基于感应电机系统的电气特征分析在齿轮故障检测中的应用趋势

2015 IEEE Workshop on Electrical Machines Design, Control and Diagnosis (WEMDCD) Pub Date : 2015-03-26 DOI:10.1109/WEMDCD.2015.7194543

S. Hedayati Kia, H. Henao, G. Capolino

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引用次数: 16

摘要

多年来，振动测量与分析一直是复杂机电系统中齿轮健康状态评估的经典方法。近年来，利用感应电机电特征分析技术对齿轮局部故障进行了检测，取得了良好的效果。这些先前的研究主要依赖于研究齿轮局部故障对机械转矩产生的机械冲击效应，从而对定子相电流产生影响。本文旨在研究这些最新进展，特别关注感应电机驱动系统。分析方法和建模方法都将被考虑，这有助于更好地理解所观察到的现象，并导致确定齿轮齿局部故障检测的非侵入性方法的可靠性和有效性。

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Trends in gear fault detection using electrical signature analysis in induction machine-based systems

Vibration measurement and analysis have been used as a classical approach for health state assessment of gears in complex electromechanical systems for many years. Recently, several attempts have been performed for the detection of gear tooth localized faults using induction machine electrical signature analysis with promising results. These previous researches were mainly relied on the study of mechanical impacts effects, generated by gear localized faults, on the mechanical torque and consequently on the stator phase currents. This paper aims to investigate these recent advances with particular focus on the induction machine-based drive systems. Both analytical and modeling approaches will be considered which are helpful for a better understanding of observed phenomena and which leads to identifying both reliability and effectiveness of non-invasive methods for gear tooth localized fault detection.

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2015 IEEE Workshop on Electrical Machines Design, Control and Diagnosis (WEMDCD)

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