Curved Magnetic Levitation Conveying System for Thin Steel Plate with Magnetic Field Applied from Edge Direction

Journal of the Japan Society of Applied Electromagnetics and Mechanics Pub Date : 2023-01-01 DOI:10.14243/jsaem.31.464

Shintarou KAWAMURA, Tatsuya NAGAYOSHI, Yusuke ICHIKAWA, Syuta KAYAMA, Kazuki OGAWA, Daigo UCHINO, Keigo IKEDA, Taro KATO, Ayato ENDO, Takayoshi NARITA, Hideaki KATO

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Abstract

In production lines for thin steel plate, which are widely used for industrial products, contact conveyance is performed by rollers. However, quality deterioration due to contact between the thin steel plate and the roller has become a problem. Therefore, non-contact magnetic levitation transportation of thin steel plates using the attractive force of electromagnets has been proposed. So far, we have studied the levitation performance of a magnetic levitation system that combines a horizontal positioning control system and a curved magnetic levitation system. However, the levitation stability of the levitation performance of the magnetic levitation system, which combines the horizontal positioning control system and the curved magnetic levitation system, when the bending angle of the steel plate is changed has not been sufficiently studied. Therefore, in this report, we experimentally investigated the effect of the bending angle of the thin steel plate on the levitation performance.

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薄板边向磁场弯曲磁悬浮输送系统

在工业产品中广泛使用的薄钢板生产线中，接触输送是通过辊筒进行的。然而，由于薄钢板与滚筒之间的接触而导致的质量恶化已成为一个问题。因此，提出了利用电磁铁的引力对薄钢板进行非接触磁悬浮运输。到目前为止，我们已经研究了水平定位控制系统和弯曲磁悬浮系统相结合的磁悬浮系统的悬浮性能。然而，结合水平定位控制系统和弯曲磁悬浮系统的磁悬浮系统在改变钢板弯曲角度时，其悬浮性能的悬浮稳定性还没有得到充分的研究。因此，在本报告中，我们实验研究了薄钢板弯曲角度对悬浮性能的影响。

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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Journal of the Japan Society of Applied Electromagnetics and Mechanics

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