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Frequency self-tracing dimension-variation stochastic resonance fault diagnosis system

A fault diagnosis system and stochastic resonance technology, applied in special data processing applications, instruments, electrical digital data processing, etc., can solve problems such as engineering application goals are far apart, failure, unusable, etc., to ensure safe and reliable operation, Improved accuracy, rich content effects

Inactive Publication Date: 2008-01-23
TIANJIN UNIV
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Problems solved by technology

Since the stochastic resonance theory studies small parameter signals, that is, the amplitude and frequency of the signal and the intensity of the noise are small parameters, so when facing engineering signals with large parameters, such as large-intensity noise or high-frequency signals, small The stochastic resonance theory of parameters will fail to be usable
Especially in the prediction and diagnosis of mechanical faults, there is no ready-made diagnostic system that can use this technology to realize early fault prediction, and it is still far from the actual engineering application goals.

Method used

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  • Frequency self-tracing dimension-variation stochastic resonance fault diagnosis system
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  • Frequency self-tracing dimension-variation stochastic resonance fault diagnosis system

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Embodiment Construction

[0014] The content of the present invention will be further explained below by way of examples. Some faults of operating equipment often appear in the form of their characteristic frequency signals. When the fault is in the early germination state, its characteristic signal is often completely submerged by noise and cannot be distinguished. In order to detect the characteristic signal of the fault from the noise interference, to measure The frequency instrument 1 obtains the operating frequency fo of the equipment through the first channel of the A / D conversion card 3-1, determines that the sampling frequency fs of the second channel of the A / D conversion card 3-1 is 50 times the operating frequency fo, and collects it from the sensor 2 Other physical quantity signals of the operating equipment, such as vibration and noise, are sent to the scale-variable regulator 7 as original sampling data. All adjacent sampling points are interpolated in the variable scale adjuster. The num...

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Abstract

It is frequency self-tracing vary dimension random resonance diagnose system and relates to frequency self-tracing and vary dimension random resonance technique, which is composed of frequency measurement device, sensor, A / D transition card, bistability circuit, D / A transition card, PFT frequency spectrum analyzer, vary-dimension adjustor and signal recovery device. The fifty times of the frequency got by the frequency measurement device serves as sample frequency and it gets signals from the sensor and input it into the vary-dimension random resonance system. The vary-dimension adjustor calculates the data plug delay to make the bistability to generate random resonance. The signal recovers device delays and recoveries the resonance signals and output them to the PFT frequency spectrum analyzer for spectrum characteristic analysis. This invention improves the diagnose accuracy and ensures the safe operation of the device.

Description

technical field [0001] The invention belongs to a detection technology and an automatic device, in particular to a detection technology of frequency self-tracking and variable-scale stochastic resonance. technical background [0002] Stochastic resonance technology originated in the early 1980s. It has unique advantages in signal processing enhancement amplification and detection and identification. It has been widely used in physics, chemistry, biology, celestial bodies, life and other disciplines. In recent years, stochastic resonance technology has also attracted widespread attention in engineering fields such as machinery, electronics, and information, and has begun to be applied to engineering aspects such as fault diagnosis, image processing, and target tracking. Since the stochastic resonance theory studies small parameter signals, that is, the amplitude and frequency of the signal and the intensity of the noise are small parameters, so when facing engineering signals...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F19/00G01R23/16
Inventor 冷永刚王太勇郭焱
Owner TIANJIN UNIV
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