噪声与振动控制2017,Vol.37Issue(1):76-81,6.DOI:10.3969/j.issn.1006-1335.2017.01.017
馈能式电磁作动器的设计与性能试验
An Alternative Design and Performance Experiments of an Energy-regenerative Electromagnetic Actuator
摘要
Abstract
The problem of large amount of energy consuming in active suspension system is studied.An energyregenerative electromagnetic suspension system is designed.This system can recover the dissipated vibration energy so as to reduce the energy consuming and improve the efficiency of energy utilization.A design scheme of the energy-regenerative electromagnetic actuator is provided with a full consideration of the features of structures and functions of the energyregenerative electromagnetic suspension system.The design requirements of the actuator are classified into 3 categories:basic requirement,function implementation requirement,and optimization design requirement.A principle prototype of the energy-regenerative electromagnetic actuator is designed and prepared.The performance of the actuator is analyzed experimentally.The experiment on following characteristic is conducted to test the frictional resistance of the actuator,the experiment on static mechanical characteristic is performed to acquire the magnitude of the force of the actuator and the experiment on load-free voltage characteristic is done to verify the effect of energy recovery of the actuator.The results show that the designed energy-regenerative electromagnetic actuator can satisfy the performance requirement.It can be used to construct the energy-regenerative electromagnetic suspension system.关键词
振动与波/综合运输/悬挂系统/电磁作动器/馈能式/设计与试验Key words
vibration and wave/integrated transportation/suspension system/electromagnetic actuator/energy-regenerative/design and test分类
交通工程引用本文复制引用
黄大山,张进秋,刘义乐,刘峻岩..馈能式电磁作动器的设计与性能试验[J].噪声与振动控制,2017,37(1):76-81,6.基金项目
创新工程项目资助(2015YY04) (2015YY04)
