摘要:自动涂胶工作台是为某产品粘贴海绵垫而设计的一台兼机电气测试控制等技术为一体的自动化设备。设备有涂胶装置、压实装置和移动装置等主要部件组成,涂胶装置通过气缸实现水平和垂直方向的移动,将点胶头移动到指定位置,对产品的工作面进行涂胶。压实装置是通过连接气缸的压头对海绵垫进行压实,移动装置由气缸驱动,导轨导向,是装有产品的运动部件,实现涂胶和压实两个工位位置的切换。装有产品的夹具在电机驱动下能转动,使产品在涂胶时,涂胶面的胶水均匀而致密,压实后海绵垫平整而牢固。大大提高了操作者在涂胶工作中的效率和质量,减少劳动强度。本文对主要部件进行了方案拟定,对主要零件进行了设计计算和选择,对设备的结构特点进行了分析和阐述。42080
毕业论文关键词:自动 涂胶 压实 移动 夹具
Language Learning
Abstract:Automatic gluing work table is an automatic machine which has a sponge pad and a compatible machine electrical test control technology of integrated automation equipment. This machine is consists of a gluing device, compacting device and a mobile device. Gluing device through the cylinder to achieve movement of the horizontal vertical direction, the dispensing head moves to the specified location, on the working surface of the product to work. Compaction device through the connecting cylinder and the pressure head of sponge cushion compaction, mobile device is driven by a cylinder, guide rail is the moving parts of the products with glue and compaction to achieve two position switching. The fixture with the product are driving by driven machine. So, in gluing, making the surface of the uniform and dense, compacted cotton pad is smooth and firm. The operator can greatly improve the efficiency and quality in coating work, reduce the labor intensity. In this passage, the main components of the program is developed. And the main parts of the design calculation and selection are finished. The structural characteristics of the equipment are analyzed and described.
Keywords: automatic gluing compaction move fixture
目录
1.绪论 5
2.自动涂胶工作台的课题简介6
2.1课题背景6
2.2自动涂胶工作台的主要参数7
2.3自动涂胶工作台的设计要点8
3.自动涂胶工作台的方案拟定9
3.1自动涂胶工作台的总体布局9
3.1.1自动涂胶工作台的组成及各部件的作用10
3.1.2自动涂胶工作台的动作循环10
3.2涂胶装置的方案拟定11
3.2.1涂胶头的方案拟定11
3.2.2传动方式的方案拟定11
3.3压实装置的方案拟定12
3.3.1压头的方案拟定12
3.3.2传动方式的方案拟定12
3.4移动装置的方案拟定13
3.4.1工件自转的方案拟定13
3.4.2传动方式的方案拟定13
3.4.3导向和定位方式的方案拟定13
4、自动涂胶工作台的设计计算和结构设计14
4.1涂胶装置的设计计算和结构设计14
4.1.1垂直气缸的型号确定15
4.1.2水平气缸的型号确定16
4.1.3涂胶装置的动作循环说明17
4.1.4涂胶装置的结构说明17
4.2压实装置的设计计算和结构设计17
4.2.1压头的结构设计18
4.2.2压实气缸的型号确定18
4.2.3压实装置的结构说明19
4.3移动装置的设计计算和结构设计19
4.3.1夹具的结构设计20
4.3.2驱动电机的选择20
4.3.3传动轴的设计计算与校核21