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SSD, spectral kurtosis and smooth iteration envelope analysis method of antifriction bearing

A rolling bearing and envelope analysis technology, applied in the field of state monitoring and fault diagnosis of rotating machinery, can solve problems such as low technical precision, low analysis precision, and misjudgment

Inactive Publication Date: 2016-10-26
WEIFANG UNIVERSITY
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Problems solved by technology

The existing envelope analysis technology has the following three defects: ① The existing envelope analysis technology either directly analyzes the original signal, or only analyzes the original signal after simple filtering, so the existing method It is easily disturbed by noise, trend and other components, resulting in low analysis accuracy of the existing technology; ②The existing envelope analysis technology is based on the Hilbert transform, and the Hilbert transform requires that the signal to be analyzed must be a single component Narrowband signals, otherwise the frequency modulation part of the signal will pollute the amplitude envelope analysis results of the signal, but the current signals to be analyzed do not strictly meet the conditions of single component and narrowband, which will lead to the existing technology is easy to The problem of misjudgment occurs; ③The envelope spectrum obtained by traditional methods has endpoint effects

Method used

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  • SSD, spectral kurtosis and smooth iteration envelope analysis method of antifriction bearing
  • SSD, spectral kurtosis and smooth iteration envelope analysis method of antifriction bearing
  • SSD, spectral kurtosis and smooth iteration envelope analysis method of antifriction bearing

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Embodiment Construction

[0083] Examples such as figure 1 , figure 2 , image 3 As shown, an SSD, spectral kurtosis and smoothing iterative envelope analysis method for rolling bearings includes the following steps:

[0084] Step 1: Use the acceleration sensor to measure the vibration signal x(k), (k=1, 2,...,N) of the rolling bearing at the sampling frequency fs, where N is the length of the sampling signal;

[0085] Step 2: Use the Singular Spectrum Decomposition (SSD) algorithm to decompose the signal x(k) into the sum of n components, namely , where c i (k) represents the i-th component obtained by the singular spectrum decomposition algorithm. The singular spectrum decomposition is known, see the literature

[0086] P. Bonizzi, J.M. KAREL, O. Meste, R.L. Peeters, Singular spectrum decomposition: A new method for time series decomposition, Advances in Adaptive Data Analysis, 2014, 6 (4): 1-29;

[0087] Step 3: to c i (k) Perform the rearrangement operation and replacement operation, and th...

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Abstract

The invention discloses an SSD, spectral kurtosis and smoothing iteration envelope analysis method of an antifriction bearing. Firstly, an original signal is decomposed by a singular spectrum decomposition method, and then, the noise component and the trend term in the decomposition result are eliminated by the data rearrangement and substitution operation, the signal after the primary filtering is analyzed by the spectral kurtosis method to obtain the center frequency and bandwidth of an optimal filter, the filter filters the signal after the primary filtering secondarily, the signal after the secondary filtering is subjected to envelope analysis by means of the smooth iteration envelope analysis method, and at the end, the fault type of the antifriction bearing can be determined based on the spectrum envelope. The method is suitable for dealing with complex antifriction bearing fault signals, can accurately determine the fault type of the antifriction bearing, is good in noise resistance and robustness, and is convenient for engineering application.

Description

technical field [0001] The invention relates to the field of state monitoring and fault diagnosis of rotating machinery, in particular to an SSD, spectrum kurtosis and smooth iterative envelope analysis method of a rolling bearing. Background technique [0002] Envelope analysis technique is widely used in fault diagnosis of gears and rolling bearings. The existing envelope analysis technology has the following three defects: ① The existing envelope analysis technology either directly analyzes the original signal, or only analyzes the original signal after simple filtering, so the existing method It is easily disturbed by noise, trend and other components, resulting in low analysis accuracy of the existing technology; ②The existing envelope analysis technology is based on the Hilbert transform, and the Hilbert transform requires that the signal to be analyzed must be a single component Narrowband signals, otherwise the frequency modulation part of the signal will pollute th...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01M13/04G06K9/00
CPCG01M13/045G06F2218/00G06F2218/04
Inventor 窦春红
Owner WEIFANG UNIVERSITY
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