中国机械工程

• 机械基础工程 • 上一篇    下一篇

开式泵控非对称缸负载容腔独立控制耦合特性

姚静1,2,3;王佩3;董兆胜3;孔祥东1,2,3   

  1. 1.河北省重型机械流体动力传输与控制实验室,秦皇岛,066004
    2.燕山大学先进锻压成形技术与科学教育部重点实验室,秦皇岛,066004
    3.燕山大学机械工程学院,秦皇岛,066004
  • 出版日期:2017-07-25 发布日期:2017-07-26
  • 基金资助:
    国家自然科学基金资助项目(51575471);
    河北省自然科学基金资助重点项目(E2016203264)

Coupling Characteristics of Independent Volume-in and Volume-out Control for Open Circuit Pump-controlled Asymmetric Cylinder Systems

YAO Jing1,2,3;WANG Pei3;DONG Zhaosheng3;KONG Xiangdong1,2,3   

  1. 1.Hebei Province Key Laboratory of Heavy Machinery Fluid Power Transmission and Control,Yanshan University,Qinhuangdao,Hebei,066004
    2.Key Laboratory of Advanced Forging & Stamping Technology and Science,Ministry of Education,Yanshan University,Qinhuangdao,Hebei,066004
    3.College of Mechanical Engineering,Yanshan University,Qinhuangdao,Hebei,066004
  • Online:2017-07-25 Published:2017-07-26
  • Supported by:
    National Natural Science Foundation of China (No. 51575471)
    Hebei Provincial Natural Science Foundation of China (No. E2016203264)

摘要: 为解决闭式泵控非对称缸系统的流量不对称的问题,设计了开式泵控非对称缸负载容腔独立控制系统,并针对其非对称缸两腔采用不同控制算法时的参数耦合问题进行研究。以位置-压力组合控制为例,建立该系统数学模型并分析其耦合特性,进而提出位置前馈补偿解耦方法。基于600kN开式泵控油压机实验平台,验证其耦合及解耦特性。结果表明:在位置正弦扰动下,当频率分别为1Hz、1.25Hz时,位置前馈补偿算法对其耦合作用的抑制率分别为16.4%和14.8%。

关键词: 开式泵控系统, 非对称缸, 负载容腔独立控制, 位置前馈补偿解耦

Abstract: In order to address the flow asymmetry problems of closed circuit pump-controlled asymmetric cylinder systems caused by two-chamber area differences, this paper proposed an independent control of open circuit pump-controlled asymmetric cylinder systems. While two chambers of asymmetric cylinder used two different control methods, the coupling among parameters was investigated. Taking position and pressure combined control method as example, mathematic models and coupling problems of the systems were established and analysed respectively. Thus, the control method of position feed-forward compensation decoupling were used to decouple. Based on 600kN pump-controlled hydraulic forging press test bench, the coupling and decoupling characteristics were verified. Experimental results indicate that position feed-forward compensation method may inhibit the hydraulic system couplings under sinusoidal disturbances. Specifically, when the frequencies are as 1Hz and 1.25Hz, the inhibition ratios are as 16.4% and 14.8% respectively.

Key words: open circuit pump-controlled system, asymmetric cylinder, independent volume-in and volume-out control, position feed-forward compensation decoupling

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