A knowledge-based fault diagnosis method for rolling bearings without fault sample training

Zhuoxiang Chen, Qing Zhang, Jianqun Zhang, Xianrong Qin, Yuantao Sun
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Abstract

Rolling bearings are indispensable components of many engineering machinery, especially rotating machinery. If rolling bearing faults are not diagnosed promptly, it may cause huge economic losses. Bearing fault diagnosis can avoid catastrophic accidents, ensure the reliability of equipment operation, and reduce maintenance costs. Existing intelligent bearing fault diagnosis methods have fast diagnosis speeds and excellent fault recognition capabilities, which is not feasible for most important mechanical devices because of the difficulty in obtaining fault samples for training. To tackle this problem, a two-stage bearing fault diagnosis method without fault sample training based on fault feature knowledge is proposed. In the first stage, a fault detection vector is constructed based on signal statistical indicators. The Mahalanobis distance of the feature vector between online signals and historical normal signals serves for anomaly detection. In the second stage, based on the bearing fault knowledge, envelope spectrum fault indicators are proposed to form diagnosis vectors. By calculating the similarity between the diagnosis vector and the present fault label, the probability of different fault types will be obtained. Three experimental analyses show that the method is effective in detecting early faults and achieves high fault identification accuracy. The above results advantageously prove that the method can be used for fault diagnosis without fault sample training, and has the possibility of practical application.
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无需故障样本训练的基于知识的滚动轴承故障诊断方法
滚动轴承是许多工程机械,尤其是旋转机械不可或缺的部件。如果不及时诊断滚动轴承故障,可能会造成巨大的经济损失。轴承故障诊断可以避免灾难性事故的发生,确保设备运行的可靠性,降低维护成本。现有的智能轴承故障诊断方法诊断速度快、故障识别能力强,但由于难以获得故障样本进行训练,因此对于大多数重要的机械设备来说并不可行。针对这一问题,本文提出了一种基于故障特征知识、无需故障样本训练的两阶段轴承故障诊断方法。在第一阶段,根据信号统计指标构建故障检测向量。在线信号与历史正常信号之间特征向量的 Mahalanobis 距离可用于异常检测。第二阶段,根据轴承故障知识,提出包络谱故障指标,形成诊断向量。通过计算诊断向量与当前故障标签之间的相似度,得出不同故障类型的概率。三项实验分析表明,该方法能有效检测早期故障,故障识别准确率高。上述结果有力地证明了该方法无需故障样本训练即可用于故障诊断,具有实际应用的可能性。
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来源期刊
CiteScore
3.80
自引率
10.00%
发文量
625
审稿时长
4.3 months
期刊介绍: The Journal of Mechanical Engineering Science advances the understanding of both the fundamentals of engineering science and its application to the solution of challenges and problems in engineering.
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