摘要
针对多方向振动俘能器对低频、低幅值激励的响应输出性能低等问题,在振动俘能结构中引入非线性磁吸力,提高俘能器的响应频带和能量转换效率。研究了非线性磁振子模型,建立了基于广义Hamilton变分原理的横、纵向振动系统机电耦合模型,对系统动力学方程进行无量纲化并数值求解。搭建了振动俘能器性能测试平台,开展了多场耦合振动俘能器频谱特性及响应输出的分析实验。结果表明,引入磁铁可显著提高系统能量转换效率,当磁铁间距15mm、激励幅值0.5m/s^2时,相比无磁力输入的情况,系统响应电压提高了6倍左右,谐振频率从18Hz降至9.5Hz左右,解决了压电俘能器频带窄、响应频率高及输出电压低等问题。
Aiming at low response performance of vibration energy harvester to low-frequency and low-amplitude excitation,the nonlinear magnetic attraction is added to energy harvesting structure to improve frequency band and energy conversion efficiency.Nonlinear magnetic models are studied,the distributed electromechanical coupled models of transverse and longitudinal vibrations are established by using the generalized Hamilton variation principle,and system dynamic equation is addressed dimensionless and solved numerically.The experimental platform of vibration energy harvester is built,the spectral characteristics and response output is obtained.Results show that,when magnet spacing is 15mm and excitation amplitude is 0.5m/s^2,the energy conversion efficiency increases by about 6 times compared with that with no magnetic,and resonance frequency decreases from 18Hz to 9.5Hz,which solves problems of narrow band,high response frequency and the low output voltage of piezoelectric energy harvester.
作者
张旭辉
吴中华
赖正鹏
谭厚志
樊红卫
ZH ANG Xuhui;WU Zhonghua;LAI Zhengpeng;TAN Houzhi;FAN Hongwei(School of Mechanical Engineering,Xi’an University of Science and Technology Xi'an,710054,China)
出处
《振动.测试与诊断》
EI
CSCD
北大核心
2019年第1期1-8,217,共9页
Journal of Vibration,Measurement & Diagnosis
基金
国家自然科学基金资助项目(51605380)
中国博士后科学基金资助项目(2015M582692
2016M602842)
陕西省自然科学基础研究计划资助项目(2017JQ5105)
关键词
低频低幅振动
多场耦合模型
振动俘能器
分布式模型
响应分析
Low-frequency and low-amplitude vibration
multi-field coupled model
vibration energy harvester
distributed model
response analysis
