Hall Ryan G, Rashidi Reza
Department of Mechanical and Electrical Engineering Technology, State University of New York, Alfred State College, Alfred, NY 14802, USA.
Micromachines (Basel). 2021 Apr 19;12(4):457. doi: 10.3390/mi12040457.
This paper discusses the development of a multi-directional, universal, electromagnetic energy harvester. The device is a ball consisting of two parts: a rigid spherical core with internal tubes, coils and magnets, and a flexible silicone-based shell holding a carrier fluid. The multi-directional aspect of the design comes from the device's spherical shape. The harvester generates energy when subject to compressive force, by moving fluid through a tube, pushing a permanently magnetized ball through a coil wound around the tube. A combination of 3-D printed PLA plastic and molded silicone was used to produce a prototype. The energy harvester can be utilized in applications where there is an oscillating compression and it is not limited to certain applications due to its universal ball shape. It was tested at five different frequencies between 4-15 Hz on its four different outer sides producing electricity at a range of 17 to 44 mV.
本文讨论了一种多向通用电磁能量收集器的开发。该装置是一个球体,由两部分组成:一个带有内部管道、线圈和磁体的刚性球形核心,以及一个容纳载液的柔性硅基外壳。设计的多向性源于装置的球形。当受到压缩力时,该收集器通过使流体通过管道、推动永久磁化的球穿过缠绕在管道上的线圈来产生能量。使用3D打印的聚乳酸塑料和模制硅胶的组合制作了一个原型。该能量收集器可用于存在振荡压缩的应用中,并且由于其通用的球形形状,不限于特定应用。在其四个不同的外侧上,在4至15Hz的五个不同频率下对其进行了测试,产生的电量在17至44mV范围内。