PARKER PQT接头样本

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派克接头

派克接头

EO and EO-2 Metric Bite Type FittingsThe Fitting AuthorityInsert for Metal TubeEO Progressive Ring Fittings —IntroductionThe flareless bite type fitting was pioneered by Ermeto in Germany in the early 1930's. When Parker Hannifin acquired Ermeto, it introduced the EO fittings to the US. Today, the EO fittings are the most widely used bite type fittings in the world.The EO progressive ring fitting is a flareless metric fitting (for metric tube)that consists of a body, a progressive ring (ferrule)and a nut. On assembly, two cutting edges of the progressive ring “bite ” into the outer surface of the tube ensuring the necessary holding power and seal for high operating pres-sures.*The selection of LL, L or S design should be made by the user on the basis of intended system pressure. The pertinent maximum recommended working pressures are shown throughout this catalog in individual data charts of the various fitting configurations.demanding service conditions that exist in industry today. The original progressive ring, known as DPR, is now being replaced with the new generation, called PSR. PSR is stronger and features a “positive stop ” to eliminate over-tightening.The EO Nut. EO fitting nuts are either cold formed, hot formed or machined from cold drawn material. The cold forming and cold drawing operations provide a more tightly packed grain structure, thus improving the material's strength. In addition,cold forming significantly improves the fatigue properties or endurance limits of the nuts.Standard Material SpecificationsSteel fittings:EO tube fittings –Materials according to DIN 3859-1Stainless steel fittings:EO tube fittings –X6CrNIMoTi 17122 in accordance withDIN 17440 / EN 10088, material no.1.4571.Brass fittings:EO tube fittings –CUZN35Ni2 in accordance with DIN17660, material no. 2.0540.Elastomer seals:NBR (BUNA-N), FPM (Fluorocarbon)Surface Finish - Steel fittings:Standard LL SeriesBody, Nuts, and Rings– Zinc yellow chromateL+S Series Body and Nuts – Zinc yellow chromateProgressive Rings (DPR)– Zinc olive chromate Progressive Rings (PSR)– Zinc clear chromateShort codes for surface protection procedure in accordance with DIN 267 part 9 or DIN 50942.How EO Fittings Work: Function of Progressive Ring FittingsThe EO progressive ring fitting produces a low to high pressure,leak free connection of tubes and components in fluid systems.The basic function of the EO progressive ring is the controlled progressive bite of the ring into the tube due to a unique internal geometry.The front cutting edge has already started cutting into the tube before the second cutting edge starts. As soon as both cutting edges have cut the tube to the designed depth further advance is limited by the stop edge.Owing to the design of both cutting edges and stop edge all forces arising are equally distributed. This distribution along with the specially designed interior collar of the ring guarantees increased safety, particularly with regard to vibration and flex-ure stresses. The design and function of the progressive cutting ring ensure that service vibration loading is not present in the areas of the tubing where the bite is made.Fig. H1 — EO fitting components: Body, progressive ring and nutThe fittings and components listed in this catalog are intended solely for the assembly of connections for fluid applications.Three series of EO tube fittings (LL, L and S) and accessories are manufactured in accordance with DIN 2353 (summary) on the basis of decades of experience.*To ensure functional safety of EO tube fittings, only EO parts should be used in their assembly. Routing of tubes should be carried out in accordance with Parker/EO recommended prac-tices. Assembly instructions are available.Design and ConstructionThe three components of EO fittings are designed and manu-factured to produce a strong, reliable, leak-free joint upon proper assembly.The EO Body. EO fitting bodies are available in over thirty configurations. The shaped products (i.e., elbows, tees, crosses)are hot forged, then machined to the stringent EO fitting speci-fications. The forging process used by Parker further improves the strength and metallurgical properties of the fitting material.Straight products are made from cold drawn bar stock. The cold drawing operation ensures consistently tight dimensional toler-ances, as well as significantly improved strength.The EO Progressive Ring (Cutting Ring). EO progressive rings are precision machined with all dimensions and surfaces,particularly the critical bite edges, monitored on an ongoing basis. The rings are then heat treated in a manner that provides the hardness, strength, and toughness necessary to satisfy theSecond bite edgeFront bite edgeFig. F2 — How EO fittings workFitting Instructions:The life of a rotary fitting depends considerably in a stress-free line connection. Therefore, the direct connection with tube is to be avoided. For connection to hoses, the use of swivel nut fittings is recommended with short, straight lines (approx. length 5x hose O.D.). Thus, shocks and vibrations can be absorbed.Non-Return ValvesCharacteristics: Sealing is achieved by using a 90° cone with a packing washer of synthetic material. Valve has a lift stop which provides safe free outlet, shock-absorbing, muffled open-ing and no reduction of cross section. Maximum flow velocity not more than 8 m/sec (for higher flow velocities special tests are required).Opening Pressure: Approximately 1 bar (on request also 0.5-2 and 3 bar are available. Please specify on order). Tolerance of opening pressure is ±20%.Tube RecommendationsFor steel fittings:Seamless cold drawn steel tubes made from material St. 35.4 or from conditioned base material St. 37.4 in accordance with DIN 1630, state of delivery NBK (normal annealed) with tube outer and inner diameter tolerances in accordance with DIN 2391/ISO 3304. Max. hardness: HRB 75.For stainless steel fittings:Material no. 1.4571 and 1.4541Seamless drawn tubes made from austenitic, stainless steel materials no. 1.4571 and 1.4541, in accordance with DIN/EN/ ISO 1127. Max. hardness: HRB 90.These tubes are particularly recommended for tube fittings, since the tube outer diameter and wall thickness, tolerances correspond to those of steel tubes in accordance with DIN 2391/ISO 3304.For brass fittings:Seamless drawn copper tube made from material with short code SF-Cu F37 in accordance with DIN 1786.Tube wall thicknesses:In order to determine the necesary tube wall thicknesses for applications, refer to the calculated pressures provided in the tables for EO metric tubing. The calculated pressures DIN 2413-I are for static and DIN 2413-III for dynamic loads.The maximum wall thickness is based on the pressure holding capacity of the fitting. In some cases, the wall thickness of the tube might be too thin for reliable service and an insert must be used to prevent excessive tube collapse. See assembly sec-tion for recommended tube wall thicknesses.Plastic tube:EO fittings are suitable for use with various types of plastic tubes such as nylon, polyethylene, etc. When used with plastic tube, an insert (see page F14) must be used to prevent tube pull out due to tensile loading.Features, Advantages & Benefits•Visible Bite — The critical front bite of the progressive ring is clearly visible to tube fitters & inspectors. The presence of the recommended bite virtually eliminates any risk of catastrophic blow-off. This is a very important safety fea-ture.•Sealing Capability — EO fittings have demonstrated a remarkable ability to remain leak free under various ser-vice conditions ranging from sealing high vacuum and small molecules gases to high pressure hydraulic fluids.•Distributed Stresses — Stresses due to service flexural loading are distributed at several points in the joint, thus stress concentration in the bite is minimized.•Vibration Control — The rear bevel of the ferrule firmly grips tubing, thus dampening the effects of system vibra-tion in the joint.•Progressive Ring Design — The progressive ring design provides a second bite for improved reliability and higher working pressure capability. This design also decreases the risk of improper assembly because of the sharp, high torque rise which occurs when the fitting is properly tight-ened.•Envelope Size — EO fittings are relatively small and compact, making it a suitable selection for plumbing in limited or tight space.•Temperature Rating — EO fittings are suitable for sub-zero through elevated temperature applications. Service temperature rating is limited by the material chosen.•Compatibility — Since EO fittings can be manufactured from a wide range of metals, its compatibility factor with various fluids and atmospheric conditions is virtually limit-less. One simply has to select and specify EO fittings from an acceptable material that best satisfies the service conditions.•Tube Wall — EO fittings are suitable for use with light wall, medium wall, heavy wall, and extra heavy wall tubing.(Light wall tube may require support sleeve (VH), as shown in Assembly/Installation Section.)•Re-Usability / Remakeability — Joints can be disas-sembled and reassembled many times to facilitate system maintenance. This reduces the labor and material costs that would otherwise result from tube and fittings replace-ment.•Assembly — No expensive, complicated tooling is neces-sary to assemble EO fittings. Assembly is simple when the procedures described in the Assembly / Installation sec-tion are followed (see pages T24 - T27).•Materials — EO fittings can be manufactured from almost any metallic material. The more popular materials cur-rently used for EO fittings are: stainless steel, carbon steel, and brass. On request, the Tube Fitting Division will ma-chine EO fittings from other appropriate material specified by users.•Manufacture — EO fittings are manufactured under tight quality control which ensures that the product routinely satisfies or surpasses the requirements of the pertinent industrial standards.•World Wide Popularity — The bite type fitting design has worldwide acceptance and is especially popular in Europe.•Finish — Steel EO fittings have a zinc gold chromatefinish. This finish provides good corrosion protection.•Silver Plated Nuts — Stainless steel tube nuts are pre-lubricated with silver plated threads (size 15L-42L, 12S-38S). Thread galling is eliminated and assembly torque isreduced as much as 40 percent. This increases the speedand efficiency for stainless steel fitting assembly.•Availability — EO fittings are available as standard in overthirty different configurations, and as many as twenty-seven different size combinations in some configurations.•Configurations — Popular configurations for EO fittingsare shown in the Visual Index. Other configurations can bemanufactured on request.EO-2 Fitting System —IntroductionDesign and ConstructionFig. F3 — EO-2: Fitting body and functional nutThe EO-2 high pressure tube fitting generation is the most recentdevelopment of the Tube Fitting Division Europe. It was intro-duced in an effort to eliminate leakage in all fluid systems.The common feature of all EO-2 fittings is elastomeric seals onall joints. This assures leakfree operation without retightening— even under severe working conditions. Another break-through in bite-type technology is the simple assembly andcost-saving handling of the unique EO-2 Functional Nut.EO-2 is a true metric design according to 24° bite-type stan-dards such as: ISO 8434-1, DIN 2353 or DIN 3861. It covers allthree series (LL, L and S) of the broad EO tube fitting program.This resulted in a great acceptance with equipment manufac-tures that are targeting an absolute leakfree systems withoutsacrificing the convenience of using metric bite type fittings.Fig. F4 — EO-2: The metallic support of the sealing ring acts justlike an integrated preassembly tool.Elastomeric SealingThe elastomeric seal assures a hermetically sealed tube joint. Itis located in between the inner cone of the fitting body and thetube surface, thus blocking the only possible leak path. Due toits large cross-section, the seal effectively compensates for allmanufacturing tolerances on tube and fitting cone.The sealing effect is pressure supported which makes the EO-2 fitting suitable for high pressure applications. The staticcompression also eliminates air-ingress into the fluid system atunderpressure conditions.Elastomerically sealed EO-2 fittings do not require any retight-ening even in heavy-duty applications. Seal extrusion is pre-vented by proper housing without gaps or dead volume. Thesealing lip is bonded to a metallic support ring.Standard Material SpecificationsSteel fittings:EO-2 tube fittings–Materials according to DIN 3859-1Stainless steel fittings:EO-2 tube fittings–X6CrNIMoTi 17122 in accordancewith DIN 17440 / EN 10088, materialno. 1.4571.Brass fittings:EO-2 tube fittings–CUZN35Ni2 in accordance with DIN17660, material no. 2.0540.Elastomer seals:NBR (BUNA-N), FPM (Fluorocarbon)Surface Finish - Steel fittings:StandardLL Series Body, Nuts,- Zinc yellow chromateand RingsL+S Series Body and Nuts- Zinc yellow chromateRings (Progressive)- Zinc olive chromateShort codes for surface protection procedure in accordancewith DIN 267 part 9 or DIN 50942.How EO-2 Fittings WorkThe retaining ring bites into the tube in accordance to the proven bite ring principle. The elastomeric seal reduces the danger of over- or underassembly by a special EO-2 design feature: Before assembly there is a gap in between the flat surfaces of the retaining ring and the metallic support ring of the seal. As soon as the retaining ring has reached the proper incision depth, the gap closes, resulting in a sharp increase of assembly torque. This results in uniform and reliable fitting assemblies. The assembly result can easily be inspected by just checking if the gap is closed.The separation of sealing and holding functions to two separate elements finally allows a more effective solution of the over-and undertightening problems typically associated with bite type fittings.Integrated Assembly ToolThe metallic support ring of the seal is made of a specially designed material and heat-treatment to act as an assembly tool. This makes sure that the retaining ring securely cuts into the tube surface without damaging the sensitive inner cone of the fitting body.This unique feature of EO-2 fittings even allows direct assem-bly of tube without any additional pre-assembly process. An EOMAT machine (or other hydraulic tool) is strongly recom-mended to allow easy assembly of large dimension tube and drastically save total assembly time, effort and costs. The integrated assembly tool of EO-2 fittings even helps to save further costs and trouble when using an EOMAT-type preset-ting machine: As the presetting cone is only in contact with the elastomeric sealing lip, it cannot be worn out or damaged even after thousands of assemblies. This not only saves replace-ment costs but also avoids leakage problems caused by worn presetting tools.The Functional Nut Individual components such as seal or retaining ring cannot be forgotten, confused or assembled in the wrong orientation. Time and cost are saved by eliminating searching and arrang-ing the components to make up individual joints.Functional Nuts are completely interchangeable with the full range of EO tube fitting ends.After assembly and disassembly, the sealing ring can be replaced individually without cutting off the tube end. Tube RecommendationsFor steel fittings:Seamless cold drawn steel tubes made from material St. 35.4 or from conditioned base material St. 37.4 in accordance with DIN 1630, state of delivery NBK (normal annealed) with tube outer and inner diameter tolerances in accordance with DIN 2391/ISO 3304. Max. hardness: HRB 75.For stainless steel fittings:Material no. 1.4571 and 1.4541Seamless drawn tubes made from austenitic, stainless steel materials no. 1.4571 and 1.4541, in accordance with DIN/EN/ ISO 1127. Max. hardness: HRB 90.These tubes are particularly recommended for tube fittings, since the tube outer diameter and wall thickness, tolerances correspond to those of steel tubes in accordance with DIN 2391/ISO 3304.Tube wall thicknesses:In order to determine the necesary tube wall thicknesses for applications, refer to the calculated pressures provided in the tables for EO metric tubing. The calculated pressures DIN 2413-I are for static and DIN 2413-III for dynamic loads.The maximum wall thickness is based on the pressure holding capacity of the fitting. In some cases, the wall thickness of the tube might be too thin for reliable service and an insert must be used to prevent excessive tube collapse. See assembly sec-tion for recommended tube wall thicknesses.Plastic tube:EO-2 fittings are suitable for use with various types of plastic tubes such as nylon, polyethylene, etc. When used with plastic tube, an insert (see page F14) must be used to prevent tube pull out due to tensile loading.Fig. F5 — The unique Functional Nut allows easy handling and quick assembly.The unique Functional Nut simplifies handling of fitting compo-nents and helps to minimize storage and procurement costs. The sealing and retaining rings are combined as a pair and are inserted into the internal thread of the nut in such a manner that they cannot fall out, so that these three parts form one func-tional element.Features, Advantages and Benefits of the EO-2 Fitting SystemIn addition to the general advantages of the EO tube fitting system, the unique EO-2 fitting features offer even more spe-cific benefits:•Sealing Capability — An elastomeric seal forms the primary sealing element, thus assuring leak-free sealing.Even low-viscosity media such as water or gas are her-metically sealed. Hydraulic systems, therefore, do not “sweat” at fittings.•High Pressure Resistance — EO-2 fittings are rated up to Pmax 900 bar. Sealing lip and seal arrangements have both been designed so that the sealing effect is supported by system pressure. The interaction of the retaining ring and the integrated preassembly tool results in uniform and reliable fitting assembly.•Durability — The elastomeric seal does not require any retightening even after years of operation under severe working conditions.•Bite Control — The ideal bite depth is controlled by the fitting design rather than by the fitters force. Closing the gap at the end of the manual assembly, the fitter gets clear signal that setting is completed and the joint is ready for inspection.•Functional Nut — Individual components such as the retaining ring or seal cannot be lost, forgotten, confused or assembled in the wrong orientation. This dramatically saves assembly cost and helps to avoid dangerous as-sembly errors.•Assembly Cost — With less than 10 seconds cycle time on the EOMAT III/A (actual presetting process: 1.4 sec-onds), the cost of presetting EO-2 is extremely low.•Integrated Preassembly Tool — Each EO-2 Functional Nut comes assembled with an integrated assembly tool that makes sure that the retaining ring securely cuts into the tube surface without damaging the sensitive inner cone of the fitting body. This greatly reduces the danger of tube blow-off, even when using stainless steel tube.•Unlimited Presetting Tool Lifetime — When EOMAT machines are used for cost-efficient presetting, the preassembly tools do not wear out as they are only in contact with the rubber seal. This avoids dangerous blow-off which can result when traditional bite-type fittings are assembled using worn presetting tools.•Make-up — From the wrench-tight position of the preset EO-2 joint, one short pull on the wrench (approx. 1/6 to 1/4 turn) gives the assembly a quick high rise to required torque. EO-2 fittings have a solid “hit-home-feel” and excellent over-torque resistance.•Visible Inspection — There is no doubt if an EO-2 Func-tional Nut has been preset correctly or not. Inspection is as simple as checking if the gap between retaining ring and sealing ring is completely closed. The tube end does not have to be disassembled out of the fitting for bite inspec-tion.•No Phantom Leaks — Lubrication is not mandatory for the assembly of steel EO-2 fittings. The machine operator will not be irritated about lubricant coming out of the fittings once the hydraulic system gets hot.•Re-Usability / Remakeability — EO-2 fittings can be disassembled and reassembled many times. There is no wear or widening of the vulnerable inner cone. Damaged seals can easily be replaced. All spare DOZ-seals are marked by size-code (e.g.: 12-L).•On-Site Maintenance — For the maintenance and re-placement of EO-2 fittings a set of wrenches is sufficient.Additional in line components, such as test points (GMA), ball valves (KH) or T-fittings can be added to an existing assembly within minutes.•Interchangeability — The EO-2 Functional Nut can be used for the whole variety of the broad range of more than50 configurations in some 25 sizes of standard EO LL, Land S-series fittings. Changeover from Progressive ring or weld nipple is easy by the simple use of EO-2 Functional Nuts.•Reliability — Millions of EO-2 fittings are working trouble-free in applications like: Mobile construction equipment, stationary machine tools, hydraulic presses, plastic injec-tion molding machines, shipbuilding, offshore exploration, submarines, railway trains and military equipment. Leak-age does not occur on EO-2 pipework.•Trouble-Free — Regular bite type fittings allow typical assembly-errors such as: confusion of bite type ring mate-rial and size. Also, the use of worn-out preassembly tool may result in fitting failure. The clever EO-2 design elimi-nates most of these mistakes without making the assem-bly process more complicated.•Popularity — EO-2 fittings are as easy to assemble as traditional bite type fittings, but they eliminate most of their typical assembly problems. EO-2 fittings are therefore appreciated by an increasing number of original equip-ment manufacturers. EO-2 also has become the fitting of choice of end-users that appreciate the leakfree perfor-mance, the easy maintenance and the global availability of the metric soft-seal bite type system.MNutDPRProgressive RingFor L and S series onlyDCutting (Locking) Ring For LL series onlyDPR:Progressive Ring D:Cutting Ring* DPR Progressive Rings in sizes 6, 8, 10 and 12mm are the same for both Series L and S.Cutting (locking) Rings, Series LL: Zinc plated and yellow chromated (A3C)ProgressiveRings, Series L and S: Zinc plated and olive chromated (A3D)PSRProgressive RingFor L and S series only* PSR Progressive Rings in sizes 6, 8, 10 and 12mm are the same for both Series L and S.PSR Progressive Rings: Zinc plated and clear chromatedAssembly /InstallationSpecsHow to OrderReferenceVITA3C VITSSA 71••••••••••••STANDARDFrom StockAssembly /InstallationSpecsHow to OrderReferenceETube InsertFor Plastic TubeVHTube InsertFor Thin Walled Metal TubeNote: E inserts are made of brass.GMBulkhead LocknoutAssembly /InstallationSpecsHow to OrderReferenceFull Dimensions Full DimensionsHow toOrderSpecsAssembly /InstallationReferenceSVBulkhead Union24° Flareless / 24° FlarelessESVWeld Bulkhead Fitting24° Flareless / 24°FlarelessFor EO-2 part number, insert “Z ” between size and pressure series. Example: SV06ZLA3CFor EO-2 part number, insert “Z ” between size and pressure series.Example: ESV06ZL71Note: Weld fitting. Omit “A3C ” in the part number for steel material.D = 16mm, max. bulkhead thicknessAssembly /InstallationSpecsHow to OrderReferenceFull DimensionsFull DimensionsAssembly /InstallationSpecsHow to OrderReferenceMale Connector24°Flareless / ISO 61492For EO-2 part number, insert “Z ” between size and pressure series.Example: GEO06ZLMA3CMale Connector24° Flareless / BSPPFor EO-2 part number, insert “Z ” between size and pressure series.Example: GE06ZLREDA3CDIN 3852-2 Form EAssembly /InstallationSpecsHow to OrderReferenceFull DimensionsHow toOrderSpecsAssembly /InstallationReferenceGE-M-EDMale Connector24° Flareless / Metric with EOlastic SealDIN 3852-1, form EFor EO-2 part number, insert “Z ” between size and pressure series.Example: GE06ZLMEDA3CAssembly /InstallationSpecsHow to OrderReferenceFull DimensionsFull Dimensions Full DimensionsHow toOrderSpecsAssembly /InstallationReferenceGAI-MFemale Connector 24°Flareless / Metric 2For EO-2 part number, insert “Z ” between size and pressure series.Example: GAI06ZLMA3CASWeld Connector24°Flareless / Butt WeldNote: Weld fitting. Omit “A3C ” in the part number for steel material.For EO-2 part number, insert “Z ” between size and pressure series.Example: AS06ZLAssembly /InstallationSpecsHow to OrderReferenceFull DimensionsFull DimensionsFull DimensionsHow toOrderSpecsAssembly /InstallationReferenceDADistance Piece Adapter Flareless Swivel / 24° FlarelessGZSwivel Union Flareless Swivel /Flareless SwivelFor EO-2 part number, insert “Z” between size and pressure series. Example: DA06ZLA3CGZRSwivel Union ReducerFlareless Swivel / Flareless Swivel 2EGE-NPTSwivel ConnectorFlareless Swivel / NPTAssembly /InstallationSpecsHow toOrderReferenceFull DimensionsFull DimensionsFull DimensionsFull DimensionsFull DimensionsHow toOrderSpecsAssembly /InstallationReference Full Dimensions Full DimensionsVEE-UNFAdjustable Locknut 45° Elbow 24°Flareless / SAE-ORBFor EO-2 part number, insert “Z ” between size and pressure series.Example: VEE06ZL7/16UNFA3CVEE-ORAdjustable Locknut 45° Elbow 24° Flareless / Metric ISO 6149For EO-2 part number, insert “Z ” between size and pressure series.Example: VEE06ZLMORA3CAssembly /InstallationSpecsHow to OrderReferenceFull DimensionsFull DimensionsFull DimensionsHow toOrderSpecsAssembly /InstallationReference Full DimensionsWElbow Union24° Flareless / 24°Flareless* Extruded body.For EO-2 part number, insert “Z” between size and pressure series. Example: W04ZLLA3C Assembly / Installation Specs How to Order ReferenceFull DimensionsFull DimensionsHow toOrderSpecsAssembly /InstallationReference Full DimensionsWE-R kegMale Elbow24°Flareless / BSPT* Extruded body.Note: keg. refers to taper threads.WE-M kegMale Elbow24° Flareless / Metric Taper Thread* Extruded body.Note: keg. refers to taper threads.Assembly /InstallationSpecsHow to OrderReferenceFull DimensionsFull Dimensions。

派克矿用软管接头

派克矿用软管接头
80C-A04 80C-A04 80C-B04 80C-B04 80C-C04 80C-C04 80C-A05 80C-A05 80C-B05 80C-B05 80C-C05 80C-C05 80C-A06 80C-A06 80C-B06 80C-B06 80C-C06 80C-C06 83C-D06 83C-D06 80C-A08 80C-A08 80C-B08 80C-B08 80C-C08 80C-C08 83C-D08 83C-D08 80C-A10 80C-A10 80C-B10 80C-B10 80C-C10
3
4
目录
产品索引 ............................................................................................................6~9 矿用胶管和护套 .............................................................................................10~18
24
23,35 23,85
301SN-381
48
24
24,40 24,90
371-701
70
35
28,95 29,45
77C-772-774
71
35
27,95 28,45
15,9 16 -10 5/8 421HT-421SN-431-436-451TC-471ST-481 43
40
26,95 27,45
航空航天 环境控制 机电 过滤 流体与气体处理 液压 气动 过程控制 密封与屏蔽
矿山机械用胶管、 SteckO胶管接头和过渡接头

parker接头、派克接头简介

parker接头、派克接头简介

parker 接头简介Parker 接头,是美国ParkerHannifin 公司德国工厂的德国工程师Ermto(埃米托)发明于上世纪30 年代,为了纪念其用其名字命名为parker接头,parker接头又名parker卡套式管接头。

Parker接头在中国------parker 接头特性:派克卡套式管接头因其特有的装配方便(仅需两把扳手)而广受欢迎。

经过近80多年的发展,EO工厂始派克接头图册(7张)终保持着卡套式管接头技术的领先地位。

今天,parker管接头是世界上使用最为广泛的一种管接头。

EO管接头是为公制管子设计的,历史上曾经依照德国标准DIN3861、DIN3859和DIN2353,现在这些标准已被国际标准ISO8434取代。

Parker管接头以体积小,压力等级高而著称。

分为低压、中压和高压三个系列(LL、L、S系列)这样使得各种不同的应用场合可以实现最经济化和空间最小化的方案。

parker 接头材质及规格Parker 管接头的材料除了最常见的碳钢镀锌以外,还提供铜和不锈钢两种材料,以适应不同的流体或环境条件。

Parker不锈钢接头的螺母螺纹采用镀银并预先润滑(规格15L-42L,12S-38S),较小规格的螺母螺纹采用蜡封,这样不仅有效的消除了不锈钢螺纹的咬合现象,同时减少40%装配拧紧力矩。

Parker管接头具有50多种不同的形式,可供各种不同应用场合的灵活选择,加上许多parker功能管接头,如旋转接头、球阀、单向阀、截止阀、测压接头等与parker 管接头配合使用,可大大方便系统的配套,提高系统密封的可靠性。

PARKER 液压软管具有防腐、耐高温、抗拉强度高,柔韧性好等诸多性能,而被广泛采用在各行业的液压工程中,派克软管有一层至多层钢丝编织增强层(6层以上),有低、中、高、超高三种压力等级,有轻、重两系列,公称通径在3 — 32mm。

有普通型和特殊型两种软管以满足在普通环境及特殊环境下使用,先进的不剥胶软管极大减轻装配劳动强度,广泛应用在各行业液压系统管路中。

parker软管总成介绍

parker软管总成介绍

软管的应用条件
弯曲半径 环境条件-温度?辐射?磨擦? 静电积聚? 高压电? 政府,行业的特殊标准要求
软管弯曲半径与耐压
软管外层材料与使用环境
耐天候 耐臭氧 耐磨耗 耐温度 耐化学侵蚀
软管的抗高原紫外线性能
橡胶软管: 最优-301,421,431,77C,78C 优 -451ST,471ST 较优 -381,481,451TC,771,772, 781,782,792
规格
划线规格-4=4/16=1/4 (英制)
压力-会导致软管爆破!
系统工作压力? 静压还是动压?最高冲击压力?压力交 变频率? 是否吸油回路? 工作油温和工作环境?
FluidConnectors
液压软管的耐压
工 作 压 力- 软 管 保 持 正 常 工 作 所 能 承 受 的 最 高 压 力(Pw) 合 格 试 验 压 力- 软 管 总 成 进 行 静 压 试 验 时 必 须 承 受 的 压 力(=2XPw) 最 低 爆 破 压 力- 软 管 总 成 进 行 爆 破 试 验 时 必 须 超 过 该 压 力(=4XPw) 脉 冲 试 验 压 力- 软 管 总 成 进 行 脉 冲 疲 劳 试 验 时 规 定 的 压 力(=1.33Pw)
parker软管总成介绍
软管
软管接头 软管总成
软管的基本结构-钢丝编织软管
增强层
钢丝编织的夹角
-中位角- 54°44“
外层
内层
软管尺寸规格-选择合理的流速
划线 -4 -5 -6 -8 -10 -12 -16 -20 -24 -32 规格
英制 1/4 5/16 3/8 1/2 5பைடு நூலகம்8 3/4 1 尺寸
温度-同时在高压和高温下工作的软管会 大大缩短使用寿命!

派克阀门样本Parker Valve

派克阀门样本Parker Valve
KH-NPT (71) p. O41
Female NPT thread (SAE 476) / Female NPT thread (SAE 476)
Visual index 3/2-way ball valves
KH 3/2 (S) p. O42
EO 24° cone end / EO 24° cone end / EO 24° cone end
KHBLOCK p. O51
Ball valve with Flange connection DIN EN 1092-1
2/2-way ball valve for block structure
O6
Catalogue 4100-8/UK
Visual index shut off valves and Line Rupture Valves “LRV”
DV p. O52
Valves
LD p. O53
EO 24° cone end / EO 24° cone end
VDHA p. O54
EO 24° cone end / EO 24° cone end
EO tube end / EO tube end
WV p. O55
ELA/ELAE p. O57
KH-A-S-71 p. O48
Ball valve with SAE Flange connection
KH-B4V-S p. O49
Ball valve with SAE Flange adapter connection
KHB5V-S p. O50
Ball valve with SAE Flange connection ISO 6162 (1/2)

派克标准19243一体式液压软管接头

派克标准19243一体式液压软管接头

派克标准19243一体式液压软管接头
派克标准19243一体式液压软管接头是一种常用于液压系统中的连接器件。

它由派克公司设计和生产,采用一体式设计,具有可靠性高、安装方便等优点。

派克标准19243一体式液压软管接头通常由两个部分组成:一个是内部的连接器,也称为接头头部;另一个是外部的连接器,也称为接头底座。

接头头部和接头底座通过螺纹连接,形成完整的接头。

派克标准19243一体式液压软管接头具有以下特点:
1. 采用金属材料制造,如钢材,具有高强度和耐用性;
2. 采用O型密封圈,确保接头的密封性能;
3. 设计合理,连接稳固,能够承受高压力和大流量的液体;
4. 安装方便,只需将接头头部和接头底座螺纹连接即可;
5. 可根据使用环境和需求选择不同的接头尺寸和型号。

派克标准19243一体式液压软管接头广泛应用于各种工业领域,如机械设备、航空航天、冶金等,用于连接液压系统中的软管和管路,起到传递液体、控制液压流动的作用。

派克Parker流体连接件中国区产品手册 上

派克Parker流体连接件中国区产品手册  上
课堂培训
在线培训
除了传统的课堂培训,派克还提 供在线培训。这些培训包括:
• P-TAC: 派克在线培训和认 证项目可以使您成 为流体连接件产品 的专家。
• 安全学习: 3个20分钟的互动模 块能够帮助员工在进 行相关操作时,学习、理解并且 遵循安全操作的指引
派克培训中心可为您提供系列培 训课程,这些课程均由具有派克 资质认可的培训师授课,并且为 参加学生提供必要学习材料,并 颁发课程证书。
航空航天 环境控制 机电 过滤 流体与气体处理 液压 气动 过程控制 密封与屏蔽
流体连接件中国区产品手册
3400-CN
关于派克汉尼汾
派克汉尼汾是全球领先的运动控制技术及系统的多元化制造商,年销售额超过 100亿美元。我们为商用车辆、行走液压、工业液压和航空航天等行业提供了包 括流体处理、过滤、密封和屏蔽、环境控制、过程控制及航空航天等精准技术 解决方案,我们的产品应用于运动控制领域的各个市场。我们实施多元化、价 值驱动的发展战略,并且很好地定位于全世界每个角落的发展。派克汉尼汾在 美国纽约证券交易所上市代码是“PH”。
ห้องสมุดไป่ตู้
1
Parkrimp扣压设备操作简
单方便:
1. 在软管上标记出插入深 度并插管
2. 选择合适的模具和扣压
环,并将其放置到位
2
3. 将软管和接头放置到
位,按下油泵开关直至扣
压环底端紧靠支架平台。
完成后,打开阀门,将扣
好的总成取出
3
派克青岛工厂可生产多种编织管和缠绕管, 这些软管与派克Parkrimp扣压设备相配套, 为客户提供更经济、更可靠的软管总成。
在派克,我们相信,最好的软管,就是能确保您的工作正确 并正常进行的那个。因此,我们为您提供了全系列可供不同 应用的软管。

Parker 美制JIC接头样本

Parker 美制JIC接头样本

Description
Straight Thread Swivel Nut Male Stud elbow Long Male Stud elbow Extra Long Male Stud elbow Swivel Nut Elbow Female Elbow Union elbow Male Stud connector Long Male Stud connector Male Stud Swivel Cap Female Connector Gauge Adapter Fitting Female Connector Swivel Straight union Swivel/Swivel Adapter Union Tee Swivel Tee Union Cross Triple-Lok® Swivel/O-Lok® Adapter Female Run Tee Female Branch Tee Plug Male Stud Run Tee Swivel Run Tee Male Stud Branch Tee Swivel Branch Tee Sleeve Tube End Reducer Test Point Adapter 45° male stud elbow Swivel Nut 45° Elbow Bulkhead Union Bulkhead Union Elbow Female Bulkhead connector Bulkhead Run Tee Bulkhead Branch Tee Bulkhead Locknut Bulkhead 45° union elbow Triple Lok® / O-Lok® Adaptor Triple Lok® / O-Lok® Swivel Adaptor

parker接头

parker接头

parker接头:为流体传输提供更可靠的连接方式在液压和气动领域,流体传输连接件的重要性毫不言而喻。

为了确保传输的可靠性和稳定性,连接件的选用和设计必须得到高度重视。

Parker Hannifin是一家全球领先的流体传输技术公司,其接头产品在行业内占据重要地位。

本篇文章将对进行介绍和分析,以便更深入地了解这种连接方式,以及其在相关领域的优良表现。

概述是一种高质量的金属管接头产品,可用于液压和气动系统。

它通过将金属管子连接在一起,来传输流体。

这种连接方式比其他连接方式更可靠和耐用。

采用耐高温,耐磨损和耐腐蚀的材料制成,例如不锈钢、铜和铝。

这些优质材料确保了具有长寿命和强度,而且不会因系统内高压或高温而出现故障。

的一大优势是,它可以在高压和高温的情况下保持稳定的连接,从而确保了系统的安全性和稳定性。

此外,Parker提供一系列的接头产品类型,可以满足各种需求。

产品类型Parker Hannifin提供几种不同类型的接头产品,以满足液压和气动系统的不同需求。

以下是主要产品类型的基本介绍:1.管帽接头管帽接头是一种金属管接头,可以让两根金属管子连在一起。

这种接头产品非常适合于连接相对移动的管子。

管帽接头不仅在液压和气动系统中运用广泛,而且在车辆制造、工业生产和石油化工等行业中也有广泛的应用。

2.嵌入式接头嵌入式接头是一种金属接头,适用于安装在液压和气动系统的管子中。

这种接头可以方便地安装在管道内部,从而在系统内部占用空间较少。

嵌入式接头可用于连接不同直径和形状的管子,以适应不同的应用场合。

3.弯头接头弯头接头是一种可以弯曲的金属接头。

这种接头可用于连接两根金属管子并让它们沿着不同的角度弯曲,从而适应各种弯曲和紧凑的空间。

弯头接头也是一种常用的连接方式,能够满足庞大和复杂的液压系统的需求。

4.插入式连接器插入式接头是一种具有高度可靠性和紧凑性的接头方式,它通常用于连接小直径的金属管子和软管。

插入式接头通常采用环状密封设计,以确保连接点的稳定性和密封性。

PARKER_接头基础解析

PARKER_接头基础解析

接头密封 形式
密封形式
• 37°扩口
– 接头体、管套、螺母组成 – 硬管需预先扩口成37° – 在接头体前端和硬管的扩口处形成有效 密(金属-金属) – Triple-Lok接头
接头密封 形式
密封形式
• 45°扩口
– 接头体、螺母组成 – 硬管需预先扩口成45° – 在接头体前端和硬管的扩口处形成有效 密(金属-金属) – Triple-Lok接头
*螺纹是接头的重要部分 *提供机械支持力和密封
接头解析 接头螺纹-特征 牙顶和牙底:
接头解析 接头螺纹-特征
牙侧和牙型角:
接头解析 接头螺纹-特征
牙形角和锥度:
螺纹角度
锥度
接头解析 接头螺纹-特征
螺距:螺纹之间的距离
接头解析 接头螺纹-特征
公制螺纹
常用接头公制螺 纹螺距:1.0mm 、1.5mm、2.0mm
接头基础 知识
接头基础 知识
• • • • 什么是接头? 其功能是什么? 接头解析 螺纹型式 接头密封型式
什么是接头? 其功能是什么?
使用接头的目的:各种流体动力元件间的液 压或气压管路的连接需要各种类型的接头。 把管联接到液压系统上. 接头提供防渗漏密封 和系统的接口
接头解析
油口端&管末端: 接头是一种连接流体动力系统元件的连接件 ,所有的接头除了堵头、堵帽之外,都至少 有两个端口。
– 例:Ferulok, EO :卡套扣咬住(切入)管外壁,形 成密封。
接头密封 形式
密封形式
• 24°扣咬型(切入型) 续
– 例:EO-2: 功能螺母把弹性密封圈、金属 定位环、卡套集合为一体 – 由功能螺母、接头体(可与EO互换)组成 – 弹性密封圈提供密封功能 – 定位环咬住(切入) 接头体(黄铜)、弹性管套、螺母(黄铜) – 螺母挤压管外径上的弹性密封管套,形 成密封 – 应用于高压时,可对管进行扩口

派克扩口式管接头样本Parker JIC Fitting

派克扩口式管接头样本Parker JIC Fitting

Triple-Lok®The universal37° fl ared fi ttingTriple-Lok®Visual indexTube to tubeBulkhead unionTube tomale NPTFTube tomale BSPTTube tomale BSPPTube to straightthread UNFTube tomale metricISO 6149-3Tube tomale metricDIN 3852-1Tube tofemale NPTFHMTX EMTX JMTX KTXp. K9 p. K10 p. K11 p. K14WMTX WEMTX WNTX WJTX WJJTX WLNMp.K15 p.K16 p.K17 p.K18 p.K19 p.K92FMTX CMTXC CTX CCCTX VMTX RMTX SMTXp.K36 p.K51 p.K52 p.K53 p.K59 p.K71 p.K65F3MX C3MX V3MX R3MX S3MXp.K37 p.K54 p.K60 p.K72 p.K66F4OMX F42EDMX C4OMX V4OMX R4OMX S4OMXp.K33 p.K32 p.K49 p.K57 p.K69 p.K63F5OMX FF5OMX C5OMX CC5OX V5OMX R5OMX S5OMX p.K29 p.K31 p.K47 p.K48 p.K56 p.K68 p.K62F87OMX C87OMX V87OMX R87OMX S87OMXp.K28 p.K46 p.K55 p.K67 p.K61F8OMX F82EDMX C8OMX V8OMX R8OMX S8OMXp.K35 p.K34 p.K50 p.K58 p.K70 p.K64GMTX WGMTX DMTX OTX MTX G6Xp.K74 p.K75 p.K76 p.K77 p.K78 p.K79KTriple-Lok ®Triple-Lok®KTriple-Lok ®BTX NutTriple-Lok ® 37° Flare end nut SAE 070110 MS51531Tube Thread Weight O.D. UN/UNF-2B C D L (steel) Triple-Lok ® Triple-Lok ® Triple-Lok ® mm in. T6 in. mm mm g/1 piece Steel Stainless Steel Brass 1/8 5/16-24 3/8 5 14 6 2 BTX-S 2 BTX-SS2 BTX-B 3/16 3/8-24 7/16 6 16 83 BTX-S 3 BTX-SS 3 BTX-B 6 1/4 7/16-20 9/16 8 16 11 4 BTX-S 4 BTX-SS 4 BTX-B 8 5/16 1/2-20 5/8 10 17 145 BTX-S 5 BTX-SS 5 BTX-B 10 3/8 9/16-18 11/16 11 18 18 6 BTX-S 6 BTX-SS 6 BTX-B 12 1/2 3/4-16 7/8 15 22 29 8 BTX-S 8 BTX-SS 8 BTX-B 14, 15, 16 5/8 7/8-14 1 18 25 54 10 BTX-S 10 BTX-SS 10 BTX-B 18, 20 3/4 1 1/16-12 1 1/4 21 26 73 12 BTX-S 12 BTX-SS 12 BTX-B 22 7/8 1 3/16-12 1 3/8 24 28 100 14 BTX-S 14 BTX-SS 14 BTX-B 25 1 1 5/16-12 1 1/2 28 29 104 16 BTX-S 16 BTX-SS 16 BTX-B 28, 30, 32 1 1/4 1 5/8-12 2 34 31 240 20 BTX-S 20 BTX-SS 20 BTX-B 35, 38 1 1/2 1 7/8-12 2 1/4 41 36 325 24 BTX-S 24 BTX-SS 24 BTX-B2 2 1/2-12 2 7/8 55 45 549 32 BTX-S32 BTX-SSOrder codes shown are part of our current manufacturing programme.Triple-Lok®BMTX NutTriple-Lok® 37° Flare end nutSAE 070110Tube Thread WeightO.D. UN/UNF-2B C D L (steel) Triple-Lok® Triple-Lok®Steelpiece Steel Stainless mm in. T6 mm mm mm g/16 1/4 7/16-20 14 8 16 11 4BMTXS 4BMTXSS8 5/16 1/2-20 17 10 17 14 5BMTXS 5BMTXSS10 3/8 9/16-18 19 11 18 18 6BMTXS 6BMTXSS12 1/2 3/4-16 22 15 21 29 8BMTXS 8BMTXSS14, 15, 16 5/8 7/8-14 27 18 25 42 10BMTXS 10BMTXSS 18, 20 3/4 1 1/16-12 32 22 26 73 12BMTXS 12BMTXSS5/16-12 41 28 28 104 16BMTXS 16BMTXSS25 1 128, 30, 32 1 1/4 1 5/8-12 50 34 31 240 20BMTXS 20BMTXSS 35, 38 1 1/2 1 7/8-12 60 41 36 325 24BMTXS 24BMTXSS42 21/4 65 48 40 437 28BMTXS 28BMTXSSOrder codes shown are part of our current manufacturing programme.KTriple-Lok ®Tube WeightO.D. L X (steel) Triple-Lok ® Triple-Lok ® Triple-Lok ®mm mm mm g/1 piece Steel Stainless Steel Brass 6 10 10 2 TXS6 TXSS6 TXB6 8 11 11 2 TXS8 TXSS8 TXB8 10 13 13 2 TXS10 TXSS10 TXB10 12 14 17 7 TXS12 TXSS12 TXB12 14 17 20 13 TXS14 TXSS14 TXB14 15 17 20 10 TXS15 TXSS15 TXB15 16 17 20 7 TXS16 TXSS16 TXB16 18 17 25 16 TXS18 TXSS18 TXB18 20 17 25 12 TXS20 TXSS20 TXB20 22 19 28 25 TXS22 TXSS22 TXB22 25 20 31 21 TXS25 TXSS25 TXB25 28 23 39 40 TXS28 TXSS28 TXB28 30 23 39 45 TXS30 TXSS30 TXB30 32 23 39 30 TXS32 TXSS32 TXB32 35 28 45 60 TXS35 TXSS35 TXB35 38 28 45 51 TXS38 TXSS38 TXB38 422955149TXS42 TXSS42 TXB42Order codes shown are part of our current manufacturing programme.TX SleeveTriple-Lok ® 37° Flare tube end sleeve for metric tubes SAE 070105Triple-Lok ®Tube WeightO.D. L X (steel) T riple-Lok ® Triple-Lok ® Triple-Lok ® in. mm mm g/1 piece Steel Stainless Steel Brass 1/8 9 7 22 TX-S 2 TX-SS 2 TX-B 3/169823 TX-S 3 TX-SS 3 TX-B 1/4 10 10 2 4 TX-S 4 TX-SS 4 TX-B 5/16 11 11 25 TX-S 5 TX-SS 5 TX-B 3/8 13 13 36 TX-S 6 TX-SS 6 TX-B 1/2 14 17 68 TX-S 8 TX-SS 8 TX-B 5/8 17 20 8 10 TX-S 10 TX-SS 10 TX-B 3/4 17 25 13 12 TX-S 12 TX-SS 12 TX-B 7/8 19 28 18 14 TX-S 14 TX-SS 14 TX-B 1 20 31 23 16 TX-S 16 TX-SS 16 TX-B 1 1/4 23 39 30 20 TX-S 20 TX-SS 20 TX-B 1 1/2 28 45 51 24 TX-S 24 TX-SS 24 TX-B 2306115632 TX-S32 TX-SS32 TX-BOrder codes shown are part of our current manufacturing programme.TX SleeveTriple-Lok ® 37° Flare tube sleeve SAE 070105 MS51533KTriple-Lok ®Tube 1 Tube 2 Thread Thread Weight PN (bar)O.D. O.D. UN/UNF-2A UN/UNF-2A C D D1 L1 (steel) Triple-Lok ® Triple-Lok ® Triple-Lok ®mm in. mm in. T1 T2 mm mm mm mm g/1 piece Steel Stainless Steel Brass S SS1/8 1/8 5/16-24 5/16-24 11 2 2 30 9 2 HTX-S 500 —3/16 3/16 3/8-24 3/8-24 11 3 3 31 10 3 HTX-S 500 — 6 1/4 6 1/4 7/16-20 7/16-20 13 4 4 35 16 4HMTXS 4HMTXSS 4HMTXB 500 350 6 1/4 1/8 7/16-20 5/16-24 13 5 2 32 12 4-2 HTX-S 4-2HMTXSS 4-2HMTXB 500 350 6 1/4 3/16 7/16-20 3/8-24 13 5 3 33 14 4-3 HTX-S 4-3HMTXSS 4-3HMTXB 500 350 8 5/16 8 5/16 1/2-20 1/2-20 14 6 6 35 18 5HMTXS 5HMTXSS 5HMTXB 420 350 8 5/16 6 1/4 1/2-20 7/16-20 14 6 5 35 18 5-4 HTX-S 5-4HMTXSS 5-4HMTXB 420 350 10 3/8 10 3/8 9/16-18 9/16-18 17 8 8 36 25 6HMTXS 6HMTXSS 6HMTXB 420 350 10 3/8 6 1/4 9/16-18 7/16-20 17 8 4 36 22 6-4HMTXS 6-4HMTXSS 6-4HMTXB 420 350 10 3/8 8 5/16 9/16-18 1/2-20 17 8 6 36 25 6-5 HTX-S 6-5HMTXSS 6-5HMTXB 420 350 12 1/2 12 1/2 3/4-16 3/4-16 19 10 10 41 52 8HMTXS 8HMTXSS 8HMTXB 420 350 12 1/2 6 1/4 3/4-16 7/16-20 21 10 5 39 45 8-4 HTX-S 8-4HMTXSS 8-4HMTXB 420 350 12 1/2 10 3/8 3/4-16 9/16-18 19 10 8 39 45 8-6HMTXS 8-6HMTXSS 8-6HMTXB 420 350 14, 15,16 5/8 14, 15,16 5/8 7/8-14 7/8-14 24 12 12 48 80 10HMTXS 10HMTXSS 10HMTXB 350 350 14, 15,16 5/8 10 3/8 7/8-14 9/16-18 24 13 8 43 60 10-6HMTXS 10-6HMTXSS 10-6HMTXB 350 350 14, 15,16 5/8 12 1/2 7/8-14 3/4-16 24 12 10 45 68 10-8HMTXS 10-8HMTXSS 10-8HMTXB 350 350 18, 20 3/4 18, 20 3/4 1 1/16-12 1 1/16-12 27 16 16 55 125 12HMTXS 12HMTXSS 12HMTXB 350 350 18, 20 3/4 12 1/2 1 1/16-12 3/4-16 29 16 10 50 101 12-8 HTX-S 12-8HMTXSS 12-8HMTXB 350 350 20 3/4 14, 15,16 5/8 1 1/16-12 7/8-14 29 16 12 52 113 12-10HMTXS 12-10HMTXSS 12-10HMTXB 350 350 22 7/8 22 7/8 1 3/16-12 1 3/16-12 32 18 18 56 156 14 HTX-S 14HMTXSS 14HMTXB 280 280 25 1 25 1 1 5/16-12 1 5/16-12 36 22 22 57 131 16HMTXS 16HMTXSS 16HMTXB 280 280 25 1 20 3/4 1 5/16-12 1 1/16-12 36 22 16 56 169 16-12HMTXS 16-12HMTXSS 16-12HMTXB 280 280 28, 30, 32 1 1/4 28, 30, 32 1 1/4 1 5/8-12 1 5/8-12 46 28 28 62 271 20HMTXS 20HMTXSS 20HMTXB 280 210 28, 30, 32 1 1/4 25 1 1 5/8-12 1 5/16-12 46 28 22 61 235 20-16HMTXS 20-16HMTXSS 20-16HMTXB 280 210 35, 38 1 1/2 35, 38 1 1/2 1 7/8-12 1 7/8-12 50 33 33 70 382 24HMTXS 24HMTXSS 24HMTXB 210 210 42 42 2 1/4-12 2 1/4-12 60 39 39 71 469 28HMTXS 28HMTXSS 28HMTXB 140 150 2 2 2 1/2-12 2 1/2-12 67 45 45 87 785 32 HTX-S 32HMTXSS 32HMTXB 140 150Order codes shown are part of our current manufacturing programme.Imperial and metric parts may vary in hexagon dimensions.PN (bar)= PN (MPa)10Pressure ratings – PN shown, apply to Steel and Stainless Steel versions of the product.For Brass parts reduce pressures by 35%.HMTX UnionTriple-Lok ® 37° Flare ends SAE 070101 MS51501Triple-Lok®EMTX Union elbowTriple-Lok® 37° Flare endsSAE 070201 MS51505(bar) Tube Thread Thread Weight PNY(steel)Triple-Lok® Triple-Lok® Triple-Lok®M1MUN/UNF2-ADD1O.D. UN/UNF-2Amm in. T T1 mm in. mm mm mm g/1 piece Steel Stainless Steel Brass S SS 1/8 5/16-24 5/16-24 2 2 20 20 11 18 2 ETX-S 500—— 3/16 3/8-24 3/8-24 3 3 21 21 11 20 3 ETX-S 500500 3506 1/4 7/16-20 7/16-20 4 4 23 23 11 25 4EMTXS 4EMTXSS 4ETX-B420 350ETX-B8 5/16 1/2-20 1/2-20 6 6 24 24 13 32 5EMTXS 5EMTXSS 5420 35010 3/8 9/16-18 9/16-18 8 8 27 27 14 44 6EMTXS 6EMTXSS 6ETX-B10 3/8 9/16-18 7/16-20 8 4 27 27 14 40 6-4 ETX-S 6-4EMTXSS 6-4 ETX-B 420 350420 350ETX-B12 1/2 3/4-16 3/4-16 10 10 32 32 19 88 8EMTXS 8EMTXSS 812 1/2 3/4-16 3/8-24 10 8 32 29 19 75 8-6 ETX-S 8-6EMTXSS 420 —350 350ETX-B 15,16 5/8 7/8-14 7/8-14 12 12 37 37 22 139 10EMTXS 10EMTXSS 1014,15,16 5/8 7/8-14 3/4-16 12 10 37 34 22 120 10-8 ETX-S 10-8EMTXSS 10-8 ETX-B 350 35014,ETX-B350 3501/16-12 16 16 42 42 27 258 12EMTXS 12EMTXSS 121/16-12 118,20 3/4 11/16-12 3/4-16 16 10 42 46 27 220 12-8 ETX-S 12-8EMTXSS 350 —20 3/4 118,1/16-12 7/8-14 16 12 42 39 27 240 12-10 ETX-S 12-10EMTXSS 350 —20 3/4 118,3/16-12 18 18 44 44 30 273 14 ETX-S 14EMTXSS 280 —22 7/8 13/16-12 1ETX-B280 2805/16-12 22 22 46 46 33 333 16EMTXS 16EMTXSS 165/16-12 125 1 122,5/16-12 11/16-12 22 16 46 45 33 310 16-12 ETX-S 16-12EMTXSS 16-12 ETX-B 280 28025 1 122,ETX-B280 21028, 30, 32 1 1/4 1 5/8-12 1 5/8-12 28 28 52 52 41 586 20EMTXS 20EMTXSS 20210 140ETX-B 35, 38 1 1/2 1 7/8-12 1 7/8-12 33 33 59 59 48 778 24EMTXS 24EMTXSS 24—1/4-12 21/4-12 39 39 74 74 63 1100 28 ETX-S 140 3/4 242 1—1/2-12 45 45 78 78 64 1680 32 ETX-S 1402 21/2-12 2Order codes shown are part of our current manufacturing programme.Imperial and metric parts may vary in hexagon dimensions.PN (bar)= PN (MPa)10Pressure ratings – PN shown, apply to Steel and Stainless Steel versions of the product.For Brass parts reduce pressures by 35%.KKKTX Union crossTriple-Lok® 37° Flare end (four ends)SAE 070501 MS51517Tube Thread Weight PN(bar)Triple-Lok® Triple-Lok® Triple-Lok®(steel)O.D. UN/UNF-2AD M YSSSteel Brass Spiece Steel Stainless mm in. T mm mm mm g/11/4 7/16-20 4 23 11 41 4 KTX-S 4 KTX-SS 4 KTX-B 500 35065/16 1/2-20 6 24 14 50 5 KTX-S 5 KTX-SS 5 KTX-B 420 350810 3/8 9/16-18 8 27 14 68 6 KTX-S 6 KTX-SS 6 KTX-B 420 35012 1/2 3/4-16 10 32 19 144 8 KTX-S 8 KTX-SS 8 KTX-B 420 35014, 15,16 5/8 7/8-14 12 37 22 220 10 KTX-S 10 KTX-SS 10 KTX-B 350 350 18, 20 3/4 1 1/16-12 16 42 27 345 12 KTX-S 12 KTX-SS 12 KTX-B 350 350 5/16-12 22 46 33 588 16 KTX-S 16 KTX-SS 16 KTX-B 280 28025 1 1Order codes shown are part of our current manufacturing programme.Imperial and metric parts may vary in hexagon dimensions.PN (bar)= PN (MPa)10Pressure ratings – PN shown, apply to Steel and Stainless Steel versions of the product.For Brass parts reduce pressures by 35%.KMaximum bulkhead wallthicknessTube O.D. Straight bulkhead unionShape bulkhead unionMax. thicknessMax. thicknessSize inch metric mmmm4 1/4 6 8.4 5.35 5/16 8 8.4 5.3 6 3/8 10 10.7 7.18 1/2 12 11.2 8.4 10 5/8 14–16 10.9 8.1 12 3/4 18–2011.2 8.6 14 7/8 10.4 7.9 16 1 22–25 9.9 7.4 20 1 1/4 28–32 10.2 7.4 24 1 1/235–387.1 — 3227.1—WMTX Bulkhead unionTriple-Lok ® 37° Flare ends SAE 070601 MS51520Tube Thread WeightPN (bar) O.D. UN/UNF-2A C2 D I1 L4 (steel) Triple-Lok ® Triple-Lok ® Triple-Lok ®mm in. T mm mm mm mm g/1 piece Steel Stainless Steel BrassS SS6 1/4 7/16-20 17 4 31 53 41 4WMTXWLNMS 4WMTXWLNMSS 4WMTXWLNMB 500 3508 5/16 1/2-20 19 6 31 53 49 5WMTXWLNMS 5WMTXWLNMSS 5WMTXWLNMB 420 350 10 3/8 9/16-18 22 8 33 55 64 6WMTXWLNMS 6WMTXWLNMSS 6WMTXWLNMB 420 350 12 1/2 3/4-16 24 10 37 62 111 8WMTXWLNMS 8WMTXWLNMSS 8WMTXWLNMB 420 350 14, 15,16 5/8 7/8-14 30 12 40 70 157 10WMTXWLNMS 10WMTXWLNMSS 10WMTXWLNMB 350 350 18, 20 3/4 1 1/16-12 36 16 44 79 254 12WMTXWLNMS 12WMTXWLNMSS 12WMTXWLNMB 350 350 22 7/8 1 3/16-12 38 18 45 80 296 14 WTX-WLN-S 14WMTXWLNMSS 14WMTXWLNMB 280 280 25 1 1 5/16-12 41 22 44 80 337 16WMTXWLNMS 16WMTXWLNMSS 16WMTXWLNMB 280 280 28, 30, 32 1 1/4 1 5/8-12 50 28 46 84 462 20WMTXWLNMS 20WMTXWLNMSS 20WMTXWLNMB 280 210 35, 38 1 1/2 1 7/8-12 55 33 46 89 695 24WMTXWLNMS 24WMTXWLNMSS 24WMTXWLNMB 210 140Order codes shown are part of our current manufacturing programme. Imperial and metric parts may vary in hexagon dimensions.For the version without the locknut remove “WLNM” (e. g. 16WMTX)PN (bar)= PN (MPa)10Pressure ratings – PN shown, apply to Steel and Stainless Steel versions of the product.For Brass parts reduce pressures by 35%.WEMTX Bulkhead union elbowTriple-Lok® 37° Flare endsSAE 070701 MS51507(bar) Tube Thread Weight PNM4YM3(steel) Triple-Lok® Triple-Lok® Triple-Lok®I2C2O.D. UN/UNF-2ADmm in. T mm mm mm mm mm mm g/1 piece Steel Stainless Steel Brass S SS6 1/4 7/16-20 17 4 26 25 40 11 44 4 WETX-WLN-S 4 WETX-WLN-SS 4 WETX-WLN-B 500 3508 5/16 1/2-20 19 6 26 27 44 13 59 5 WETX-WLN-S 5 WETX-WLN-SS 5 WETX-WLN-B 420 35010 3/8 9/16-18 22 8 28 28 46 14 72 6WEMTXWLNMS 6 WETX-WLN-SS 6 WETX-WLN-B 420 35012 1/2 3/4-16 24 10 32 36 54 19 145 8WEMTXWLNMS 8 WETX-WLN-SS 8 WETX-WLN-B 420 350 14,15,16 5/8 7/8-14 30 12 35 40 61 22 212 10WEMTXWLNMS 10 WETX-WLN-SS 10 WETX-WLN-B 350 350 1/16-12 36 16 40 45 68 27 345 12WEMTXWLNMS 12 WETX-WLN-SS 12 WETX-WLN-B 350 35020 3/4 118,3/16-12 38 18 40 49 71 33 370 14 WETX-WLN-S 14 WETX-WLN-SS 280 —22 7/8 15/16-12 41 22 40 49 71 33 474 16 WETX-WLN-S 16 WETX-WLN-SS 280 —25 1 128, 30, 32 1 1/4 1 5/8-12 48 28 41 55 80 41 753 20 WETX-WLN-S 20 WETX-WLN-SS 280 —Order codes shown are part of our current manufacturing programme.Imperial and metric parts may vary in hexagon dimensions.For the version without the locknut remove “WLNM” (e. g. 16WETX)PN (bar)= PN (MPa)10Pressure ratings – PN shown, apply to Steel and Stainless Steel versions of the product.For Brass parts reduce pressures by 35%.Maximum bulkhead wallthicknessTube O.D. Straight bulkhead union Shape bulkhead unionMax. thickness Max. thicknessSize inch metric mm mm4 1/4 6 8.4 5.35 5/16 8 8.4 5.36 3/8 10 10.7 7.18 1/2 12 11.2 8.410 5/8 14–16 10.9 8.112 3/4 18–20 11.2 8.614 7/8 10.4 7.916 1 22–25 9.9 7.41/4 28–32 10.2 7.420 11/2 35–38 7.1 —24 132 2 7.1 —KMaximum bulkhead wallthicknessTube O.D. Straight bulkhead unionShape bulkhead unionMax. thicknessMax. thicknessSize inch metric mmmm4 1/4 6 8.4 5.35 5/16 8 8.4 5.3 6 3/8 10 10.7 7.18 1/2 12 11.2 8.4 10 5/8 14–16 10.9 8.1 12 3/4 18–2011.2 8.6 14 7/8 10.4 7.9 16 1 22–25 9.9 7.4 20 1 1/4 28–32 10.2 7.4 24 1 1/235–387.1 — 3227.1—WNTX 45° Bulkhead union elbowTriple-Lok ® 37° Flare ends SAE 070801 MS51509Tube Thread WeightPN (bar) O.D. UN/UNF-2A C2 D I2 M2 M9 Y (steel) Triple-Lok ® Triple-Lok ®mm in. T mm mm mm mm mm mm g/1 piece Steel Stainless Steel S SS6 1/4 7/16-20 17 4 26 18 39 11 324 WNTX-WLN-S 4 WNTX-WLN-SS 500 350 8 5/16 1/2-20 19 6 26 20 42 14 415 WNTX-WLN-S 420 —10 3/8 9/16-18 21 8 28 21 42 14 48 6 WNTX-WLN-S 6 WNTX-WLN-SS 420 350 12 1/2 3/4-16 25 10 32 25 49 19 105 8 WNTX-WLN-S 8 WNTX-WLN-SS 420 350 14, 15,16 5/8 7/8-14 29 12 35 28 55 22 152 10 WNTX-WLN-S 10 WNTX-WLN-SS 350 350 18, 20 3/4 1 1/16-12 35 16 40 33 62 27 245 12 WNTX-WLN-S 12 WNTX-WLN-SS 350 350 22, 25 1 1 5/16-12 41 22 40 37 65 33 355 16 WNTX-WLN-S 16 WNTX-WLN-SS 280 28028, 30, 321 1/41 5/8-12 48 28 41 40 67 4146520 WNTX-WLN-S280 —Order codes shown are part of our current manufacturing programme.Imperial and metric parts may vary in hexagon dimensions.For the version without the locknut remove “WLN” (e.g. 16 WNTX)PN (bar)= PN (MPa)10Pressure ratings – PN shown, apply to Steel and Stainless Steel versions of the product.Maximum bulkhead wallthicknessTube O.D. Straight bulkhead unionShape bulkhead unionMax. thicknessMax. thicknessSize inch metric mmmm4 1/4 6 8.4 5.35 5/16 8 8.4 5.3 6 3/8 10 10.7 7.18 1/2 12 11.2 8.4 10 5/8 14–16 10.9 8.1 12 3/4 18–2011.2 8.6 14 7/8 10.4 7.9 16 1 22–25 9.9 7.4 20 1 1/4 28–32 10.2 7.4 24 1 1/235–387.1 — 3227.1—WJTX Bulkhead branch teeTriple-Lok ® 37° Flare ends SAE 070959 MS51515Tube Thread WeightPN (bar) O.D. UN/UNF-2A C2 D I2 M3 M4 Y (steel) Triple-Lok ® Triple-Lok ®mm in. T mm mm mm mm mm mm g/1 piece Steel Stainless Steel S SS6 1/4 7/16-20 17 4 26 25 40 11 454 WJTX-WLN-S 4 WJTX-WLN-SS 500 35010 3/8 9/16-18 21 8 28 28 46 14 71 6 WJTX-WLN-S 6 WJTX-WLN-SS 420 350 12 1/2 3/4-16 25 10 32 35 54 19 158 8 WJTX-WLN-S 8 WJTX-WLN-SS 420 350 14, 15,16 5/8 7/8-14 29 12 35 40 61 22 297 10 WJTX-WLN-S 10 WJTX-WLN-SS 350 350 18, 20 3/4 1 1/16-12 35 16 40 45 68 27 379 12 WJTX-WLN-S 12 WJTX-WLN-SS 350 35022, 25 1 1 5/16-12 42 22 40 49 71 33 420 16 WJTX-WLN-S 280 — 28, 30, 321 1/41 5/8-12 48 28 41 55 79 4150020 WJTX-WLN-S280 —Order codes shown are part of our current manufacturing programme.Imperial and metric parts may vary in hexagon dimensions.For the version without the locknut remove “WLN” (e.g. 16 WJTX)PN (bar)= PN (MPa)10Pressure ratings – PN shown, apply to Steel and Stainless Steel versions of the product.KMaximum bulkhead wallthicknessTube O.D. Straight bulkhead unionShape bulkhead unionMax. thicknessMax. thicknessSize inch metric mmmm4 1/4 6 8.4 5.35 5/16 8 8.4 5.3 6 3/8 10 10.7 7.18 1/2 12 11.2 8.4 10 5/8 14–16 10.9 8.1 12 3/4 18–2011.2 8.6 14 7/8 10.4 7.9 16 1 22–25 9.9 7.4 20 1 1/4 28–32 10.2 7.4 24 1 1/235–387.1 — 3227.1—WJJTX Bulkhead run teeTriple-Lok ® 37° Flare ends SAE 070958 MS51516Tube Thread Weight O.D. UN/UNF-2A C2 D I2 M3 M4 Y (steel) Triple-Lok ® PN mm in. T mm mm mm mm mm mm g/1 piece Steel (bar)6 1/4 7/16-20 17 4 26 25 40 11584 WJJTX-WLN-S 50010 3/8 9/16-18 21 8 28 28 46 14756 WJJTX-WLN-S 420 12 1/2 3/4-16 25 10 32 35 54 19 158 8 WJJTX-WLN-S 420 14, 15,16 5/8 7/8-14 29 12 35 40 61 22 309 10 WJJTX-WLN-S 350 18, 20 3/4 1 1/16-12 35 16 40 45 68 27 340 12 WJJTX-WLN-S 350 22, 25 1 1 5/16-12 42 22 40 49 71 36 390 16 WJJTX-WLN-S 280 28, 30, 32 1 1/4 1 5/8-1248 28 41 55 79 4145020 WJJTX-WLN-S280Order codes shown are part of our current manufacturing programme.Imperial and metric parts may vary in hexagon dimensions.For the version without the locknut remove “WLN” (e.g. 16 WJJTX)PN (bar)= PN (MPa)10Tube Thread Thread Weight PN (bar)O.D. UN/UNF-2A UN/UNF-2B C3 D M M5 M10 Y (steel) Triple-Lok ® Triple-Lok ®mm in. T T6 mm mm mm mm mm mm g/1 piece Steel Stainless Steel S SS 3/16 3/8-24 3/8-24 13 3 21 25 16 11273 C6X-S 500 — 6 1/4 7/16-20 7/16-20 16 4 23 25 17 11 37 4C6MXS 4C6MXSS 500 350 8 5/16 1/2-20 1/2-20 17 6 24 27 17 13 43 5C6MXS 5C6MXSS 420 350 10 3/8 9/16-18 9/16-18 19 8 27 32 22 14 54 6C6MXS 6C6MXSS 350 350 12 1/2 3/4-16 3/4-16 22 10 32 35 24 19 105 8C6MXS 8C6MXSS 350 350 14, 15,16 5/8 7/8-14 7/8-14 27 12 37 41 28 22 162 10C6MXS 10C6MXSS 350 350 18, 20 3/4 1 1/16-12 1 1/16-12 32 16 42 44 30 27 260 12C6MXS 12C6MXSS 350 350 22 7/8 1 3/16-12 1 3/16-12 35 18 46 45 34 33 293 14 C6X-S 250 — 25 1 1 5/16-12 1 5/16-12 38 22 46 51 36 33 420 16C6MXS 16C6MXSS 250 250 28, 30, 32 1 1/4 1 5/8-12 1 5/8-12 50 28 52 59 43 41 679 20 C6X-S 20C6MXSS 250 210 35, 38 1 1/2 1 7/8-12 1 7/8-12 57 33 59 66 47 48 747 24 C6X-S 24C6MXSS 170 140 22 1/2-12 2 1/2-12 73 45 78 89 62 6692032 C6X-S 110 —Order codes shown are part of our current manufacturing programme.Imperial and metric parts may vary in hexagon dimensions.PN (bar)= PN (MPa)10Pressure ratings – PN shown, apply to Steel and Stainless Steel versions of the product.C6MX Swivel nut elbowTriple-Lok ® 37° Flare end / Triple-Lok ® 37° Flare female swivel end SAE 070221 MS51521KTube Thread Thread Weight PN (bar) O.D. UN/UNF-2A UN/UNF-2B C3 D M2 M6 M11 Y (steel) Triple-Lok ® Triple-Lok ®mm in. T T6 mm mm mm mm mm mm g/1 piece Steel Stainless Steel S SS 6 1/4 7/16-20 7/16-20 14 4 18 24 15 11 30 4 V6X-S 4 V6X-SS 500 350 8 5/16 1/2-20 1/2-20 16 6 20 25 16 14 45 5 V6X-S 5 V6X-SS 420 350 10 3/8 9/16-18 9/16-18 19 8 21 28 19 14 47 6 V6X-S 6 V6X-SS 350 350 12 1/2 3/4-16 3/4-16 22 10 25 33 22 19 89 8V6MXS 8 V6X-SS 350 350 14, 15,16 5/8 7/8-14 7/8-14 27 12 28 37 24 22 131 10 V6X-S 10 V6X-SS 350 350 18, 20 3/4 1 1/16-12 1 1/16-12 32 16 33 38 24 27 203 12 V6X-S 12 V6X-SS 350 350 22 7/8 1 3/16-12 1 3/16-12 35 18 35 41 28 30 291 14 V6X-S 250 — 25 1 1 5/16-12 1 5/16-12 38 22 37 44 29 33 335 16 V6X-S 16 V6X-SS 250 250 28, 30, 32 1 1/4 1 5/8-12 1 5/8-12 51 27 40 52 36 41 572 20 V6X-S 20 V6X-SS 250 210 35, 38 1 1/2 1 7/8-12 1 7/8-12 57 33 45 58 39 48 715 24 V6X-S 24 V6X-SS 170 140 2 2 1/2-12 2 1/2-12 72 45 56 70 50 66 960 32 V6X-S 32 V6X-SS 110 110Order codes shown are part of our current manufacturing programme.Imperial and metric parts may vary in hexagon dimensions.PN (bar)= PN (MPa)10Pressure ratings – PN shown, apply to Steel and Stainless Steel versions of the product.V6MX 45° Swivel nut elbowTriple-Lok ® 37° Flare end / Triple-Lok ® 37° Flare female swivel endSAE 070321 MS51522Tube Thread Thread Weight PN (bar)O.D. UN/UNF-2A UN/UNF-2B C3 D M M5 M10 Y (steel) Triple-Lok ® Triple-Lok ®mm in. T T6 mm mm mm mm mm mm g/1 piece Steel Stainless Steel S SS 6 1/47/16-20 7/16-20 16 4 23 25 17 11 44 4 S6X-S 4 S6X-SS 500 350 8 5/161/2-20 1/2-20 17 6 24 27 17 13 58 5S6MXS 5 S6X-SS 420 350 10 3/89/16-18 9/16-18 19 8 27 32 22 14 71 6S6MXS 6 S6X-SS 350 350 12 1/23/4-16 3/4-16 22 10 32 35 24 19 133 8S6MXS 8 S6X-SS 350 350 14, 15,16 5/87/8-14 7/8-14 27 12 37 41 28 22 203 10S6MXS 10 S6X-SS 350 350 18, 20 3/41 1/16-12 1 1/16-12 32 16 42 44 30 27 328 12S6MXS 12 S6X-SS 350 350 25 11 5/16-12 1 5/16-12 38 22 46 51 36 33 483 16S6MXS 16 S6X-SS 250 250 28, 30, 32 1 1/41 5/8-12 1 5/8-12 50 28 52 59 43 41 708 20 S6X-S 20 S6X-SS 250 210 35, 38 1 1/2 1 7/8-12 1 7/8-12 57 33 59 68 49 48 1100 24 S6X-S 24 S6X-SS 170 170Order codes shown are part of our current manufacturing programme.Imperial and metric parts may vary in hexagon dimensions.PN (bar) = PN (MPa)10Pressure ratings – PN shown, apply to Steel and Stainless Steel versions of the product.S6MX Swivel nut branch teeTriple-Lok ® 37° Flare ends / Triple-Lok ® 37° Flare female swivel endSAE 070433 MS51524KTube Thread Thread Weight PN (bar) O.D. UN/UNF-2A UN/UNF-2B C3 D M M5 M10 Y (steel) Triple-Lok ® Triple-Lok ®mm in. T T6 mm mm mm mm mm mm g/1 piece Steel Stainless Steel S SS 6 1/4 7/16-20 7/16-20 16 4 23 25 17 11 44 4 R6X-S 4 R6X-SS 500 350 8 5/16 1/2-20 1/2-20 17 6 24 27 17 13 56 5R6MXS 5 R6X-SS 420 350 10 3/8 9/16-18 9/16-18 19 8 27 32 22 14 69 6R6MXS 6 R6X-SS 350 350 12 1/2 3/4-16 3/4-16 22 10 32 35 24 19 136 8R6MXS 8 R6X-SS 350 350 14, 15,16 5/8 7/8-14 7/8-14 27 12 37 41 28 22 207 10R6MXS 10 R6X-SS 350 350 18, 20 3/4 1 1/16-12 1 1/16-12 32 16 42 44 30 27 319 12R6MXS 12 R6X-SS 350 350 22 7/8 1 3/16-12 1 3/16-12 35 18 46 45 34 33 622 14 R6X-S 14 R6X-SS 250 250 25 1 1 5/16-12 1 5/16-12 38 22 46 51 36 33 489 16R6MXS 16 R6X-SS 250 250 28, 30, 32 1 1/4 1 5/8-12 1 5/8-12 50 28 52 59 43 41 712 20R6MXS 20 R6X-SS 250 210 35, 38 1 1/2 1 7/8-12 1 7/8-12 57 33 59 66 47 48 1100 24 R6X-S 24 R6X-SS 170 170Order codes shown are part of our current manufacturing programme.Imperial and metric parts may vary in hexagon dimensions.PN (bar)= PN (MPa)10Pressure ratings – PN shown, apply to Steel and Stainless Steel versions of the product.R6MX Swivel nut run teeTriple-Lok ® 37° Flare ends / Triple-Lok ® 37° Flare female swivel endSAE 070432KKTubeThread Thread Weight PN (bar) O.D.Metric UN/UNF-2A L D C U (steel) Triple-Lok ® Triple-Lok ® mm in. T87 T mm mm mm mm g/1 piece Steel Stainless Steel S SS 6 1/4 M10 × 1.0 7/16-20 30 14 14 9 25 4M10F87OMXS 4M10F87OMXSS 500 350 8 5/16 M10 × 1.0 1/2-20 30 14 14 9 30 5M10F87OMXS 5M10F87OMXSS 420 350 8 5/16 M12 × 1.5 1/2-20 33 14 19 11 37 5M12F87OMXS 5M12F87OMXSS 420 350 8 5/16 M14 × 1.5 1/2-20 34 14 19 11 40 5M14F87OMXS 5M14F87OMXSS 420 350 10 3/8 M14 × 1.5 9/16-18 34 14 19 11 44 6M14F87OMXS 6M14F87OMXSS 420 350 10 3/8 M16 × 1.5 9/16-18 36 14 22 12 53 6M16F87OMXS 6M16F87OMXSS 420 350 10 3/8 M18 × 1.5 9/16-18 37 14 24 13 60 6M18F87OMXS 6M18F87OMXSS 350 350 12 1/2 M14 × 1.5 3/4-16 36 17 19 11 41 8M14F87OMXS 8M14F87OMXSS 420 350 12 1/2 M16 × 1.5 3/4-16 38 17 22 12 57 8M16F87OMXS 8M16F87OMXSS 420 350 12 1/2 M18 × 1.5 3/4-16 39 17 24 13 71 8M18F87OMXS 8M18F87OMXSS 350 350 14, 15,16 5/8 M14 × 1.5 7/8-14 41 19 24 11 73 10M14F87OMXS 10M14F87OMXSS 350 350 14, 15,16 5/8 M18 × 1.5 7/8-14 43 19 24 13 75 10M18F87OMXS 10M18F87OMXSS 350 350 14, 15,16 5/8 M22 × 1.5 7/8-14 44 19 27 13 98 10M22F87OMXS 10M22F87OMXSS 350 350 14, 15,16 5/8 M27 × 2.0 7/8-14 46 19 32 16 75 10M27F87OMXS 10M27F87OMXSS 350 350 18, 20 3/4 M22 × 1.5 1 1/16-12 48 22 27 13 104 12M22F87OMXS 12M22F87OMXSS 350 350 18, 20 3/4 M27 × 2.0 1 1/16-12 51 22 32 16 158 12M27F87OMXS 12M27F87OMXSS 350 350 25 1 M27 × 2.0 1 5/16-12 51 23 36 16 206 16M27F87OMXS 16M27F87OMXSS 280 280 25 1 M33 × 2.0 1 5/16-12 53 23 41 16 273 16M33F87OMXS 16M33F87OMXSS 280 280 28, 30, 32 1 1/4 M42 × 2.0 1 5/8-12 55 24 50 16 431 20M42F87OMXS 20M42F87OMXSS 280 210 35, 38 1 1/2 M48 × 2.0 1 7/8-12 59 28 55 18 564 24M48F87OMXS 24M48F87OMXSS 210 140Steel, stainless steel and brass Triple-Lok ® parts are delivered with NBR elastomeric seals as standard. For more details on other seal materials see page K93.Order codes shown are part of our current manufacturing programme.Imperial and metric parts may vary in hexagon dimensions.PN (bar) = PN (MPa)10Pressure ratings – PN shown, apply to Steel and Stainless Steel versions of the product.F87OMX Male stud connectorTriple-Lok ® 37° Flare end / Male metric thread – O-ring (ISO 6149)KTube Thread Thread Weight PN (bar) O.D. UN/UNF-2A UN/UNF-2A C4 D D2 L5 LL (steel) Triple-Lok ® Triple-Lok ®mm in. T5 T mm mm mm mm mm g/1 piece Steel Stainless Steel S SS 1/8 5/16-24 5/16-24 11 2 2 27 19 8 2 F5OX-S 500 — 3/16 3/8-24 3/8-24 13 3 3 28 20 10 3 F5OX-S 500 — 3/16 5/16-24 3/8-24 13 3 2 28 20 9 3-2 F5OX-S 500 — 6 1/4 7/16-20 7/16-20 14 4 4 31 22 15 4F5OMXS 4F5OMXSS 500 350 6 1/4 3/8-24 7/16-20 14 5 3 30 23 12 4-3 F5OX-S 4-3F5OMXSS 500 350 6 1/4 1/2-20 7/16-20 16 4 6 31 22 25 4-5 F5OX-S 4-5F5OMXSS 420 350 6 1/4 9/16-18 7/16-20 17 4 4 33 23 27 4-6F5OMXS 4-6F5OMXSS 420 350 6 1/4 3/4-16 7/16-20 22 4 10 35 24 35 4-8 F5OX-S 4-8F5OMXSS 420 350 6 1/4 7/8-14 7/16-20 25 5 5 38 25 60 4-10 F5OX-S 4-10F5OMXSS 350 350 8 5/16 1/2-20 1/2-20 16 6 6 31 22 18 5F5OMXS 5F5OMXSS 420 350 8 5/16 7/16-20 1/2-20 14 6 5 31 22 18 5-4 F5OX-S 5-4F5OMXSS 420 350 8 5/16 9/16-18 1/2-20 17 6 6 33 23 25 5-6 F5OX-S 5-6F5OMXSS 420 350 8 5/16 3/4-16 1/2-20 22 6 6 35 24 40 5-8 F5OX-S 5-8F5OMXSS 420 350 10 3/8 9/16-18 9/16-18 17 8 8 33 23 25 6F5OMXS 6F5OMXSS 420 350 10 3/8 7/16-20 9/16-18 16 8 4 32 23 40 6-4 F5OX-S 6-4F5OMXSS 420 350 10 3/8 1/2-20 9/16-18 16 8 6 32 23 56 6-5 F5OX-S 6-5F5OMXSS 420 350 10 3/8 3/4-16 9/16-18 22 8 8 35 24 44 6-8F5OMXS 6-8F5OMXSS 420 350 10 3/8 7/8-14 9/16-18 25 8 12 38 25 85 6-10 F5OX-S 6-10F5OMXSS 350 350 10 3/8 1 1/16-12 9/16-18 32 8 16 42 27 100 6-12 F5OX-S 6-12F5OMXSS 350 350 12 1/2 3/4-16 3/4-16 22 10 10 38 27 58 8F5OMXS 8F5OMXSS 420 350 12 1/2 7/16-20 3/4-16 21 10 5 38 29 40 8-4 F5OX-S 8-4F5OMXSS 420 350 12 1/2 9/16-18 3/4-16 19 10 10 37 27 44 8-6F5OMXS 8-6F5OMXSS 420 350 12 1/2 7/8-14 3/4-16 27 10 10 41 28 73 8-10F5OMXS 8-10F5OMXSS 350 350 12 1/2 1 1/16-12 3/4-16 32 10 10 45 30 126 8-12F5OMXS 8-12F5OMXSS 350 350 12 1/2 1 5/16-12 3/4-16 41 10 10 45 30 160 8-16 F5OX-S 8-16F5OMXSS 310 310 14, 15,16 5/8 7/8-14 7/8-14 27 12 12 43 31 75 10F5OMXS 10F5OMXSS 350 350 14, 15,16 5/8 9/16-18 7/8-14 18 13 8 43 34 60 10-6 F5OX-S 10-6F5OMXSS 350 350 14, 15,16 5/8 3/4-16 7/8-14 24 12 10 42 31 65 10-8F5OMXS 10-8F5OMXSS 350 350 14, 15,16 5/8 1 1/16-12 7/8-14 32 12 12 47 32 132 10-12F5OMXS 10-12F5OMXSS 350 350 14, 15,16 5/8 1 5/16-12 7/8-14 41 13 13 48 33 170 10-16 F5OX-S 10-16F5OMXSS 310 310 18, 20 3/4 1 1/16-12 1 1/16-12 32 16 16 50 35 134 12F5OMXS 12F5OMXSS 350 350 18, 20 3/4 3/4-16 1 1/16-12 29 16 10 49 38 104 12-8 F5OX-S 12-8F5OMXSS 350 350 18, 20 3/4 7/8-14 1 1/16-12 27 16 12 48 35 108 12-10F5OMXS 12-10F5OMXSS 350 350 18, 20 3/4 1 3/16-12 1 1/16-12 35 16 16 50 35 170 12-14 F5OX-S 12-14F5OMXSS 310 310 18, 20 3/4 1 5/16-12 1 1/16-12 38 16 16 51 35 197 12-16F5OMXS 12-16F5OMXSS 310 310 18, 20 3/4 1 5/8-12 1 1/16-12 48 16 16 53 38 230 12-20 F5OX-S 12-20F5OMXSS 280 280 22 7/8 1 3/16-12 1 3/16-12 35 18 18 51 36 174 14 F5OX-S 14F5OMXSS 280 280 22 7/8 1 5/16-12 1 3/16-12 38 18 22 51 36 223 14-16 F5OX-S 14-16F5OMXSS 280 280 25 1 1 5/16-12 1 5/16-12 38 22 22 52 37 203 16F5OMXS 16F5OMXSS 280 280 25 1 3/4-16 1 5/16-12 35 22 10 45 34 160 16-8 F5OX-S 16-8F5OMXSS 280 280Continued on page K30F5OMX Male stud connectorTriple-Lok ® 37° Flare end / Male UN/UNF thread – O-ring (ISO 11926)SAE 070120 MS51525。

Parker插装阀样本-逻辑阀LEsection

Parker插装阀样本-逻辑阀LEsection

Catalog HY15-3502/USLogic Elements ContentsParker Hannifin CorporationSERIES CAVITY DESCRIPTION FLOW PRESSURE PAGE NO.LPM/GPM BAR/PSIPOPPET TYPE10SLC1-A.........C10-3S........Normally Closed, Pilot to Close.......................57/15......240/3500......................LE7 16SLC1-A.........C16-3S........Normally Closed, Pilot to Close.....................189/50......240/3500......................LE8 20SLC1-A.........C20-3S........Normally Closed, Pilot to Close.....................303/80......240/3500......................LE916SLC1-C.........C16-3S........Normally Closed, Vent to Open.....................189/50......240/3500....................LE10SPOOL TYPE10SLC2-A.........C10-3S........Normally Closed, Pilot to Close.......................57/15......240/3500....................LE11 16SLC2-A.........C16-3S........Normally Closed, Pilot to Close.....................189/50......240/3500....................LE12 20SLC2-A.........C20-3S........Normally Closed, Pilot to Close.....................303/80......240/3500....................LE13R04E3...............C10-3S........Normally Closed, Pilot to Close.....................170/45......420/6000....................LE14 R06E3...............C16-3S........Normally Closed, Pilot to Close..................400/106......420/6000....................LE15 R08E3...............C20-3S........Normally Closed, Pilot to Close..................500/132......420/6000....................LE1610SLC2-B.........C10-3S........Normally Closed, Vent to Open.......................57/15......240/3500....................LE17 16SLC2-B.........C16-3S........Normally Closed, Vent to Open.....................189/50......240/3500....................LE18 20SLC2-B.........C20-3S........Normally Closed, Vent to Open.....................303/80......240/3500....................LE19R04F3...............C10-3S........Normally Closed, Vent to Open.....................170/45......420/6000....................LE20 R06F3...............C16-3S........Normally Closed, Vent to Open..................400/106......420/6000....................LE21 R08F3...............C20-3S........Normally Closed, Vent to Open..................500/132......420/6000....................LE2210SLC3-A.........C10-3S........Normally Open, Vent to Close.........................57/15......240/3500....................LE23 16SLC3-A.........C16-3S........Normally Open, Vent to Close.......................189/50......240/3500....................LE24R04H3..............C10-3S........Normally Open, Vent to Close.........................57/15......420/6000....................LE25 R06H3..............C16-3S........Normally Open, Vent to Close.......................160/42......420/6000....................LE2610SLC3-B.........C10-3S........Normally Open, Vent to Close.........................57/15......240/3500....................LE27 16SLC3-B.........C16-3S........Normally Open, Vent to Close.......................189/50......240/3500....................LE28R04G3..............C10-3S........Normally Open, Vent to Close.........................57/15......420/6000....................LE29 R06G3..............C16-3S........Normally Open, Vent to Close.......................160/42......420/6000....................LE30LE1Logic ElementsCatalog HY15-3502/USTechnical TipsParker Hannifin CorporationCatalog HY15-3502/USLogic Elements Technical TipsParker Hannifin CorporationLE2LE3Logic ElementsCatalog HY15-3502/USTechnical TipsParker Hannifin CorporationCatalog HY15-3502/USLogic Elements Technical TipsParker Hannifin CorporationLE4LE5Logic ElementsCatalog HY15-3502/USTechnical TipsParker Hannifin CorporationDIRECTIONAL CONTROL EXAMPLESTHREE-WAY BRIDGE CIRCUITS Circuit 1, with **SLC1A poppet logic element.Circuit 2, with **SLC2A/R0*E3spool logic element.Circuit 3, with **SLC2A/R0*E3spool logic element.NOTE: Pilot pressure must exceed load pressure in order for valve to close.FOUR-WAY BRIDGE CIRCUITSCircuit 1, with **SLC1A poppet logic elements.Circuit 2, with **SLC2A/R0*E3 spool logic elements.Required Flow PathPilot Pressure Applied To PA PB 123Available From CircuitNONOXXYESNO X X XRequired Flow PathPilot Pressure Applied To PA PB 123Available From CircuitNOYESXXNO YES X XPilot Pressure Applied To P1P2P3P4P5Required Flow PathPilot Pressure Applied To P1P2P3P4P5Required Flow PathPilot Pressure Applied To P1P2P3P4P5Required Flow PathYES YES YES YES YESNO NO NO NO NOYES YESNO NO NONONO YES YES NOYES YES YES YESNOYESNONOYES YESNO YES YES NO YESYES YES NO YES YESNO YES YES YES YESNO YES NO YES YESYESNOYESNOYESYES YES YES NO YESYES NO YES YES YESP APBBACBAP APB CPB BP A ACABC ABCABC ABCPP5TP1P2A P3BP4P2A P1PP5TP4BP3ABP T ABPTABP T ABPTABP T ABP T ABP T ABP T ABP T ABPTABP T ABP T ABP T NOTE: Pilot pressure must exceed load pressure in order for valve to close.Catalog HY15-3502/USLogic Elements Technical TipsParker Hannifin CorporationLE6LE7Catalog HY15-3502/USPoppet Type Logic Valve Series 10SLC1-AParker Hannifin CorporationTechnical Information(3)Poppet Type Logic ValveSeries 16SLC1-A Catalog HY15-3502/USParker Hannifin CorporationTechnical Information(3)(2)LE8LE9Catalog HY15-3502/USPoppet Type Logic Valve Series 20SLC1-AParker Hannifin CorporationTechnical Information(1)(3)(2)Poppet Type Logic ValveSeries 16SLC1-C Catalog HY15-3502/USParker Hannifin CorporationTechnical Information(3)(2)LE10LE11Catalog HY15-3502/USSpool Type Logic Valve Series 10SLC2-AParker Hannifin CorporationTechnical InformationSpool Type Logic ValveSeries 16SLC2-A Catalog HY15-3502/USParker Hannifin CorporationTechnical Information(1)(3) (2)LE12LE13Catalog HY15-3502/USSpool Type Logic Valve Series 20SLC2-AParker Hannifin CorporationTechnical InformationSpool Type Logic ValveSeries R04E3Catalog HY15-3502/USParker Hannifin CorporationTechnical InformationLE14LE15Catalog HY15-3502/USSpool Type Logic Valve Series R06E3Parker Hannifin CorporationTechnical InformationSpool Type Logic ValveSeries R08E3Catalog HY15-3502/USParker Hannifin CorporationTechnical InformationLE16LE17Catalog HY15-3502/USSpool Type Logic Valve Series 10SLC2-BParker Hannifin CorporationTechnical Information(1)(3) (2)LE18Parker Hannifin CorporationLE19Parker Hannifin CorporationSeries R04F3Parker Hannifin CorporationTechnical InformationLE20LE21Parker Hannifin CorporationSeries R08F3Parker Hannifin CorporationTechnical InformationLE22LE23Parker Hannifin CorporationSeries 16SLC3-AParker Hannifin CorporationTechnical Information(2)(3) (1)LE24LE25Parker Hannifin CorporationSeries R06H3Parker Hannifin CorporationTechnical InformationLE26LE27Parker Hannifin CorporationLE28Series 16SLC3-BParker Hannifin CorporationTechnical Information (2)(3)(1)LE29Parker Hannifin CorporationLE30Spool Type Logic Valve Series R06G3Catalog HY15-3502/USParker Hannifin CorporationHydraulic Cartridge SystemsTechnical Information。

派克接头加工尺寸及标准(英文版)

派克接头加工尺寸及标准(英文版)

Technical HandbookAb-28German DIN Hose Fittings (DIN – Deutsches Institut für Normung)Often referred to as metric fittings these fittings seal using the angled sealing surfaces (metal to metal) or the combination of metal to metal with O-rings.They are available in very light (LL), light series (L) or heavy series (S)The sealing face angles are either 24° with or without O-rings, or 24°/60° universal cones.Identification is made by measuring the thread size and also the tube outside diameter.Defined by the outside diameter and the pitch (distance between 2 crests of the thread)example: M22x1.5 - pitch of 1,5mmDIN Very Light Series (LL)The male 60° cone will mate with the female 60° cone only.The male has a 60° sealing angle (seat) and straight metric thread. The female has a 60° seat and straight metric thread.StandardDIN 20078 Part 3 1)Parker end configurations C0DIN Light (L) and Heavy Series (S) without O-ringThe male 60° cone will mate with the female universal 24° or 60° cone only.The male has a 60° sealing angle (seat) and straight metric threads. The female has a 24° and 60° universal seat and straight metric threads.StandardDIN 20078 Part 2 1)(previously known as DIN 20078 A, D & E)Parker end configurations light series: C3, C4, C5, C6(Often also referred to as “Ball nose cones”)without O-ringEuropean Thread T ypes German DIN Hose Fittings1)obsolete standard, no exact replacementCatalogue 4400/UKfittings seal through the thread interface mechanism. Care should be taken not to confuse the BSPT fitting with the NPTF male fitting. BSPT has a 55° thread angle. NPTFThese fittings have BSP parallel threads but the sealing surface is flat. The seal is made when the composite seal is compressedSEE 0ARKER ADAPTERS RANGE3IZE "30 ! " " MM"30 ! " MM MM 4UBE "30 FEMALE SWIVEL mAT SEAT 0ARKER END CONlGURATIONS " " " 4UBETechnical HandbookFrench Metric 24° Cone Gas FittingsTypical to the French market the French Gas fittings have a 24° sealing surfaces seat with metric straight threads. Although similar to German DIN fittings the threads differ in some sizes as the French Gas fittings have fine threads in all sizes whereas the German DIN fittings use standard threads in the larger sizes.The sealing mechanism is metal to metal.European Thread T ypesFrench Gas fittingsTechnical HandbookStandardSAE J516Parker end configuration01North American Thread T ypesNPTF / SAE JIC 37°This type of fitting uses the thread interfaceto seal and as such has a tapered threadthat deforms and forms the seal.They have 30° sealing angle surfaces,forming a 60° inverted (concave) seat.The fittings are most frequently seen onmachines of US origin.The NPTF male will mate with the NPTF,NPSF, or NPSM females.Care should be taken not to confuse theNPTF fitting with the BSPT male fitting.NPTF fittings have a 60° thread angle.BSPT has a 55° thread angle.ØA dimension is measuredon the 4th pitch of the thread SAE JIC 37°TH PITCH OF THE THREADDryseal American Standard Taper Pipe Thread (NPTF)0ARKER END CONlGURATIONS 6Code 61 and Code 620RESSURE R -0A 03)North American Thread T ypes / Japanese Fittings4-Bolt Split Flange / JIS。

Parker派克样本PVP Series Piston Pumps

Parker派克样本PVP Series Piston Pumps

Piston PumpsCatalog HY28-2662-CD/US Revised June, 2012Quick Reference Data ChartDisplacement Pump Delivery† Approx. Noise Levels dB(A)Input Power AtOperating PressurePumpcc/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)3000248 (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)3000248 (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)3000248 (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)2800248 (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)2400248 (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.Features•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 Torque (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.Control OptionsBARRELPressure 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 controlled port 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.Control OptionsCatalog HY28-2662-CD/USFlow 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 compensatorspool 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.Variable Volume Piston PumpsSeries PVPControl OptionsPORTCatalog HY28-2662-CD/USPressure & Power Control (H)This control option is a T orque 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 compensator differential 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.Variable Volume Piston Pumps Series PVPControl OptionsCatalog HY28-2662-CD/USPressure, Power & Flow Control (C)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.Variable Volume Piston Pumps Series PVPControl OptionsCatalog HY28-2662-CD/USHi/Lo Power Control (HLM)(Available with PVP41 and PVP48 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.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 CharacteristicsVariable Volume Piston Pumps Series PVPControl OptionsPVP SERIESPRESSURE & POWER COMPENSATORCONTROL OPTION "HLM"Performance InformationSeries PVP16 Pressure Compensated,Variable Volume, Piston PumpFeatures•High Strength Cast-Iron Housing for Reliability and Quiet Operation•Optional Inlet/Outlet Locations for Ease of Installation•Replaceable Bronze Port Plate •Replaceable Piston Slipper Plate•Thru-Shaft Capability SAE A Pilots Offered •Low Noise Levels - Promote More Comfortable Operating Environment •Fast Response Times•Metric Pilot Shaft and Ports AvailableControls•Pressure Compensation•Remote Pressure Compensation •Load Sensing•Torque (Power) Limiting•Adjustable Maximum Volume Stop •Low Pressure StandbySchematic Symbol(Basic Pump)Quick Reference Data ChartDisplacementPump Delivery † Approx. Noise Levels dB(A)Input Power At Pump cc/rev @ 21 bar (300 PSI)@ Full Flow 1800 RPM (1200 RPM)1800 RPM, Max.Model (In 3/rev)in LPM (GPM)34 bar 69 bar 138 bar 207 bar 248 bar Displacement &1200 RPM 1800 RPM (500 PSI)(1000 PSI)(2000 PSI)(3000 PSI)(3600 PSI)248 bar (3600 PSI)PVP1616.4 (1.0)19.7 (5.2)29.5 (7.8)53 (47)55 (50)59 (54)62 (56)65 (59)13.1 kw (17.5 hp)†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 that the above readings will be equal to those in the field. The above values are for guidance in selecting the proper pump.SpecificationsPressure Ratings Outlet Port:248 bar (3600 PSI) Continuous (P1)310 bar (4500 PSI) Peak (P3)Inlet Port:1.72 bar (25 PSI) Maximum.17 bar (5 In. Hg.) Vacuum Minimum @ 1800 RPM (See inlet chart for other speeds)Speed Ratings:600 to 3000 RPMOperating Temperature Range:– 40°C to 71°C(– 40°F to 160°F)Housing Material:Cast-Iron Filtration:Maintain SAE Class 4,Mounting:SAE “A” or Metric 2-Bolt Flange MountInstallation Data:See page 42 of this catalog for specific recommendations pertaining to system cleanliness, fluids, start-up, inlet conditions, shaft alignment, drain line restrictions and other important factors relative to the proper installation and use of these pumps.*Available with CW rotation only.NOTE: The efficiencies and data in the graph are nominal values and good only for pumps running at 1800 RPM and stroked to maximum. To calculate approximate horsepower for the other conditions, use the following formula:Actual GPM is directly proportional to drive speed and maximum volume setting. Flow loss, however, is a function of pressure only.HP = Q x (PSI) + (CHp)1714[ ]WHERE:Q =Actual Output Flow in GPM PSI =Pressure At Pump OutletCHp =Input Horsepower @ Full Compensation @ 1800RPM(from graph read at operating pressure)45678910100908070F l o wE f f i c i e n c y - %P o w e rPVP16 @ 1200 RPM021315.118.922.726.530.334.137.907.63.811.400Bar PSI 691000138200020730002754000Pressure LPM 03.06.08.911.914.904.08.012.016.020.0HP KW 4567891010090807060F l o wE f f i c i e n c y - %P o w e rPVP16 @ 1800 RPM021315.118.922.726.530.334.137.907.63.811.400Bar PSI 691000138200020730002754000PressureLPM 03.06.08.911.914.904.08.012.016.020.0HP KW12.015.0O u t l e t F l o w @ M a x . D i s p l a c e m e n tFlow vs. Speed010002000300050015002500Shaft Speed - RPM6.03.09.045.557.8022.711.434.1GPM LPM PVP16Inlet Characteristics at Full Displacement(Graph only valid at sea level)10001500500200025003000Shaft Speed - RPMV a c u u mI n l e t P r e s s u r e 6.414.282.14PSI bar 005.1710.3415.5120.68barPower ControlFull Flo w TorquePSI 1000200030004000PressureF l o wT o r q u e012.424.837.049.561.9011022033044055074.3660In-LbsN·mFull Flo w TorquePSI 1000200030004000PressureF l o wT o r q u e09.018.027.036.045.008016024032040054.048063.056072.0640In-LbsN·m T i m e (m i l l i s e c )PVP16 @ 1200 RPM00Bar PSI 691000138200020730002754000Pressure 100125150200T i m e (m i l l i s e c )PVP16 @ 1800 RPM50257500Bar PSI 691000138200020730002754000PressurePVP16Compensated Power@ 1800 RPM00Bar PSI 691000138200020730002754000Pressure2.02.53.0P o w e r01.0.51.51.51.92.20.75.371.1HPKW PVP16Approximate Case Drain Flow@ 1800 RPM 00Bar PSI 691000138200020730002754000Pressure .4.5.6F l o w0.2.1.31.51.92.30.8.41.1GPMLPM Response TimesRear Ported Pump Dimensions* Inch equivalents for millimeter dimensions are shown in (**).NOTE:Illustration shows Righthand (CW) rotation pump. Lefthand (CCW)pumps will have inlet and outlet ports reversed with compensator on outlet side.STRAIGHT THREAD O-RING PORT (9/16-18 UNF-2B)(INCLUDED IN “5” OPTION ONL Y)ADJ. MAX. VOLUME STOP (1.6 CC/REV/TURN)“OPTION 2”Front ViewPilot DimensionsPilot A C D Option OMIT N/A 32.00173.23(1.26)(6.82)538.1028.44144.53(1.50)(1.12)(6.44)FLAADJ. MAX.VOLUME STOP(1.6 CC/REV/TURN)“OPTION 2”Rear View Front ViewSide Ported – Options 2 & 4 Dimensions* Inch equivalents for millimeter dimensions are shown in (**).NOTE:Illustration shows Righthand (CW) rotation pump. Lefthand (CCW) pumps will have inlet and outlet ports reversed with compensator on outlet side.Port Size Type and LocationOption A Inlet and Outlet Ports Drain Port 148.843/4" SAE 4-Bolt FlangeSAE-6 Straight Thread 2(5.86)3/8-16 Thread(9/16-18UNC)Std PSI Series (Code 61)4152.40SAE-16 Straight Thread SAE-6 Straight Thread(6.00)(1-5/16-12UN-2B)(9/16-18UNC)Dimensional DataPilot DimensionsShaft A B C D Option Omit 82.55/82.50 6.1053.09ø 3/8"B, C ø (3.250/3.248)(.24)(2.09)K80.00/79.957.2455.63ø 10mmø(3.149/3.147)(.285)(2.19)Side Ported – Options 8 & 9 Dimensions* Inch equivalents for millimeter dimensions are shown in (**).NOTE:Illustration shows Righthand (CW) rotation pump.ADJ. MAX.VOLUME STOP (1.6 CC/REV/TURN)“OPTION 2”Side ViewThru-Shaft Pump Dimensions* Inch equivalents for millimeter dimensions are shown in (**).NOTES:1.Righthand (CW) rotation pump shown above.Counterclockwise (CCW) pump will have inlet and outlet ports reversed with the compensator over the outlet port.2.Splined shaft (option “B”) not recommended withThru-Shaft pumps.3.The maximum torque transmitting capacity for rearmounting of pumps is limited by the allowable torque of the input shaft.4.Options 6A4 and 9A4 Design Series 12 have a gasket.All other options incorporate an o-ring seal and have an o-ring groove.Port Size Type and LocationOption A Inlet and Outlet Ports Drain Port 148.843/4" SAE 4-Bolt FlangeSAE-6 Straight Thread2(5.86)3/8-16 Thread(9/16-18UNC)Std PSI Series (Code 61)4152.40SAE-16 Straight Thread SAE-6 Straight Thread(6.00)(1-5/16-12UN-2B)(9/16-18UNC)148.843/4" SAE 4-Bolt FlangeISO 6149-68(5.86)M10 ThreadM16 x 1.50Std PSI Series (Code 61)148.843/4" SAE 4-Bolt Flange9(5.86)M10 Thread3/8" - BSPPStd PSI Series (Code 61)Dimensions – Thru Shaft OptionsVARIATIONH GFE DC 6A453.19 (2.09)82.58/82.60 (3.251/3.252)N/A 3/8–16UNC–2B 9 T ooth 16/32 Pitch207.26 (8.16)9A453.19 (2.09)82.58/82.60 (3.251/3.252)N/AM10 x 1.509 T ooth 16/32 Pitch207.26 (8.16)Remote Compensator Control Pump Dimensions* Inch equivalents for millimeter dimensions are shown in (**).NOTES:1.Righthand (CW) rotation pump shown below. Lefthand (CCW) pumps will have compensator on opposite side.2.When controlling pump compensator pressure with remote relief valve, remote relief valve must be capable of passing 1.89 LPM (.5 GPM).3.Remote compensator option “M”, “ME” & “A” available on pumps with any port location.PUMPSISO 6149-4“9” OPTION1/4"TEDC L Side View Front ViewDimensional DataDimensional DataPower (Torque) Control Pump Dimensions* Inch equivalents for millimeter dimensions are shown in (**).NOTES:1.Righthand (CW) rotation rear ported pump shown. Counterclockwise (CCW)pumps will have inlet and outlet ports reversed with compensator and powerblock on outlet side.2.Power control shown on rear ported pump. Also available on side ported or thru-shaft option pumps.Side View Front ViewPerformance InformationSeries PVP 23/33 Pressure Compensated, Variable Volume, Piston PumpsFeatures•High Strength Cast-Iron Housing for Reliability and Quiet Operation•Optional Inlet/Outlet Locations for Ease of Installation•Replaceable Bronze Port Plate •Replaceable Piston Slipper Plate•Thru-Shaft Capability SAE A andB Pilots Offered•Low Noise Levels•Fast Response Times•Metric Pilot Shaft and Ports AvailableControls•Pressure Compensation •Remote Pressure Compensation •Load Sensing•Torque (Power) Limiting •Adjustable Maximum Volume Stop •Low Pressure StandbySchematic Symbol(Basic Pump)SpecificationsPressure RatingsOutlet Port:248 bar (3600 PSI) Continuous (P1)310 bar (4500 PSI) Peak (P3)Inlet Port: 1.72 bar (25 PSI) Maximum.17 bar (5 In. Hg.) Vacuum Minimum@ 1800 RPM (See inlet chart forother speeds)Speed Ratings:600 to 3000 RPMOperating T emperature Range:–40°C to 71°C(–40°F to 160°F) Housing Material: Cast-IronFiltration:Maintain SAE Class 4,ISO 16/13,ISO 18/15 MaximumMounting:SAE “B” or Metric 2-BoltFlange MountInstallation Data:See page 42 of this catalog for specific recommendations pertaining to system cleanliness, fluids, start-up, inlet conditions, shaft alignment, drain line restrictions and other important factors relative to the proper installation and use ofthese pumps. Quick Reference Data ChartDisplacement Pump Delivery† Approx. Noise Levels dB(A)Input Power AtPumpcc/rev @ 21 bar (300 PSI)@ Full Flow 1800 RPM (1200 RPM)1800 RPM, Max.Model(In3/rev)in LPM (GPM)34 bar69 bar138 bar207 bar248 bar Displacement & 1200 RPM1800 RPM(500 PSI)(1000 PSI)(2000 PSI)(3000 PSI)(3600 PSI)248 bar (3600 PSI)PVP2323.0 (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) PVP3333.0 (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)†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.81012141618201009080706050F l o wE f f i c i e n c y - %P o w e rPVP23 @ 1800 RPM042630.337.945.453.060.668.275.7015.17.622.700Bar PSI 691000138200020730002754000PressureLPM 03.06.08.911.914.904.08.012.016.020.017.920.923.924.028.032.0HP KW HP = Q x (PSI) + (CHp)[ ]NOTE: The efficiencies and data in the graph are good only for pumps running at 1800 RPM and stroked to maximum. To calculate approximate horsepower for the other conditions,use the following formula:Actual GPM is directly proportional to drive speed and maximum volume setting. Flow loss, however, is a function of pressure only.WHERE:Q =Actual Output Flow in GPM PSI =Pressure At Pump OutletCHp =Input Horsepower @ Full Compensation @ 1800RPM (from graph read at operating pressure)81012141618201009080706050F l o wE f f i c i e n c y - %P o w e rPVP33 @ 1800 RPM042630.337.945.453.060.668.275.7015.17.622.700Bar PSI 691000138200020730002754000PressureLPM 06.011.917.923.929.808.016.024.032.040.0HP KWFlow vs. Speed10002000300050015002500Shaft Speed - RPM16.028.0Ou t l e t F l o w @ M a x . D i s p l a c e m e n t08.04.012.060.6106.0030.315.245.524.020.090.875.7GPM LPM PVP 23/33Inlet Characteristics at Full Displacement(Graph only valid at sea level)10001500500200025003000Shaft Speed - RPMV a c u u mI n l e t P r e s s u r e 6.414.282.14PSI bar 005.1710.3415.5120.68barPVP23 @ 1800 RPM00Bar PSI 691000138200020730002754000Pressure81012F l o wT o r q u e42630.337.945.4015.17.622.7019.739.459.178.898.40175350525700875118.11050GPM LPM In-Lbs N·m Power ControlPVP33 @ 1800 RPM00Bar PSI 691000138200020730002754000Pressure81016F l o wT o r q u e42630.337.960.61453.01245.415.17.622.7019.739.459.178.898.40175350525700875157.51400137.81225118.11050GPM LPM In-Lbs N·mResponse Times80100120T i m e (m i l l i s e c )PVP 23/33 @ 1200 RPM40206000Bar PSI 691000138200020730002754000Pressure 80100120T i m e (m i l l i s e c )PVP 23/33 @ 1800 RPM40206000Bar PSI 691000138200020730002754000PressurePVP 23/33Approximate Case Drain Flow@ 1800 RPM00Bar PSI 691000138200020730002754000.4.5.6F l o w.2.1.31.51.92.3.7.82.73.00.8.41.1.93.4GPMLPM PVP 23/33Compensated Power@ 1800 RPM00Bar PSI 6910001382000207300027540002.02.53.0P o w e r01.0.51.51.51.92.20.75.371.13.54.02.63.0HP KWRear Ported Pump Dimensions* Inch equivalents for millimeter dimensions are shown in (**).NOTES:1.Righthand (CW) rotation pump shown. Lefthand (CCW) pumps have inlet and outlet ports reversed.2.Pump shown with standard pressure compensator (control option “omit”)..)Side Ported – Options 2 & 3 Dimensions* Inch equivalents for millimeter dimensions are shown in (**).NOTES:1.Righthand (CW) rotation pump shown. Lefthand (CCW) pumps have inletand outlet ports reversed.2.Pump shown with standard pressure compensator (control option “omit”).Port LocationOption A Inlet and Outlet Port148.841-1/4" SAE 4-Bolt Flange 2(3.10)7/16-14 Threads StandardPressure Series (Code 61) 3152.40SAE-20 Straight Thread(3.22)(1-5/8-12UN-2B)Side Ported – Options 8 & 9 Dimensions* Inch equivalents for millimeter dimensions are shown in (**).NOTES:1.Righthand (CW) rotation pump shown.2.Pump shown with standard pressure compensator (control option “omit”).Pilot DimensionsShaft A B C D Option Omit 101.60/101.559.4072.90ø 12.70B, C, D (4.000/3.998)(.37)(2.87)(.50)K100.00/99.959.1469.85ø 12mm(3.937/3.935)(.36)(2.75)Top View Side View Rear ViewThru-Shaft Pump Dimensions* Inch equivalents for millimeter dimensions are shown in (**).NOTES:1.Righthand (CW) rotation side ported pump shown.Lefthand (CCW) pump will have inlet and outletports reversed.2.Install coupler on shaft of rear pump to dimensionshown then lock down coupler using set screws.3.Options, 6A2, 6A4, 9A4 and 9A5 Design Series 20have a gasket seal, all other thru-shaft optionsincorporate an o-ring seal and have ano-ring groove.4.Maximum torque transmitting capacity 209 N•m(1850 in-lbs).Thru-Shaft OptionsGFEDCBAno i t a i r aV6A4238.51 (9.39)82.58/82.60 (3.251/3.252)53.19 (2.09)3/8-16UNC-2B9 Tooth 16/32 Pitch31.75 (1.25)N/A 6A5238.51 (9.39)82.58/82.60 (3.251/3.252)53.19 (2.09)3/8-16UNC-2B11 Tooth 16/32 Pitch31.75 (1.25)N/A 6B3252.48 (9.94)101.63/101.65 (4.001/4.002)73.03 (2.88)1/2-13UNC-2B13 Tooth 16/32 Pitch41.15 (1.62)N/A 6B4252.48 (9.94)101.63/101.65 (4.001/4.002)73.03 (2.88)1/2-13UNC-2B15 Tooth 16/32 Pitch45.97 (1.81)N/A 9A4238.51 (9.39)82.58/82.60 (3.251/3.252)53.19 (2.09)M10 x 1.509 Tooth 16/32 Pitch31.75 (1.25)N/A 9A5238.51 (9.39)82.58/82.60 (3.251/3.252)53.19 (2.09)M10 x 1.5011 Tooth 16/32 Pitch31.75 (1.25)N/A 9B3252.48 (9.94)101.63/101.65 (4.001/4.00)73.03 (2.88)M12 x 1.7513 Tooth 16/32 Pitch41.15 (1.62)N/A 9B4252.48 (9.94)101.63/101.65 (4.001/4.00)73.03 (2.88)M12 x 1.7515 Tooth 16/32 Pitch45.97 (1.81)N/A。

帕克硬管接头说明书

帕克硬管接头说明书

派克硬管接头已经获得世界上各种不同机构的认证,如:德国劳氏(GL)英国劳氏(LR)挪威船级社(DNV)美国船级社(ABS)认证通常针对特定的产品、应用领域、工况条件、有效期或其他限制条件。

我们可为不同应用情况提供相应的资料文件。

派克的硬管接头同时也被世界上许多主机设备生产商或最终用户认可。

目 录技术信息认证证书 .................................................................................................................................... B -2简介 ........................................................................................................................................... B -5硬管接头产品及应用概览 ........................................................................................................... B -6PSR 卡套及特点 .........................................................................................................................B-8DPR 不锈钢卡套及特点 ...........................................................................................................B-10EO-2 型接头及特点..................................................................................................................B-11EO2-FORM 型接头及特点 .......................................................................................................B-13O-Lok ® 型接头及特点 ..............................................................................................................B-15如何选择合适的硬管接头产品..................................................................................................B-17硬管接头产品的国际标准 .........................................................................................................B-25推荐使用的钢管 .......................................................................................................................B-26温度的压降影响 .......................................................................................................................B-28表面处理 ..................................................................................................................................B-29介质兼容性表 ...........................................................................................................................B-30安全指南 ..................................................................................................................................B-32装配指南装配流程简介 ...........................................................................................................................B-33EO 卡套接头装配指南 .............................................................................................................B-34EO-2 卡套接头装配指南 ..........................................................................................................B-38EO 安装工具检查.....................................................................................................................B-42EO2-FORM 装配指南 ..............................................................................................................B-43EO2-FROM 安装工具检查 .......................................................................................................B-48O-Lok ® 装配指南 .....................................................................................................................B-49Parflange ® 工具检查及夹具调整..............................................................................................B-52油口端安装指导 .......................................................................................................................B-53目录可调向接头及旋转螺母安装指导 ..............................................................................................B-57法兰连接安装指导....................................................................................................................B-59硬管布管指导 ..........................................................................................................................B-60安装设备KONU 锥面规 ..........................................................................................................................B-62AKL 测距仪 .............................................................................................................................B-63EO-KARRYMAT.......................................................................................................................B-64EOMAT UNI ............................................................................................................................B-65EO2-FORM F3 ........................................................................................................................B-69KARRYFLARE .........................................................................................................................B-72Parflange ® 1025 ......................................................................................................................B-75Parflange ® 50 .........................................................................................................................B-76EO-NIROMINT ........................................................................................................................B-81手动去毛刺工具 .......................................................................................................................B-82电动去毛刺工具 .......................................................................................................................B-82螺纹识别包 ..............................................................................................................................B-82接头产品EO 接头产品目录.....................................................................................................................B-83如何订购EO 接头......................................................................................................................B-87阀 产品目录..............................................................................................................................B-163阀 技术信息 .............................................................................................................................B-165EO 旋转接头 ............................................................................................................................B-187旋转接头技术信息....................................................................................................................B-188O-Lok ® 产品目录 ...................................................................................................................B-200如何订购O-Lok ® 接头 ..............................................................................................................B-203公制钢管信息及订货 ..............................................................................................................B-236钢管管夹概览 ...........................................................................................................................B-240目录作为管路元件供应商,派克一直致力于为您提供一个更高压力,更易安装,无需维护的无泄漏液压系统。

Parker 快速接头

Parker 快速接头

Quick Coupling Products Catalogue 3800-DS/UK March 2004For your safety!Under certain circumstances, quick couplings can be subjected to extreme loadings such as vibration and uncontrolled pressure peaks.Only by using genuine Parker Components and following Parker assembly instructions can you be assured of the reliability and safety of the product and their conformity to the applicable standards.Failure to f ollow this rule can adversely af f ect the f unctional saf ety and reliability of products, cause personal injury, property damage, and result in loss of your guarantee rights.Subject to alteration.For your safety: see safety guide (pages 62-63).All dimensions used in this catalogue are in mm otherwise the units are specified. The rated pressure is in Mpa.If necessary you can also use the conversion table on page 64.The products described herein, including without limitation, products f eatures, dimensions, specifications and designs are subject to change by Parker Hannifin Corporation and its subsidiaries at any time without notice.For the product availability of Parker components, please refer to price list 3893.© Copyright 2004, Parker Hannifin Corporation. All Right Reserved.Catalogue 3800-DS/UK1Parker HannifinFluid Connectors GroupCatalogue 3800-DS/UK2Parker HannifinFluid Connectors GroupHow to select a hydraulic quick coupling?3Parker HannifinFluid Connectors GroupCatalogue 3800-DS/UK*Data shown here are indicative for quick selection purposes only. Please check technical data indicated for each individual series.How to select a hydraulic quick coupling?Catalogue 3800-DS/UK4Parker HannifinFluid Connectors GroupIndustrial and chemical60 SeriesNoA poppet with crimped seal assures a maximum sealing at low flow rates and prevents seal washout at high flow ratesConnection and discon-nection are possible by pulling the sleevesteel versions back-up ring5Parker HannifinFluid Connectors GroupCatalogue 3800-DS/UKIndustrial and chemical 60 SeriesLow cycle, non-pulsating pressure rating:Applications with lower cycle time and no severe cyclic pressure fluctuations, essentially steady pressure during an operating cycle. Typical applications include hydraulic jacks,mine roof support systems, and high pressure fluid transfer (pumping water or slurry in oil wells). Minor pump ripple is considered non-pulsating. Impulse tested at rated pressure.ANSI/ISO Pressure rating:Dynamic applications with normal to moderate hydraulic shocks such as general industrial equipment, hydraulic presses, agricultural equipment. Impulse tested at a multiple (125 % or 133 %) of rated pressure.A uniform cycle rate of 0.5 to 1.0 Hz is held over 100,000cycles according to ISO 7241-1 & 2.15%5%5%5%10%(50±5)%10 bar (1000 kPa)0 bar (0 kPa)± 5% test pressure15% test pressure5%Vacuum data: 696 mm Hg both connected and disconnected* Values shown for stainless steel are valid for both AISI 303 and AISI 316.Temperature rating:1 periodTest pressureCatalogue 3800-DS/UK6Parker HannifinFluid Connectors GroupIndustrial and chemical7Parker HannifinFluid Connectors GroupCatalogue 3800-DS/UKIndustrial and chemical60 SeriesSTEEL COUPLERSNote : Quick couplings with UNF thread are also available upon request. Please consult us for these configurations.Catalogue 3800-DS/UK8Parker HannifinFluid Connectors GroupIndustrial and chemical 60 SeriesAISI 316 STAINLESS STEEL COUPLERS* Suffix "Y" designates FKM (Viton™) seal.Note : Quick couplings with UNF thread are also available upon request. Please consult us for these configurations.Heavy duty nipples:Parker 60 series heavy duty nipples are recommended for extended life in applications where high cycle rates and pressure surges are encountered. Machined from high tensile steel and specially hardened. To specify a heavy duty nipple, add the prefix HD to the steel series part number, thus: HDH2-63 and contact us.Sleeve-lock:60 series couplers (as well as sleeve type couplers) are available with safety locking sleeves. Please add the suffix SL to the part number, e.g. H3-62SL and contact us.Seals:Other seal materials (Ethylene Propylene – EPDM, Neoprene – CR, Perfluoelastomer – Kalrez™) are available upon request.Please contact us for further information.Stainless steel AISI 316 dust plugs and caps are available upon request.Please consult us.*Brass 60 series couplers use two O-rings but do not use a back-up ring.NoBall locking mechanismsafety sleeve lock prevents accidental disconnection. Sleeve is rotated to the stop to engage the Seal : NBR (Nitrile)Zinc plated steel l l o w chromate finishValving: flush-faced poppet for reduced spillage during disconnection. The seal is crimped to prevent seal washout at high flow ratesNoTechnical featuressafety sleeve lock prevents accidental disconnection. SleeveBall locking mechanismSeal : NBR (Nitrile)Valving: flush faced poppetfor reduced spillage duringdisconnection. The seal iscrimped to prevent sealwashout at high flow ratesZinc plated steel with a yellow chromate finishFemale BSPP thread – DIN 385224° cone – DIN 2353*Light seriesACatalogue 3800-DS/UKHigh pressure CM SeriesTechnical featuresNoCatalogue 3800-DS/UK High pressureCM SeriesCatalogue 3800-DS/UKHigh pressure CL Seriesrams, clamping devices, torque wrenches, cable cutters…Technical featuresNoCatalogue 3800-DS/UK High pressureCL SeriesCatalogue 3800-DS/UK■Clamping hand tools■Rescue equipmentTechnical featuresIt is possible to connect a male tip with a ball valving and a female body with a poppet valving, and vice-versa.High pressure 3000 SeriesNoCatalogue 3800-DS/UK High pressure3000 SeriesCatalogue 3800-DS/UKMobileIA SeriesNoApplications■Used for a wide range of agricultural applications: tractors,accessories…■Mobile and construction equipment■In-plant machinery: hydroelectric power stations, hand toolsMain characteristics■Meets the requirements of ISO 7241-1-Series A ■Reference couplings on the agricultural marketTechnical featuresCatalogue 3800-DS/UK MobileIA SeriesCatalogue 3800-DS/UKMobileIA SeriesThe 1/2" female coupling is available with a double acting sleeve (Push-Pull).Use part number 4250-29PF.The IA-502-8FB male tip should be used with this female coupling.Replacement sealsDust caps and plugsNote : Standard dust caps and plugs are black. Please consult us for other colours.Catalogue 3800-DS/UK Mobile2000 SeriesNoSingle acting sleeve for the group 2, double acting sleeveBall lockingmechanism Ball or poppet valving. A poppetwith crimped seal assures amaximum sealing and preventseal washout at high flow ratesZinc plated steely e l l o w chromate finish*To be used with Group 4 male tips.GROUP 2Female thread – DIN 3852 - Form X24° cone - DIN 235324° cone - DIN 2353 - BulkheadNote : Select "V" or “O” as second digit in part number for valving type identification.V: poppet type e.g. 2V54G4X4O: ball type e.g. 2O54G4X4 and check availability page 30.24° cone - DIN 2353 - Bulkhead* Light seriesJIC 37° – SAE J514JIC 37° - SAE J514 - Bulkhead24° cone - DIN 2353* Light series.** Heavy series.Note : Select "V" or “O” as second digit in part number for valving type identification. V: poppet type e.g. 4V54G4X4O: ball type e.g. 4O54G4X4 and check availability page 30.Permanent protective cap for female bodyRubberHigh strength rubber: resistant to deformation, exposure to elements, UV.Two combined functions:- Protection- Oil spillage collection.The modular concept accommodates multiple coupler configurations. Please consult us.Note :protective caps of the 9400 series (page 40) are also suitable for the 2000 series (body size 1/2").Automatic dust cap for female body PlasticNote : Standard dust cap is black. Please consult us for other colours.Y esin the maletipup to25 MpaValving: three-part poppet withmoulded shaped sealBody seal:back-up ring of filled PTFE towithstand flow surges at highflow ratesto prevent circuitshut off in back-flow condition (150 l./min. with190 l./min. max from the male tip to the femaleBall locking mechanism9400 SeriesJIC 37° - SAE J514 - BulkheadDin 2353 15L - Bulkhead9400 Series4000 SeriesNoball or poppet (as per chart on page 42). The seal is crimped to prevent seal washout at high flow ratesSeal NBR (Nitrile)Ball locking mechanismMain characteristics■The 1/2" body size meets the requirements of ISO 7241-1Series A■Famous coupling widely held on the market■Used for a wide range of forestry and agricultural equipment:tractors, agricultural machinery…■Construction and mobile equipment ■In-plant machineryApplicationsTechnical featuresZinc plated steel w4000 Series4000 SeriesRubberRubber with PlasticSteelsteel chain*Designates all-rubber dust caps and plugs**Colour code – By ordering, add after the part number the letter corresponding to the colour you wish:B = blue G = green R = redO = orangeY = yellowExample: yellow dust cap = 5019-4PYQHPA SeriesY esup to 5 Mpachromate finishThree-part poppet stylevalvingshaped seal to prevent sealwashout at high flow ratesThe sleevemale tip to protect the sealingareaQHPA SeriesQHPA SeriesQHPA SeriesMale thread - DIN 3852 - Form AFemale BSPP thread60° conefor BSPP thread60° cone for BSPP threadPolyethyleneDust caps and plugsMACH 2YesPoppet style valving with a mouldedshaped seal.The seal is crimped toprevent seal washout at high flow ratesCentral came locking system Seal : NBR。

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0
STI1144100
STI.1144.100
1
STI2144100
STI.2144.100
2
STI0148100
STI.0148.100
0
STI1148100
STI.1148.100
1
STI2148100
STI.2148.100
2
提示 1: 粗体字高亮显示的件号表明该产品为标准产品。 提示 2: 其他件号请联系派克液压过滤部门。
● System20监控器结合内嵌式传感器,能够给客户提供准 确、及时的流量、压力和温度读数,而系统无需停机
● 适用于各种矿物油、水、水/油乳化液 ● 模拟监控器 使用带保护铰接盖的3个Day-Glo刻度表 ● 流量高达380 l/min;双刻度表盘bar/psi & °C/°F. (美制
GPM也可用) ● EM20电子监控器 提供全数字显示 ● 传感器自动校准 ● 可存储300个测试数据 ● 能够实现数据下载保存
刻度表盘详细信息
流量计: 只有规格1和规格2的传感器有双重流量刻度。 量程分别为:100 l/min (26 US GPM)和 380 l/min (100 US GPM). 流量刻度盘还有过载流量指示。
当系统出现逆流或传感器位置对调时,表盘会出现小 于“0”的指示。 压力表: 压力刻度表盘分别有bar和psi指示,压力高达420 bar (6000psi). 温度表: 温度刻度盘读数范围: -10°C ~ +110°C (0°F ~ 230°F). 尺寸: ABS外壳: 292mm (11.5in) ×108mm (4.25in) ×67mm (2.64in) . 重量: 1.4kg (3lbs).
软管定位
(11.50in) 1000mm (39.40in)
开关 旋钮
流量计 压力表 温度表
订货信息
标准产品表
108mm (4.25in)
67mm (2.64in)
件号
被替代的件号
介质类型
STM6211110 STM.6211.110

STM6611110 STM.6611.110

STM6211120 STM.6211.120
内嵌传感器 & 监控器
System20
203
内嵌传感器 & 监控器 System20
特征 & 优势
派克System20覆盖的流量范围广,流体类型多,应用场 合广。System20可以实现与电子/模拟监控器、流体状 态检测设备(如便携式颗粒计数仪/水份检测仪等)动态连 接。此外,还特别开发了用于“腐蚀性流体”污染监控器的 System20 传感器。(EPDM 密封)
软管定位
291mm (11.46in) 1000mm (39.4 电池盖
105mm(4.13in)
76mm(3in)
订货信息
标准产品表
件号
被替代的件号
EM209000
N/A
B84779
B.84.779
P653607
N/A
B85617
B.85.617
提示 1: 粗体高亮显示字体件号为标准产品。 提示 2: 其他件号请咨询派克液压过滤部门。
流量范围 I/min 6-25 20-100 80-380 6-25 20-100 80-380
205
95
137
231.3
流体类型 矿物油 矿物油 矿物油 腐蚀性油 腐蚀性油 腐蚀性油
G3/8
G3/4
G1 1/4
接口 螺纹 3/8 3/4 1 1/4 3/8 3/4 1 1/4
内嵌传感器 & 监控器 System20
件号
P653607 P653106
描述
检测元件和传感器携带仪器箱 金属传感器保护帽
207
温度读数
双刻度°C/°F 双刻度°C/°F 双刻度°C/°F 双刻度°C/°F
Notes
208
204
内嵌传感器 & 监控器 System20
技术参数: 传感器
结构:
机械加工钢体结构,无电镀镍涂层,内部元件是
黄铜或不锈钢材料
流量:
适用于油、水和水/油乳化液
规格 0 – 6-25 l/min (0.5-7US GPM)
规格 1 – 20-100 l/min (1.5-26 US GPM)
规格 2 – 80-380 l/min (5-100 US GPM) 最大工作压力:
典型应用
● 钻井设备 ● 矿机 ● 运输机 ● 工业液压 ● 行走机械
液压系统用户需要保证他们的生产效率最大化,因此,各 元件的维护计划和定期的常规状态监测是非常必需的。 System20内嵌式传感器是流体状态检测设备的核心部件。 无论是采矿、建路机械、农业机械,还是船舶业或是海上 平台,只要是与液压系统有关的应用,System20监控器都 是主要的系统监测元件。
尺寸: ABS 外壳:291mm (11.46”)×105mm (4.13”) ×76mm (3”). 重量: 1.4kg (3lbs). 数据记录: 每次数据记录如下: 测试编码; 时间 & 日期; 传感器规格; 测试介质; 流量, 压力 & 温度. 数据下载: System20 电子监控器能下载数据,并能接16列串行 打印机,也可通过通信电缆RS232实现与PC相连。 电池: 6 x AA 电池 校准: 需由派克服务中心进行一年一次校准。
206
描述
System20电子检测元件 数据下载软件
检测元件和传感器携带仪器箱 电缆组件
内嵌传感器 & 监控器 System20
模拟控制器:技术参数
描述: 无需日常维护和调节集成元件。 外壳体:丙烯腈-丁二烯-苯乙烯塑料浇铸而成的 (ABS)。 该检测元件适用于所有的矿物油、水和水/油乳化液。 该检测元件有3个刻度表盘,并有铰接保护盖。

STM6611120 STM.6611.120

提示 1: 粗体高亮显示的代码为标准产品选项。 提示 2: 更改显示的件号选项需联系派克液压过滤部门确认是否可以提供。
附件
198mm (7.79in)
流量读数
l/min US GPM
l/min US GPM
压力读数
双刻度bar/PSI 双刻度bar/PSI 双刻度bar/PSI 双刻度bar/PSI
420 bar (6000psi) 能力:可逆流
压降:
流量最大时, ∆p为1.1 bar
(矿物油粘度30 cSt 140 SSU). 接口:
规格 0 – G3/8
规格 1 – G3/4
(可选用SAE螺纹)
规格 2 – G11/4 重复性:
±1% FSD 精确度:
满量程的±2.5% 浮动 重量:
规格 0 – 0.5kg (1.2lbs)
电子监控器:技术参数
结构: 无需日常维护和调节的集成元件。外壳体:丙烯腈丁二烯-苯乙烯塑料浇铸而成的 (ABS)。 键盘:硅橡胶 该检测元件适用于所有的矿物油、水和水/油乳化液。
LCD 详细信息
流量计: 模拟流量表盘有逆流和过载流量保护显示,并能提供 数显量程的百分比,自动校验各种规格的System20 传感器。 压力表: 用于显示压力、压差和峰值压力。与System20 传感 器连用,最高压力可达到 420 bar (6000 psi),精确 度误差 ±1% FSD. 温度表: 温度读数范围:-10°C ~ +110°C (0°F ~ 230°F).
规格 1 – 3.5kg (8.4lbs)
规格 2 – 4.4kg (9lbs) “腐蚀性”流体的应用:
EPDM 内/外 O型圈密封
73.5 Ø66.7
66.5 Ø41
56 Ø30
安装信息
规格0传感器
规格1传感器
规格2传感器
订货信息
标准产品表
件号
被替代的件号
规格
STI0144100
STI.0144.100
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