真空断路器高速电磁斥力机构优化设计的联合仿真

Yushan Hou, Z. Shi, Sheng Li, Yingkui Zhang, J. Bai, S. Jia, Lijun Wang
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引用次数: 6

摘要

近年来,基于涡流效应产生的高速电磁斥力机构(ERM)在真空断路器中得到了广泛的应用。如何通过优化设计来提高ERM的运行速度是ERM设计面临的挑战之一。本文提出了一种新的协同仿真模型。通过联合仿真分析了ERM的相关电磁场、力学场和结构场。结果表明,在几毫秒内实现分离是可能的。此外,考虑到金属板作为频繁操作的驱动器,有可能达到其力学极限,对其应力和应变进行了分析。此外,通过参数分析,研究了提高速度与优化参数(线圈匝数、结构尺寸、能量存储形式和初始间隙)之间的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Co-simulation on the optimization design of high-speed electromagnetic repulsion mechanism of vacuum circuit breaker
In recent years high-speed electromagnetic repulsion mechanism (ERM), which is produced based on the eddy-current effect, has been widely applied to vacuum circuit breakers. One of the challenges for the design of ERM is to improve the speed of ERM by optimization design. In this paper, a novel co-simulation model is proposed. The related electromagnetic field, mechanical field and structural field of ERM have been analyzed through co-simulation. Results show that achieving separation in a few milliseconds is possible. Besides, considering the metal plate, as a driver of frequent operation, is possible to reach its mechanic limit, the stress and the strain of it are analyzed. In addition, according to the parametric analysis, the relationship between improving speed and optimizing parameters, e.g., the turns of the coil, the structural size, the storing form of energy and the initial gap are investigated.
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