SU1013412A1 - Vibratory test drive - Google Patents

Abstract

1. VIBROSTEND, containing a generator connected in series, a power amplifier and a vibration exciter with a platform and a piezo sensor with a matching amplifier connected to its output, characterized in that in order to improve the accuracy of measurements in the low frequency range, it is equipped with a successive pulse air generator and a mod) w Trr. With an output coil placed on the exciter platform and a demodulator connected to the output of the matching amplifier, the transducer is located on the lateral surface of the rod, and the modulator reference input is connected to the transducer:} with a working output of the demodulator. 2: The vibrostand of claim 1, wherein the rod is placed with a gap in the output nozzle and is filled with: a profiled tip, providing a predetermined excitation frequency range (L rod.

Description

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. The invention relates to means of testing equipment, namely, devices for measuring parameters of infra-low-frequency vibration when testing products or when operating them under the influence of low-frequency alternating overloads. A device for measuring the parameters of low-frequency vibration, made in the form of an electromagnetic probe, containing a permanent magnet with pole pieces, with a pin that placed measles connected to a source of 1-frequency frequency vibration 11, is a disadvantage.

koi accuracy of measuring the magnitude of the displacement and frequency of vibration due to the Dagradian processes occurring in the electronic elements during the tests under the influence of destabilizing factors.

The closest to the invention is a shaker, containing oscillations of a series-connected generator, amplifier, power; a vibration exciter with a platform and a piezo sensor with a matching amplifier connected to its output 2.

A disadvantage of the known device is U TOM; That piezoelectric sensors at izmenrenni fiHSKuqacTOTHbix alternating accelerations have a greater bore error. Measurement accuracy can be captured by transferring low-frequency oscillations to the high-frequency range with a subsequent demodulation of the signal, modulated by a low-frequency vibrator. At the same time, infra-frequency and W-frequency vibrations from fractions of Hz to several tens of Hz should be measured.

The aim of the invention is to improve the accuracy of measurements in the low frequency range.

This goal is achieved by the fact that a vibrating system containing a series-connected generator, power amplifier and vibration exciter with a platform and a sensor with a pickup: matching amplifier for its output, is equipped with a series-connected pulsed pneumatic generator and modulator with an output nozzle, rod placed on the platform of the vibration exciter, and a demodulator connected to the output of the matching amplifier, a piezo sensor is placed on the side surface of the rod, and the reference input of the modulator is connected with demodulator clock synchronization output.

In addition, the rod is placed with a gap B in the output coruie and is made with a nofili with a jug tip, providing

the side surface of the rod 10 and fixed mastic. The main input of the modulator 8 is connected to the synchronizing output of the demodulator 11.

Profiled} niko1chk 12 rod 10 is located in the output nozzle 9 with a gap and provides a specified range of the excitation frequency of the rod 10.

The vibration table works as follows. P} 1evmatic generator 7 generates a stream of air that enters modulator 8 through an air duct. Modulator 8 generates an air flow modulated by 1S by a predetermined law, for example

0 sinusoidal. As a modulator, an apertured disk is used, driven i by a motor (not shown).

The modulated air flow enters cormo 9 and excites in the rod 10 ultrasonic vibrations, the frequency of which lies in the range from 10 to W Hz. The frequency and shape of oscillations is determined by the geometry of the pinned tip 12 .;

When generator 1 is turned on, the harmonic signal from its output is amplified by power amplifier 2 and excites vibrator 3. Platform 4 comes into an oscillatory motion, causing movement of the pierced tip 12 of rod 10 in nozzle 9 and thus, secondary modulation of air flow in nozzle 9. The oscillation frequency excited in the rod varies and the spectrum of the low-frequency oscillations of the shaker will be transferred to the range of ultrasonic vibrations. These vibrations of the rod W are transformed by a piezo-sensor 5 into an electrical signal, which through a matching amplifier 6 is fed to the signal input of the demodulator. The piezoelectric sensor has a minimum conversion error in the frequency range from 10 to 10 Hz and a maximum error in the low frequency range; therefore, the spectrum transfer of the useful 12 specified frequency range is the excitation of the rod. The drawing shows a structural diagram of the shaker. The vibrostand contains a generator 1 connected in series, a power amplifier 2 and a vibration exciter 3 with platform 4 and a piezo sensor 5. A matching amplifier 6 is connected to the output of sensor 5, successively connected pulse pneumatic generator 7 and modulator 8 with output nozzle 9. Rod 0 is placed on vibration exciter platform 4 3. To you go of the matching amplifier 6, a demodulator 11 is connected. The piezo sensor 5 is set to

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signal to higher frequencies is shown) which agrees the frequency of rotation

The accuracy of the device increases when measuring the modulator's modulus with the modulation frequency of low-frequency oscillations. Accord-free flow. At the output of the demodulator

the amplifier is selected with a high emit signal at the vibration frequency and

input impedance and low output impedance, which is amplitude amplified by vibration and therefore does not introduce significant platform vibrations, during the measurement process. The use of the invention allows the demodulator reference input to increase the quality of testing for

signal from the modulator directly or by increasing the accuracy of measurements in a common frequency multiplier (in the drawing, not in the region of low frequencies.

Claims (2)

1. VIBROSTEND containing a series-connected generator, a power amplifier and a vibration exciter with a platform and a piezoelectric transducer with a matching amplifier connected to its output, characterized in that, in order to increase the accuracy of measurements in the low frequency range, it is equipped with a series-connected pulsed pneumatic generator and a modulator . with an output soip, a rod placed on the exciter platform, and a demodulator connected to the output of the matching amplifier, a piezoelectric sensor is placed on the side surface of the rod, and the reference input of the modulator is connected to the synchronizing output of the demodulator. 2: Vibration stand on π. 1, with the fact that the rod is placed with a gap in the output nozzle and is made with a profiled tip providing a given range of frequency of excitation of the rod. 2lKl0t ^<ra OS ”/