Shafting fault identification method based on dual-tree complex wavelet and adaboost

A dual-tree complex wavelet and fault identification technology, which is applied in the field of fault identification, can solve problems such as unbalanced shaft fault data and few fault data

Active Publication Date: 2019-12-10
CENT SOUTH UNIV
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Problems solved by technology

However, shafting fault data is a kind of unbalanced data, with more normal data and less fault data, and minority data (fault data) is more important in actual fault identification, which makes extreme learning machines and support vector machines There are limitations in classification methods such as

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  • Shafting fault identification method based on dual-tree complex wavelet and adaboost
  • Shafting fault identification method based on dual-tree complex wavelet and adaboost
  • Shafting fault identification method based on dual-tree complex wavelet and adaboost

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Embodiment Construction

[0030] The technical solutions adopted by the present invention will be further described below in conjunction with the accompanying drawings.

[0031] Such as figure 1 As shown in the flow chart of shafting fault identification, a shafting fault identification method based on dual-tree complex wavelet and Adaboost includes five steps from S1 to S5.

[0032] S1: Use the acceleration sensor installed on the motor bearing support frame at the industrial site to obtain the horizontal, vertical and axial vibration acceleration data respectively, and integrate the vibration acceleration data once to obtain the vibration velocity data, and take the vibration velocity data in three directions as Shafting vibration characterization.

[0033] S2: Use dual-tree complex wavelet decomposition for vibration signals in three directions, use Q-shift dual-tree filter to decompose the vibration signal to 4 layers to obtain components of different frequency bands, and use Stein unbiased likeli...

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Abstract

The invention provides a shafting fault recognition method based on dual-tree complex wavelets and AdaBoost. The method comprises the main steps that a horizontal vibration acceleration signal, a vertical vibration acceleration signal and an axial vibration acceleration signal are collected and processed into vibration velocity signals; an unstable fault vibration signal is disintegrated through the dual-tree complex wavelets to obtain several components at different frequency bands; an adaptive threshold value is used to perform de-noising on the signals at all the frequency bands to increase the signal-to-noise ratio; the signals at all levels after de-noising are reconstructed, and energy of all the frequency bands is acquired; and the energy of all the frequency bands is used as input of AdaBoost integrated learning, a single-layer decision tree is used as a weak classifier for AdaBoost integrated learning, a proposed SAMME.Z algorithm is used to perform multi-classification, and finally a bearing fault type is recognized. The method has good mode separability, is low in calculated amount and high in efficiency and has a good guiding effect on industrial field shafting operating state monitoring.

Description

technical field [0001] The invention belongs to the field of fault identification, and in particular relates to a shaft fault identification method of mechanical equipment. Background technique [0002] Shafting failures of rotating machinery mostly occur on shafts and rolling bearings. Rolling bearings are the load-bearing units of rotating electrical machines. In addition to high speed and heavy loads, the working conditions are also extremely harsh, and they are prone to failures. 7% of the failures in rotating machinery are caused by rolling bearing failures. Shaft failures also occur from time to time. In ball bearings, 90% of the faults occur on the inner ring and outer ring, and other faults basically occur on the rolling elements, and few cage faults occur. Fault diagnosis of rotating machinery shafting has gained more and more attention in recent years. [0003] The most effective way to diagnose the shafting fault of rotating machinery is to analyze the fault t...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F17/50G06K9/62
CPCG06F16/285G06F30/17
Inventor 唐朝晖王紫勋闫志浩史伟东牛亚辉
Owner CENT SOUTH UNIV
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