RU1796917C - Method of making acoustic diagnosis on power equipment unit - Google Patents

Abstract

The invention relates to technical acoustics and diagnostics and can be used to measure sound pressure levels near power equipment nodes. The purpose of the invention is to improve the reliability of diagnosing the state of power equipment units. The purpose of the invention is to increase the reliability of diagnosing the condition of components of power equipment. The acoustic diagnostic method is; that an interference signal rotated 180 ° in phase to excite an emitter located in the noise area of the diagnosed node. The Q state of the diagnosed node is judged by the total signal from the node and emitter. The active influence of the measured signal by the phase-shifted interference signal increases the reliability of diagnosis. 1 ill. ate with

Description

The invention relates to technical acoustics and diagnostics and can be used to measure sound pressure levels (SPL) near power equipment nodes.

There is a known method of acoustic diagnostics of mechanisms, in which when extracting a signal generated by one node of the mechanism, information from several vibro-acoustic sensors and information about signals from all nodes of the mechanism and position sensors are used.

Closest to the invention is an acoustic diagnostic method for a power equipment assembly, the method comprising; that they measure the sound pressure levels from the diagnosed node and the interference from which the state of the diagnosed node is judged.

A disadvantage of the known method is the low diagnostic reliability when registering small signals against the background of a high level of interference.

The aim of the invention is to increase the reliability of diagnosis.

The goal is achieved by that; that in the method of acoustic diagnostics of the state of the power equipment assembly, “that consists in measuring sound pressure levels from the diagnosed assembly and the interference from which the condition of the diagnosed assembly is judged, the noise spectrum is measured: the diagnosed assembly and determining the frequency .- corresponding to its maximum value. - a sound signal emitter is placed in the area of the noise of the diagnosed node, change the phase of the interference signal by 180 ° and affect it

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detector, and the condition of the diagnosed node is judged by the level of sound pressure from the diagnosed node and emitter at the frequency of the maximum noise value of the diagnosed node ..,

The drawing shows a structural diagram of a device that implements the proposed method of acoustic diagnostics,.

The device comprises microphones 1 and 2, sound ducts 3 and 4 connected to an amplifier and a processing unit & connected to a recorder 6, phase rotation 7, a power amplifier 8 and an emitter 9 of an audio signal.

The method is implemented as follows; ; -; about--; : ..: - .-: - The method is carried out under bench conditions in a pilot installation with a rotary blower. An air duct from a compressed air source was additionally supplied to it to simulate interference; whose action in the region of the control microphone 1 should be excluded.

The microphones were located at a distance of 0.01 m:

1st — controlling condition from the rim of the fan impeller;

2nd — measures the interference and generates signals from the cutoff of the duct hose. ; .. ..

The distance between the microphones was m.

At the beginning of the experiment, one blower (B) was turned on with a squirrel-wheel rotor. Microphone 1 connected to the sound level meter

and installed at the rotor, the noise spectrum of the blower in the region of the rotor rim was measured through sound pressure levels. From the obtained data on the noise spectrum, I chose

the frequency of monitoring its state fk at the maximum of the received signal. .

Then, when the blower and air duct are working, the microphone output 2 is connected to the input from phase shifter 7, amplifier 8

power and emitter 9 of an audio signal located in the noise zone of the diagnosed node. When switching microphone 2 to this circuit, which turned the phase of the signal of this microphone by 180 °, the signal from the emitter affected the signal amplitude in the region of microphone 1. The controlled value of the signal was recorded at frequency tt no according to microphone 1 with the blower operating and

air duct. After preparing the system for operation, a diagnostic indicator was selected for the condition of the blower rim. To do this, g (when the air duct is disconnected, a defect was introduced into the operation of the blower by training the Ohmuyd bar of the blower rotor.

Then, the air duct was turned on again with the blower running with the indicated defect on its rim.

the ultrasound level of the microphone t at the selected frequency fie, and it was found that there is a defect on the rim of the rotor of the blower when using the method of acoustic diagnostics of the state of the rotary aero blower assembly.

Claims (1)

SUMMARY OF THE INVENTION A method for acoustically diagnosing a condition of a power equipment assembly, the method comprising: that they measure the sound pressure levels from the diagnosed node and the interference from which the state of the diagnosed node is judged, and, moreover, so that, in order to increase the reliability of the diagnosis, the noise spectrum of the diagnosed node is measured and the frequency corresponding to its Maximum value, an emitter of the sound signal is placed in the noise zone of the diagnosed node, they change the phase of the interference signal by 180 ° and act on the emitter, and the state of the diagnosed node is judged by the sound pressure level from agnostic node and emitter at the frequency of the maximum noise value of the diagnosed node. Ј b 8 -I AM 7