旋片泵设计说明书

XZ-1型单级旋片式真空泵技术参数及特点技术参数一、XZ-1型单级旋片式真空泵特点：1.防返油设计进气通道作特殊设计，能防止停泵后泵油返流而污染被抽容顺及管路2.环保设计油箱作隔层处理，并在排气口上设置油气分离装置，无喷油并减少油雾污染3.铝合金电机机壳电机采用铝合金外壳，具有高的散热效率效率，保证长时间连续的正常运行，并具有较好的外观质量4.整体化设计与泵采用整体化设计，使产品更为紧凑轻巧合理5.大起动力矩本产品针对低温环境作特殊设计，保证在冬季环境温度较低的情况下正常起动6.使用防震橡胶机脚，减少震动及噪音。

二、XZ-1型单级旋片式真空泵用途：1..RS-1型旋式真空泵是直连式的微型真空泵2.针对低温环境特殊设计，保证在冬季环境温度较低的情况下正常起动。

3.优化设计，其真空度增加，效率提高，适用于真空制冷、汽车维修、医疗机械、真空包装、气体分析、印刷机械等各种真空抽气。

怎样选择水泵？建议从五个方面加以考虑，既液体输送量、扬程、液体性质、管路布置以及操作运转条件等。

1、流量是选泵的重要性能数据之一，它直接关系到整个装置的的生产能力和输送能力。

如设计工艺能算出泵正常、最小、最大三种流量。

选择泵时，以最大流量为依据，兼顾正常流量，在没有最大流量时，通常可取正常流量的1.1倍作为最大流量。

2、扬程是选泵的又一重要性能数据，一般要用放大5%—10%余量后扬程来选型。

3、液体性质，包括液体介质名称，物理性质，化学性质和其它性质，物理性质有温度c、密度d、粘度u，介质中固体颗粒直径和气体的含量等，这涉及到系统的扬程，有效气蚀余量计算和合适泵的类型：化学性质，主要指液体介质的化学腐蚀性和毒性，是选用泵材料和选用那一种轴封型式的重要依据。

4、管路布置条件指的是送液高度送液距离送液走向，吸如侧最低液面，排出侧最高液面等一些数据和管道规格及其长度、材料、管件规格、数量等，以便进行系梳扬程计算和汽蚀余量的校核。

5、操作条件的内容很多，如液体的操作T饱和蒸汽力P、吸入侧压力PS（绝对）、排出侧容器压力PZ、海拔高度、环境温度操作是间隙的还是连续的、泵的位置是固定的还是可移的。

2X-15A型旋片式真空泵特点及技术参数该泵可直接从大气起动抽气，它可单独利用，也可作为增压泵、罗茨泵、气体循环冷却罗茨泵、油扩散泵、分子泵的前级泵、维持泵、钛泵的预抽泵。

可供真空镀膜、真空热处置、真空冶炼、电子管、灯泡、化工、包装、吸塑成形、光伏、工矿企业的蒸馏、干燥、冷冻、过滤、理化等真空作业中。

一、2X-15A型旋片式真空泵特点一、工作要求：入口压强在大于6500Pa时持续工作时间，不得超过3分钟以避免喷油引发泵损。

二、工作要求：入口压强在小于1330Pa的条件下，允许长时期持续工作。

3、环境温度：真空泵一般在5℃-40℃的室温及不高于90%的相对温度的环境内利用。

4、气体类型：常温无其它混合物的清洁干燥空气，不准有含其它粉尘及水分。

五、设有气镇阀，可抽除少量水蒸汽，延长泵油利历时间（除2X-4A外）；六、霓虹灯制造专用真空泵，单晶炉、多晶炉、层压机配套等真空作业。

7、可单独作中真空泵用，也可与其它高真空泵组合作前级泵用。

八、一泵多抽头作业，提高效率，可节约能源。

二、2X-15A型旋片式真空泵技术参数实物图如何选择水泵？建议从五个方面加以考虑，既液体输送量、扬程、液体性质、管路布置和操作运转条件等。

一、流量是选泵的重要性能数据之一，它直接关系到整个装置的的生产能力和输送能力。

如设计工艺能算出泵正常、最小、最大三种流量。

选择泵时，以最大流量为依据，兼顾正常流量，在没有最大流量时，通常可取正常流量的1.1倍作为最大流量。

二、扬程是选泵的又一重要性能数据，一般要用放大5%—10%余量后扬程来选型。

3、液体性质，包括液体介质名称，物理性质，化学性质和其它性质，物理性质有温度c、密度d、粘度u，介质中固体颗粒直径和气体的含量等，这涉及到系统的扬程，有效气蚀余量计算和适合泵的类型：化学性质，主要指液体介质的化学侵蚀性和毒性，是选用泵材料和选用那一种轴封型式的重要依据。

4、管路布置条件指的是送液高度送液距离送液走向，吸如侧最低液面，排出侧最高液面等一些数据和管道规格及其长度、材料、管件规格、数量等，以便进行系梳扬程计算和汽蚀余量的校核。

pressures up to 15 bar.Benefits•Low pulsation and very gentle pumping, making the pump ideal for sensitive products.•Minimized shearing for protecting end-product quality.•Low maintenance, increased process uptime.•Maximized performance and minimized risk ofcontamination.Standard designAll media contacting steel components, like the rotor case, front cover, rotors and rotor nuts, are in W. 1.4404 (AISI 316L). The robust stainless steel gearbox provides maximum shaft rigidity and easy oil seal replacement. The gearbox design is universal which enables the flexibility of mounting pumps with the inlet and outlet ports in either a vertical or horizontal plane by changing the foot and its position.The standard Alfa Laval SX has four-lobe rotors rated to 150°C, facilitating use with CIP and SIP processes.Fully front-loading and fully interchangeable single, single flushed, and double mechanical shaft seals are available. All media contacting elastomers are controlled compression joints, the latest technology where static and dynamic elastomer seals are used to prevent leakage of pumped media to the atmosphere.The Alfa Laval SX can be supplied either as a bare shaft pump or mounted on a base plate complete with coupling, guard, gear motor and shroud for easy, plug-and-play installation. Working principleA gear train in the pump gearbox drives the rotors and provides accurate synchronization of the multi-lobe rotors. The movement of the counter-rotating rotors creates a partial vacuum that allows atmospheric pressure or other external pressures to force fluid into the pump chamber. As the rotors revolve, an expanding cavity forms, filling with fluid. As the blades disengage, each dwell forms a cavity. As the rotor blades engage, the cavity diminishes, and fluid is displaced into the outlet port.TECHNICAL DATAInside surface finish:Mech Ra ≤ 0.8Gearbox:Stianless steel Base plate:Stainless steel Coupling guard:Stainless steel Rotor:Four-lobe Product wetted elastomers:EPDM Other elastomers:FPMShaft seal:Single mechanical (R00)Rotary seal face:CarbonStationary seal face:Stainless steelMax flush pressure, single flush:0.5 bar Max flush pressure, double mechanical: 1 bar over product pressure Water consumption, flushed or double mechanical:0.5 l/min Flush connections:BSPT or NPTMedia contacting elastomersAll media contacting elastomers are controlled compression joints, the latest technology where static and dynamic elastomerseals are used to prevent pumped media leaking to atmosphere.1.Front cover compression joint2.Spline sealing cup seal3.Cup seal4.Squad ringFlows/Pressures/ConnectionsSX1/0070.07 1.54 1.8540 1.571001200SX2/0130.128 2.82 3.3840 1.5152151000SX2/0180.181 3.98 4.7850271001000SX3/0270.266 5.857.03502152151000SX3/0350.357.709.25652.571001000SX4/0630.6313.8616.6565 2.5101451000SX5/0820.8218.0421.6765 2.515215600SX5/115 1.1525.3030.3880310145600SX6/140 1.4030.8036.9980315215500SX6/190 1.9041.8050.20100410145500SX7/250 2.5055.0066.05100415215500SX7/380 3.8083.60100.40150610145500Note 1. These pressure ratings may vary for pumps with certain threaded connections.SX210SX313SX416SX519SX625SX728WeightSX1/0071617SX2/0133233SX2/0183334SX3/0275759SX3/0355961SX4/046107110SX4/063113116SX5/082155155SX5/115165165SX6/140278278SX6/190290290SX7/250336344SX7/380358366Shaft Seal Options•Single or single flush/quench (steam barrier for aseptic application) R00 type mechanical seals.•Double R00 type mechanical seal for flush.All sealing options are fully front loading and fully interchangeable without the need for additional housings or pump component changes. Specialised seal setting of the mechanical seal is not required as the seal is dimensionally set on assembly. This feature further enhances fast and efficient on-site seal interchangeability.Materials for Mechanical SealsCarbon/Stainless Steel, Silicon Carbide/Silicon Carbide or variations of these materials to suit fluid being pumped and/or application requirements. The seal seat and face material combinations are all EHEDG compliant.Standard Specification Options•Screwed male inlet and outlet ports to DIN11851, DIN11864, SMS, ISS/IDF, RJT or Tri-clamp.•Heating/Cooling Jacket for Rotorcase Cover.•ATEX compliance.•Complete pump unit comprising: Pump + Baseplate (mild or stainless steel) + coupling with guard + Geared electric motor suitable for (or supplied with) frequency speed control or manual variable speed drive (advise motor enclosure and electrical supply).Pump SizingIn order to correctly size a rotary lobe pump some essential information is required. Provision of this information listed below enables our Technical Support personnel to obtain the optimum pump selection.Product/Fluid Data •Fluid to be pumped •Viscosity •SG/Density•Pumping temperature, minimum, normal and maximum•Cleaning in Place temperature(s), minimum, normal and maximum Performance Data•Flow rate, minimum, normal and maximum•Discharge head/pressure (closest to pump outlet)•Suction conditionBareshaft Pump DimensionsFigure 1. Vertically ported All dimensions in mmSX1/0074095113208151640305296601008022114104801017423.5SX2/0134010514725216225032632758.5111100121241241001221332.5SX2/0185010514725216225032634365.5111100121241241001221332.5SX3/0275012517530022286040843472.5142155151851551251424637.5SX3/0356512517530022286040845078142155151851551251424637.5SX4/04650150213363253880631051775174200172341841501430149.5SX4/06365150213363253880631053681.5174200172341841501430149.5SX5/082651752574322745110701460261264200202402201801435160SX5/115801752574322745110701463080.5264200202402201801435160SX6/140801902954852748110701469178267260203002502101440070SX6/1901001902954852748110701471990267260203002502101440070SX7/2501002053655702660110901876794288280253302902401847581.5SX7/38015020536557026601109018821121288280253302902401847581.5TOP SHAFTDRIVEFigure 2. Horizontally portedAll dimensions in mmSX1/007409590.5189101640671143052963612480101001008010SX2/0134010511523316225082.5147.532632738.51311001913212410012SX2/0185010511523316225082.5147.532634345.51311001913212410012SX3/027********.527218286010017540843469.51751253018115412514SX3/0356*******.5272182860100175408450751751253018115412514SX4/04650150163325203880113.5212.56310517752241503520218415014SX4/06365150163325203880113.5212.5631053681.52241503520218415014SX5/0826517519538222451101352557014602662791803524021018014SX5/115801751953822245110135255701463085.52791803524021018014SX6/1408019022543622481101552957014691782672602030022019014SX6/19010019022543622481101552957014719902672602030022019014SX7/250100205276.552427601101953589018767992732902534029024018SX7/380150205276.5524276011019535890188211262732902534029024018 This document and its contents are subject to copyrights and other intellectual property rights owned by Alfa Laval Corporate AB. No part of this document may be copied, re-produced ortransmitted in any form or by any means, or for any purpose, without Alfa Laval Corporate AB’s prior express written permission. Information and services provided in this document are made as a benefit and service to the user, and no representations or warranties are made about the accuracy or suitability of this information and these services for any purpose. All rights arereserved.200006104-2-EN-GB© Alfa Laval Corporate AB How to contact Alfa LavalUp-to-date Alfa Laval contact details for all countries are always availableon our website at 。

JIANGSU UNIVERSITY本科毕业设计毕业设计说明书学院名称：能源与动力工程学院专业班级：J动力流体0901学生姓名：杨锡平学号：3091104028指导老师：杨敏官高波李忠2013年6月毕业设计题目旋流泵设计(ns=63)目录第一章摘要----—————————————4 第二章叶轮水利设计———————————6 第一节概述—————————————6第二节参数计算———————————7 第三章压出室水利设计—————————— 26 第四章标准件的选用——————————— 31 第五章强度计算————————————— 32 附毕业小结——————————————39 参考文献——————————————40第一章摘要内容摘要泵可能是世界上除了发动机外运用最广泛的机械了，凡是有水流动的地方就会有泵在工作。

它被广泛应用于工业，农业，军事业等，已经成为人们生活所不可缺少的一部分。

矚慫润厲钐瘗睞枥庑赖。

旋流泵是离心泵的一种，因其内部流体存在旋转的漩涡运动而得名。

旋流泵多用于抽送复杂介质或含杂质流体，如含垃圾，短纤维物质或含便类的两相流体。

旋流泵亦称无堵塞泵，自由流泵或WEMCO泵。

聞創沟燴鐺險爱氇谴净。

本次设计的内容是旋流泵。

旋流泵设计的结构特点是叶片为开式或半开式叶片为直叶片并呈放射状布置。

叶轮与前泵壳之间有较宽的轴向空间，或者说叶轮后缩至泵壳后腔，这便为固体介质通过泵体提供了良好的条件。

残骛楼諍锩瀨濟溆塹籟。

AbstractPump may be the most universal machine in the world except for electric motor. where there is flowing water,there is a pump.It’s applied in many fields,such as industragriculture, military etc.Pump is essencial in people’s daily life.酽锕极額閉镇桧猪訣锥。

COMPRESSORES DE AR PORTÁTEIS XA(T,H,V)S 1100-1500Desenvolvido para uma ampla gama de aplicaçõesS u j e i t o a a l t e r a çõe s s e m a v i s o p r év i o . A t a l s C o p c o - A v e n i d a G e o r g S c h a e f f l e r , 430 - S o r o c a b a - S ão P a u l o A demanda por equipamentos de perfuração está em constante crescimento. Por isso a Atlas Copco desenvolveu esta série de compressores especialmente para as aplicações onde vazão e pressão são um importante diferencial. Isto é maior eficiência energética combinada com maior volume de ar. Os equipamentos proporcionam as condições necessárias à perfuração profunda mesmo em condições diversas. A estrutura é resistente e durável, pois foi projetada para o serviço contínuo.É perfeito para obras de construção, fundações, jateamento de concreto, martelo de fundo, sondagens, prestadores de serviços, locação, etc.Vaso separador Ar / Óleo de acordo com NR13;Resistente e robusto;Seguro para o operador;Baixo nível de ruído;Tanque de combustível em polietileno;Ergonômico;Fabricado no Brasil;FINAME disponível.CARACTERÍSTICAS Menor consumo de combustível da categoria;Baixo custo operacional;De acordo com as normas ambientais e de segurança do trabalho;Maior capacidade de perfuração;Maior capacidade de ar;Maior acessibilidade para manutençao e serviço;Fácil de transportar, maior mobilidade dentro site de trabalho.Eliminador de Faíscas (Spark Arrestor);Montado sobre Skid;Resfriador posterior com tratamento de ar.VANTAGENS OPCIONAIS XA(T,H,V)S 1100-1500ECONÔMICO, ROBUSTO E RESISTENTE$5 PRINCIPAIS BENEFÍCIOS Performance Serviço eficiente Valor de revenda e longa vida útil。

XZ-1型单级旋片式真空泵技术参数及特点技术参数一、XZ-1型单级旋片式真空泵特点：1.防返油设计进气通道作特殊设计，能防止停泵后泵油返流而污染被抽容顺及管路2.环保设计油箱作隔层处理，并在排气口上设置油气分离装置，无喷油并减少油雾污染3.铝合金电机机壳电机采用铝合金外壳，具有高的散热效率效率，保证长时间连续的正常运行，并具有较好的外观质量4.整体化设计与泵采用整体化设计，使产品更为紧凑轻巧合理5.大起动力矩本产品针对低温环境作特殊设计，保证在冬季环境温度较低的情况下正常起动6.使用防震橡胶机脚，减少震动及噪音。

二、XZ-1型单级旋片式真空泵用途：1..RS-1型旋式真空泵是直连式的微型真空泵2.针对低温环境特殊设计，保证在冬季环境温度较低的情况下正常起动。

3.优化设计，其真空度增加，效率提高，适用于真空制冷、汽车维修、医疗机械、真空包装、气体分析、印刷机械等各种真空抽气。

怎样选择水泵？建议从五个方面加以考虑，既液体输送量、扬程、液体性质、管路布置以及操作运转条件等。

1、流量是选泵的重要性能数据之一，它直接关系到整个装置的的生产能力和输送能力。

如设计工艺能算出泵正常、最小、最大三种流量。

选择泵时，以最大流量为依据，兼顾正常流量，在没有最大流量时，通常可取正常流量的1.1倍作为最大流量。

2、扬程是选泵的又一重要性能数据，一般要用放大5%—10%余量后扬程来选型。

3、液体性质，包括液体介质名称，物理性质，化学性质和其它性质，物理性质有温度c、密度d、粘度u，介质中固体颗粒直径和气体的含量等，这涉及到系统的扬程，有效气蚀余量计算和合适泵的类型：化学性质，主要指液体介质的化学腐蚀性和毒性，是选用泵材料和选用那一种轴封型式的重要依据。

4、管路布置条件指的是送液高度送液距离送液走向，吸如侧最低液面，排出侧最高液面等一些数据和管道规格及其长度、材料、管件规格、数量等，以便进行系梳扬程计算和汽蚀余量的校核。

5、操作条件的内容很多，如液体的操作T饱和蒸汽力P、吸入侧压力PS（绝对）、排出侧容器压力PZ、海拔高度、环境温度操作是间隙的还是连续的、泵的位置是固定的还是可移的。

design.This gives the flexibility of mounting pumps with the inlet andoutlet ports in either a vertical or horizontal plane,by changing the foot and its position.The SX range in series5&6has dedicated gearbox castings,which also allows the inlet and outlet ports to be in either the vertical or horizontal plane.The SX series7has a dedicated gearbox casting allowing inlet and outlet ports in a vertical plane only.Pump head ConstructionThe SX pump has sanitary design full bore inlet and outlet ports to International Standards,maximising inlet and outlet port efficiency and NPSH characteristics.Vertical porting and unique rotorcase internal profile enhances self-draining and self venting while maintaining optimum volumetric efficiency.The SX pump has four lobe rotors,designed using CFD(Computational Fluid Dynamics)to develop the optimum rotor geometry-possibly the first rotary lobe pump to be developed using this technology.All rotors are rated to302°F facilitating use with CIP/SIP processes.Maximum Solid Size CapabilityPump sizes Max.size of spherical solids(in.) SX10.28SX20.39SX30.51SX40.63SX50.75SX60.98SX7 1.10Materials of ConstructionPump gearbox-stainless steel304(series1-4)-cast iron painted grey(series5-7)Pumphead-product wetted components in316L.Product wetted elastomers of EPDM,MVQ,FPM all FDA conforming. All media contacting elastomers are controlled compression joints,the latest technology where static and dynamic elastomer seals are used to prevent pumped media leaking to atmosphere.All product wetted rubberparts are in compliance with FDA section21 CFR177.2600&section21CFR177.1550(PTFE).EPDM Elastomers are furthermore in compliance with USP Class VI section88biological reactivity test,inVivo.1.Front cover compression joint2.Spline sealing cup seal3.Cup seal4.Squad ringWeightBare Shaft Pump(lbs.)Model Horizontalporting Vertical portingSX1NLD3739 SX1WLD3941 SX2NLD7577 SX2WLD7779 SX3NLD130134 SX3WLD134138 SX4NLD247254 SX4WLD260267 SX5NLD342342 SX5WLD364364 SX6NLD613613 SX6WLD639639 SX7NLD-750 SX7WLD-798Shaft Seal Options-Single or single flush/quench(steam barrier for aseptic application)R00type mechanical seals.-Double R00type mechanical seal for flush.All sealing options are fully front loading and fully interchangeable without the need for additional housings or pump component changes. Specialised seal setting of the mechanical seal is not required as the seal is dimensionally set on assembly.This feature further enhances fast and efficient on-site seal interchangeability.Materials for Mechanical SealsCarbon/Stainless Steel,Silicon Carbide/Silicon Carbide or variations of these materials to suit fluid being pumped and/or application requirements.The seal seat and face material combinations are all EHEDG compliant.Pump SizingIn order to correctly size a rotary lobe pump some essential information is required.Provision of this information listed below enables our Technical Support personnel to obtain the optimum pump selection. Product/Fluid Data-Fluid to be pumped-Viscosity-SG/Density-Pumping temperature,minimum,normal and maximum-Cleaning in Place temperature(s),minimum,normal and maximum Performance Data-Flow rate,minimum,normal and maximum-Discharge head/pressure(closest to pump outlet)-Suction conditionStandard Specification Options-Tri-clamp inlet and outlet ports standard-Screwed male inlet and outlet ports to DIN11851,SMS,ISS/IDF, RJT or Tri-clamp.-Heating/Cooling Jacket for Rotorcase Cover.-Electropolished product wetted components.-Full material traceability on request to EN10204.3.1.-ATEX compliance.-Complete pump unit comprising:Pump+Baseplate(mild or stainless steel)+coupling with guard+Geared electric motorsuitable for(or supplied with)frequency speed control or manual variable speed drive(advise motor enclosure and electrical supply).Working PrincipleThe positive displacement of the SX pump is provided by non-contacting,contra rotating four lobe rotors within a fully swept pump chamber.Flows/Pressures/ConnectionsDisplacement Inlet and OutletConnection SizeDifferential Pressure(see note1)MaximumSpeedSX Series SX ModelLitre/rev Imp gall/100rev US gall/100rev mm in bar psi rev/min SX1NLD0.05 1.11 1.32251121751200 1SX1WLD0.07 1.54 1.8540 1.571001200SX2NLD0.128 2.82 3.3840 1.5152151000 2SX2WLD0.181 3.98 4.7850271001000SX3NLD0.266 5.857.03502152151000 3SX3WLD0.357.709.2565 2.571001000SX4NLD0.4610.1212.15502152151000 4SX4WLD0.6313.8616.6565 2.5101451000SX5NLD0.8218.0421.6765 2.515215600 5SX5WLD 1.1525.3030.3880310145600SX6NLD 1.4030.8036.9980315215500 6SX6WLD 1.9041.8050.20100410145500SX7NLD 2.5055.0066.05100415215500 7SX7WLD 3.8083.60100.40150610145500 Note1.These pressure ratings may vary for pumps with certain threaded connections.Bareshaft Pump DimensionsVertically portedAll dimensions in inches,except where notedPUMP A B C D E F G J K L M N P Q R S T U V X SX1NLD 1.00 3.74 4.458.190.630.63 1.57 1.180.2010.87 2.13 3.94 3.150.87 4.49 4.09 3.150.397.050.93 SX1WLD 1.50 3.74 4.458.190.630.63 1.57 1.180.2011.38 2.36 3.94 3.150.87 4.49 4.09 3.150.397.050.93 SX2NLD 1.50 4.13 5.799.920.630.87 1.97 1.260.2412.76 2.32 4.37 3.940.47 4.88 4.88 3.940.478.62 1.28 SX2WLD 2.00 4.13 5.799.920.630.87 1.97 1.260.2413.39 2.60 4.37 3.940.47 4.88 4.88 3.940.478.62 1.28 SX3NLD 2.00 4.92 6.8911.810.87 1.10 2.36 1.570.3116.97 2.83 5.59 6.100.597.28 6.10 4.920.559.96 1.48 SX3WLD 2.50 4.92 6.8911.810.87 1.10 2.36 1.570.3117.60 3.03 5.59 6.100.597.28 6.10 4.920.559.96 1.48 SX4NLD 2.00 5.918.3914.290.98 1.50 3.15 2.480.3920.24 2.95 6.857.870.679.217.24 5.910.5512.09 1.95 SX4WLD 2.50 5.918.3914.290.98 1.50 3.15 2.480.3920.98 3.19 6.857.870.679.217.24 5.910.5512.09 1.95 SX5NLD 2.50 6.8910.1217.01 1.18 1.77 4.33 2.760.5523.58 2.4010.397.870.799.458.667.090.5513.58 2.36 SX5WLD 3.00 6.8610.1217.01 1.18 1.77 4.33 2.760.5524.65 3.1910.397.870.799.458.667.090.5513.58 2.36 SX6NLD 3.007.4811.6119.09 1.18 1.89 4.33 2.760.5527.05 3.0310.5110.240.7911.819.848.270.5515.75 2.76 SX6WLD 4.007.4811.6119.09 1.18 1.89 4.33 2.760.5528.15 3.5010.5110.240.7911.819.848.270.5515.75 2.76 SX7NLD 4.008.0714.3722.44 1.18 2.36 4.33 3.540.7130.04 3.7011.3411.020.9812.9911.429.450.7118.70 3.21 SX7WLD 6.008.0714.3722.44 1.18 2.36 4.33 3.540.7132.17 4.7611.3411.020.9812.9911.429.450.7118.70 3.21 Horizontally portedAll dimensions in inches,except where notedPUMP A B C D E F G HB HT J K L M N P Q R S T U SX1NLD 1.00 3.74 3.547.400.390.63 1.57 2.62 4.47 1.180.2010.87 1.46 4.61 3.150.98 4.53 3.94 3.150.39 SX1WLD 1.50 3.74 3.547.400.390.63 1.57 2.62 4.47 1.180.2011.38 1.69 4.61 3.150.98 4.53 3.94 3.150.39 SX2NLD 1.50 4.13 4.539.170.630.87 1.97 3.25 5.81 1.260.2412.76 1.54 5.16 3.940.75 5.20 4.88 3.940.47 SX2WLD 2.00 4.13 4.539.170.630.87 1.97 3.25 5.81 1.260.2413.39 1.81 5.16 3.940.75 5.20 4.88 3.940.47 SX3NLD 2.00 4.92 5.4310.750.71 1.1 2.36 3.96 6.91 1.570.3116.97 2.72 6.89 4.92 1.187.13 6.06 4.920.55 SX3WLD 2.50 4.92 5.4310.750.71 1.1 2.36 3.96 6.91 1.570.3117.60 2.91 6.89 4.92 1.187.13 6.06 4.920.55 SX4NLD 2.00 5.91 6.4212.800.79 1.5 3.15 4.478.37 2.480.3920.24 2.958.86 5.91 1.387.957.24 5.910.55 SX4WLD 2.50 5.91 6.4212.800.79 1.5 3.15 4.478.37 2.480.3920.98 3.198.86 5.91 1.387.957.24 5.910.55 SX5NLD 2.50 6.897.6814.800.79 1.77 4.33 5.3110.04 2.760.5523.58 1.8110.987.09 1.3810.838.277.090.55 SX5WLD 3.00 6.897.6814.800.79 1.77 4.33 5.3110.04 2.760.5524.65 2.6010.987.09 1.3810.838.277.090.55 SX6NLD 3.007.488.8616.890.79 1.89 4.33 6.1011.61 2.760.5527.05 3.0710.4710.2 1.5714.578.667.480.55 SX6WLD 4.007.488.8616.890.79 1.89 4.33 6.1011.61 2.760.5528.15 3.5410.4710.2 1.5714.578.667.480.55ESE00275ENUS1609Alfa Laval reserves the right to change specifications without priornotification.ALFA LAVAL is a trademark registered and owned by Alfa LavalCorporate AB.©Alfa LavalHow to contact Alfa LavalContact details for all countriesare continually updated on our website. 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目录中文摘要 (1)英文摘要 (2)1 绪论 (3)1.1 研究背景 (3)1.2 国内外现状 (3)1.3 本课题研究内容 (4)1.4 设计步骤 (4)2 旋片泵的工作原理和结构特点 (5)2.1 旋片泵工作原理 (5)2.2 旋片泵的结构特点 (6)2.2.1 旋片的分类 (6)2.2.2 泵体（定子） (7)3 2X-70旋片泵的基本参数及主要尺寸的确定 (9)3.1基本参数的选择 (9)3.2电机的选择 (9)3.2.1 电动机类型的选择 (9)3.2.2电动机功率的选择 (9)3.2.3电动机转速的选择 (10)3.2.4电动机型号的确定 (10)3.3 V带的计算 (10) (10)3.3.1 确定计算功率Pca3.3.2 选择V带带型 (10)3.2.3 确定带轮的基准直径d并验算带速 (10)d1 (11)3.3.4 确定V带的中心距a和基准长度Ld3.3.5 验算小带轮上的包角 (11)3.3.6 计算带的根数z (11)3.3.7 计算单根V带的初拉力最小值 (12) (12)3.3.8 计算压轴力Fp3.3.9 带轮设计 (12)3.4旋片数的确定 (12)3.5长径比a的选择 (12)3.6 直径比b的选择 (13)3.7 k的计算 (13)v3.8泵腔直径的初算 (14)3.9旋片转子直径的确定 (14)3.10 高腔宽度L的确定 (14)1 (14)3.11校核几何抽速Sth的确定 (14)3.12偏心距e和低腔宽度L23.13旋片尺寸的计算 (15)3.13.1旋片长度的确定 (15)3.13.2旋片厚度的确定 (15)3.14 进气口直径的确定 (15)3.15 排气口直径的确定 (16)3.16 电动机功率的校核 (16)的计算 (16)3.16.1 旋片泵最大功率时吸气口压强P吸3.16.2 旋片泵的最大功率的计算 (17)3.16.3 电动机功率的校核 (17)3.17轴强度的校核 (17)3.17.1求轴上的功率，转速和转矩 (17)3.17.2初步确定轴的最小直径 (18)3.18 轴承的选择 (18)3.18.1轴承的初选 (18)3.18.2轴承寿命的校核 (18)4 主要结构的设计改进与创新 (19)4.1 转子的设计 (19)4.2 油路的设计 (20)4.3 冷却结构的设计 (21)4.4 排气口的设计 (22)4.5 中壁的设计 (23)4.6 提高寿命 (24)结论 (25)结论 (25)展望 (25)致谢 (26)参考文献 (27)2X-70旋片泵的设计摘要:旋片式真空泵是一种基本的真空获得设备，可以用来获取真空，或者用于其它中高真空泵的前级泵。