Rolling bearing outer ring defect full-size quantitative diagnosis method

A technology for rolling bearings and diagnostic methods, which is applied in the direction of mechanical bearing testing, measuring devices, and special data processing applications, etc. It can solve the problems of misdiagnosing large defects into small defects, large spacing, and failure to correctly diagnose the size of outer ring defects, etc., so as to avoid misdiagnosis problem effect

Active Publication Date: 2018-02-16
BEIJING UNIV OF TECH
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Problems solved by technology

However, as the faulty bearing continues to operate, the size of the defect will continue to expand. When the size of the defect is larger than the angular pitch of the balls, that is, a large defect, the size of the defect with a difference of n times the angular pitch of the balls has the same impact time difference.
In this case, only using the impact time difference method to diagnose the size of the defect will easily confuse these defects, resulting in misdiagnosing large defects as small defects, or misdiagnosing small defects as large defects, makin

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  • Rolling bearing outer ring defect full-size quantitative diagnosis method
  • Rolling bearing outer ring defect full-size quantitative diagnosis method
  • Rolling bearing outer ring defect full-size quantitative diagnosis method

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[0043] The diagnostic method of the present invention will be described in detail below with reference to the drawings and embodiments, but the protection scope of the present invention is not limited to the embodiments.

[0044] Such as figure 1 As shown, it is a work flow chart of a full-scale quantitative diagnosis method for rolling bearing outer ring defects of the present invention. The detailed steps are as follows.

[0045] Step 1 Preliminary diagnosis of the basic size and optional size of the outer ring defect of the rolling bearing,

[0046] In this embodiment, the known parameters of the bearing system to be diagnosed are: the number of bearing balls N b =8, cage rotation frequency f c =3Hz, sampling frequency F s =65536Hz, number of data points N=131072, number of balls N b =8, defect angular position φ f unknown. Install a pair of vibration acceleration sensors to the horizontal measuring point and vertical measuring point of the bearing seat respectively,...

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Abstract

The invention discloses a rolling bearing outer ring defect full-size quantitative diagnosis method. Firstly primary diagnosis is performed on an actual measurement signal based on an impact time difference to obtain a basic size and selectable sizes of an outer ring defect. Secondly a nonlinear dynamics model of a bearing system is built, and through numerical solving, a vertical-horizontal synchronous simulation vibration signal corresponding to each defect size is obtained. For the situation that a defect angle is 270 degrees, Fourier transform is performed on the actual measurement signaland a simulation signal of each selectable defect size to obtain corresponding amplitude spectrums, a minimum diagnosis parameter Min/delta fN/ of the actual measurement signal is solved, and an outerring defect size is diagnosed out. For the situation that the defect angle is 250-290 degrees, an outer ring defect full-size quantitative diagnosis standard database is established based on a vertical-horizontal synchronous standard deviation, and by determining an attribution interval of the vertical-horizontal synchronous standard deviation of the actual measurement signal, the outer ring defect size is diagnosed out.

Description

technical field [0001] The invention discloses a full-scale quantitative diagnosis method for defects in the outer ring of a rolling bearing, which belongs to the technical field of bearing fault diagnosis. Background technique [0002] Rolling bearings are the most widely used components in various mechanical equipment, and whether their operating status is good or not will directly affect the safe operation of the entire equipment. According to relevant statistics, about 30% of rotating machinery failures are caused by bearing failures, and about 90% of rolling bearing failures are caused by outer and inner ring failures. Therefore, it is of great significance to study bearing fault diagnosis technology to find faults as early as possible, avoid catastrophic accidents, and ensure the normal, safe and orderly operation of equipment. [0003] At present, the quantitative diagnosis method of bearing fault is mainly to estimate the defect size through the double impact differ...

Claims

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Application Information

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IPC IPC(8): G06F17/50G01B21/00G01M13/04
CPCG01B21/00G01M13/04G06F30/17G06F30/20
Inventor 崔玲丽黄金凤张飞斌
Owner BEIJING UNIV OF TECH
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