Yang Fen, Kou Ziming, Wu Juan, Li Tengyu
School of Mechanical Engineering, Taiyuan University of Technology, Taiyuan 030024, China.
Shanxi Province Mineral Fluid Controlling Engineering Laboratory, Taiyuan 030024, China.
Entropy (Basel). 2018 Sep 4;20(9):667. doi: 10.3390/e20090667.
In this paper, a novel weak fault features extraction scheme is proposed to extract weak fault features in head sheave bearings of floor-type multi-rope friction mine hoists in strong noise environments. A mutual information-based sample entropy (MI-SE) is proposed to select the effective intrinsic mode function (IMF). The numerical simulation presented in this paper has demonstrated that the improved complete ensemble empirical mode decomposition with adaptive noise (ICEEMDAN) has a poor performance on weak signals processing under a strong noise background, and fault features cannot be identified clearly. The de-noised signal is decomposed into several IMFs by the ICEEMDAN method, with the help of the minimum entropy deconvolution (MED), which works as a pre-filter to increase the kurtosis value by about 3.2 times. The envelope spectrum of the effective IMF selected by the MI-SE method shows almost all fault features clearly. An analogous experiment system was built to verify the feasibility of the proposed scheme, whose results have also shown that the proposed hybrid scheme has better performance compared with ICEEMDAN or MED on the weak fault features extraction under a strong noise background. This paper provides a novel method to diagnose the weak faults of the slow speed and heavy load rolling bearings in a strong noise environment.
本文提出了一种新颖的微弱故障特征提取方案,用于在强噪声环境下提取落地式多绳摩擦矿井提升机天轮轴承的微弱故障特征。提出了一种基于互信息的样本熵(MI-SE)来选择有效的本征模态函数(IMF)。本文给出的数值模拟表明,改进的自适应噪声总体经验模态分解(ICEEMDAN)在强噪声背景下对微弱信号的处理性能较差,无法清晰识别故障特征。通过ICEEMDAN方法将去噪后的信号分解为多个IMF,并借助最小熵反卷积(MED)作为预滤波器,使峭度值提高约3.2倍。由MI-SE方法选择的有效IMF的包络谱清晰地显示了几乎所有故障特征。搭建了一个模拟实验系统来验证所提方案的可行性,实验结果还表明,所提混合方案在强噪声背景下对微弱故障特征的提取方面比ICEEMDAN或MED具有更好的性能。本文提供了一种在强噪声环境下诊断低速重载滚动轴承微弱故障的新方法。
