摘要:论文中阐述了液压振动系统的特点、工作原理、性能特征及应用前景和发展。文中进行了系统机械结构的设计、液压元件的计算选择、伺服阀的选择、伺服液压缸的计算与设计等,并建立了液压系统,对系统中一些机械部分进行了强度校核。并在此基础上建立了液压系统进行伺服控制所需要的数学模型,之后绘制了传递函数的伯德图,对液压系统的动态特性进行了分析。5134
关键词:液压振动、传递函数、性能分析,毕业论文
The Design of The Hydraulic Vibration Table
Abstract.This paper describes the characteristics of the hydraulic vibration system, working principle, performance characteristics and application prospects and development. Then designed the mechanical body, calculated the hydraulic components’ parameter and determined the their concrete type, the choice of the servo valve also been done, next were servo-hydraulic cylinder’ calculation and design, and the establishment of the hydraulic system, some of the mechanical parts of the system had strength check. And on this basis to establish a hydraulic servo control system, the mathematical model required, and then draw the Bode diagram of the transfer function, the dynamic characteristics of the hydraulic system were analyzed.
Key words: hydraulic vibration , dynamic characteristics and transfer function, the performance analysis .
目 录
1 绪论
1.1 课题来源•1
1.2 课题意义2
1.3 液压振动技术的应用与发展2
2 课题介绍
2.1液压振动台的设计要求•4
2.2液压振动台的结构概述•4
2.3 液压系统结构和工作原理6
3 液压伺服振动系统的设计计算
3.1负载分析与计算• 8
3.2 确定液压缸与系统参数• 9
3.2.1 由系统负载确定液压缸的结构参数• 9
3.2.2 确定液压缸的供油力•10
3.3 计算选择电液伺服阀和位移传感器和伺服控制器•10
3.3.1 计算选择电液伺服阀•10
3.3.2 选择位移传感器•12
3.3.3 伺服控制器的确定•12
3.4 液压泵的选择•13
3.5电机的选择•13
3.6 泵站的选择•13
3.7蓄能器的选择•13
3.8液压元件选择•14
3.9 计算液压缸壁厚14
4 系统的动静态性能分析
4.1 确定各组成元件的传递函数•16
4.1.1 确定电液伺服阀的传递函数•16
4.1.2 液压动力元件的动特性•17
4.1.3 伺服放大器、位移传感器的动特性•18
4.2 系统方块图•19
4.3 系统的稳定性分析•19
4.3.1 确定系统的开环传递函数•19 液压振动台的设计+CAD图纸:http://www.751com.cn/jixie/lunwen_2059.html