感应电动机预测和独立故障诊断系统

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY

Engineer-Journal of the Institution of Engineers Sri Lanka Pub Date : 2021-12-30 DOI:10.4038/engineer.v54i4.7466

H. Jayasinghe, I. G. Ahangama, V. D. V. Y. Dharmasiri, D. C. G. Nisansala, J. Karunadasa

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引用次数: 0

摘要

感应电动机产生的突发故障会导致灾难性的故障和生产损失。因此，业界需要一种基于预测的系统，能够提前识别正在发生的故障。状态监测是在恶劣情况发生前发现故障并采取措施的一般方法。然而，在基于趋势分析的预测方法方面所做的工作有限。针对机械频繁故障，提出了一种识别振动谱临界次谐波随故障严重程度增加的变化趋势的新方法;结构松动、不对中、轴承偏心和轴承内圈故障。对三相异步电动机进行了人工诱发故障，并利用MATLAB算法对所获得的振动数据进行了分析。

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Predictive and Standalone Fault Diagnosis System for Induction Motors

Sudden faults created in induction motors result in catastrophic failures and loss of production. Therefore, the industry is in need of a predictive based system that can identify developing faults in advance. Condition monitoring is used as the general method of identifying faults and taking measures before the dreadful situation. However, there is limited work done on the predictive methodologies based on the trend analysis. The study presented in this paper proposes a novel method that identifies trend variation of critical harmonics of the vibration spectrum with increasing fault severity for frequent mechanical faults; structural looseness, misalignment, bearing eccentricity and bearing inner race fault. Faults were artificially induced on a three-phase induction motor and vibration data obtained was analysed with a MATLAB based algorithm.

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Engineer-Journal of the Institution of Engineers Sri Lanka ENGINEERING, MULTIDISCIPLINARY-

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