引用本文:孙维超,张晋华,潘惠惠.兼顾平顺性与车高调节的重型车空气悬架控制[J].控制理论与应用,2022,39(6):1002~1010.[点击复制]
SUN Wei-chao,ZHANG Jin-hua,PAN Hui-hui.Heavy vehicle air suspension control considering ride comfort and height regulation[J].Control Theory and Technology,2022,39(6):1002~1010.[点击复制]
兼顾平顺性与车高调节的重型车空气悬架控制
Heavy vehicle air suspension control considering ride comfort and height regulation
摘要点击 1485  全文点击 442  投稿时间:2021-02-16  修订日期:2022-03-17
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DOI编号  10.7641/CTA.2021.10138
  2022,39(6):1002-1010
中文关键词  空气悬架  平顺性  车高调节控制
英文关键词  air suspension  ride comfort  vehicle body height control
基金项目  国家自然科学基金项目(62022031, 61773135)资助.
作者单位E-mail
孙维超* 哈尔滨工业大学 w.sun@hit.edu.cn 
张晋华 广州大学  
潘惠惠 哈尔滨工业大学  
中文摘要
      空气悬架由于质量轻、刚度以及高度可调等优点在重型车中得到了广泛的应用. 空气悬架可以实现重型车 的两项重要功能: 平顺性保证以及车身高度调节, 但是空气悬架的平顺性以及车身高度调节均通过空气弹簧气压 腔的气压改变来实现, 因此二者是彼此制约和冲突的. 然而, 目前对空气悬架车高调节的研究追求控制的精确性与 稳定性而忽略了平顺性, 而对平顺性的研究又几乎不考虑车高变化造成的影响. 基于上述动机, 本文提出了兼顾平 顺性的空气悬架重型车车高调节鲁棒控制方法, 实现了平顺性保障下的车高调节曲线精确跟踪控制, 提升了重型车 空气悬架系统的整体性能. 实车参数仿真验证了所提出方法在平顺性与车高调节两项指标中的优越性.
英文摘要
      Air suspension has been widely used on heavy vehicles for its extraordinary merits, such as light mass, adjustable stiffness, adjustable body height, etc. Air suspension has two main functions: ride comfort guarantee and vehicle body adjustment, however these two functions are realized by the same technique, namely regulating the air pressure in the air chamber, which results in conflictions and restrictions between ride comfort control and vehicle body regulation. At present, the research on vehicle body regulation by air suspension focuses on the control accurateness and stability, neglecting the ride comfort, while the research on ride comfort control hardly considers the effects on body height. According to the aforementioned motivation, a heavy vehicle height robust control method for air suspension considering ride comfort is proposed in this paper, realizing the accurate tracking to reference body regulation curves with the ride comfort guaranteed, which improves the whole performance of air suspension for heavy vehicles. The numerical simulations with real heavy vehicle parameters demonstrate the priority of both rice comfort and height regulation performances.