Rolling bearing failure diagnosis method base on vibration temporal frequency analysis

A rolling bearing and fault diagnosis technology, which is applied in mechanical bearing testing and other directions, can solve the problems of complex vibration signals, increased calculation amount, and limited fault diagnosis accuracy, etc., and achieve the effect of fast and accurate identification

Active Publication Date: 2014-11-19
TIANJIN UNIV
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Problems solved by technology

However, due to the more complex vibration signals of rolling bearings, it is still necessary to optimize the smoothing method and end-point effects if the inherent time scale decomposition is used for the analysis of vibration signals of rolling bearing faults.
[0004] In addition, there is no clear standard for fault feature extraction. In order to meet the requirements of fault diagnosis accuracy, it is usually necessary to extract multiple fault features, which g

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  • Rolling bearing failure diagnosis method base on vibration temporal frequency analysis
  • Rolling bearing failure diagnosis method base on vibration temporal frequency analysis
  • Rolling bearing failure diagnosis method base on vibration temporal frequency analysis

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[0027] A detailed description of the rolling bearing fault diagnosis method based on vibration time-frequency analysis of the present invention will be given below in conjunction with embodiments and drawings.

[0028] The invention provides a rolling bearing fault diagnosis method based on vibration time-frequency analysis, such as figure 1 As shown, including the following steps:

[0029] (1) Use the vibration acceleration sensor to collect the vibration signals of the rolling bearing under normal and fault conditions;

[0030] (2) Improve the interpolation method and end effect processing method in the intrinsic time scale decomposition, and use the improved intrinsic time scale decomposition method to decompose the collected vibration signal x(t) to generate several intrinsic time scales Component HF m (t) and residual signal u n (t):

[0031] x ( t ) = X m = 1 n HF m ( t ) + u n ( t ) ;

[0032] Wherein, the interpolati...

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Abstract

The invention discloses a rolling bearing failure diagnosis method base on vibration temporal frequency analysis. The method comprises the following steps: utilizing a vibration acceleration sensor to collect vibration signals of the rolling bearing under a normal condition and a failure condition; utilizing a modified inherent time scale resolving method to resolve the collected vibration signals, and generating a plurality of inherent time scale components and residual signals; calculating relativity of the time scale components and the vibration signals, selecting the inherent time scale components of which the relativity is ranked top 5 as related components, and rejecting noise signals and false components; calculating Wigner distribution of the related components respectively, and conducting linear stack to obtain the Wigner temporal frequency figure of the original signal; extracting difference fractal box dimensionality of the Wigner temporal frequency figure and the image entropy as failure characteristics; utilizing mahalanobis distance to build mapping relation of the failure characteristics and failure types to realize failure diagnosis. According to the invention, interference of Wigner distribution cross terms is avoided; two kinds of representative failure characteristics of the difference fractal box dimensionality and the image entropy are confirmed.

Description

Technical field [0001] The invention relates to a fault diagnosis method for rolling bearings. In particular, it relates to a rolling bearing fault diagnosis method based on vibration time-frequency analysis. Background technique [0002] Vibration analysis is the simplest and most direct method for fault diagnosis of rolling bearings. Vibration analysis methods can be divided into time domain analysis method, frequency domain analysis method and time frequency analysis method. Among them, time-frequency analysis methods have been a hot research topic because they can comprehensively reflect the changes of vibration signals with time and frequency. The Wigner distribution is a typical time-frequency analysis method. It has good time-frequency aggregation and can reflect the essential characteristics of vibration signals, but it is only suitable for processing single-component signals. When measuring signals, the generated Wigner time-frequency diagram will be inaccurate due to ...

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Application Information

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IPC IPC(8): G01M13/04
Inventor 张俊红刘昱林杰威马梁马文朋
Owner TIANJIN UNIV
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