- 上一篇:PLC电缆桥架专用焊接设备控制系统设计+梯形图
- 下一篇:PWM直流电机双闭环调速系统设计
摘要随着我国经济和社会的不断发展,各种不同功能的专用汽车也越来越多地走进我们的生产和生活。很多专用汽车,如展示车、指挥车等由于功能要求,往往都需要扩展车内空间。
方舱作为一种通用的设备装载平台,具有较强的机动性和环境适应性,日渐进入到更多的应用领域。纵观国内升降机构的发展,过去已有的几种升降机构由于共同存在着重量、大速度慢、操作费力、结构庞大和使用不便等问题,因此已不能满足实际需要。49565
本文介绍了一种扩展方舱的展开系统,提出了一种方舱展开的结构,并利用液压技术控制扩展方舱的展开与收回。根据该扩展方舱的展开系统液压系统的技术指标对该系统进行整体方案设计,对其功能和工作原理进行分析,初步确定了系统各回路的基本结构及主要元件,按照所给机构性能参数和液压性能参数进行元件的选择计算,以满足该方舱所要达到的要求。
毕业论文关键字:方舱 电液系统 性能参数
Abstract With China's economic and social development, the various functions of the special-purpose vehicles are more and more into our production and life. A lot of special-purpose vehicles, such as the demonstration vehicle, command vehicle, due to functional requirements, often need to expand the interior space.
Shelter loading platform as a generic device, with a strong mobility and adaptability to environment, growing into more application areas. Throughout the development of domestic lifting mechanism, over the past several existing lifting mechanism due to co-exist with the weight slow and laborious operation, large and inconvenient to use and other issues, and therefore can not meet the actual needs.
This article describes an extension of the commencement of the shelter system, the expanded structure of a shelter, and the use of hydraulic technology to control the commencement of extended shelter and recover. According to the technical specifications of the extension of the commencement of the shelter system hydraulic system of the system overall program design, its functions and working principle analysis, initially identified the basic structure and major components of the system loop, the performance parameters in accordance with the given institution and hydraulic performance parameters of the choice of components, in order to meet the requirements of the shelter to be achieved.
Keywords: Shelter electro-hydraulic system Performance parameter
目 录
第一章 绪论 1
1.1课题背景 1
第二章 总体设计方案 4
2.1方舱的简介 4
2.2设计要求达到的目的 4
2.3方舱结构的选择 4
2.4传动机构的选择 5
2.4.1机械传动 5
2.4.2气压传动 5
2.4.3液压传动 6
2.5同步方案的选择 6
2.5.1采用同步阀的同步回路 7
2.5.2采用液压同步马达的同步回路 8
2.5.3采用带液压伺服补偿的等流量双泵的同步回路 9
2.5.4采用比例阀的同步回路 11
第三章 系统原理及原理图 13
3.1系统原理图 13