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毕业设计:工件运输机的结构设计,论文说明书共55页,字数总计:18515资料内容简介:毕业设计论文说明书:工件运输机的结构设计.doc毕业设计外文翻译.doc毕业设计读书笔记.doc毕业设计开题报告.doc毕业设计任务书.doc装配图.doc答辩ppt演示文稿.ppta0-工件运输机装配图.dwga0-工件运输机装配图-...
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分类: 论文>机械工业论文

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原文档由会员 lixiuhui7 发布

毕业设计:工件运输机的结构设计
论文说明书共55页,字数总计:18515
资料内容简介:
毕业设计论文说明书:工件运输机的结构设计.doc
毕业设计外文翻译.doc
毕业设计读书笔记.doc
毕业设计开题报告.doc
毕业设计任务书.doc
装配图.doc
答辩PPT演示文稿.ppt
A0-工件运输机装配图.dwg
A0-工件运输机装配图-1.dwg
A2-减速器机座.dwg
A2-机盖.dwg
A4-减速器输出大齿轮.DWg
A4-减速器输入轴.DWg
A4-铰链.DWG
A4-铰链支座.dwg
A4-开式部件输入轴.dwg
A4-连杆.dwg
A4-曲柄.dwg
A4-推爪.dwg
摘 要
工件运输机是在一定的线路上输送物料的物料搬运机械。输送机可进行水平、倾斜和垂直输送,也可组成空间输送线路,输送线路一般是固定的。输送机输送能力大,运距长,还可在输送过程中同时完成若干工艺操作;可以单台输送,也可多台组成或与其他输送设备组成水平或倾斜的输送系统,以满足不同布置形式的作业线需要,所以应用十分广泛。步进式工件运输机是输送机的一种,能够实现间歇的输送工件。本文以步进式工件运输机设计为内容,对总体方案及结构设计进行创新设计。本文主要设计内容和成果如下:首先对执行机构进行了设计计算,就设计要求设计出满足工作需求的六杆机构,对杆件的长度进行了合理的选择;其次就执行件所需的功率选择了合适的电机;再次对传动部分进行设计计算,本文选用了二级圆柱齿轮减速器进行传动,在减速器设计中选用了斜齿齿轮传动;最后在执行的六杆机构与减速器之间设计了一开式齿轮部件作为过渡,其中采用的是直齿齿轮传动。本文设计中设计的机构与部件均是在满足功能的前提下尽可能地提高其经济性、工艺性,力求结构简单、操作方便。

关键字:步进式输送机;减速器;六杆机构

The design of workpiece conveyor
Student:LI Jia-bao Teacher:CHEN Jing

Abstract: Workpiece conveyor material handling machinery conveying in line. Conveyor can be horizontal, tilt and vertical transmission, the space can also be composed of transmission lines, transmission lines are generally fixed. Conveyor transport capacity, long distance, also can be finished in conveying process and some process operation; can be a single delivery, can also be multiple components or other feeding facilities to form a horizontal or inclined conveying system, to meet the different needs of arrangement of the line, so it is used widely. Step type workpiece conveyor is a conveyor, can realize intermittent conveying workpiece. Based on the step-by-step workpiece conveyor design for the content, the innovation design of the overall scheme and structure design. In this paper, the main design content and results are as follows: firstly, the actuator is designed and calculated, is designed to meet the design requirements of six bar mechanism needs, the rod length of a reasonable choice; secondly on the implementation of a power required for selecting the appropriate motor; again on the transmission part design, this paper selects two cylindrical gear reducer for transmission, the reducer design in the selection of helical gear transmission; finally in six bar mechanism execution and reducer design a gear member as the transition, which is used in gear transmission. Mechanism and components design in this design is to meet the function under the premise as far as possible to improve its economy, technology, simple structure, convenient operation and strive to.

Key words: stepping conveyor; Gear reducer; Six bar linkage

目 次

摘 要??????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????I
Abstract?????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????II

1 引言????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????1
2 设计任务书????????????????????????????????????????????????????????????????????????????????????????????????????????????????2
2.1 设计题目????????????????????????????????????????????????????????????????????????????????????????????????????????????2
2.2 工作原理????????????????????????????????????????????????????????????????????????????????????????????????????????????2
2.3 已知条件????????????????????????????????????????????????????????????????????????????????????????????????????????????2
2.4 设计要求????????????????????????????????????????????????????????????????????????????????????????????????????????????2
2.5 设计任务????????????????????????????????????????????????????????????????????????????????????????????????????????????3
3 传动方案设计?????????????????????????????????????????????????????????????????????????????????????????????????????????????4
4 机构动力学分析?????????????????????????????????????????????????????????????????????????????????????????????????????????5
4.1 曲柄摇杆机构分析?????????????????????????????????????????????????????????????????????????????????????????????5
4.2 连杆尺寸计算????????????????????????????????????????????????????????????????????????????????????????????????????5
4.3 曲柄摇杆机构的动力学分析?????????????????????????????????????????????????????????????????????..