军用履带车辆电磁悬挂结构设计与控制算法研究

张进秋; 岳杰; 彭志召; 张磊; 黄大山

doi:10.13433/j.cnki.1003-8728.2016.0124

军用履带车辆电磁悬挂结构设计与控制算法研究

doi: 10.13433/j.cnki.1003-8728.2016.0124

1.
装甲兵工程学院装备试用与培训大队, 北京 100072

详细信息

作者简介:
张进秋(1963-),教授,博士,博士生导师,研究方向为车辆工程、车辆振动控制,zhangjq63@163.com

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- 被引次数: 0
出版历程
- 收稿日期: 2014-03-13
- 刊出日期: 2016-01-05

Study on Structural Design and Vibration Control Algorithm of Electromagnetic Suspension for Military Tracked Vehicle

1.
Brigade of Equipment Trial and Training, Academy of Armored Forces Engineering, Beijing 100072, China

摘要

摘要: 针对被动悬挂不可控、半主动悬挂不能主动出力和主动悬挂耗能过大等问题,提出基于电磁作动器和磁流变阻尼器相复合的电磁悬挂结构方案。依据军用车辆能量回收潜力和行驶性能与射击精度对悬挂控制的要求,提出采用分档控制方法的基于行驶工况与作战效能的振动控制策略。分析表明,该电磁悬挂具有Fail-Safe功能,增加了参数的可调范围,在分档控制策略下能够实现车辆振动的被动、半主动和主动控制,并能在a档和b档时采用电磁馈能实现振动能量的部分回收,适用于军用履带战斗车辆振动控制需求。
- 电磁悬挂 /
- 磁流变阻尼器 /
- 电磁作动器 /
- 分档控制策略
Abstract: As the passive suspension is uncontrollable, semi-active suspension can not give force out actively and active suspension costs excessive energy, a novel electromagnetic suspension structure is proposed in this paper with the hydraulic shock absorber replaced by MRD, and EA with the traditional spring element in parallel is adopted. Based on energy reclaiming potential for military vehicles and requirements of driving performance and shooting accuracy, a subsection vibration control algorithm is put forward. Analysis results show that the novel electromagnetic suspension structure has a Fail-Safe function, and could increase the range of the suspension adjustable parameters, and could perform the passive, semi-active and active control and the vibration energy could be reclaimed under in certain conditions.
- acceleration /
- actuators /
- algorithms /
- angular velocity

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参考文献(15)

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