RU2580182C1 - Device and method for testing articles for random vibration - Google Patents

Abstract

FIELD: test equipment.

SUBSTANCE: invention relates to testing articles on random vibration and can be used when determining vibration durability of machines, instruments and equipment. Device includes forming, each including first noise generator (NG) connected to the output of first low-pass filter (LPF), output of which is connected to controlled frequency-modulated generator (FMG), which output is connected to signal input of corresponding adjustable amplifier (AA). Also comprises adder inputs are connected to outputs of AA, vibration exciter, to input is connected to output of adder, vibration sensor, as well as circuit analysis, each of which includes analysing band-pass filter (APF), which is made in form of modulated filter, modulating input is connected to output of corresponding first LPF. Amplitude detector (AD) and comparator unit (CU), which are connected to APF. Display device, to inputs of which outputs of AD are connected. At that, every circuit generating has series-connected NG, second LPF, multiplier, and each circuit analysis additionally contains analysed signal amplifier, which is connected to vibration sensor and is connected to corresponding second LPF and appropriate APF. At that, in every circuit analysis CU is connected with appropriate multiplier of every chain formation, which is connected with appropriate AA.

EFFECT: technical result consists in providing possibility of playing back random non-stationary vibration.

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Description

The invention relates to the field of testing products for random vibration and can be used in determining the vibration reliability of machines, devices and equipment.

From the prior art there is known a method of testing products for random vibrations and a device for implementing the method described in the reference book "Vibrations in the technique": Reference book. In 6 t. / Ed. advice: V.N. Chelomei (previous). - M.: Mechanical Engineering, 1981 - T. 5. Measurements and tests. - Ed. M.D. Genkina, 1981. (S. 463, Fig. 3).

The method consists in generating an exciting signal as follows: in a parallel channel of formation from a noise generator and a series-connected narrow-band shaping filter, a random signal is supplied to the multiplier.

The output signals of the forming channels are summed up, the received signal is fed through a power amplifier to a vibration exciter, which converts the electrical signal into mechanical vibrations of the table with the tested product fixed.

The required vibration spectrum is established and maintained as follows: the signal from the vibration transducer mounted on the table is fed to the analysis channels, each of which consists of an analysis filter, a rectifier and a low-pass filter, so that at the outputs of the analysis channels a spectrum estimate is obtained that is compared with a given spectrum.

Using a discriminator, an error signal is received and fed through a feedback amplifier and rectifiers to the multipliers of the forming channels, as a result of which the vibration spectrum approaches the specified one. The method allows you to automatically maintain random vibration at one point with a given spectrum.

The device that implements this method consists of parallel formation channels, each of which has a noise generator in series, a narrow-band shaping filter and a multiplier, the outputs of which are connected to an adder, the output of which is connected to the input of the power amplifier, the output of which is connected to the input of the vibration exciter creating vibration on a vibrating table with a test product and a vibration sensor, the output of which is connected to parallel analysis channels, consisting of a series analyzing th filter, a rectifier, a low pass filter whose output is connected to the input of the comparator, the input of which is supplied with a reference signal apparatus from the output of the comparator is feedback through the multiplier rectifiers forming channels.

Closest to the claimed invention is a device and method for testing the product for broadband random vibration according to the copyright certificate of the USSR No. 977970, IPC G01M 7/00, publ. 02/10/2011.

The device for testing products for random vibrations contains the formation circuit, each of which includes a white noise generator, a low-pass filter connected to its output, the output of which is connected to a controlled frequency-modulated generator, the output of which is connected to the signal input of the corresponding adjustable amplifier, the adder, to the inputs of which the outputs of adjustable amplifiers are connected, an exciter of oscillations, to the input of which an output of the adder, a vibration sensor, and also analysis circuits are connected, each of which includes t analyzing band-pass filter, which is arranged in a modulated filter modulating input of which is connected to the output of the corresponding low-frequency filter, an amplitude detector and a comparing unit which are connected to the analyzing band-pass filter, a display device which inputs are connected to outputs of the amplitude detectors.

The method of testing products for random vibrations is as follows. In each formation chain, random frequency control signals of the corresponding frequency-modulated generator are generated, after which the signals are fed to the adder, from which the total signal is fed to the input of the vibration exciter, converting the signal into mechanical vibrations of the table, on which the tested product and vibration sensor are fixed, the signal from the vibration sensor enters the multichannel analyzer, where in each circuit the signal from the analyzing bandpass filter, made in the form of a modulated filter, is fed to amplitude detector, the signal from which falls into the comparison unit, which generates control signals to an adjustable amplifier of the generated signal according to the results of processing signals from an analyzing band-pass filter and a given dispersion value, from the outputs of the amplitude detector, the signals are sent to an indicator device that displays a graph of the spectrum of reproduced vibration.

The disadvantage of the analogue and the prototype are limited functionality due to the inability to reproduce random unsteady vibration.

The objective of the invention is to develop a device and method for testing products for random vibrations, which eliminates the aforementioned disadvantage of analogue and prototype.

The technical result, which consists in providing the ability to reproduce random unsteady vibration due to the formation of amplitude modulation, is achieved by the fact that in the device for testing products for random vibrations containing the formation circuit, each of which includes a first noise generator, a first low-pass filter connected to its output, the output of which is connected to a controlled frequency-modulated generator, the output of which is connected to the signal input of the corresponding adjustable amplifier, a torus, to the inputs of which the outputs of adjustable amplifiers are connected, an excitation oscillator, to the input of which an output of the adder, a vibration sensor, and also analysis circuits are connected, each of which includes an analyzing bandpass filter, which is made in the form of a modulated filter, the modulating input of which is connected to the output of the corresponding first a low-pass filter, an amplitude detector and a comparison unit, which are connected to an analyzing band-pass filter, an indicator device, to whose inputs the outputs of the amplitude of the detectors according to the present invention, each formation circuit further comprises a second noise generator, a second low-pass filter, a multiplier connected in series, and each analysis circuit further comprises an analyzer signal amplifier that is connected to a vibration sensor and connected to a corresponding second low-pass filter and a corresponding analyzing band-pass filter in this case, in each analysis circuit, the comparison unit is connected to the corresponding multiplier of each formation chain, which union of a respective adjustable amplifier.

The technical result is also achieved by the fact that in the method of testing products for random vibrations, which consists in the use of the indicated device, in each formation circuit of which the frequency modulation of the signal is generated, random stationary signals for controlling the frequency of the corresponding controlled frequency-modulated generator are generated, after what the signals are fed to the adder, from which the total signal is fed to the input of the pathogen, which converts the signal into mechanical vibrations of the table on which the tested product and vibration sensor are mounted, the signal from the vibration sensor enters the analysis circuit, where in each analysis circuit the signal from the analyzing bandpass filter is fed to an amplitude detector, the signal from which is fed to a comparison unit that generates control signals to an adjustable amplifier of the generated signal by the results of processing signals from an analyzing band-pass filter and a given dispersion value, from the output of the amplitude detector, the signals are sent to an indicator device, displaying e the graph of the spectrum of the reproduced vibration, according to the present invention, in each formation circuit, an amplitude modulation of the signal is additionally generated according to a random law, which controls the adjustable amplifier and amplifier of the analyzed signals, and the random stationary signal is converted into a random non-stationary signal by the adjustable amplifier, which is fed to the adder and further to the oscillation pathogen and vibration sensor, from the output of which a random unsteady signal is fed to the input of the amplifier signals to be analyzed, which in each analysis circuit converts a random non-stationary signal into a random stationary signal.

The invention is illustrated by the drawing, which shows a structural diagram of the proposed device for testing products for random vibrations.

The numbers in the drawing indicate:

1 - the first noise generator;

2 - the first low-pass filter;

3 - frequency-modulated generator;

4 - adjustable amplifier;

5 - adder;

6 - pathogen;

7 - test product;

8 - vibration sensor;

9 - amplifier of the analyzed signal;

10 - analyzing bandpass filter;

11 - amplitude detector;

12 - indicator device;

13 is a comparison unit;

14 - second noise generator;

15 - the second low-pass filter;

16 - multiplier.

The device for testing products for random vibrations contains the formation circuit, each of which includes a first noise generator 1, a first low-pass filter 2 connected to its output, the output of which is connected to a controlled frequency-modulated generator 3, the output of which is connected to the signal input of the corresponding adjustable amplifier 4 , an adder 5, to the inputs of which the outputs of the adjustable amplifiers 4 are connected, an exciter of oscillations 6, to the input of which an output of the adder 5, a vibration sensor 8, and also an analysis circuit are connected, each and of which includes an analyzing band-pass filter 10, which is made in the form of a modulated filter, the modulating input of which is connected to the output of the corresponding first low-pass filter 2, an amplitude detector 11 and a comparison unit 13, which are connected to the analyzing band-pass filter 10, an indicator device 12, to the inputs which connected the outputs of the amplitude detectors 11.

The proposed device for testing products for random vibrations is characterized in that each formation circuit further comprises a second noise generator 14 connected in series, a second low-pass filter 15, a multiplier 16, and each analysis circuit further comprises an analyzed signal amplifier 9, which is connected to the vibration sensor 8 and connected with the corresponding second low-pass filter 15 and the corresponding analyzing band-pass filter 10, while in each analysis circuit the comparison unit 13 is connected to the corresponding a multiplier 16 of each formation circuit, which is connected to a corresponding adjustable amplifier 4.

The proposed method uses the above device for testing products for random vibrations.

In each formation chain, a frequency modulation of the signal is generated using the first noise generator 1 and the first low-pass filter 2, and random stationary frequency control signals of the corresponding controlled frequency-modulated generator 3 are generated, after which the signals are fed through an adjustable amplifier 4 of the generated signal to the adder 5 , from which the total signal is fed to the input of the oscillator 6, which converts the signal into mechanical vibrations of the table on which the tested product is mounted e 7 and vibration sensor 8, the signal from vibration sensor 8 enters the analysis circuit, where in each analysis circuit the signal from the analyzing band-pass filter 10 is fed to an amplitude detector 11, the signal from which is sent to a comparison unit 13, which generates control signals to an adjustable amplifier 4 of the generated the signal according to the results of signal processing from the analyzing band-pass filter 10 and the specified dispersion value D, from the output of the amplitude detector 11, the signals are supplied to an indicator device 12, which displays a graph of the spectrum reproduced dim vibration.

The proposed method for testing products for random vibrations is characterized in that in each formation circuit, an amplitude modulation of the signal is randomly generated using a second noise generator 14, a second low-pass filter 15 and a multiplier 16, while the amplitude modulation of the signal controls an adjustable amplifier 4 and an amplifier 9 of the analyzed signals, moreover, a random stationary signal using an adjustable amplifier 4 is converted into a random non-stationary signal, which is fed to the adder 5 and d 6 Lee exciter oscillation and vibration sensor 8, output from which random transient signal input to the amplifier 9, the analyzed signals, which in each random transient signal analyzing circuit converts a stationary random signal.

Thus, a broadband non-stationary signal is formed from a sum of narrow-band, each of which is formed by frequency and amplitude modulation of the harmonic according to a random law, therefore, the total signal has a random non-stationary character. This signal, passing through the vibration path (oscillation pathogen 6, converting the signal into mechanical vibrations of the table, on which the tested product 7 and vibration sensor 8 are mounted) with an uneven frequency response, changes and is fed to the input of the amplifier 9 of the analyzed signals, where it is converted to stationary in the analysis circuits , and the analyzing band-pass filters 10 are tuned to the instantaneous frequencies of the corresponding harmonics of the formation chain, therefore, at their output, the signal carries information about the energy level only in its band often and comparison unit 13, serves to adjust the amplitudes of the harmonics in the circuit formation, and therefore, the feedback allows to generate a predetermined range.

Using the present invention will expand the functionality of the device and method for testing products for random vibrations by providing the ability to reproduce random unsteady vibrations by forming amplitude modulation.

Claims (2)

1. Device for testing products for random vibrations, containing the formation circuit, each of which includes a first noise generator, a first low-pass filter connected to its output, the output of which is connected to a controlled frequency-modulated generator, the output of which is connected to the signal input of the corresponding adjustable amplifier, an adder, to the inputs of which the outputs of adjustable amplifiers are connected, an exciter of oscillations, to the input of which an output of the adder, a vibration sensor, and also an analysis circuit are connected, each of which ryh includes an analysis bandpass filter, which is made in the form of a modulated filter, the modulating input of which is connected to the output of the corresponding first low-pass filter, an amplitude detector and a comparison unit that are connected to the analyzing bandpass filter, an indicator device, the inputs of which are connected to the outputs of the amplitude detectors, characterized the fact that each formation circuit further comprises a series-connected noise generator, a second low-pass filter, a multiplier, and each nb analyte assay further comprises a signal amplifier which is connected to the vibration sensor and is connected to a corresponding second low-pass filter and analyzing the corresponding band pass filter, wherein in each analysis block comparison circuit coupled to a corresponding multiplier circuits each formation, which is connected to respective controlled amplifier. 2. A method of testing products for random vibrations, which consists in using the device according to claim 1, in each circuit of which a frequency modulation of the signal is generated, random stationary signals for controlling the frequency of the corresponding controlled frequency-modulated generator are generated, after which the signals are received through an adjustable amplifier of the generated signal to the adder, from which the total signal is fed to the input of the pathogen, converting the signal into mechanical vibrations of the table, where the tested product and vibration sensor are fixed, the signal from the vibration sensor enters the analysis circuit, where in each analysis circuit the signal from the analyzing band-pass filter is fed to an amplitude detector, the signal from which goes to the comparison unit, which generates control signals to an adjustable amplifier of the generated signal according to the processing results signals from the analyzing band-pass filter and the given dispersion value, from the output of the amplitude detector, the signals are fed to an indicator device that displays the spectrum spectrum of the reproduced vibration, characterized in that in each formation circuit, an amplitude modulation of the signal is additionally generated according to a random law, which controls the adjustable amplifier and amplifier of the analyzed signals, and the random stationary signal is converted into a random non-stationary signal by the adjustable amplifier, which is fed to the adder and further to the oscillation pathogen and vibration sensor, from the output of which a random non-stationary signal is fed to the input of the amplifier of the analyzed systems signals, which in each analysis circuit converts a random non-stationary signal into a random stationary signal.

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