tremendously reduced. This manifold design led the way for more than 10 years.T o answer the needs of more and more complex and compact machines, pneumatic automation has continuously progressed:•In order to be compatible with PLCs, it became low-power electrically controlled;•What were originally stand-alone valves are now manifolded together into compact, flexible valve islands that include a complete range of functions.The sketches represent the basic subassembly of a double-acting cylinder that is controlled by a 4-way valve.The “5/2” specification indicates the number of ports (5) and the number of spool positions (2).The spool valve design requires an exhaust port at each end(5 ports for a 4-way valve).Stand-alone ValvesValve ManifoldsTop PortedBottom PortedSide PortedSol. Pilot 5/2 Spool Valve Manifolded SubbaseIn the 1990s, with the number of pneumatic valves still increasing on the machines, valve manifolds appeared big and bulky. On the same 3-channel principle, compact islands were developed and taken over, also with a wider choice of options.It included:•Pilot exhaust collection for cleaner environment,•5/2 valves (4 ways) as well as 3/2 valves (3 ways) as shown on the sketches below.different valve sizes in the same island, etc. With appropriate valve designs (see illustrations below), islands with only two(2) common channels represent a new generation still more compact, with a complete solution for all needs. This allows for new and efficient automation practice.3-Channel Compact Islands2-Channel Compact IslandsDouble 3/2 Module (3 Way) for Single-Acting CylinderIntegrated Exhaust Check ValveSol.PilotPiston + Spool Design4/2 Module (4 Way) for Double-Acting CylinderSol.PilotsSlide Valve Design 5/2 Module (4 Way) for Double-Acting CylinderSol. PilotsSpool Valve Design Double 3/2 Module (3 Way) for Single-Acting CylinderSol. PilotsSpool Valve Design4/2 Module (4 Way)Double 3/2 Module (3 Way)Solenoid PilotValve BaseT o Double-Acting CylinderTo Single-Acting Cylinder。

VerifloContact Information:Parker Hannifin Corporation Veriflo Division 250 Canal Blvd.Richmond, California 94804phone 510 235 9590*************************.com **************************.com /verifloMobile App: /verifloPrecise Control, High Flow PerformanceThe FR1400 Series ultra high purity, pressure reducing regulator offers high flow capability with an inlet pressure up to 3000 psig and is an excellent choice for cylinder or point of use bulk and specialty gas applications.The large, tied Hastelloy C-22® diaphragm provides stable control over its full operational range while providing a robust seal for hazardous gas applications.The FR1403SA is for applications involving negative delivery pressures with low pressure gas sources.UHP High Flow, Tied Diaphragm, Single Stage, Pressure Reducing RegulatorFR1400 SeriesProduct Features:• 316L stainless steel body • Manufactured for ultra high purity semiconductor gas applications • Metal-to-metal diaphragm seal • 10 μ in. Ra surface finish• Passivated & Electropolished • Tied diaphragm design • Hastelloy C-22® diaphragm and poppet standard •Flows up to 800 slpm (28 scfm)Safety Guide and Installation and Operating Instructions available at/veriflo2.0 FLATS FR1400 SeriesFlow CurvesAdditional flow curves available upon requestDimensional DrawingsAll dimensions in inches. Metric dimensions are for reference only.Porting ConfigurationsTop View3 Port4 Port2 Port O U T L E T P R E S S U R E , P S I GFLOW, SLPM, N2FR1400FR1403SA1002003004005006007008000 2 4 6 8 10 12O U T L E T P R E S S U R E , T O R RFLOW, SLPM, N2Additional flow curves available upon requestFlow Capacity 5 = 0.5 CvBuild an FR1400 Series regulator by replacing the numbered symbols with an option from the corresponding tables below.Optional Features Optional FeaturesThis section can have multiple optionsBlank = N onePM = Panel Mount (not available forFR1403SA)TH = Ni-Cr-Mo alloy seat retainer(Hastelloy ® or equivalent)Port ConfigurationM = Male F = FemaleI = Internal Face Seal (gauge ports only)1/4” FS-M Gauge Ports are Standard.Any other gauge port configuration may have an extended lead time.Port StyleTS = 1/4” Tube Stub FS = 1/4” Face Seal FS6 = 3/8” Face Seal *TS6 = 3/8” Tube Stub FS8 = 1/2” Face Seal TS8 =1/2” Tube Stub* Provided with 1/2” face seal nuts.** Combinations of Port Style options may have an extended lead time.Inlet Gauge*X = No Gauge 01 = 0 - 100 psig 4 = 0 - 400 psig 10 = 0 - 1000 psig 20 = 0 - 2000 psig 30 = 0 - 3000 psig 40=0 - 4000 psig* Only include with “4P” body configuration.Basic SeriesFR1403SA = 100 mm Hg - 30 psigFR1403 = 1 - 30 psig FR1406 = 5 - 60 psig FR1410 = 10 - 100 psig FR1415 =15 - 150 psig12345781012345678910FR1415 H S 5 K 4P X X FS6 FF P MFR1415HS5K4PXXFS6FFPMSample:Finished Order:911Body MaterialS = 316L SS (Single melt)SC = 316L SS (Single melt withCaptured Bonnet)*D = 316L SS (Double melt) ** Captured bonnet with 1/8” FNPT vent port standard with 316L SS double melt body. FR1403SA only available with “D” option.Seat MaterialK = PCTFE V = PolyimidePorting*2P = 2 Ports 3P = 3 Ports 4P = 4 Ports* R efer to the Regulator Porting Guide, 25000156, for additional porting.6 Source Pressure Range*H = 0 - 3000 psig L = 0- 300 psig* For low inlet pressure applications below 300 psig, specify “L” model for improved droop performance.FR1403SA only available with “L”model.11Contact factory for most up to date lead time information.Blue = Configurations that have selections in blue will require a price quote and lead time from the factory.Outlet Gauge*X = No Gauge 03 = 0 - 30 psig OL = 0 - 60 psig 01 = 0 - 100 psig 2 = 0 - 200 psig 4=0 - 400 psig* Only include with “3P” or “4P” body configurations.© 2016 Parker Hannifin CorporationOFFER 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 governedby the provisions stated in the detailed “Offer of Sale” elsewhere in this document or available at /verifloWARNING USER RESPONSIBILITYFAILURE OR IMPROPER SELECTION OR IMPROPER USE OF THE PRODUCTS DESCRIBED HEREIN OR RELATED ITEMS CAN CAUSE DEATH, PERSONAL INJURY AND PROPERTY DAMAGE. THIS DOCUMENT IS FOR REFERENCE ONLY. PLEASE CONSULT FACTORY FOR LATEST PRODUCT DRAWINGS AND SPECIFICATIONSThis document and other information from Parker-Hannifin Corporation, its subsidiaries and authorized distributors provide product or system options for further investigation by users having technical expertise.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. The user must 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.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 products described herein, including without limitation, product features, specifications, designs, availability and pricing are subject to change by Parker Hannifin Corp and it’s subsidiaries at any time without notice.Proposition 65 Warning: This product contains chemicals known to the state of California to cause cancer or birth defects or other reproductive harm.LitPN: 25000320 Rev: D Date of Issue: 09/2022VerifloAll specifications subject to change without notice.For additional information on materials of construction, functional performance, and operating conditions, please refer to Veriflo report RI.EN.RP016 and RI.EN.RP023. 1. Internal volume includes end connections.2. P ressure rating based on nominal temperature conditions. Refer to Veriflo report RI.EN.RP016 for specific information regarding regulator performance at temperature.3. 0.5 Cv applicable for 1/2” connection size only.。