Fault Detection of Rolling Element Bearing for Low Speed Machine Using Wiener Filter and Shock Pulse Counting
Autor: | Sung-Taek Park, Heung-Sik Woo, Sung Bum Park, Jong-Il Weon |
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Rok vydání: | 2012 |
Předmět: |
Engineering
Bearing (mechanical) business.industry Noise (signal processing) Wiener filter Fault Simulator Condition monitoring Fault (power engineering) Fault detection and isolation law.invention symbols.namesake law Control theory Rolling-element bearing symbols Electronic engineering business human activities |
Zdroj: | Transactions of the Korean Society for Noise and Vibration Engineering. 22:1227-1236 |
ISSN: | 1598-2785 |
Popis: | The low speed machinery faults are usually caused by the bearing failure of the rolling elements. As the life time of the bearing is limited, the condition monitoring of bearing is very important to maintain the continuous operation without failures. A few monitoring techniques using time domain, frequency domain and fuzzy neural network vibration analysis are introduced to detect and diagnose the faults of the low speed machinery. This paper presents a method of fault detection for the rolling element bearing in the low speed machinery using the Wiener filtering and shock pulse counting techniques. Wiener filter is used for noise cancellation and it clearly makes the shock pulse emerge from the time signal with the high level of noise. The shock pulse counting is used to determine the various faults obviously from the shock signal with transient pulses not related with the bearing fault. Machine fault simulator is used for the experimental measurement in order to verify this technique is the powerful tool for the low speed machine compared with the frequency analysis. The test results show that the method proposed is very effective parameter even for the signal with high contaminated noise, speed variation and very low energy. The presented method shows the optimal tool for the condition monitoring purpose to detect the various bearing fault with high accuracy. |
Databáze: | OpenAIRE |
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