An Inertial Noncontact Piezoelectric Rotary Energy Harvester with Linear Reciprocating Motion

Xiaotian Zheng, Lipeng He, Shuai Jiang, Lei Sun, Zhonghua Zhang, G. Cheng
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Abstract

Herein, an inertial noncontact piezoelectric rotary energy harvester with linear reciprocating motion (L‐PREH) is presented. The existing piezoelectric rotary harvester employing gravity excitation has limited performance when the rotation speed is high due to the negative influence of centrifugal force. L‐PREH translates rotational motion into linear motion via the transmission chain and employs inertial force excitation to overcome high‐speed performance limitations. Using the Euler–Bernoulli beam theory, the motion governing equations of piezoelectric transducers have been derived, and an electromechanical coupling model has been constructed. Moreover, the piezoelectric transducer is simulated and analyzed. The control variable approach is used to explore the key parameters impacting output performance. When the mass is positioned in symmetrical method, the guide rod is fixed in noncentral place, the limiter is fixed in longest distance, the distance between the mass's center and the main frame is the maximum, and the rotating speed is 450 RPM, the maximum peak‐to‐peak output voltage of an L‐PREH single transducer is 24 V. The highest power of two piezoelectric transducers linked in parallel with a load resistance of 400 kΩ is 0.27 mW, which can light up more than 70 light‐emitting diodes. The L‐PREH can drive low‐power devices.
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线性往复运动惯性非接触压电旋转能量采集器
本文提出了一种线性往复运动的惯性非接触压电旋转能量采集器(L‐PREH)。现有的采用重力激励的压电式旋转收割机在转速较高时,由于离心力的负面影响,性能有限。L - PREH通过传动链将旋转运动转化为直线运动,并利用惯性力激励来克服高速性能限制。利用欧拉-伯努利梁理论推导了压电换能器的运动控制方程,建立了压电换能器的机电耦合模型。并对压电换能器进行了仿真分析。采用控制变量法探索影响输出性能的关键参数。当质点对称定位时,导杆固定在非中心位置,限位器固定在最远位置,质点中心到主机的距离最大,转速为450 RPM, L - PREH单换能器的最大峰对峰输出电压为24 V。负载电阻400 kΩ并联的两个压电换能器的最高功率为0.27 mW,可以点亮70多个发光二极管。L - PREH可以驱动低功耗器件。
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