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磁力馈能悬架的设计与实验研究 被引量:2

Design and Experimental Study of Magnetic Energy-harvesting Suspension
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摘要 馈能悬架在完成被动悬架相关功能的同时,可实现对振动能量的回收。本文提出了一种在保留原被动悬架弹簧与阻尼结构的基础上,融入法拉第电磁感应馈能元件的磁力馈能悬架结构,保证原有悬架的安全性,同时实现无接触、无摩擦、无需润滑的馈能功能。本文阐述了该馈能悬架的工作原理与基本结构,并对悬架结构进行优化设计。进而研制了磁力馈能悬架的原理样机及馈能实验台架,研究在变频率、变幅值的正弦激励下,悬架系统的输出电压特性。实验结果表明:馈能悬架的输出电压与正弦激励的幅值和频率呈正相关。为了验证馈能悬架的自供电性与实用性,选用传感器作为负载,在7 Hz,4 mm的正弦激励下,馈能悬架可持续输出的电压为22 V成功地为传感器供电。 The energy-harvesting suspension can realize the harvesting of vibration energy while completing the relevant functions of passive suspension.This paper proposes a magnetic energy-harvesting suspension structure,which is based on the original passive suspension spring and the damping structure and incorporated with the energy-harvesting element of the Faraday law of electromagnetic induction to ensure the safety of the original passive suspension and to realize the energy-harvesting function of no-contact,no-friction and no-lubrication.It also describes the principles and basic structures of the energy-harvesting suspension and then optimizes its structure.Then,the prototype of the magnetic energy-harvesting suspension and its bench were developed to study its output voltage characteristics under variable frequency and variable amplitude sinusoidal excitation.The experimental results show that the output voltage of the magnetic energy-harvesting suspension is positively correlated with the amplitude and frequency of the sinusoidal excitation.In order to verify the feasibility of the self-powered suspension,a sensor is selected as the load.Under the sine excitation of 7 Hz and 4 mm,the suspension can continuously output a voltage of 22 V to successfully power the sensor.
作者 孙凤 李华辰 单光坤 周冉 李强 徐方超 金俊杰 张晓友 SUN Feng;LI Huachen;SHAN Guangkun;ZHOU Ran;LI Qiang;XU Fangchao;JIN Junjie;ZHANG Xiaoyou(School of Mechanical Engineering,Shenyang University of Technology,Shenyang 110870,China;Department of Mechanical Engineering,Nippon Institute of Technology,Saitama 345-8501,Japan)
出处 《机械科学与技术》 CSCD 北大核心 2023年第3期402-407,共6页 Mechanical Science and Technology for Aerospace Engineering
基金 国家自然科学基金项目(52005345,52005344) 辽宁省教育厅项目(LJGD2019011,LFGD2020002) 辽宁省“兴辽英才计划”项目(XLYC1802077,XLYC1905003) 辽宁省重点实验室建设项目(2020JH6/10500048)。
关键词 能量回收 法拉第电磁感应定律 磁力馈能悬架 输出电压特性 energy-harvesting faraday law of electromagnetic induction magnetic energy-harvesting suspension output voltage characteristic
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