Piezoelectric Energy Harvesting from the Thorax Vibration of Freely Flying Bees.

IF 10.5 Q1 ENGINEERING, BIOMEDICAL

Cyborg and bionic systems (Washington, D.C.) Pub Date : 2025-02-26 eCollection Date: 2025-01-01 DOI:10.34133/cbsystems.0210

Zhiyun Ma, Jieliang Zhao, Li Yu, Lulu Liang, Zhong Liu, Yongxia Gu, Jianing Wu, Wenzhong Wang, Shaoze Yan

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Abstract

Insect cyborgs have been proposed for application in future rescue operations, environmental monitoring, and hazardous area surveys. An energy harvester for insect carrying is critical to the long-lasting life of insect cyborgs, and designing an energy harvester with superior energy output within the load capacity of tiny flying insects is very important. In this study, we measured the thorax vibration frequency of bees during loaded flight conditions. We propose a piezoelectric vibration energy harvester for bees that has a mass of only 46 mg and can achieve maximum effective output voltage and energy density of 5.66 V and 1.27 mW/cm³, respectively. The harvester has no marked effect on the bees' normal movement, which is verified by experiments of mounting the harvester on bees. These results indicate that the proposed harvester is expected to realize a self-power supply of tiny insect cyborgs.

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自由飞行蜜蜂胸部振动的压电能量收集。

昆虫机器人已被提出用于未来的救援行动，环境监测和危险区域调查。昆虫携带能量收集器对于昆虫机器人的长寿命至关重要，设计一种在微小昆虫承载能力范围内具有优异能量输出的能量收集器是非常重要的。在这项研究中，我们测量了蜜蜂在负重飞行条件下的胸腔振动频率。我们为蜜蜂提出了一种压电振动能量采集器，其质量仅为46 mg，最大有效输出电压和能量密度分别为5.66 V和1.27 mW/cm3。收割机对蜜蜂的正常运动没有明显的影响，通过将收割机安装在蜜蜂身上的实验证实了这一点。这些结果表明，所提出的收割机有望实现微型昆虫半机械人的自供电。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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