减速器说明书--

斜齿圆柱齿轮减速器说明书本说明书旨在介绍斜齿圆柱齿轮减速器的基本概念和工作原理。

斜齿圆柱齿轮减速器是一种常见的机械传动装置，用于将高速旋转的输入轴上的动力通过齿轮传递到输出轴上，以实现减速效果。

它由斜齿圆柱齿轮、输入轴、输出轴和外壳等组成。

该减速器的工作原理基于齿轮的啮合传动。

当输入轴旋转时，斜齿圆柱齿轮与之啮合，并将动力传递到输出轴上。

由于斜齿的设计，齿轮的啮合过程中会产生相对旋转的力和力矩，从而实现减速效果。

斜齿圆柱齿轮减速器广泛应用于各种机械设备中，例如汽车、工程机械和工厂生产线等。

它具有结构简单、传动效率高、承载能力强等优点，能够满足不同工作环境下的减速需求。

在使用斜齿圆柱齿轮减速器时，需要注意保持齿轮的良好润滑和定期检查齿轮的磨损情况，以确保其正常工作和延长使用寿命。

通过本说明书，您将更深入了解斜齿圆柱齿轮减速器的基本概念和工作原理，帮助您正确使用和维护该传动装置。

斜齿圆柱齿轮减速器的结构组成包括齿轮、轴、外壳等组件。

这些组件的功能和作用如下：齿轮：齿轮是减速器的核心部件，通过在不同大小的齿轮间传递力和转动，实现减速或增速的功能。

轴：轴是连接齿轮的支撑部件，承受齿轮间传递的力和转矩。

外壳：外壳是减速器的壳体，起到保护和支撑齿轮和轴的作用，同时也起到隔离减速器内部与外部环境的作用。

以上是斜齿圆柱齿轮减速器的结构组成以及各个组件的功能和作用。

本部分提供斜齿圆柱齿轮减速器的安装指导和维护要点，包括安装位置、润滑和保养等方面的注意事项。

安装注意事项在选定安装位置时，需确保减速器能够承受正常工作负荷，并具备充足的安装空间。

安装时，需将减速器固定在坚固且平稳的基础上，确保其稳定性和安全性。

在安装过程中，需注意轴线位置的对齐，确保齿轮传动的顺畅运行。

在固定减速器的螺钉时，需按照规定的扭矩力进行紧固，避免加大或减小力度。

润滑和保养要点减速器在使用前需进行润滑，使用时需按照规定的润滑周期和方式进行定期润滑。

减速器设计说明书
1. 引言
1.1 目的和范围
本文档旨在提供一个详细的减速器设计说明，包括其原理、结构、材料选择等方面。

1.2 定义和缩略语
2. 减速器概述
2.1 工作原理
描述减速器工作过程及基本原理。

2.2 结构组成
列出并描述各个部件（如齿轮、轴承）以及它们之间的关系与连接方式。

3.性能要求
确定该款减速机所需满足的性能指标，例如输出转矩、效率等，并给出相应计算公式或方法。

4.选型依据
根据实际使用条件和要求，在市场上进行调查比较不同品牌型号产品，并评估因素来确定最佳选项。

5.材料选择
对于每个零部件，根据其功能特点分析合适的材质类型，并解释为什么做此种选择。

6.制造流程
给出生产加工步骤以确保高质量完成整体装配过程, 并考虑到可能存在问题时需要采取哪些控制措施。

7.质量控制
描述对于减速器的各个部件和整体装配过程中所采取的质量控制方法，以确保产品符合设计要求。

8. 安全考虑
列出并描述在使用、维护或修理该款减速机时需要注意的安全事项，并提供相应建议。

9. 维护与保养
提供针对不同零部件及其组装方式进行正确维护和定期检查操作指南。

10. 附件
在本章节所有相关文件、图纸等附件信息，并给予详尽说明。

11.法律名词及注释
- 法律名词1：定义解释
12.结论
总结文档内容，强调重点，并再次确认完成了全部需求。

13. 参考资料
14. 致谢。

减速器设计说明书目录第一节设计任务书................................................................................. 错误!未定义书签。

第二节传动装置总体设计方案............................................................. 错误!未定义书签。

第三节选择电动机................................................................................. 错误!未定义书签。

3.1电动机类型的选择....................................................................... 错误!未定义书签。

3.2确定传动装置的效率................................................................... 错误!未定义书签。

3.3选择电动机容量........................................................................... 错误!未定义书签。

3.4确定传动装置的总传动比和分配传动比................................... 错误!未定义书签。

3.5动力学参数计算........................................................................... 错误!未定义书签。

第四节V带传动计算............................................................................. 错误!未定义书签。

一级单级圆柱齿轮减速器说明书一级单级圆柱齿轮减速器是一种常用的传动装置，被广泛应用于各种机械设备中。

它通过齿轮的啮合来实现传动的目的，将高速旋转的输入轴转换为低速高扭矩的输出轴。

本篇说明书将详细介绍一级单级圆柱齿轮减速器的结构、工作原理、安装要点以及维护保养等方面的内容，以帮助读者对其有更全面的了解和正确的使用。

一、结构介绍一级单级圆柱齿轮减速器由输入轴、输出轴、齿轮、轴承、外壳等部分组成。

其主要部件是两个相互啮合的圆柱齿轮，一个为输入轴上的驱动齿轮，另一个为输出轴上的从动齿轮。

它们通过齿轮啮合的角度和齿轮的齿数来实现不同的减速比。

二、工作原理当输入轴以一定的转速带动驱动齿轮旋转时，通过齿轮的啮合作用，从动齿轮也开始旋转。

由于从动齿轮的齿数较大，因此它转速较低，但扭矩较大。

这样就实现了输入轴高速旋转到输出轴低速高扭矩的转换。

三、安装要点1. 在安装前，应先清理减速器内部的油污和杂物，保持清洁。

2. 安装时应注意减速器的方向和位置，确保输入轴和输出轴的轴线对称，保持正确的啮合角度和齿轮间隙。

3. 在连接输入轴和输出轴时，应使用合适的联轴节或刚性联接件，保证转动的稳定性和可靠性。

4. 安装完成后，应检查并调整齿轮的啮合程度，确保减速器的工作顺畅。

四、维护保养1. 定期更换齿轮减速器内部的润滑油，并注意油品的选择与规定。

2. 清洁减速器表面的杂物和灰尘，并定期检查减速器的工作状态，如有异常应及时处理。

3. 轴承和齿轮的润滑脂应保持适当的润滑，不得过多或过少。

4. 若发现齿轮出现磨损或断裂等问题，应及时更换或修复，以免影响减速器的正常工作。

通过本篇说明书的详细介绍，相信读者对一级单级圆柱齿轮减速器有了更全面的认识。

在使用和维护中，我们应该严格按照要求进行操作，注意安装要点和维护保养的工作，从而提高减速器的工作效率和使用寿命，确保机械设备的正常运行。

2SHIMPO DRIVES, INC./1701GLENLAKEAVEITASCAIL60143/P:800.842.1479/F:630.924.7382//*********************Cross sectional view of a precision backlashReducer. The two piece pin housing provides the ability to preload one wheel against the other, reducing the output shaft backlash to less than 6 arc-min. The extra support bearing prevents fretting corrosion between the quill input shaft and the motor shaft. The long output shaft bearing span provides exceptional overhung load capabilities.Internal pinWheelsCarrier pins Input shaftEccentric roller bearingsMounting housingdimensions equivalent to those of the SM Cyclo® product. Your Shimpo reducer can be dropped in to replace the other brand with no modifications to your mounting plate! This dimensional change is only available on base-mounted units. When ordering, specify the “DI” option.Great Features, Precision3SHIMPO DRIVES, INC./1701GLENLAKEAVEITASCAIL60143/P:800.842.1479/F:630.924.7382//*********************Features & BenefitsDesign FeaturesOperational BenefitsMounting OptionsBase Mount Flange Mount Ring Mount4SHIMPO DRIVES, INC./1701GLENLAKEAVEITASCAIL60143/P:800.842.1479/F:630.924.7382//*********************5SHIMPO DRIVES, INC./1701GLENLAKEAVEITASCAIL60143/P:800.842.1479/F:630.924.7382//*********************Model Examples6SHIMPO DRIVES, INC./1701GLENLAKEAVEITASCAIL60143/P:800.842.1479/F:630.924.7382//*********************Selection Procedure for Induction Motor Applications1. Determine the load classification from the Load Classification Table on page 8.2. Select theprime mover. 3. Calculate the required reduction ratio by dividing the input shaft rpm by the required output shaft rpm. 4.If selecting the reducer by HP , determine the design HP by multiplying the motor HP by the service factor. If selecting the reducer by torque, determine the design torque by multiplying the required load torque by the service factor.5. Select the6. Select the required input type from page 9.7. Select the required mounting type from page 9.8. Select the required mounting position from page9.9. Check the overhung and/or thrust loads on shafts if connected to the load by either a sprocket, sheave, pulley, or gear (pages 28 - 29).10. Configure the model number (page 9), noting any unusual operating or ambient conditions. Contact SHIMPO Drives Customer Service for questionable items, or applications assistance.Service Factor TableNote: AGMA service factors shown are the American Gear Manufacturers' recommendations for conventional gear reducers.7SHIMPO DRIVES, INC./1701GLENLAKEAVEITASCAIL60143/P:800.842.1479/F:630.924.7382//*********************Selection Procedure for Servo Motor Applications1. Determine the load classification from the Load Classification Table on page 8.2.Reducer service factor from the Service Factor Table (below) for the 3. Calculate the required reduction ratio by dividing the rated servo motor speed (rpm) by the required output shaft rpm.4.Reducer from the selection table based on servo motor rated speed and tentative selection. 5.Reducer (T1) as shown in our rating tables.6.7. Select the required mounting type from page 9. 8. Select the required mounting position from page 9.9. Check the overhung and/or thrust loads on the output shaft if connected to the load by either a sprocket, sheave, pulley, or gear (pages 28 - 29).10. Configure the model number (page 9), noting backlash and any unusual operating or ambient conditions. Contact SHIMPO Drives Customer Service for questionable items, or applications assistance.8SHIMPO DRIVES, INC./1701GLENLAKEAVEITASCAIL60143/P:800.842.1479/F:630.924.7382//*********************Load Classification Table....................................................................................... ....................................... ................................................ ............................................................................ ...................................... ............................................. ............................. .................................... .................................. ...................................... ........................... ................. ............................................ .............................. ............................ ............................................... ......................................... .................................................. 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.......................................... .................................. ........................................... ........ .......................................................U - Uniform LoadM - Moderate LoadH - Heavy Shock Load* In view of varying load conditions, it is suggested that these applications be carefully reviewed before a final selection is made.**Check safety codes and refer to SHIMPO Drives Customer Service.AGITATORSPure Liquids ULiquids and Solids M Liquids - Variable Density M Semi-liquids Variable Density M*BLOWERCentrifugal ULobe MVane UBREWING and DISTILLINGBottling Machinery UBrew Kettles - Continuous Duty UCookers - Continuous Duty U Mash Tubs - Continuous Duty U Scale Hopper Frequent Starts M CAN FILLING MACHINES UCANE KNIVES M CAR DUMPERS HCAR PULLERS - Intermittent Duty UCLARIFIERS UCLASSIFIERS M CLAY WORKING MACHINERY Brick Press HBriquette Machine H Clay Working Machinery M Pug Mill M COMPRESSORS Centrifugal Lobe Reciprocating Multi-Cylinder M*Single Cylinder H*CONVEYORS – UNIFORMLY LOADED OR FED Apron M Assembly MBelt M Bucket M Chain U Flight U Oven UCONVEYORS – HEAVY DUTY NOT UNIFORMLY FED Apron M Assembly M Belt M Bucket M Chain M Flight M Live Roll (Package) MOven M Reciprocating H Screw M Shaker H CRANES and HOISTS Main Hoists Heavy Duty H Medium Duty M Reversing M Skip Hoists M Trolley Drive M* Bridge Drive M*CRUSHERS Ore H Stone H DREDGES Cable Reels M Conveyors MCutter Head Drives H Jig Drives HManeuvering Winches MPumps MScreen Drive HStackers MUtility Winches MELEVATORS Bucket - Uniform load U Bucket - Heavy load M Bucket - Continuous U Centrifugal Discharge U Escalators U Freight M Gravity Discharge U Man Lifts ** Passenger ** Service - Hand Lift H FANS Centrifugal M Cooling Towers ** Induced Draft M Forced Draft ** Induced Draft M Large (Mine, etc.) M* Large Industrial M* Light (Small Diameter) U FEEDERS Apron M Belt M Disc U Reciprocating H Screw M FOOD INDUSTRY Beet Slicer M Cereal Cooker U Dough Mixer M Meat Grinders M GENERATORS - (Not Welding) U HAMMER MILLS H LAUNDRY WASHERS Reversing M LAUNDRY TUMBLERS M LINE SHAFTS Heavy Shock Load H Moderate Shock Load M Uniform Load U LUMBER INDUSTRY Barker - Hydraulic - Mechanical M Burner Conveyor M Chain Saw and Drag Saw H Chain Transfer H Craneway Transfer H De-Barking Drum H Edger Feed M Gang Feed M Green Chain M Live Rolls H Log Deck H Log Haul - Incline H Log Haul - Well Type H Log Turning Device H Main Log Conveyor H Off Bearing Rolls M Planer Feed Chains M Planer Floor Chains M Planer Tilting Hoist M Re-saw Merry-Go-Round Conveyor M Roll Cases H Slab Conveyor H Small Waste Conveyor - Belt U Small Waste Conveyor - Chain M Log Turning Device H Sorting Table M Tipple Hoist Conveyor M Tipple Hoist Drive M Transfer Conveyor H Transfer Rolls H Tray Drive M Trimmer Feed M Waste Conveyor M MACHINE TOOLS Bending Roll M Notching Press - Belt Driven * Plate Planer H Punch Press - Gear Driven H Tapping Machines H Other Machine Tools Main Drives M Auxiliary Drives U METAL MILLS Draw Bench - Carriage H Draw Bench - Main Drive M Forming Machines H Pinch Dryer & Scrubber Rolls, Reversing * Slitters M* Table Conveyors Non-reversing M Reversing H Wire Drawing & Flattening Machine M Wire Winding Machine M MILLS, ROTARY TYPE Ball HCement Kilns **Dryers & Coolers M Kilns MPebble HRod HTumbling Barrels HMIXERS Concrete Mixers, Continuous M Concrete Mixers, Intermittent U Constant Density U Variable Density MOIL INDUSTRY Chillers MOil Well Pumping ** Paraffin Filter Press MRotary Kilns M PAPER MILLS Agitators (Mixers) MBarker Auxiliaries, Hydraulic M Barker, Mechanical MBarking Drum HBeater & Pulper M Bleacher U UCalendars MCalendars - Super H Converting Machines, except Cutters, Platers MConveyors UCouch MCutters, Platers H Cylinders MDryers M Felt Stretcher MFelt Whipper HJordans HLog Haul HPresses UPulp Machines MReel MStock Chests MSuction Roll UWashers & Thickeners MWinders U PRINTING PRESSES U PULLERS Barge Haul M PUMPS Centrifugal H Proportioning M* Reciprocating Single Acting 3 or more Cylinders M Double Acting 2 or more Cylinders * Single Acting 1 or 2 Cylinders * Double Acting * Single Cylinder * Rotary - Gear Type H Rotary - Lobe, Vane H RUBBER INDUSTRY Mixer H Rubber Calendar M Rubber Mill (2 or more) M* Sheeter M* Tire Building Machines ** Tire & Tube Press Openers ** Tubers & Strainers M SEWAGE DISPOSAL EQUIPMENT Bar Screens H Chemical Feeders H Collectors, Circuline or Straight Line H Dewatering Screens M Grit Collectors H Scum Breakers M Slow or Rapid Mixers M Sludge Collectors U Thickeners M Vacuum Filters M SCREENS Air Washing U Rotary - Stone or Gravel M Traveling Water Intake U SLABPUSHERS M STEERING GEAR M STOKERS U TEXTILE INDUSTRY Batchers M Calendars M Card Machines M* Cloth Finishing Machines, (washers, pads, tenters, dryers, calendars, etc.) M Dry Cans M Dryers M Dyeing Machinery M Knitting Machines (looms, etc.) * Looms M Mangles M Nappers M Pads M Range Drives * Slashers M Soapers M Spinners M Tenter Frames M Washers M Winders (Other than Batchers) M Yarn Preparatory Machines(Cards, Spinners, Slashers, etc.) M WINDLASS M*9SHIMPO DRIVES, INC./1701GLENLAKEAVEITASCAIL60143/P:800.842.1479/F:630.924.7382//*********************Model Number Chart for Induction Motor Reducers.......................Shovel Base InputFor coupling style C-Face adapters, please change “C” to “A” in theordering codeFor top mount adapters, please change “S” to “T” in the orderingcode......................................................................................... ................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................ .....................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................................Standard Quill Style NEMA C-Face InputINPUT TYPE Input Shaft SHFTMotor Size Ordering Code 56C C-56143/145TC C140182/184TC C180213/215TC C210254/256TC C250284/286TC C280324/326TC C320Motor Size Ordering Code 56 S-56143/145T S140182/184T S180213/215T S210254/256T S250284/286T S280324/326T S320 ..... ..............BacklashStandard Backlash: Approximately 60 arc-min 0Precision Backlash: Less than 6 arc-min P10SHIMPO DRIVES, INC./1701GLENLAKEAVEITASCAIL60143/P:800.842.1479/F:630.924.7382//*********************Rating Table 1750 rpm Input, Single Reduction, Standard BacklashNotes:Backlash specification is approximately 1o(60 arc-min).Rating Table 1165 rpm Input, Single Reduction, Standard BacklashNotes:Backlash specification is approximately 1o(60 arc-min).Note:Input HP shown in the shaded area and in bold type is to overcome breakway torque requirements in cold temperatures or high inertia applications. It is recommended that a torque limiting device is used to protect the unit or driven machine.Backlash specification is approximately1o(60 arc-min).Note:Input HP shown in the shaded area and in bold type is to overcome breakway torque requirements in cold temperatures or high inertia applications. It is recommended that a torque limiting device is used to protect the unit or driven machine.Backlash specification is approximately1o(60 arc-min).Rating Table 2000 rpm Input, Single Reduction, Standard BacklashNotes:T1 - Nominal output torque - unit can continuously sustain this torque value without overheating.T2 - Emergency stop output torque - unit can sustain this torque value 1000 cycles before breaking.Acceleration torque is 1.5 times nominal output torque.Backlash specification is approximately 1o(60 arc-min).Rating Table 2000 rpm Input, Single Reduction, Precision Backlash (less than 6 arc-min)Notes:T1 - Nominal output torque - unit can continuously sustain this torque value without overheating.T2 - Emergency stop output torque - unit can sustain this torque value 1000 cycles before breaking.Acceleration torque is 1.5 times nominal output torque.Rating Table 3000 rpm Input, Single Reduction,Standard BacklashNotes:T 1 - Nominal output torque - unit can continuously sustain this torque value without overheating.T 2 - Emergency stop output torque - unit can sustain this torque value 1000 cycles before breaking.Acceleration torque is 1.5 times nominal output torque.Backlash specification is approximately 1o(60 arc-min).Notes:T 1 - Nominal output torque - unit can continuously sustain this torque value without overheating.T 2 - Emergency stop output torque - unit can sustain this torque value 1000 cycles before breaking.Acceleration torque is 1.5 times nominal output torque.Rating Table 3000 rpm Input, Single Reduction, Precision Backlash(less than 6 arc-min)Internal Inertia(WK ) Reflected to the Input Shaft Notes:Oil lubrication for B01 - C07 for non-servo motor applications is available upon request. Consult Maintenance, Parts,& Instruction Manual for specific lubrication recommendations.Notes:Lubrication type is based on 1750 RPM input. Consult Maintenance, Parts, & Instruction Manual for specific lubrication recommendations.2Precision Backlash UnitsUnit: lb ft 2Standard LubricationSingle ReductionStandard LubricationDouble ReductionNotes:Torsional stiffness of standard backlash units is higher than precision backlash units. Contact Shimpo Drives Customer Service for additional information.Common Dimensions Single Reduction Base MountNotes:All dimensions are shown in inches.t o n n o i s n e m i d s e t o n e d -A /N .n o i t a m r o f n i l a n o i t i d d a r o f e c i v r e S r e m o t s u C s e v i r D o p m i h S t c a t n o C .e l b a l i a v a s e l y t s g n i t n u o m r e h t O applicable.Sizes A through B do not have a lifting eye.To download CAD drawings, visit our website: .Dimensions subject to change without notice.See page 20 for C-Face dimensions.Common Dimensions Single Reduction Base MountMotor Flange Dimensions Single Reduction Base MountServo InputNotes:Other servo flanges and bore sizes are available. Contact Shimpo Drives Customer Service for additional information.All dimensions are in mm.To download CAD drawings, visit our website: .Dimensions subject to change without notice.Motor Flange Dimensions Single Reduction Base Mount C-Face InputNotes:s n e m i i d "R "r o f 12e g a p e e S ions.All dimensions are in inches.See page 28 for C-Face dimensions..e c i t o n t u o h t i w e g n a h c o t t c e j b u s s n o i s n e m i D .m o c .s e v i r d o p m i h s .w w w :e t i s b e w r u o t i s i v ,s g n i w a r d D A C d a o l n w o d o T N/A – denotes dimension not applicable.Common DimensionsSingle Reduction Flange MountOutput FlangeOutput ShaftMotor Flange Dimensions Single Reduction Flange MountNotes:All dimensions are in inches.See page 28 for remaining C-Face dimensions.Dimensions subject to change without notice.Servo Input(SQUARE)(CIRCLE)Motor MountingCommon Dimensions Single Reduction Ring MountNotes:s n e m i i d "R "r o f 32e g a p e e S ions.All dimensions are in inches.See page 28 for C-Face dimensions..e c i t o n t u o h t iw e g n a h c o t t c e j b u s s n o i s n e m i D .m o c .s e v i r d o p m i h s .w w w :e t i s b e w r u o t i s i v ,s g n i w a r d D A C d a o l n w o d o T N/A - denotes dimension not applicable.Output ShaftOutput RingMotor Flange Dimensions Single Reduction Ring MountServo InputNotes:All dimensions are in inches.See page 28 for C-Face dimensions.Motor Mounting FlangeDimensions Double Reduction All Mounting TypesDimensions Double Reduction All Mounting TypesNotes:All dimensions are in inches.N/A - denotes dimension not applicable.To download CAD drawings, visit our website: www.shimp eo c.s e v i r do page 26 for C-Face dimensions.em.SSize AB3 & AB7 do not include a lifting eye.Dimensions subject to change without notice.Notes:All dimensions are in inches.Top Mount can be rotated. Contact SHIMPO Drives Customer Service for additional information.For Top Mount, total V-drive drive centers = "K" dimension listed PLUS motor "D" dimension.Dimensions subject to change without notice.Dimensions Shovel Base & Top Mount AdaptorDimensionsC-Face AdaptorAll dimensions are in inches.Notes:Dimensions subject to change without notice.180TC, 210TC, 250TC, C280TC, 320TC56C, 140TCNotes:All dimensions are in inches.See pages 12 & 13 for input HP and output torque ratings.To download CAD drawings, please visit our website: .Dimensions subject to change without notice.See page 28 for C-Face dimensions.Reducers for Overhead Conveyor ApplicationsOUTPUT SHAFT • Grease lubrication won’t ever leak oil with minimal maintenance. Optional USDA approved grease available• Straddle mount output shaft bearings maximize overhung load capability • Quill style NEMA C-Face easilyaccommodates standard motors while minimizing overall length• Motor back-off holes allow simple motor removalMatches industry standard mounting and output shaft dimensionsMiscellaneous Engineering InformationAmbient Temperature˚F to 104˚F (0˚C to 40˚C). Contact SHIMPO Drives Customer Service if operating conditions fall outside of this range.BacklashThe standard backlash option is approximately 1˚ (60 arc-min).The precision backlash option is less than 0.1˚ (6 arc-min).Direction of RotationThe input shaft can be rotated in either direction. For single reduction reducers, the output shaft rotates in the opposite direction of the input shaft. For double reduction reducers, the output shaft rotates in the same direction as the input shaft.Exact RatioThermal Ratingsmechanical rating in all cases. Therefore, it can be run continuously at any of the input speeds in this catalog.Table 1 Input Shaft Thrust &Overhung Load Capacity (lbs)Notes:Overhung load ratings are based on the load being applied to the center of the shaft.Ratings shown are based on a combined overhung and thrust load being applied to the shaft.31SHIMPO DRIVES, INC./1701GLENLAKEAVEITASCAIL60143/P:800.842.1479/F:630.924.7382//*********************Miscellaneous Engineering InformationOutput Shaft Overhung LoadWhen a sprocket, sheave, pulley, or gear is mounted on the output shaft or on the input shaft, an overhung load is applied to the shaft. It is necessary to check whether the shafts of the reducer will allow the required overhung load.Overhung Load CalculationCalculate the overhung load using the formula below:Table 2 LoadConnection Factor: CfTable 3 Output Shaft Overhung Load Capacity (lb)K2 + X K1xOverhung Load=126,000 x HP x Cf x SfD x NCOLLAR HP: Horsepower transmitted by the shaft Cf: Load connection factor (from T able 2)Sf: Service factor (from Service Factor T able on page 6 or 7)D: Pitch diameter of sprocket, etc.N: Shaft speed (rpm)K1: Constant factor (from T able 3)K2: Constant factor (from T able 3)X:Distance from collar surface to load position (in)Notes:These ratings are based on thrust load = 0.Contact SHIMPO Drives Customer Service for applications which have combined overhung & thrust loads.。

JZQ系列减速器设计说明书JZQ系列减速器设计说明书一、产品介绍1.1 产品概述本文档是针对JZQ系列减速器的设计说明书，包含了产品的基本信息、设计要求、结构及工作原理、安装及调试方法、维护保养等内容。

1.2 产品型号JZQ系列减速器是一种针对特定应用环境设计的减速装置，可满足各类机械设备的工作需求。

本文档所涉及的具体产品型号包括JZQ250、JZQ350、JZQ450等。

1.3 产品特点JZQ系列减速器具有以下特点：- 高传动效率- 承载能力强- 噪音低- 结构紧凑- 体积小，重量轻- 适用性广泛二、设计要求2.1 传动比计算根据实际应用需求，计算出所需的传动比，以满足机械设备的工作要求。

2.2 承载能力设计根据所需的承载能力，确定材料的选用、齿轮的尺寸和轴承的选择，并进行强度校核。

2.3 寿命设计根据产品使用寿命要求，进行材料选择、润滑设计等，以保证产品的可靠性和耐久性。

2.4 效率设计通过减少传动损失、优化齿轮副的设计等手段，提高传动效率，减少能源消耗。

三、结构及工作原理3.1 结构设计JZQ系列减速器由齿轮副、壳体、轴承、密封件等部分组成。

本章节详细介绍减速器的结构设计及其各个组成部分的功能和使用方法。

3.2 工作原理通过齿轮副的传动，将输入轴的高速旋转转换成输出轴的低速旋转，以实现对机械设备的功率调整和传动控制。

四、安装及调试方法4.1 安装步骤根据安装要求，依次进行减速器、联轴器、电机等的安装，保证各个部件的正确组装和固定。

4.2 调试方法对已安装好的减速器进行调试，验证其运行状态，保证其正常工作并消除可能存在的故障。

五、维护保养5.1 日常维护根据维护计划，定期对减速器进行检查、润滑和清洁，以确保其正常运行。

5.2 故障排除常见的故障现象和原因，并给出相应的排除方法，以指导用户进行故障排除。

附件：1.JZQ系列减速器安装图纸2.JZQ系列减速器维护保养手册（以上附件仅供参考，具体附件内容以实际附件为准）法律名词及注释：1.知识产权：指对知识、技术等所享有的权益。

m1psf80减速机说明书
1、减速器结构
减速器由箱体、轴系部件、附件组成，其具体结构尺寸见装配图及零件图。

2、注意事项
（1）装配前，所有的零件用煤油清洗，箱体内壁涂上两层不被机油浸蚀的涂料；
（2）齿轮啮合侧隙用铅丝检验，高速级侧隙应不小于0.211mm，低速级侧隙也不应小于0.211mm；
（3）齿轮的齿侧间隙最小=0.09mm，齿面接触斑点高度>45%，长度>60%：
（4）角接触球轴承7206C、7314C的轴向游隙均为0.10用润滑油润滑；
（5）箱盖与接触面之间禁止用任何垫片，允许涂密封胶和水玻璃，各密封处不允许漏油；
（6）减速器装置内装CKC150工业用油至规定的油面高度范围；
（7）减速器外表面涂灰色油漆；
（8）按减速器的实验规程进行试验。

60JS减速器说明书60JS减速器说明书1.引言本说明书旨在对60JS减速器进行详细介绍，包括其技术规格、安装步骤、操作方法和维护保养等内容。

希望通过本文档的阅读，用户能够全面了解60JS减速器的特性和使用注意事项。

2.技术规格2.1 型号.60JS2.2 最大扭矩： Nm2.3 最大输入转速： rpm2.4 减速比：X.12.5 输入轴类型：标准轴2.6 输出轴类型：螺纹轴2.7 重量： kg3.安装步骤3.1 准备工作在安装60JS减速器之前，需要进行以下准备工作：●确保安装环境平稳、无水桶和明火●查阅该设备的安装平面尺寸图，确定准确的尺寸要求●检查减速器及附件是否完整3.2 安装减速器按照以下步骤进行减速器的安装：1.清洁安装位置，确保无杂物和尘土；2.使用螺栓将减速器固定在安装位置上；3.连接输入轴和输出轴与相应设备；4.检查安装是否牢固，并进行必要的调整。

4.操作方法4.1 启动按照以下步骤启动60JS减速器：1.确保电源已连接并稳定；2.打开减速器的控制面板；3.按下启动按钮，减速器开始运行。

4.2 停止按照以下步骤停止60JS减速器：1.按下停止按钮，减速器停止运行；2.断开电源，并切断电源与减速器的连接。

5.维护保养为确保60JS减速器的正常运行和延长其使用寿命，建议进行以下维护保养措施：●定期清洁减速器外壳和附件，确保无尘土和杂物；●定期检查螺栓的紧固情况；●定期润滑减速器内部零部件；●定期检查减速器的温度和噪音，并及时处理异常情况。

6.附件本文档涉及的附件如下：●60JS减速器技术规格表●60JS减速器安装平面尺寸图7.法律名词及注释●Nm：牛顿米，用于测量扭矩的国际单位，表示力矩大小。

●rpm：转每分钟，用于测量转速的单位，表示单位时间内旋转的圈数。

●kg：千克，国际单位制中的质量单位。

JS40矿用减速器使用说明书本产品执行《MT148—1997刮板输送机用减速器》标准××××重型机械制造有限公司2003年8月目录一、概述 (1)二、技术特征 (1)三、结构型式及作用 (1)四、使用维护注意事项 (2)五、机器的润滑 (2)六、机器可能发生的故障及处理方法 (3)七、零部件的修理与验收 (3)八、运输、贮存 (5)九、质量保证 (5)十、联系方式 (5)一、概述：1、用途：该减速器具有承载能力大、传动效率高、噪音低、体积小、重量轻、寿命长的特点。

适用于输入轴与输出轴呈垂直方向布置的传动装置，如刮板输送机、带式输送机及各种运输机械，也可用于冶金、矿山、化工、水泥、建筑、轻工、能源等各种通用机械的传动机构中。

1．型号组成及代表意义：kW）平行布置型式减速器二、技术特征：1、减速器传动比………………………………………1：24.5642、外形尺寸(长x宽x高)………………………1150×834×470毫米3、机器总重…………………………………………656千克三、结构型式及作用：减速机由一对圆弧伞齿轮、一对斜齿轮、一对直齿轮组成三级减速，总减速比为l:24.564。

第一、二、三轴的轴承为单列园锥滚子轴承，第四轴为双列向心球面滚子轴承。

第一轴上的锁紧螺母是用以固定轴承并保证轴承轴向游隙量为0.05～0.1毫米，第二、三、四轴承轴向游隙量是用调整垫保证，其中二、三轴轴承轴向游隙量为0.08～0.15毫米，四轴轴承轴向游隙量为0.06～0.15毫米。

在组装时，园弧伞齿轮的轴向位置要进行适当调整，以保证啮合侧隙和接触斑点，轴园弧伞齿轮的轴向位移通过调整螺母调整，大圆弧伞齿轮通过调整垫调整轴向位置。

以达到较好的啮合精度，调整好的一对园弧伞齿轮啮合侧隙不小于0.17毫米，接触斑点沿齿长和齿高方向不小于50％。

减速器内注入150号工业齿轮油，注入量为浸入大园弧伞齿轮的1／3，以保证各部位得到充足的润滑。

机械设计减速器设计说明书一、减速器概述减速器是一种将高速旋转运动转化为低速旋转运动的机械设备，广泛应用于各种工业领域。

它通常由多个齿轮组成，通过齿轮之间的啮合传递扭矩，从而实现减速的目的。

二、设计目标与参数本次设计的减速器旨在满足以下目标：1. 减速比：减速器的减速比为30:1。

2. 输入转速：输入转速为1400转/分钟。

3. 输出转速：输出转速为46.67转/分钟。

4. 输入扭矩：输入扭矩为100牛·米。

5. 输出扭矩：输出扭矩为3333牛·米。

6. 安装方式：减速器采用卧式安装方式。

三、减速器结构与工作原理减速器主要由输入轴、齿轮箱、输出轴等部分组成。

具体结构如下：1. 输入轴：输入轴上安装有主动齿轮，与电机连接，将电机的动力传递给齿轮箱。

2. 齿轮箱：齿轮箱内安装有多组齿轮，包括主动齿轮、从动齿轮等。

通过主动齿轮与从动齿轮的啮合，实现减速作用。

3. 输出轴：输出轴上安装有从动齿轮，将从动齿轮的动力传递给负载。

工作原理：当电机带动输入轴转动时，主动齿轮将动力传递给齿轮箱内的从动齿轮。

由于齿轮之间的啮合关系，从动齿轮的转速降低，从而实现减速效果。

最后，输出轴将动力传递给负载。

四、材料选择与强度计算1. 材料选择：齿轮采用高强度铸铁材料，具有良好的耐磨性和抗冲击性能；轴采用45号钢，具有较好的强度和刚度。

2. 强度计算：根据设计参数和材料性能，对齿轮和轴进行强度计算，确保减速器的可靠性。

五、减速器装配图与零件清单1. 减速器装配图：附图1为减速器的装配图，展示了各部件的相对位置和连接方式。

2. 零件清单：列出减速器所需的所有零件清单，包括齿轮、轴、轴承、箱体等。

具体零件规格和数量根据设计参数确定。

六、减速器性能测试与评估对减速器进行性能测试，以验证其是否符合设计要求。

测试内容包括但不限于以下方面：1. 减速比测试：通过测量输入和输出转速，计算实际减速比是否符合设计要求。

2. 扭矩测试：通过测量输入和输出扭矩，验证减速器的扭矩传递能力是否满足设计要求。