基于 MFL 技术提高平带局部损伤诊断效率的可视化研究

IF 2.2 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Sensors Letters Pub Date : 2024-08-20 DOI:10.1109/LSENS.2024.3446698

Sung-Won Kim;Sae-Byeok Kyung;Eun-Yul Lee;Ju-Won Kim

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引用次数: 0

摘要

与钢丝绳相比，平带可提供更快的稳定性并节省能源，因此越来越多地应用于电梯中。然而，平带在运行过程中的损坏可能导致灾难性事故，如钢丝绳失效和因拉力载荷而坠落。因此，需要监测技术来提前检测损坏情况，防止事故发生。虽然对钢丝绳的损坏诊断进行了广泛的研究，但缺乏对平带损坏诊断的研究。在这封信中，我们提出了一种应用磁通量泄漏（MFL）方法诊断平皮带损坏的监测技术。利用永磁体的 MFL 传感器为平皮带量身定制，以测量漏磁通。利用电梯中实际使用的平皮带样本，以 30 厘米的间隔制造了六种人为损坏情况。随后，使用 MFL 传感器测量泄漏磁通量，证实在损坏区域出现了泄漏磁通量。此外，随着损坏程度的增加，泄漏流量的大小也在增加。这些发现证实了使用 MFL 传感器通过监测进行损坏诊断的潜力。

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Visualization Study for Enhancing the Efficiency of Local Damage Diagnosis on Flat Belts Based on MFL Technology

Flat belts are increasingly used in elevators, which offer faster stabilization and energy savings compared to wire ropes. How- ever, damage to flat belts during operation can lead to catastrophic accidents, such as rope failure and falls due to tensile loads. Therefore, there is a need for monitoring techniques to detect damage in advance and prevent accidents. Although extensive research has been conducted on the diagnosis of damage to wire ropes, studies on diagnosing damage to flat belts are lacking. In this letter, we propose a monitoring technique that applies the magnetic flux leakage (MFL) method to diagnose flat belt damage. MFL sensors utilizing permanent magnets were tailored for flat belts to measure the leakage flux. Six instances of artificial damage were created using samples of flat belts actually used in elevators, with damage induced at 30-cm intervals. Subsequently, MFL sensors were used to measure the leakage flux, confirming its occurrence in the damaged areas. Furthermore, as the degree of damage increased, the size of the leakage flux also increased. These findings confirm the potential of using MFL sensors for damage diagnosis through monitoring.

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来源期刊

IEEE Sensors Letters Engineering-Electrical and Electronic Engineering

CiteScore

3.50

自引率

7.10%

发文量

194