攀壁机器人电控永磁体磁力的研究

CONVERTER Pub Date : 2021-01-01 DOI:10.17762/converter.110
Xin Chen, Wuwei Feng, Yulian Zhang, Minglei Li, Shifei Wu
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引用次数: 0

摘要

随着科学技术的进步,附着在船外表面的爬壁机器人越来越多地取代人类进行除锈。磁力不仅是吸附力,同时也是运动阻力,这是目前基于磁吸附的爬壁机器人的技术瓶颈。为了解决这一问题,本文提出了一种基于电控永磁技术的爬壁机器人。提出了一种电控永磁爬壁机器人,通过改变脉冲电流实现磁化和退磁功能。实验结果表明,船舶外表面充分吸附了磁化力。在退磁过程中,磁性吸引力接近0 N,这意味着系统完全卸载,正如理论分析所预测的那样。
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Study for a Wall-Climbing Robot Magnetic Attraction Force of An Electronically Controlled Permanent Magnet
With the advancement in science and technology, a wall-climbing robot attached to the ship's outer surface is increasingly replacing humans in the rust removal. The magnetic force is not just the adsorption force but also the moving resistance force, which is currently the technological bottleneck in wall-climbing robotics based on magnetic adsorption. This paper proposes a novel wall-climbing robot based on electrically controlled permanent magnet technology to solve this problem. An electrically controlled permanent magnetic wall-climbing robot is proposed to realize the function of magnetization and demagnetization by changing the pulse current. The results of the experiments reveal that the magnetizing force is adequately adsorbed on the ship's outer surface. The magnetic attraction force is close to 0 N during demagnetization, meaning that the system is fully unloaded, as predicted by the theoretical analysis.
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