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基于简化模型的阀控液压缸活塞运动速度控制方法的研究
引用本文:胡小青,张博强. 基于简化模型的阀控液压缸活塞运动速度控制方法的研究[J]. 机床与液压, 2021, 49(2): 36-39
作者姓名:胡小青  张博强
作者单位:四川工程职业技术学院机电工程系,四川德阳618000;四川省高温合金切削工艺技术工程实验室,四川德阳618000;河南工业大学机电工程学院,河南郑州450000
基金项目:国家自然科学基金联合基金项目(U1604254)
摘    要:对阀控液压缸活塞运动速度的有效控制,有利于提高液压伺服系统的工作精度.设计一种与非线性摩擦力相关的简化模型,用以对液压缸活塞运动速度进行控制.分析比例方向阀控制的液压缸的结构,建立比例方向阀的闭环传输函数.通过液压缸两个腔室的压差,计算比例方向阀中液压介质的体积流量方程,并在此基础上求取液压缸压力值的连续方程,进而得到...

关 键 词:阀控液压缸  活塞运动速度控制  比例方向阀  全阶模型  简化模型

Research on Piston Motion Velocity Control Method for Valve-controlled Hydraulic Cylinder Based on Simplified Model
HU Xiaoqing,ZHANG Boqiang. Research on Piston Motion Velocity Control Method for Valve-controlled Hydraulic Cylinder Based on Simplified Model[J]. Machine Tool & Hydraulics, 2021, 49(2): 36-39
Authors:HU Xiaoqing  ZHANG Boqiang
Abstract:Effective control on piston motion speed of valve controlled hydraulic cylinder is conducive to improving the working accuracy of hydraulic servo system. A simplified model related to the non linear friction force was designed to control the piston velocity of the hydraulic cylinder. The structure of the hydraulic cylinder controlled by a proportional directional valve was analyzed, and the closed loop transfer function of the proportional directional valve was established. Then, through the pressure difference between the two chambers of the hydraulic cylinder, the volume flow equation of the hydraulic medium in the proportional directional valve was calculated. On this basis, the continuous equation of the pressure value of the hydraulic cylinder was obtained, and the full order model between the piston velocity of the hydraulic cylinder and the non linear friction force was obtained. Finally, in the closed hydraulic circuit, the continuous equation of the hydraulic cylinder pressure value was simplified by the pressure value of the load, and the simplified model between the piston velocity of the hydraulic cylinder and the non linear friction force was obtained. In the experiment, the target velocities generated by square wave, sine wave and random excitation signal were tracked and tested. The test results show that the tracking error of this method is reduced by 9.2%, 11.22% and 11.13% respectively compared with sliding mode control method when tracking the target velocity under the conditions of square wave, sinusoidal wave and random excitation signal. It shows that this method can be used to accurately control the motion speed of piston in hydraulic cylinder
Keywords:Valve-controlled hydraulic cylinder   Piston velocity control   Proportional directional valve   Full-order model   Simplified model
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