摘要在机械现场装配的过程中,对部分零件必须要进行清洗工作后才能装配。其目的是:(1)除去零件表面的防锈油层,从而保证零件测量精确;(2)防止在装配过程中表面积附灰尘,便于观察零件表面在库存中是否发生腐蚀点;(3)除掉防锈油变质形成的渣子,还可以避免油污块带入机器之中。本课题主要是对具有复杂表面的零件进行清洗的时候所需要使用到的智能清洗机器人的结构设计。由于零件便面复杂,所以一般的工业清洗机难以满足该零件的清洗要求。本课题针对上述问题为此设计高自由度的清洗机器人,以便于进行全方位的清洗。并且要达到结构简单、工作可靠、造价低廉的实用意义。58303
总体方案,清洗机械手构设计,包括传输的决心,齿轮的设计,轴的设计,清洗机器人的设计应用人力为动力,无二次污染,无废液排放,使用效率高,坚固耐用,最大限度的符合各种清洁场地要求。
毕业论文关键词:清洗机器人,机构设计,机械设计
Abstract In the process of assembly scene,the parts must be cleaned before assembly work. Its purpose is to: (1)removing parts of the surface of the anti-rust oil, so as to ensure the parts measurement accuracy; (2)to prevent the area of dust in the assembly process, easy to observe whether parts of the surface corrosion in inventory; (3).Remove rust preventive oil metamorphism, can also avoid the oil block into the machine. The main issue is the analysis of hardware and structure of rotary spray cleaning machine need to use for cleaning the car disc brake of the shell. Because the auto mobile brake caliper housing structure is special, so the industrial cleaning the machine is difficult to meet the demand of cleaning the parts. In view of the above problems for the special location of the part design fit the structure of the cleaning fixture, full range to facilitate cleaning. And to achieve a simple structure, reliable operation, low cost and practical significance. At the same time, topics are also analyzed the structure of fixture design, expounds the advantages and disadvantages of.
The overall program, sweeper cleaning robot structural design, waste collection tank design, including determination of transmission, gear design, shaft design, cleaning robot is designed with the human person as the driving force, No secondary pollution, No emissions, use high efficiency, rugged, and satisfy the requirements of a variety of clean space.
Keywords: cleaning robot is human, structural design, mechanical design
第一章 绪论 1
1.1 选题背景 1
1.2 国内外清洗机械手的发展状况及发展前景 1
1.2.2国内研究现状 3
1.3 清洗机械手介绍 6
1.4用于清洗的机械手的功用 6
1.5清洗机械手器人的发展 6
1.6清洗机械手的特点 7
第二章 机械手的机构的设计 8
2.1组成机械手的零件 8
2.2方案论证 8
2.2.1液压机构 8
2.2.2纯机电机构 8
2.3分析设计的方案与选型 9
第三章 机械手参数设计 10
3.1 底座部分设计计算 10
3.1.1联轴器的设计