haskel气动增压泵

| April 2022Operation & Maintenance Manual | 04/2202-9245ME : ACHL Series Pump2FAILURE, IMPROPER SELECTION OR IMPROPER USE OF THE PRODUCTS AND/OR SYSTEMS DESCRIBED HEREINOR RELATED ITEMS CAN CAUSE DEATH, PERSONAL INJURY AND PROPERTY DAMAGE.This document and other information from Parker Hannifin Corporation, its subsidiaries and authorized distributors provide product and/or system options for further investigation by users having technical expertise. It is important that you analyze all aspects of your application and review the information concerning the product or system in the current product catalog.Due to the variety of operating conditions and applications for these products or systems, the user, through its own analysis and testing, is solely responsible for making the final selection of the products and systems and assuring that all performance, safety and warning requirements of the application are met.The products described herein, including without limitation, product features, specifications, designs, availability and pricing, are subject to change by Parker Hannifin Corporation and its subsidiaries at any time without notice.ALL PARKER VALVES MUST PASS A RIGID OPERATIONAL AND LEAKAGE TEST BEFORE LEAVING THE FACTORY. IT IS RECOMMENDED AFTER ANY REASSEMBLY, THE VALVE SHOULD BE TESTED BY THE USER FOR OPERATION AND LEAKAGE. IF THESE INSTRUCTIONS ARE NOT FULLY COMPLIED WITH, THE REPAIRED PRODUCT MAY FAIL AND CAUSE DAMAGE TO PROPERTY OR INJURY TO PERSONS. PARKER HANNIFIN CANNOT ASSUME RESPONSIBILITY FOR PERFORMANCE OF A CUSTOMER SERVICED VALVE.Live Chat Support is available from /IPD when the Chat icon “ ” is visible on screen.Parker Instrumentation Products Divison (IPD)02-9245ME : ACHL Series PumpOperation & Maintenance Manual | 04/223Product DrawingsTypical Pump Cross Sectional View ....................................................................................4 ACHL Pump Dimensional View . (5)Operation & Maintenance Information1.0 Introduction (6)2.0 Meaning of Safety Words .......................................................................................... 63.0Product Specification (6)4.0 Unpacking ..............................................................................................................6 5.0 Tools ...................................................................................................................... 6 6.0 Installation .............................................................................................................. 7 6.1 Compressed Air Supply . (7)6.2 Liquid Section ......................................................................................................... 87.0 Pump Start-Up ........................................................................................................ 88.0 Process Media ........................................................................................................ 99.0Pump Functionality (10)10.0 Suggested Maintenance (11)T roubleshooting Information11.0 Repair Kit Options .................................................................................................. 11 12.0 ACHL Series Drawings ............................................................................................12 13.0 Trouble Shooting-Pneumatic Section ...................................................................... 14 14.0 Trouble Shooting-High Pressure, Liquid Section .. (15)15.0 Service (15)T able of ContentsPageOperation & Maintenance Manual | 04/2202-9245ME : ACHL Series Pump4Typical Pump: Cross Sectional View(ASL Pump Shown)02-9245ME : ACHL Series PumpOperation & Maintenance Manual | 04/225ACHL Pump Dimensional ViewAll ACHL Series Pumps have a 1/4" FNPT regulated main air drive supply connectionNote:• Each Mounting Bracket includes (2) 11/32" (8.73) holes for 5/16" Bolts.• Spool air tubing not shown for clarity.• All dimensions are for reference only and are subject to change without notice.• Primary Dimensions: Inches• Secondary Dimensions: (Millimeters)Left View6Section 3.0 Product SpecificationsSection 1.0IntroductionThe Parker Autoclave Engineers pump discussed in this manual is operated using compressed air up to 150 psi (10 bar). Parker Autoclave Engineers ACL Series pumps are used for pumping oil, water and oil/water mixtures. Special seals are also available for chemical service. Please contact Parker Autoclave Engineers to discuss availability of special seals. The pump operates using a pressure ratio of the air piston surface area to the liquid plunger surface area.(Output liquid pressure = actual pump pressure ratio x input air pressure). Refer to the product literature for each pump model’s actual air pressure ratio.Section 2.0Meaning of Safety WordsA safety related message is identified by a safety alert symbol and a signal word to indicate the level of risk involved with a particular hazard. The definitions of the three signal words are as follows:Special notes intended to bring attention to procedures that must be followed to ensure proper installation and performance will be placed in a box labeled NOTICE.Section 4.0The pump has been assembled and pressure tested at Parker Autoclave Engineers and is ready to be put into service. The shipping carton should be opened and the contents carefully examined upon receipt from the carrier. Make sure there is no obvious damage to the contents. DO NOT use the equipment if any damage is evident.If damage has occurred, file a claim with the shipper be-fore contacting Parker Autoclave Engineers Service Department.Examine all material within the container and check against the packing list to be sure all items are accounted for and are not damaged. Verify that the equipment model number supplied agrees with what was ordered.See assembly drawing for product specifications:- Pump Geometry- Pump Materials of Construction- Maximum Allowable Working Pressure- Maximum Working Temperature- Pressure Ratio- Displacement- Repair Kit Part Numbers- Torque Information- WeightsUnpackingSection 4.0UnpackingAt minimum, the tools required for installation of the pump include a torque wrench, an open end wrench adapter (crows foot adapter) and an open end adjustable wrench. Refer to the Tools, Maintenance and Installation Manual provided with the Data Book for information on torque wrenches and torque values for Parker Autoclave Engineers tubing and fittings.Section 5.0ToolsOperation & Maintenance InformationOperation & Maintenance Manual | 04/22 02-9245ME: ACHL Series Pump02-9245ME : ACHL Series PumpOperation & Maintenance Manual | 04/227Section 6.0InstallationSection 6.1Compressed Air SupplyUnless otherwise noted, all air line accessories for the pump air drive should have, at minimum, a 1/4" FNPT connection. The tubing/piping used to connect the components should have the maximum ID the pressure rating will allow. Reducing the size before the air inlet will reduce air pressure flow andreduce flow rate of the pump.NOTICEThe main air drive connection port on the pump is a female 1/4" FNPT and is located in the spool valve housing.The use of an air line lubricator is not required and is not recommended. The oil in the air lubricator will cause the factory installed grease to be purged from the pump. Once an air lubricator is used the pump can never again be operated withoutan air lubricator.NOTICEAn air line filter with a minimum 5 microns filtration rating must be used on the supply line. If the air supply is not dry, a mist separator must be used to remove moisture in the air line.The pump is designed to function from 15 psi to 150 psi (1 to 10 bar) air input pressure.For best performance and life, the pump should be installed in the vertical position. This will prevent side loading on the air piston seals. The pump will, however, function in any position.The pump will attach to the mounting location using (4) 5/16" bolts. There are 4 holes provided on each pump for mounting.Operation & Maintenance Manual | 04/2202-9245ME : ACHL Series Pump 8Section 4.0UnpackingAll ACHL series pumps have a high pressure liquid outletport located on the side of the pump head. The suction inlet port on all ACHL series pumps is positioned either at the bottom or side of the head depending on the model purchased. See order code details in the product litera-ture for catalog number suffix.Inlet: A liquid filter with at least a 100 mesh size must be installed before the suction port inlet to prevent dam-age to the check valves and high pressure seals due to debris.Section 6.2Liquid Section For best performance, a liquid supply reservoir should be located higher than the inlet gland on the pump to create a small pressure head. Be sure to make an air tight seal between the reservoir and the pump inlet connection. The connections between the reservoir and pump inlet should not be reducedfrom the 3/8" FNPT connection size.NOTICEThe tubing or piping should be made from a corrosion resistant material and sized with a maximum ID to fit the 3/8" pipe connections.Restricting flow at the liquid inlet will causeproblems with check valve performance and reduceoutput flow.NOTICEOutlet: The outlet tubing ID must, at minimum, match the same size of the pump check valve gland port. Referto product literature for outlet connections details for each pump. Reducing outlet tubing or connection will reduce output liquid flow capacity.Section 4.0UnpackingSection 7.0Pump Start-Up Air Line SchematicAs shown above, a filtered main air supply line is required. The filtered air supply will go to a pressure regulator which can be set to achieve the desired output liquid pressure according to the pressure ratio of the pump.LIQUID INLETAIRREGULA TORAIR02-9245ME : ACHL Series PumpOperation & Maintenance Manual | 04/229The pumps unique design allows for self priming.To prime, regulate the air pressure to between 5-15 psi or use an air flow regulator to reduce to a slow stroke frequency. With the high pressure side connected to a vented system, allow the pump to cycle till a consistent flow of liquid is achieved.Let the pump flow freely to purge any air in the liquid system. Loosening the outlet gland or pipe can also assist in priming the pump.Section 4.0UnpackingSection 8.0Process Media Parker Autoclave Engineers pumps discussed in thismanual are used for pumping oil, water and oil/water mixtures. Special seals are also available for chemical service. Please contact Parker Autoclave Engineers todiscuss availability of special seals.Pumps are not designed to run for long periods of time without liquid process media. Short, dry pumping cycles should not be a cause for concern.However, pumps are built using lubricant in the seal areas and pumping without fluid will wear away lubricant and compromise the seal .The operating temperatures of the pump are between 0°F to 140°F (18°F to 60°F).Operation & Maintenance Manual | 04/2202-9245ME : ACHL Series Pump10Section 4.0UnpackingSection 9.0Pump Functionality When the pump is installed, regulated air is connectedto the spool housing at the ¼” FNPT pump inlet.The explanation below assumes pump is already primed with liquid.1. The pump is supplied with the piston in theupward position, which keeps the pilot valve in the open position.2. When regulated air is supplied to the pump, it enters the spool housing and energizes the large end of the spool, which shifts the spool to the left.3. The shifting of the spool causes regulated air to pass through the spool valve and pushes the air piston and liquid plunger d ownward toward the pump head.4. The liquid plunger moving toward the headcompresses fluid and forcing the inlet check valve to close and the outlet check valve to open.5. The plunger continues in the downward motion until it reaches the full stroke length.6. At the end of the stroke, air pressure is released from the large side of the spool, which causes the spool to shift and exhaust the air from the top of the piston through the muffler.7. The spring underneath the piston then returns the piston to the starting position.8. During the return, the pump performs a suction stroke. During a suction stroke, the plunger is moving away from the head causing the inlet check valve to open, which allows liquid to be drawn into the head while the outlet check valve is forced closed.9. Once the pump returns to the original starting position, the pilot valve opens and the entire process will continue to repeat until thepump reaches its stal pressure.Note: The ACHL series pump can be operated using a manual hand lever.Push the hand lever down to manually compress fluid and build liquid pressure. You can either stop when you reach your desired pressure, or when the pump reaches the end of its stroke. At the end of the stroke, keep your hand on the hand lever and slowly allow the springs to return the pump hand lever to its original position and perform a suction stroke.Do not let go of handle until the springs have returned the hand lever to its original position. Repeat this action until desired output pressure is reached.02-9245ME : ACHL Series PumpOperation & Maintenance Manual | 04/2211Section 4.0UnpackingSection 10.0Suggested MaintenanceA.Before each pump use, a quick inspection should be performed to insure there are no loose bolts, nuts, set screws or check valve glands. Tighten any loose bolts and fittings ac-cording to the torque values listed on the pump assembly drawing. A visual inspection should also be made before each use and at startup to make sure there is no evidence of fluid leaks from bottom end cap, weep holes or check valves. Refer to the troubleshooting guide for solutions to these fluid leaks.B.The maintenance schedule of the pumpdepends on the frequency of use, cleanliness of media, type of media, cycle rates, output pres-sures, cleanliness of air or any other conditions that may be damaging to seal integrity.Once a clear pattern develops of how long a pump is in service before pump performance declines, it is recommended to performmaintenance in advance of this time frame.At minimum, perform maintenance on the pump once a year as described below.Maintenance would include:• Re-lubrication or replacement of spool valve o-ring• Re-lubrication or replacement of air drive seals• Re-lubrication or replacement of pilot valve o-rings and gaskets• Replace check valve components • Replace high pressure hydraulic seals C.Maintenance instructions are supplied with appropriate rebuild kits. Kit part numbers are listed on the assembly drawing.Section 4.0Unpacking Section 11.0ACHL Series Repair Kit OptionsOperation & Maintenance Manual | 04/2202-9245ME : ACHL Series Pump12Section 12.0ACHL72-01-N Series Pump Drawing02-9245ME : ACHL Series PumpOperation & Maintenance Manual | 04/2213Section 4.0Unpacking Section 12.0ACHL189-01-N Series Pump DrawingOperation & Maintenance Manual | 04/2202-9245ME : ACHL Series Pump 14TroubleshootingSection 4.0UnpackingSection 13.0Troubleshooting - Pneumatic Section Problem: Pump will not operate with low air pressure.Cause:Excessive friction of o-rings on the spool valve has increased the pressure requiredto move spool.Solution: Replace and lubricate the o-rings on spoolProblem: Pump can only be actuated at high air pressure.Cause: a) Air is leaking through the plunger bore in the top end cap.b) Air is leaking through the o-rings between the top end cap and air cylinder.c) Bottom cap breather vent clogged.Solution: a) Replace and lubricate o-rings on upper plunger and in the bore located in the top cap. b) Replace and lubricate o-ring on lip of top end cap.c) Clean or replace breather vent.Problem: Pump will not run and air escaped through the exhaust muffler. Cause: a) Spool valve o-rings are leaking.b) Spool sleeve o-rings are leaking.Solution: a) Replace and lubricate spool valve o-rings.b) Replace and lubricate sleeve o-rings.Problem: Pump will not run and air escapes through the breather vent in the bottom end cap Cause: a) Outside o-ring on air piston is leaking. b) Seal between air piston and liquid plunger is leaking.Solution: a) Replace and lubricate air piston o-ring.b) Add Loctite 2760 thread locker with sealant on the plunger threads (one piece plunger designs)..Problem: Pump operates at a high frequency and short strokes.Cause: a) The top pilot valve is defectiveb) Air is leaking through the piston bore in thetop end cap.Solution: a) Replace and lubricate both tappet gaskets and o-ring. If necessary, also replace the tappet rod. b) Replace and lubricate o-ring on upper plunger and in the bore located in thetop cap.Problem: Pump functions slowly or doesn’t operate at all.Cause: a) Condensation from air supply is freezing the spool valve.b) Air muffler is clogged.Solution: a) Stop pump for a short period and replaceor add a mist separator in the air line.b) Clean or replace air muffler02-9245ME : ACHL Series PumpOperation & Maintenance Manual | 04/2215Section 4.0UnpackingSection 14.0Troubleshooting - High Pressure, Liquid Section Problem: Pump does not produce liquid flow, operates irregularly or does not maintain pressure.Cause: a) Air in the hydraulic system. b) Suction line excessively long. c) Suction tubing sized too small. d) Failure of one of the check valves. e) Liquid inlet filter is blocked.f) High pressure seal excessively worn.g) Supply liquid pressure head too low.Solution: a) Check inlet suction line and connections for leaks and allow pump to flow freely downstream so as to remove any air. b) Shorten liquid supply line.c) Increase tubing ID size between reservoir and pump inlet.d) Clean or replace both inlet and outlet check valve assemblies. e) Clean or replace liquid inlet filter. f) Replace high pressure seal assembly. g) Raise liquid reservoir to higher locationuntil pump is fully primed.Problem: Fluid escapes through the breather vent.Cause: High pressure seal is leaking.Solution: a) Clean fluid from air section. b) Replace and lubricate o-rings as necessary in the air section c) Replace high pressure liquid sealassembly.Section 4.0Unpacking Section 15.0ServiceParker Autoclave Engineers now require all pump repairbe sent to an authorized repair facility. Contact Parker Autoclave Engineers for recommendations.Pumps returned for service should be accompanied with the model number, serial number, manufacture date and problems you are experiencing.02-9245ME: ACHL Series Pump16Operation & Maintenance Manual | 04/22Operation & Maintenance Manual | 04/221702-9245ME: ACHL Series Pump02-9245ME: ACHL Series Pump18Operation & Maintenance Manual | 04/22Parker’s Motion & Control TechnologiesAt Parker, we’re guided by a relentless drive to help our customers become more productive and achieve higher levels of profitability by engineer-ing the best systems for their requirements. It means looking at customer applications from many angles to find new ways to create value. What-ever the motion and control technology need, Parker has the experience, breadth of product and global reach to consistently deliver. No companyknows more about motion and control technology than Parker. For further information call 1-800-C-Parker.02-9245ME April 2022© 2022 Parker Hannifin Corporation | Instrumentation Products Division1005 A Cleaner WayHuntsville, AL 35805 USA Tel: 256.881.2040Fax: /IPDOperation and Maintenance Manual ACHL Series: Liquid PumpsParker WorldwideNorth AmericaUSA – Corporate, Cleveland, OH Tel: +1 256 896 3000USA – IPD, Huntsville, AL Tel: +1 256 881 2040*****************USA – IPD, (Autoclave), Erie, PA Tel: +1 814 860 5700*******************CA – Canada, Grimsby, Ontario Tel +1 905-945-2274*********************South AmericaAR – Argentina, Buenos Aires Tel: +54 3327 44 4129 ******************BR – Brazil, Diadema, SP Diadema, SPTel: +55 11 4360 6700******************CL – Chile, Santiago Tel: +56 (0) 2 2303 9640******************MX – Mexico, Toluca Tel: +52 722 275 4200*******************Asia PacificAU – Australia, Dandenong Tel: +61 (0)2 9842 5150******************************CN – China, Shanghai Tel: +86 21 2899 5000*****************************HK – Hong Kong Tel: +852 2428 8008IN – India, MumbaiTel: +91 22 6513 7081-85ID – Indonesia, Tangerang Tel: +62 2977 7900********************JP – Japan, Tokyo Tel: +(81) 3 6365 4020******************KR – South Korea, Seoul Tel: +82 2 559 0400*******************MY – Malaysia, Selangor Tel: +603 784 90 800*******************SG – Singapore,Tel: +65 6887 6300*******************TH – Thailand, Bangkok Tel: +66 2 186 7000*********************TW – Taiwan, Taipei Tel: +886 2 2298 8987*************************VN – Vietnam, Hochi Minh City Tel: +848 382 508 56**********************Europe, Middle East, AfricaAE – UAE, Dubai Tel: +971 4 812 7100********************AT – Austria, Wiener Neustadt Tel: +43 (0)2622 23501-0*************************AT – Eastern Europe, Wiener Neustadt Tel: +43 (0)2622 23501 900****************************AZ – Azerbaijan, Baku Tel: +994 50 2233 458****************************BE/LU – Belgium, Nivelles Tel: +32 (0)67 280 900*************************BG – Bulgaria, Sofia Tel: +359 2 980 1344**************************BY – Belarus, Minsk Tel: +48 (0)22 573 24 00*************************CH – Switzerland, Etoy Tel: +41 (0) 21 821 87 00*****************************CZ – Czech Republic, Klecany Tel: +420 284 083 111*******************************DE – Germany, Kaarst Tel: +49 (0)2131 4016 0*************************DK – Denmark, Ballerup Tel: +45 43 56 04 00*************************ES – Spain, Madrid Tel: +34 902 33 00 01***********************FI – Finland, VantaaTel: +358 (0)20 753 2500*************************FR – France, Contamine s/Arve Tel: +33 (0)4 50 25 80 25************************GR – Greece, Athens Tel: +30 210 933 6450************************HU – Hungary, Budapest Tel: +36 223 885 470*************************IE – Ireland, DublinTel: +353 (0)1 466 6370*************************IT – Italy, Corsico (Ml)Tel: +39 02 45 19 21***********************KZ – Kazakhstan, Almaty Tel: +7 7273 561 000****************************NL – The Netherlands, Oldenzaal Tel: +31 (0)541 585 000********************NO – Norway, Stavanger Tel: +47 66 75 34 00************************PL – Poland, Warsaw Tel: +48 (0)22 573 24 00************************PT – Portugal, Leca da Palmeira Tel: +351 22 999 7360**************************RO – Romania, Bucharest Tel: +40 21 252 1382*************************RU – Russia, Moscow Tel: +7 495 645-2156************************SE – Sweden, Spånga Tel: +46 (0)8 59 79 50 00************************SK – Slovakia, Banská Bystrica Tel: +421 484 162 252**************************SL – Slovenia, Novo Mesto Tel: +386 7 337 6650**************************TR – Turkey, Istanbul Tel: +90 216 4997081************************UA – Ukraine, KievTel: +48 (0)22 573 24 00*************************UK – United Kingdom, Warwick Tel: +44 (0)1926 317 878********************ZA – South Africa, Kempton Park Tel: +27 (0)11 961 0700*****************************Questions?8325 Hessinger Drive Erie, PA 16509 USA Tel: 814 860 5700Fax: 814 860 Instrumentation Products Division。

您与运动和控制技术领域的先行者合作，就是希望促进您的业务发展和全球的发展。

从微型电磁阀到高集成型自动化系统，我们的产品对于用于药物研发和病原体检测的救生医疗设备和科学仪器至关重要。

并且对于缩短上市时间和降低总体拥有成本也十分关键。

因此，请与派克合作，准备改变这一切吧！/precisionfluidics 1 603 595-1500目录页T2-05Helix124高效和紧凑型 13.5mm 宽泵 – 高达 800 mLPM高压泵 – 超过5.5 LPM 和高达100 PSI 的压力T2-0320高性能与尺寸比率泵 – 高达2.5 LPMLTC 系列76液体系列传送泵 – 高达 650 mLPMEZ 底座92振动隔离安装系统小型活塞泵（空气）微型泵（空气/气体）微型泵（液体）T2-0494超紧凑型、高效泵 – 高达 7.5LPMBTC-IIS 系列62应用广泛的多功能双头泵系列产品 – 高达 11 LPMBTC 系列52应用广泛的多功能泵系列产品 – 高达6 LPMLTC-IIS 系列84液体系列双头传送泵 – 高达1.5 LPMCTS 系列BTX-Connect 2836高性能紧凑型 20 mm 宽泵 – 高达 2.5 LPM多功能双头和单头泵系列，适合多种应用-高达10 LPMTTC 系列74紧凑、高效、低压泵 – 高达 6 LPMTTC-IIS 系列84紧凑、高效、低压双头泵 - 高达 11 LPM附件4Helix 微型高压泵高达100 PSI (6.9 bar)压力Parker Helix 是一款紧凑型高压泵，旨在实现小型即时临床护理仪器。

Helix 可在挑战性的高海拔环境和无法使用外部压缩空气的应用中实现高压操作。

Helix 泵可提供5.5 LPM 以上的流量和高达100 PSI (6.9 bar)的压力，为性能至关重要且空间有限的台式诊断设备提供了出色的解决方案。

• 集成了用于卸荷的X 阀，可实现高压重启• 内部飞轮可在高压下低速运行• 无油活塞• 简单的安装特性• 带有推入式接头的快速流体连接• 符合RoHS 指令和REACH 标准产品特性• 液上空气• 气动驱动•微流控芯片• 即时临床护理检验• 分子诊断• 核酸纯化•基因组学典型应用典型市场产品规格物理特性电子5微型隔Helix 微型高压泵典型流量曲线• 曲线展示了0.080"偏移泵的流量性能• 使用5.0 Vdc 控制输入时，泵将以大约4400 RPM 的转速和高达8.5 LPM的流量的状态运行，但不建议连续工作。

Haskel气动液压电动泵工作原理和组成Haskel气动液体泵由气体驱动部分，液压部分和换向控制阀三个部分组成。

气体驱动部分的活塞和液压部分的柱塞连在一起，由换向阀控制自动做往复运动。

通过大面积的活塞和小面积的柱塞，将作用在活塞上的驱动气体的压强传递给柱塞，从而提高液体的出口压力。

Haskel气动液体泵的特点：以普通压缩空气或其它气体作为动力连续起停，不受限制最高压力可达：6800BAR适用于绝大多数介质无需任何润滑油产品范围广不产生热量和火花体积小Haskel气动液体泵型号字母代码：M 1"冲程，1/3HP泵系列XH2"冲程，1.5+2HP超高压泵系列S 不锈钢柱塞和泵体G 4-1/2"冲程，6HP泵系列29723 1/3HP化学泵84-1/2"冲程，8HP泵系列D（前缀）液体端加长的泵144"冲程，10HP泵系列D（后缀）双作用泵W聚氨脂U型密封4B 1"冲程，3/4"HP泵系列（底部）F UHMWPE（超高分子聚乙烯密封）A2"冲程，1.5+2HP泵系列T增强聚四氟乙烯密封H2"冲程，1.5+2HP高压泵列V合成橡胶密封B底部进口Haskel气动体泵适用液体种类：1、石油，煤油，柴油，含5%可溶油的水2、淡水3、大多数的磷酸酯基液压油，与UHMWPE和合成橡胶相兼容的石油基溶剂4、石油基溶剂，氯化了的溶剂，甲基丙酮，乙醇，氟里昂等5、航空液压油，丙酮，乙醇等6、去离子水Haskel气动液本泵应用：★压力测试★螺栓紧固★千斤顶★夹具★制动系统★爆破试验★液压控制系统产品简介：美国Haskel气体增压泵由通过连接杆与小面积气体活塞直接相连的空气驱动往复式大面积活塞构成。

在每一个气体腔端盖中都包含输入、输出单向阀，空气驱动部分包含有循环轴和导向阀。

当通入驱动气体时，二者提供连续往复运动。

气体增压泵中气体压缩腔与空气驱动腔的分离是由三级动态密封装置提供的。

Registered in England No. 6405042Horizontal pump 160125 STS.painted finish.Maxiprime + Stubby pump. Polishedstainless steel.Wall-mounted stubby-pumpPainted finish.Tie Rod ConstructionFor viscous products that flowKecol air operated ‘tie-rod’ construction piston pumps are used in conjunction with Maxiprime & Megaprime Pressure Priming Systems for the transfer of pastes and other high viscosity products that do not flow easilyFor pastes & high viscosity productsThe main difficulty with pastes and high viscosity products that do not flow is that the pump cannot be primed and simply cavitates, pumping air instead of product ! The solution is to use a Kecol Maxiprime twin cylinder pressure priming system in conjunction with a Kecol tie-rod construction piston pump. These pressure priming systems ‘force feed’ the Kecol piston pump,maintaining a positive prime on the pump and thus ensuring that is does not cavitate. As the product level falls, the sides of the drum are wiped clean by the follower plate on the priming system.Features & BenefitsVariable Output and pressureCan be stalled without damageCarbon Steel or 316 Stainless Steel contact partsPolished stainless steel or painted finishQuick Release System between air motor & pump assemblyTypical ApplicationsTransfer of chocolate cream, peanutbutter, triple concentrate tomato puree, cooking fat, curry paste, fruit pastes, garlic butter, jam, margarine, marmalade, fondant, meats, etcCreams, eye ointment, hand cream, Lanolin, magnesium hydroxide, mascara, petroleum jelly, toothpaste, zinc & castor oil, etcTransfer of adhesives, mastics, grease, sealants, soldering flux, tile adhesive, wax, wood filler, etcFoodPharmaceutical & CosmeticsChemical & General Industrial Kecol Pumping Systems Limited Faraday Drive – Bridgnorth Shropshire – WV 15 5BJ Tel: 01746 764311 Fax: 01746 763375Email;**************.uk Web Site: Measuring CylinderMeasuring CylindersUsed in conjunction with a Kecol Piston Pump Pressure Priming System theseMeasuring Cylinders will dispense a predetermined volume of liquid or viscous product. They are constructed of either carbon steel or 316 stainless steel and are available in either manual or pneumatic actuation and fixed or adjustable outputs from about 200ml up to 3 Litres. Accuracy is normally better than ± 1%.Special SystemNon-Standard Pumps & SystemsWhether your requirement is for a special length piston pump with a non-standard outlet fitting or a Powerlift, Powerprime or Maxiprime system for non-standard vessels, Kecol will design and manufacture a unit to suit your requirements.Our engineers will be pleased to discuss the many different options that are available such as interlocking guards, jacking or standard castors, drum loading systems, quick strip pumps, dispensing and filling systems, etcMegaprime SystemsBased on the Maxiprime principle of operation the Megaprime twin cylinder pressure priming system is suitable for vessels upto 1200mm diameter and can be adapted for square bins.Water Jacketed PumpsFor situations where the product temperature needs to be maintained, Kecol Stubby Length Pumps can be Water Jacketed, allowing either hot or cold water to be circulated around the wetted end of the pump.Water Jacketed PumpMegaprime SystemKECOL TIE - ROD PISTON PUMPS。

气动加压泵组成及原理结构气动加压泵组成及原理：1.气体部分这一部分由一个装有O型密封圈的轻质异径活塞和一个外层玻璃纤维缠绕或硬铝镀层、中间用环氧树脂填充的套筒组成，活塞置于套筒内。

这种空气活塞的直径对于任何系列的气动泵都是恒定的。

当压缩空气送入气动装置时，迫使活塞进入压缩冲程，然后空气驱动活塞返回进行吸入冲程(具有弹簧自动回位功能的M系列泵除外)。

与其它多种泵不同，气动装置管路由于Haskel设计的固有低磨擦特性以及装配时的润滑，而无需使用润滑剂。

2.液压部分压装置的活塞/冲杆直接与活塞连接，其下端装入液压装置壳体之内。

它的直径确定了泵的压缩比，从而确定输出流量和最大压力。

它的作用是通过进口控制阀将液体吸入，并在较高压力下通过出口控制阀使其流出。

该装置装有弹簧止回阀，用于控制液体进出通道。

当液压装置的活塞/冲杆处于吸入冲程时，进口控制阀打开, 出口控制阀通过弹簧保持关闭时，将液体引入泵内。

升压冲程时，进口控制阀关闭，液压装置的活塞/冲杆通过出口控制阀迫使液体流出。

动态密封圈位于液压装置活塞/冲杆的周围，而且是一种几乎无磨损的零件。

它的作用是循环期间，在压力下能够容纳液体，并防止外部泄漏或渗入气体装置。

根据泵出液体的介质、使用温度和增压比，选用了不同的密封材料和形式。

附注：大多数Haskel泵在气动部分与液压部分之间均使用一个定位件，以便使其完全分离，并进行无污染操作。

3.空气循环阀这一部分由一个控制器和一个柱塞构成，它根据位置状态使压缩空气流到空气活塞的任何一端。

该活塞在其冲程的上端和底部推动控制阀，对滑阀的大面积进行交替增压和换气，以控制气流向空气活塞往复运动，保持循环状态。

空气从泵中排出时，需通过排气消声器。

与其它多种泵不同，Haskel泵在设计中不采用金属一金属的紧配合，这样可以防止漏气导致柱塞终止操作的后果。

气动加压泵特点及应用：1.多种气体驱动：压缩空气.氮气.水蒸汽.天然气等均可做作为泵的驱动气源。

增压泵十大品牌都是哪些？1.上海阳光泵业制造有限公司上海阳光泵业制造有限公司是国内一家著名的集研制、开发、生产、销售、服务于一体的大型多元化企业，注册资本8000万元。

主导产品包括：螺杆泵、隔膜泵、液下泵、磁力泵、排污泵、化工泵、多级泵、自吸泵、齿轮油泵、计量泵、卫生泵、真空泵、潜水泵、转子泵等类别。

产品广泛应用于：工业生产，建筑城镇供水，环保污水处理，市政工程，食品制药，水利电力，石油船舶等多种领域。

客户包括大庆油田、胜利油田、中国水利水电、浦项集团等世界知名企业。

2. 赛高：SEKO品牌是一家全球闻名的加药泵和系统制造企业，已有40多年历史。

从卫生和表面清洁系统设计到人类消费、冷却塔、泳池和各类工业流程所需的水处理，SEKO专注于电磁和电机驱动加药泵、测量和分析仪表的专业设计与制造，可根据任何需求量身定制解决方案3. 凯士比：成立于1871年，水泵和工业阀门相关系统制造商，提供工业、楼宇、水和污水、矿业、能源领域全套的自动化及驱动解决方案，并提供水泵阀门的安装调试、保养维护等服务。

4. 重庆霞诺发电机制造有限公司重庆霞诺发电机制造有限公司经过几年的发展，已由单一生产发电机组（及配套设备）的公司发展成为了一家集燃气机组（及配套产品）生产、泵阀生产、变压器生产的一综合性公司。

公司位于重庆市梁平工业园A区，公司技术力量雄厚、工艺先进、设备齐全、质量控制严格，产品性能达到国内外先进水平，公司主要分为：1、燃气分公司：生产和销售燃气发电机组及燃气管路设备；2、泵阀分公司：生产和销售各种阀门和水泵；3、电器分公司:生产和销售各种变压器。

公司主要生产的燃气发电机组有：瓦斯发电机组、沼气发电机组、天然气发电机组、生物质气发电机组、焦化气体机组、煤气发电机组组、页岩气发电机组等。

公司生产的燃气设备主要有：脱硫器（塔）、气水分离器、细水雾系统（模块）、除尘器、过滤器、止回阀、阻火器、全自动水封、自动阻爆装置、自动抑爆装置、减（增）压稳压系统、冷却塔、湿式放散阀、干式放散阀、脱雾装置、紧急切断电磁阀、减压稳压阀等。

产品名称:SMC气动增压泵
SMC气动元件是通过气体的压强或膨胀产生的力来做功的元件，即将压缩空气的弹性能量转换为动能的机件,如气缸、气动马达、蒸汽机等,气动元件是一种动力传动形式，亦为能量转换装置，利用气体压力来传递能量,气动装置结构简单、轻便、安装维护简单,介质为空气，较之液压介质来说不易燃烧，故使用安全。

工作介质是取之不尽的空气、空气本身不花钱。

排气处理简单，不污染环境，成本低,输出力以及工作速度的调节非常容易气缸的动作速度一般小于1M/S，比液压和电气方式的动作速度快,可靠性高，使用寿命长,电器元件的有效动作次数约为百万次，而一般电磁阀的寿命大于3000万次，某些质量好的阀超过2亿次,利用空气的压缩性，可贮存能量，实现集中供气,可短时间释放能量，以获得间歇运动中的高速响应。

可实现缓冲。

对冲击负载和过负载有较强的适应能力。

在一定条件下，可使气动装置有自保持能力。

HASKEL高压气动气体增压泵Haskel 气动气体增压泵由通过连接杆与小面积气体活塞直接相连的空气驱动往复式大面积活塞构成。

在每一个气体腔端盖中都包含输入、输出单向阀，空气驱动部分包含有循环轴和导向阀。

当通入驱动气体时，二者提供连续往复运动。

Haskel 气动气体增压泵中气体压缩腔与空气驱动腔的分离是由三级动态密封装置提供的。

两腔之间的部分与空气相通。

这种设计可以保证被压缩气体不被驱动气体污染。

Haskel 气动气体增压泵充分利用驱动气体在做成功后温度显著降低的特点，将排出的低温驱动气体作为冷却剂通入气动气体增压泵自带的热交换器，用来冷却高压输出气体和气动气体增压泵的钢套。

这种做法不仅可以保证高压输出气体和增压装置的温度在20度的附近，还避免了使用电动冷却装置的强烈噪音。

HASKEL 气动气体增压泵正常工作的温度范围Haskel 气动气体增压泵由空气驱动和气体压缩两部分构成。

空气驱动部分既然室外温度决定了空气和气体密封件和其它静态零件的温度，那么就一定要考虑室外温度情况。

标准空气驱动部分的可靠工作温度范围是-4℃到+65℃（25℉到150℉）。

温度过低，会增大空气或气体的泄漏量，降低工作效率；温度过高，会降低密封件的寿命。

气体压缩部分低温通常对气体压缩部分的标准零件和密封件的工作没有影响。

压缩过程中产生的热量有助于平衡低温环境。

此部分最高平均可用温度为115℃（240℉）haskel气体增压泵的特点:到达预定压力后即自动停机，不再消耗多余的能量和产生热量不产生热量，不会有火花和火焰危险，安全防爆线性输出，易于实现人工或自动控制-通过控制驱动气压或入口气体压力可以精确调节输出压力达2690bar(269MPa)的最高输出压力，满足大多数高压需要可以连续起停，不受限制，并无不良影响气动活塞环及其他气动部件在工作状态时不需要添加润滑油，从而节省运行成本，并可防止油气污染环境轻便可靠，易于维护，坚固耐用以压缩空气为动力源，不需使用电源haskel气体增压泵的应用范围:阀门、管件、压力容器等提供气压静压和高压爆破测试航空航天高压附件维修后的气压静压、动态测试安全阀校定HASKEL高压气动气体增压泵Haskel 气动气体增压泵由通过连接杆与小面积气体活塞直接相连的空气驱动往复式大面积活塞构成。

增压泵品牌型号及功能特点增压泵是一种将介质通过增压设备进行增压的机械设备。

在各个领域，如水处理、能源、化工、冶金等都有广泛的应用。

下面将介绍几种常见的增压泵品牌型号及其功能特点。

1.离心泵离心泵是最常见的一种增压泵，它通过离心力将液体送出。

离心泵的品牌型号有国内的华南泵，国外的格林甘普（Grundfos）等。

华南泵的型号有IS、ISR、IR、ISG、IH、Y、AS等多种，其中IS型是一种普通的增压泵，适用于输送清水或物性类似于水的液体。

IR型是一种热泵，适用于输送介质温度高于80℃的液体。

ISG型是一个立式离心泵，适用于工业和城市供水、循环水供暖、浴室和冷却塔等场合。

格林甘普（Grundfos）是世界领先的泵制造商，它的品牌型号有CM、CR、CHI等。

CR型是一种多级离心泵，适用于供水、卫生间供水、水处理、楼宇和工业用途等。

CHI型是一种高温泵，适用于输送高温液体，比如热水、热油等。

离心泵的功能特点是结构简单，体积小，重量轻，性能可靠，维护方便，适用范围广。

2.轴流泵轴流泵是一种通过转子叶片产生离心力将液体送出的增压泵。

轴流泵的品牌型号有国内的长城泵厂、上海大晟机械等，国外的荷兰国际海尔（Haijiang International）等。

轴流泵的功能特点是扬程高，流量大，能耗低，噪音小，适用范围广。

3.混流泵混流泵是一种介于离心泵和轴流泵之间的增压泵，它通过转子叶片产生离心力和轴向力将液体送出。

混流泵的品牌型号有国内的中正机械、兄弟工业、嘉善凯亿泵业等，国外的日本东洋泵业（Tsurumi Pump）等。

混流泵的功能特点是流量大，扬程较高，适用范围广。

4.高压水泵高压水泵是一种能够将水压增加到较高压力的增压泵，它通常用于高压清洗、水射流切割、灌注注射、液压集成等领域。

高压水泵的品牌型号有国内的通宇机械、恒通机械等，国外的意大利HAMMELMANN等。

高压水泵的功能特点是压力高，流量大，工作稳定，适用范围广。

326DPL122877.963.4966 • Pneumatic Accessories R43-Series Water Pressure RegulatorsApplication • U sed in water systems to reduce and maintain pressure at a nearly constant level despite changes in the inlet pressure and changes in downstream flow requirementsFeatures • T-handle adjustment • B rass body and aluminum bonnet • N on-relieving type • G auge port is full-flow and can be used as an outlet portSpecifications • P ressure range: 5-125 PSI • I nlet pressure:400 PSI •T emperature range: - w ater service: 35° to 200°F (2°C to 93°C) - a ir service: -30° to 200°F Application • B alanced valve minimizes effects of the inlet pressure variations on outlet pressureFeatures •T -handle adjustment •N on-relieving type • B ody, valve, and bottom plug are brass; bonnet is aluminum and steel •E lastomers are nitrileSpecifications •I nlet pressure: 400 PSI •T emperature range: - w ater service: 35° to 200°F (2° to 93°C) - a ir service: -30° to 200°F (-34° to 93°C)B72-Series Sub-Compact Filter / Regulators with transparent bowl Features •P article removal per ISO 8573-1, Class 5, and Class 3• I n-line or modular installation • 40 micron element • 2 oz. reservoir• Q uick-release bayonet bowl • P rismatic lens liquid level indicator • S upplied with GC620 gaugeSpecifications •P ressure range: 5-150 PSI •I nlet pressure: - t ransparent bowl: 150 PSIand 125°F (52°C) - m etal bowl: 250 PSI and 150°F (66°C)with metal bowlMetal Bowl and Sight GlassSeries 1 FRLsNOTE: S CFM ratings given at 150 PSIG inlet pressure FRLs are designed for air service only, unless otherwise indicated. See pages 333 to 338 for accessories.。

上海立元冷热自吸增压泵说明书上海立元冷热自吸增压泵是一种先进的增压设备，广泛应用于工业、建筑、矿山等领域。

本文将就该泵的构造、工作原理、安装与使用、注意事项等方面进行详细介绍。

一、构造上海立元冷热自吸增压泵由电机、泵体、转子、叶轮、机械密封等部分组成。

电机通过轴联接带动转子旋转，转子内叶轮通过离心力作用将液体吸入泵体，并将其加压排出。

机械密封用于保证泵体内的密闭性。

二、工作原理上海立元冷热自吸增压泵利用离心力和容积吸引原理，将液体从低压区域吸入到高压区域。

当电机启动后，转子开始旋转，叶轮的离心力使液体从吸入管道进入泵体，同时液体被压缩并加速流出。

三、安装与使用安装时，首先确保基础稳固，然后将泵体固定在基础上，并连接好进出口管道。

安装后，需要进行泵的试运行，以确保泵体没有异响，并检查是否有漏水等问题。

在使用中，还需要定期检查油位和润滑情况，如果发现异常，需要及时处理。

四、注意事项1. 在安装过程中，要注意泵体与管道之间的密封性，以免出现泄漏问题。

2. 在试运行前，要仔细检查泵体和管道的连接是否牢固，以免出现意外情况。

3. 在使用中，要保持泵体和转子的清洁，避免杂质进入导致故障。

4. 定期检查油位和润滑情况，保证泵的正常工作。

5. 如果感觉泵体有异常情况，应立即停机检查，避免进一步损坏。

总结起来，上海立元冷热自吸增压泵是一种可靠高效的增压设备，其构造简单，工作原理清晰。

在安装与使用中，需要注意泵体与管道的密封性，保持清洁和润滑，定期检查并及时处理异常情况。

通过正确使用和维护，上海立元冷热自吸增压泵可以稳定运行，为工业生产提供可靠的增压支持。

管道增压泵是什么管道增压泵工作原理什么在吸入阶段，首先，在泵体内建立一个低压区域。

当泵体内部的活塞
向上移动时，泵体内部会形成负压空腔。

此时，由于大气压力高于负压空
腔内的压力，液体或气体会进入空腔中。

随着活塞的下行运动，空腔内的
体积开始减小，而液体或气体的密度保持不变，导致压力增加。

因此，在
活塞下行运动时，液体或气体被吸入到管道增压泵中。

在排出阶段，活塞开始上行运动。

当活塞上行时，泵体内的空腔容积
逐渐减小，导致压力逐渐增加。

这时，液体或气体会被推向管道或相应的
位置。

随着活塞的上行运动，压力将不断增加，直到与输出位置的压力相等。

当压力平衡时，泵体内的液体或气体停止被排出。

需要注意的是，管道增压泵的工作原理可以有多种类型，包括离心泵、柱塞泵、齿轮泵等，每种类型的工作原理略有不同。

总的来说，管道增压泵通过机械作用，利用泵体内的泵腔体积变化来
实现液体或气体的增压和输送。

它在工业生产和民用生活中具有广泛的应用，例如给水、采矿、化工、建筑、冶金等行业中的水处理、循环和输送。

随着技术的进步和创新，管道增压泵也在不断改进和完善，以满足更多领
域的需求。

Effective: October, 2011Supersedes: June, 2006Bulletin HY30-5506-M1/UKService ManualSeries V122Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UKList of contents PageSpecifications and cross section ...............................................................3Assembling shaft package ..................................................................4 - 5Assembling cylinder barrel, joint shaft and cover ......................................5Assembling control cover ..........................................................................6Assembling end cap .............................................................................7-10Assembling complete unit ..................................................................11-13End-cap location .....................................................................................14Parts specification and split view ......................................................15 - 19Seal kit specification ................................................................................20Test procedure .........................................................................................21Gauge and pilot ports AC and AH control ................................................22Gauge and pilot ports EO and EP control ...............................................23Gauge and pilot ports HO and HP control .. (24)Conversion factors1 kg = 2.2046 lb 1 N = 0.22481 lbf 1 bar = 14.504 psi1 l = 0.21997 UK gallon 1 l = 0.26417 US gallon 1 cm 3 = 0.061024 in 31 m = 3.2808 feet 1 mm = 0.03937 in 1 °C= 1.8°F + 32Offer of SalePlease contact your Parker representation for a detailed ”Offer of Sale”.FAILURE OR IMPROPER SELECTION OR IMPROPER USE OF THE PRODUCTS AND/OR SYSTEMS DESCRIBED HEREIN OR RELATED ITEMS CAN CAUSE DEATH, PERSONAL INJURY AND PROPERTY DAMAGE.This document and other information from Parker Hannifin Corporation, its subsidiaries and authorized distributors provide product and/or system options for further investigation by users having technical expertise. It is important that you analyze all aspects of your application, including consequences of any failure, and review the information concerning the product or sys-tem in the current product catalogue. Due to the variety of operating conditions and applications for these products or systems, the user, through its own analysis and testing, is solely responsible for making the final selection of the products and systems and assuring that all performance, safety and warning requirements of the application are met.The products described herein, including without limitation, product features, specifications, designs, availability and pricing, are subject to change by Parker Hannifin Corporation and its subsidiaries at any time without notice.WARNING!3Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UKSpecifications¹) Max 6 seconds in any one minute.1. End cap2. Servo control valve3. Setting piston4. Valve segment5. Cylinder barrel6. Spherical piston with laminated piston ring7. Synchronizing shaft8. Heavy-duty roller bearings9.Bearing housing10. Output shaftV12 cross section4Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UKAssembling, shaft package1. Press down the big tappered roller bearing and the inner ring for the roller bearing in two steps. Note! On V12-060 there is a distance between the bearings.2. Press down the roller bearing with the text upwards into the flange and assemble it on the shaft package.3. Assemble the bearing ring with the textdownwards.4. Assemble the shim.5. Assemble the retaining ring. Make sure it is all the way into the groove. Check the pre-load of the bearings, not to tight and no back-lash.6. Assemble the O-ring.5Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UK7. Press down the shafts seal in the seal car-rier and assemble the retaining ring.8. Assemble the seal carrier with shaft seal and the retaining ring. Make sure it is all the way into the groove.Assembling, shaft package, cylinder barrel, joint shaft and cover9. Assemble the guide pins.10. Assemble the sliding plate.11. Assemble the joint rollers on the joint shaft. Make sure the step on the joint rollersis fitted inwards.12. Assemble the displacement setting screw, seal nut and the O-ring.6Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UK13. Assemble the O-rings and plugs that are required for the specific control cover. AH-control is shown in the picture.14. Assemble the control piston in the AH- housing. 15. Assemble the O-ring.Assembling, control cover16. Assemble the hexagon plug.DIN 38±8 Nm SAE 25±5 NmDIN 13±3 Nm (AHI-I)DIN 38±8 Nm SAE 25±5 Nm17. Assemble the AH-housing. The narrowside against X5.12±3 NmNarrow side18. Put some greas on the guide pin and assemble it in the control cover.7Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UK19. Assemble the hexagon plugs.DIN 38±8 NmSAE 25±5 NmAssembling, end cap20. Assemble the adjusting screw and seal nut.21. Assemble the setting piston in the endcap. Make sure the thread is against the con-trol cover side.22. Assemble the companion pin in the set-ting piston. Make sure the location hole is against the control cover side.23. Assemble the set screw with the pointed end. Make sure that it hits the location hole inthe companion pin.24. Torque the set screw to 14±4 Nm.8Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UK25. Assemble the set screw with the flat end. 26. Torque the set screw to 26±6 Nm. Move the companion pin back and forward to make sure it moves smooth.27. Assemble the spring guide. Use a longallen key to locate the spring guide.28. Assemble the modulating spring.Assembling, end cap29. Assemble the spring seat.30. Assemble the threshold spring.9Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UK31. Assemble the spring seat.Assembling, end cap33. Assemble the valve sleeve assy. Make sure the spool hits the guide hole in thespring seat.34. Assemble the valve cones.35. Assemble the valve guides assy. Care-fully tap them down with a hammer.36. Assemble the nozzles and torque them to1,2±0,2 Nm.32. Assemble the nozzles and torque them to 1,2±0,2 Nm.10Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UK37. Assemble the control cover assy. Make sure the O-rings are in correct position.38. Torque the screws to 65±10 Nm forV12-60 -- 110, 105±20 Nm for V12-160.39. Assemble the cover assy. Make sure notto damage the O-ring.40. Torque the screws to 65±10 Nm forV12-60 -- 110, 105±20 Nm for V12-160.41. Assemble the valve segment in the end cap. The slot in the valve segment against the cover side.Assembling, end capAssembling, complete unit42. Place the bearing package in a fixture.Assemble the compression spring.43. Assemble the guide pin.44. Assemble the support pin.45. Assemble the pistons and line them up as shown in picture.46. Assemble the joint shaft with joint rollers. Add some grease to keep the joint rollers inplace.47. Assemble the support pin. Use a lot of grease to keep it in place.Assembling, complete unit48. Assemble the cylinder barrel. Make surethat all rollers are in place.49. Make sure the support pin is in correct position by using a steel wire.50. Assemble the gasket and lubricate it withhydraulic oil.51. Assemble the bearing housing. Carefully knock it down with a plastic hammer. Securethe housing by assembling one screw.52. Assemble the gasket and lubricate it withhydraulic oil.53. Assemble the end cap assy. Mind your fingers, don't squeeze them.Refer to page 14 for end cap location.Assembling, complete unit54. Assemble the screws and torque the screws to 65±10 Nm for V12-60/80 and 105±20 Nm for V12-110/160.55. Assemble the screws and torque the screws to 65±10 Nm for V12-60/80 and 105±20 Nm for V12-110/160.End cap locationAC and AH control shold be assembled with the con-trol cover at the maximum side.EO and EP control shold be assembled with the con-trol cover at the minimum side.HO and HP control shold be assembled with the con-trol cover at the minimum side.Minimum sidesidesideGeneral PartsItem Title Benämning111 End Cap Ansl. Block211 Bearing Housing Lagerhus225 O-Ring O-Ring227 Gasket Packning227 O-Ring O-Ring229 O-Ring O-Ring231 Seal Carrier Tätringshållare233 Shaft Seal Tätningsring237 Retaining Ring Spårring245 Seal Washer Tätbricka246 Hex Socket Screw Insexskruv311 Shaft Axel411 Cylinder Barrel Cylindertrumma 413 Guide Pin Styrstift415 Needle Bearing Nålbussning420 Valve Segment Ventilsegment424 Sliding Plate Glidplatta433 Compression Spring Tryckfjäder434 Guide Pin Styrpinne440 Piston Assy Kolv KPL447 Joint Shaft Synkroniseringsaxel 448 Joint Roller Rulle449 Support Pin Stödpinne451 Spring Pin Rörpinne453 Pin Pinne454 Retaining ring Spårring455 Joint Coupling Medbringare460 Tap Rol Bearing Kon Rullager465 Spacer Sleeve Distanshylsa470 Cyl Bearing Cyl Lager476 Spacer Washer Distansbricka476 Spacer Washer Distansbricka478 Retaining Ring Spårring493 Hex Socket Screw Insexskruv495 Gasket Packning501 Bearing Housing Lagerhus510 Hexagon Plug InsexproppSplit view493453451454227501510449448449495411415424413420455440434237225478476470465 (V12-60 only)460311433231233476246211229246245227447111General Parts End CapItem Title Benämning 111 End Cap Anslutningsblock 121 Cover Lock122 Set Screw Ställskruv 123 Seal Nut Tätmutter 125 O-RingO-Ring 126 Hex Socket Screw Insexskruv 133 Setting Piston Ställkolv 134 Set Screw Stoppskruv 135 Set ScrewStoppskruv136 Companion Pin Medbringartapp 822 Shuttle Spolkolv 823 WasherBricka824 Compression Spring Tryckfjäder 825 Hexagon Plug Sexkantpropp 835 NozzleMunstycke 841 Protective Cover Skyddslock 842 Hex Socket Screw Insexskruv 843 O-RingO-Ring844 Expanding PlugExpanderplugg111133822823824825835844843841842125121123122126844135134136Item Title Benämning 701 Nozzle Munstycke 703 Nozzle Munstycke 705 NozzleMunstycke 711 Control Cover Regulatorlock 719 O-Ring O-Ring720 Support Ring Stödring 729 O-Ring O-Ring 735 Valve Cone Ventilkägla 736 Valve GuideVentilsäte737 O-Ring with Support Ring O-Ring med Stödring 771 Valve Sleeve Ventilfoder 772 Valve Spool Ventilslid 774 Piston Ring Lamellring 775 O-RingO-Ring 781 Modulating Spring Tryckfjäder 782 Threshold Spring Tryckfjäder 783 Spring Seat Fjädersäte 784 Spring Seat Fjädersäte 785 Spring Guide Fjädersäte 791 Adjusting Screw Ställskruv 793Sealing NutTätmutter705791785781784782775783774701717771735736737711703729772720Assembled in the end cap719793General Parts Control743747741746742744Item Title741 AH Housing 742 O-Ring743 Hex S Screw 744 Control Piston 746 Piston Seal 747 Guide Pin761762763Item Title 761 Solenoid 762 O-Ring 763 Guide Pin726DIN: M14x1,5SAE: 9/16 - UNF-2B714713724723711722DIN and SAE: M10x1Item Title711 Control Cover 713 Set Screw 714 Seal Nut 722 Seal Plug723 Hexagon Plug 724 Hexagon Plug 726 Hexagon PlugGeneral Parts ControlsSeal Kit Specification495720775719717123125843729737746742762227224229225233229245227For N-type flangeV12-060 3794856V12-080 3794858V12-110 3795372V12-160 379638821Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UKTest procedureUse a test stand that supplies a flow of about 30 l/min. and pressures of up to 300 bar.A secondary flow of 3-5 l/min. at a pressure of 25 bar is required to supply low pressure for externally supplied controls.EP control requires an amplifier supplying correct current according to specification.Test1. Fill housing with hydraulic fluid and start the pump in the test stand.2. Increase the pressure with the restrictor valve on the return line. Max allowed pressure is 150 bar / 2150 psi.3. Check the drain flow and compare with the table.För funktionskontroll behövs en provbänk med kapacitet 30l/min och 300 bar. Ett sekundärflöde på 3-5 l/min och tryck 25 bar krävs för ställdon med extern matning.EP ställdon kräver en förstärkare.Test1. Fyll V12 med olja ihuset och starta pumpen i testbänken.2. Öka trycket med stryp-ventilen på returledningen. Trycket får inte överstiga 150 bar / 2150 psi.3. Mät läckflödet och kontrollera mot tabellenFunktionskontroll22Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UKGauge/Pilot ports (AC and AH control)X1 Setting piston pressure (increasing displ.)X2 Servo supply pressure (after orifice)X4 Servo supply pressure (before orifice)X5 External pilot pressure X6 Setting piston pressure (decreasing displ.)X7 Override pressure (only AH control)Ports are: - M14x1.5 (ISO and cartridge versions)- 9/16"-18 O-ring boss (SAE version)MaxMinX5Displacement(setting piston position)Override Min threshold Max pressureSystem pressurepressurepressureACE 01 I schematic (spool in a balanced, mid-pos.)MaxMinDisplacement(setting piston position)Max System pressurepressure23Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UKGauge/Pilot ports (EO and EP control)X1 Setting piston pressure (max-to-min, EO)X1 Setting piston pressure (decreasing displ. EP)X2 Servo supply pressure (after orifice)X4 Servo supply pressure (before orifice)X6 Setting piston pressure (min-to-max, EO)X6 Setting piston pressure (increasing displ. EP)Ports are: - M14x1.5 (ISO and cartridge versions)- 9/16"-18 O-ring boss (SAE version)Displacement(setting piston position)DisplacementSolenoid currentcurrent currentEPH 01 E schematic (spool in balanced, mid-pos.)24Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UKGauge/Pilot ports (HO and HP control)X1 Setting piston pressure (max-to-min, HO)X1 Setting piston pressure (decreasing displ. HP)X2 Servo supply pressure (after orifice)X4 Servo supply pressure (before orifice)X5 External pilot pressure (max 100 bar)X6 Setting piston pressure (min-to-max, HO)X6 Setting piston pressure (increasing displ. HP)Ports are: - M14x1.5 (ISO and cartridge versions)- 9/16"-18 O-ring boss (SAE version)MaxMinMaxMinDisplacement(setting piston position)Displacement(setting piston position)Min threshold pressureMax threshold pressurePilot pressureThreshold press. (min)Adjustment rangeP s HO S 01 E schematic (X5 not pressurized)P s Min threshold pressureMax threshold pressureΔp Threshold pressureModulating pressurePilot pressureHP S 01 I schematic (spool in a balanced, mid-pos.)HP S 01 E schematic (spool in a balanced, mid-pos.)25Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UK26Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UK27Parker HannifinPump and Motor Division Trollhättan, SwedenService Manual Series V12HY30-5506-M1/UKParker HannifinPump and Motor Division Flygmotorvägen 2SE-461 82 Trollhättan SwedenTel: +46 (0)520 40 45 00 Fax: +46 (0)520 371 05 。

增压膨胀机的工作原理及优点增压膨胀机，听名字就有点炫酷吧？它的工作原理其实挺简单，但又充满了科技的魅力。

想象一下，空气在机器里面“飞来飞去”，像小孩子在游乐场里玩得不亦乐乎。

这种机器的核心就是增压的过程。

就好比你在学校里，遇到一个特别优秀的同学，他一来就把整个班级的气氛都带动起来，大家都变得更有活力。

增压膨胀机也是如此，它通过增加空气的压力，让气流变得更加有劲儿。

你看，这种“加压”就像给大家打了鸡血，瞬间就能让整台机器的效率提升不少，真是个小能手！再说了，增压膨胀机的优点也不少哦。

它能提高系统的效率，这个可是非常重要的。

就像你平常上班，如果工作效率高，老板自然会对你刮目相看。

相反，要是每天慢吞吞的，难免会被同事嘲笑。

增压膨胀机就是那种让设备“飞起来”的神奇存在。

它能将压缩机的效率提升到一个新高度，真是太给力了。

想想看，如果我们的机器都能像打了兴奋剂一样，效率蹭蹭往上涨，那真是太爽了！它的节能效果也相当给力。

节能，听上去就像是个超级英雄，能拯救我们的钱包和地球。

增压膨胀机通过优化气流的方式，能减少能源的浪费。

就像你平时买东西，如果能找到打折的商品，那简直就是赚到了。

这个机器也一样，能够在减少能耗的同时，确保工作效率，简直是“省钱省心”的代名词。

说到这里，不得不提它的环保优势了。

现在大家都在追求绿色生活，这个增压膨胀机也响应了号召，让我们的工业生产变得更加环保。

用的少，排的少，环保得体，无疑是给我们的一种责任感。

维护也特别方便。

你有没有遇到过那些复杂的设备，弄得你头疼不已？但增压膨胀机可不一样，它的结构相对简单，维护起来像是给朋友打个电话，轻松又愉快。

只要定期检查和清洁，机器就能保持在最佳状态，像个随时待命的“战士”。

维护少、效率高，这两点一结合，简直就是工业界的“黄金搭档”！增压膨胀机在很多领域都有广泛的应用，比如化工、制药、能源等。

它的身影几乎可以说无处不在。

想想看，化工厂的反应锅里，增压膨胀机就是那关键的“小角色”，推动着反应的进行。

haskel气动增压泵组成及工作原理
Haskel气动增压泵是由多种组件组合而成的系统，用于将低压气体压缩到高压气体，它可以运用于多种工业应用，如压缩空气、液体和气体混合物。

Haskel气动增压泵的基本原理是通过一个可变压缩比的叶片转子来实现的，叶片转子由外螺旋状的叶片组成，这些叶片均有不同的宽度和形状，它们把输入的低压气体变成高压气体。

气体的压缩过程，从叶片转子的外部开始，气体被排入到叶片转子的空腔中，叶片转子的形状逐渐变小，气体被迫向内部空间挤压，从而达到压缩的目的。

当气体被压缩完毕，它就会从叶片转子的内部流出，被压缩到一定的压力，最后输出高压气体。

Haskel气动增压泵还具有自防止过载设备，当压力超出设定值时，它会自动控制输出压力，以免发生过载现象。

此外，它还包括用于润滑和冷却的油泵，用于控制叶片转子的转速的驱动装置，以及用于控制输出压力的调节器。

Haskel气动增压泵具有体积小、重量轻、运行稳定、噪音低等特点，常用于各种工业应用，如压缩空气、液体和气体混合物等。

优力克豪华家用增压泵说明书
一、将压力限调至1.5MPa（上切换值），发出触点信号，其操作步骤：
1.打开盖板，旋松锁紧器。

2.顺时针旋动设定值调节螺杆，使设定值由大变小，直至开关触点在1.5MPa处切换。

3.旋紧锁紧器。

二、将压力下限调至0.5MPa（下切换值）发出触点信号，其操作步骤：
1.打开盖板，旋松锁紧器。

2.逆时针旋动设定值调节螺杆，使设定值由小变大，直至开关触点在0.5MPa处切换。

3.旋紧锁紧器。

水泵压力控制器的调节方法如下：
1、设置控制压力的方法
（1）短按运行开关键，关闭运行指示灯，压力控制系统关闭。

（2）设置控制上限/下限：短按SET键1次，进入下限设置状态（对应下限指示灯亮），通过（▲）（▼）设置数值，设置下限完成后，短按SET键进入上限设置，设置方法同上。

（3）设置完成后，按SET键将设定值自动存入电脑芯片（参数修改后，5秒钟内无按键操作会自动保存当前参数设置）。

（4）再次按运行开关键（对应运行指示灯亮），电机开始工作。

2、单位切换方法：关闭运行键，短按增加键（▲）可以将单位在MPa、Kg/cm2、PSI之间任意切换。

设置完成后开启运行指示灯。

3、零位清零功能：关闭运行键，长按减小键（▼）5秒可以将当前压力值清零，修正零位误差。

设置完成后开启运行指示灯。

（使用此功能时压力开关不得施加压力。

增压泵自动开关原理图增压泵自动开关原理图是指一种用于控制增压泵自动启停的电路原理图。

它通过一系列的电气元件和控制器实现对增压泵的智能化控制，从而提高了增压泵的效率和稳定性。

本文将详细介绍增压泵自动开关的原理图及其工作原理。

首先，我们来看一下增压泵自动开关原理图的组成部分。

一般来说，增压泵自动开关电路包括电源输入端、控制器、传感器、继电器、开关按钮等组件。

其中，电源输入端接受外部电源输入，控制器负责对增压泵的启停进行逻辑控制，传感器用于监测水压或水流情况，继电器则用于实现电路的闭合和断开，开关按钮则是用于手动控制增压泵的启停。

在增压泵自动开关原理图中，控制器起着核心的作用。

它可以根据传感器检测到的水压或水流情况，自动判断是否需要启动或停止增压泵。

当水压或水流低于一定数值时，控制器会向继电器发送启动信号，从而闭合电路，使增压泵开始工作；相反，当水压或水流高于一定数值时，控制器会向继电器发送停止信号，从而断开电路，使增压泵停止工作。

这样一来，增压泵就可以根据实际需求进行智能化的启停控制，既能够保证供水的稳定性，又能够节约能源，延长设备的使用寿命。

除了自动控制外，增压泵自动开关原理图还通常包括手动控制功能。

这是为了在特殊情况下，如设备故障或维护保养时，可以通过手动按钮来控制增压泵的启停，以确保供水的正常运行。

手动按钮通常与控制器相连，通过控制器来实现与自动控制的切换。

总的来说，增压泵自动开关原理图通过控制器、传感器、继电器和开关按钮等组件的配合，实现了对增压泵的智能化控制，从而提高了供水系统的效率和稳定性。

它不仅能够根据实际需求进行自动启停控制，还具有手动控制功能，能够在特殊情况下进行灵活应对。

因此，增压泵自动开关原理图在供水系统中具有重要的应用意义，对于提高供水设备的运行效率和节约能源都具有积极的作用。

综上所述，增压泵自动开关原理图是一种通过电气元件和控制器实现对增压泵自动启停控制的电路原理图。

它通过智能化的控制方式，提高了供水系统的效率和稳定性，具有重要的应用价值。