SU976321A1 - Device for random vibration testing - Google Patents

Description

one .

The invention relates to a testing technique, namely, to devices for testing for random vibrations.

A device for testing products for random vibrations, a striking driver of a random signal, a set of shaping filters, adjustable amplifiers, an adder, a power amplifier and a vibration pathogen, an analysis circuit including a set, analyzers of filters, comparison units whose outputs are connected to controllers are known. to the regulated inputs of adjustable amplifiers I.

The device allows for the testing of products for random vibration, however, the accuracy of forming the required spectrum is insufficient due to the fact that it is impossible to make uniform formating and analyzing filters with identical ones.

The closest to the invention to the technical essence is a device for testing for random vibrations, containing i-generator of swamp schuma, many

channel driver, each channel of which includes a filter that is adjustable in frequency and quality, and an adjustable amplifier connected in series with an adder, the outputs of which are connected to the outputs of adjustable amplifiers, and an exciter, a vibration sensor and a multi-channel analyzer, each channel of which consists of the first and second subtractors , series-connected adder and comparison unit, the output of which is connected to the control input of an adjustable amplifier, as well as the three measuring peeps, each of which includes a narrowband filter connected to the output of the vibration sensor and a dispersion meter, the outputs of which are connected to the channel input from the sensor, the outputs of the first and third dispersion meters in each channel are connected to the inputs of the first subtraction unit, the output of which is connected to the control input of the corresponding {kt-leable amplifier 12.

The device makes it possible to generate t |:) the emitted vibration spectrum with great accuracy, however, when generating a command signal to control the quality factor of the shaping filter, the non-uniformity of the VCh of the excitation oscillator loaded with the item is not taken into account.

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

This goal is achieved in that the device for testing for random vibrations is provided in each channel of the analyzer with a minimum selection unit, the inputs of which are connected to the first and

the third dispersion meter, and the output to the input of the second subtraction unit, the other input of which is connected to the second dispersion meter, and the output to

the control input of the adjustable filter 20 is the input of the subtraction unit 8, to the second input of which the signal is received from the trip unit

The drawing shows the device.

The device contains a generator 1 Be-12 is fed to the input of the adder 9, with

the noise logo, a multichannel driver, the L5 output of which the total signal of each channel includes an adjustment to the first input of the unit 10 comparable in frequency and quality factor of the filter, the second input of which is supplied 2 and the adjustable amplifier 3, the adder 4, the exciter 5 oscillations, the vibration sensor 6, multichannel an analyzer, each channel of which consists of the first and second blocks 7 .and 8 of the subtraction, connected in series by adder 9 and comparison unit H, the output of which is connected to the control input of the corresponding regulator amplifier 3, and three measuring circuits, each of which includes a narrowband filter 11 connected to the output of the vibration sensor 6 and a dispersion meter 12-12, the outputs of the dispersion meters 12-j - 12 are connected to the channel adder 9, and the first and third meters 12- | and 12 tons respectively to the first subtracting unit 7 and the minimum selecting unit 13, the output of which is connected to the second subtracting unit 8. The outputs of the first and second blocks 7 and 8 of the subtraction are connected respectively to the control inputs by the quality and frequency of the adjustable filter 2. The device operates as follows. The signal from the output of the white noise generator 1 is fed to the inputs of the adjustable filters 2, where its spectrum is divided into N adjacent bands. The level of the signal in each band is determined by the transmission ratio of the adjustable amplifier 3,

the input of which is connected to the output of the filter 2, and the output with the corresponding input of the adder 4. The generated signal from the output of the adder 4 is fed to the exciter 5 oscillations. From the output of the vibration sensor 6, a signal whose spectrum corresponds to the spectrum of random vibrations generated is fed to the inputs of the narrow-filter filters 11 of the analyzer, where

broken down into frequency components of p 3N adjacent frequency bands. The output signals of the filters 11 are detected and averaged by the dispersion meters 12 -12 and are fed to the inputs of the first one.

block 7 subtraction and block 13 select the minimum, which passes the minimum output of the signals at its inputs. From the output of block 13 minimum, the signal arrives at the first

measurer of 12.2 dispersion. At the same time, the signals from the outputs of the meters 12 are the program voltage. From the output of the comparator unit 10, the error signal is fed to the control input of the adjustable amplifier 3 and maintains a signal level corresponding to the program voltage in the corresponding frequency band. The error signals from the outputs of blocks 7 and 8 of the subtraction, arriving at the control inputs of the filter 2, control respectively the quality factor and the resonant frequency of the filter 2. Use to control the quality factor and the resonant frequency of the filter 2 signal obtained by special processing in block 13 for selecting the minimum and blocks 7 and 8, the subtraction of signals from the outputs of three parallel measurement circuits allows controlling the shape of the spectrum inside the formation bands, taking into account the non-uniformity of the frequency response of the vibration path, which leads to ysche- passed precision forming an energy spectrum of the generated signal. Formula and devices for random vibration testing, containing a white noise generator, a multichannel driver, each channel of which includes adjustable

A filter in frequency and quality factor and an adjustable amplifier, a series-connected adder, the outputs of which are connected to the outputs of adjustable amplifiers, and a vibration exciter, a vibration s multiplier and a multi-channel analyzer, each channel of which consists of the first and second subtraction units, the series-connected adder and comparison unit , the output of which is connected to the control input of an adjustable amplifier, as well as three measuring circuits, each of which includes a narrowband filter connected to the output vibration sensor, and dispersion meter, 15 outputs of which are connected to the input of the channel adder, outputs of the first and third dispersion meters in each channel are connected to the inputs of the first subtraction unit, the output of which is connected to the control -20

This input is a suitable adjustable amplifier, characterized in that, in order to increase the reliability of the tests, it is equipped in each ka {analyzer) with a minimum selection unit, the inputs of which are connected to the first and third dispersion meters, and the output to the input of the second subtraction unit, other

the input of which is connected to the second MODM & dispersion, and the output - to the control input of the adjustable filter.

Sources of information taken into account in the examination

1, V. Klyuev. Instruments and systems for measuring vibration of noise and shock. Book 2. M, Mashinostroenie, 1978, p. 173.

2. Copyright 1; certificate of the USSR No. 757896, cl. G 01 M 7 / OO, 1978 (prototype).

Claims (1)

• The formula from gaining noise enters the inputs of adjustable filters 2, where its spectrum is divided into N adjacent bands. The signal level in each band is determined by the gain of the adjustable amplifier 3, A device for testing for random vibrations, containing a white noise generator, a multi-channel driver, * each channel of which includes a filter adjustable in frequency and quality factor and an adjustable amplifier, an adder connected in series, the outputs of the adjustable amplifiers are connected to its inputs, and a vibration exciter, vib 5 a detector and a multi-channel analyzer, each channel of which consists of the first and second subtraction units, a series-connected adder and a comparison unit, the output of which is connected 10 to the control input of an adjustable amplifier, as well as three measuring circuits, each of which includes a narrow-band filter connected to the output of the vibration sensor, and a dispersion meter, 15 outputs of which are connected to the input of the channel adder, the outputs of the first and third dispersion meters in each channel are connected to the inputs of the first subtraction unit, the output of which is connected to control 20 at the input of the corresponding adjustable amplifier, characterized in that, in order to increase the reliability of the tests, it is provided in each Nala analyzer unit selecting a minimum, whose inputs are connected to the third and .First measurers dispersion, and the output - to the input of the second subtractor, the other input of which is connected to the second dispersion meter, and the output - to the control input of the adjustable filter.