SU1420412A1 - Apparatus for testing piezoelectric pressure transducers - Google Patents

Abstract

The invention relates to instrumentation. The purpose of the invention is to improve the accuracy and expansion of the frequency range at low levels of variable pressures. To do this, the electromechanical oscillator includes two electromagnets: a pathogen 10 and an adapter 11, connected together with a mechanical resonator (MP) 12 in an autogenerator mode of operation. The free shank 15 of the elastic element 9 with the help of the support screw 7 is pressed against the sensing element of the sensor 2 being turned on. element of the sensor being tested 2. Due to the direct piezoelectric effect, when the shank 15 of the elastic element 9 of the load element is acting on the sensitive element of the sensor being turned on 2, a voltage occurs at the output of the latter, which is fixed by the device 1. According to the magnitude of this voltage, the sensitivity of the sensor being turned 2 is judged. 1 Il. I cl

Description

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The invention relates to instrument engineering, in particular to devices for calibrating pressure sensors.

The purpose of the invention is to improve the accuracy and expansion of the frequency range at low levels of variable pressures.

The drawing is a diagram of the device.

The device consists of a registering device 1 with a high-resistance input, to which a rotating piezocarray pressure sensor 2 is connected, mounted in: a rack 3, which is fixed on the base 4, mounted on a foam rubber damper 5. Cronpain 6, mounted on base 4, Assigned for installation of an adjustable reference 7 with micrometric feed, rigidly connected with one of the shanks 8 of the elastic element 9 of the electromechanical oscillator of the loading mechanism. The composition of the electromechanical oscillator V. T. mt two electromagnets; the pathogen GO and; adapter 11, connected together with the mechanical resonator 12 in the self-oscillating mode of operation. Information removed from adapter 11 is recorded using instruments 13 and 14. Free shank 15 of elastic element 9 is raised with sensing screw 7 to sensing element of sensor being turned on sensor 2. The device for calibration of piezoelectric pressure sensors K1 | x works as follows - njJHM way.

When the loading mechanism is turned on, the resonator 12, embedded at the two ends of the elastic element 9 by means of electromagnets 10 and 11, excites at its own frequency mechanical vibrations of the elastic element along the loading axis of the sensitive element of the sensor being turned 2.

The frequency and amplitude of the mechanical action are determined by the parameters of the mechanism 9-12 loading and can be quite fire controlled by deforming the elastic element 9 with the help of the support screw 7, while monitoring the parameters of the mechanical action 1 (frequency and amplitude; 1-stream) is carried out with large precision recording devices 13 and 14.

Since the loading mechanism includes an elastic element 9, clamped between the support screw 7 and the sensitive element MiinTOM of the sensor being turned 2, it is determined

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This force (which can be controlled by the oscillation frequency of the resonator 12), during its operation, the impact nature of the sensor being turned on is eliminated.

Due to the direct piezoelectric effect, when the shank 15 of the elastic element of the load is applied to the sensitive element of the pressure sensor 2, a voltage appears at the sensor output, which is detected by the recording device 1. The value of this voltage determines the sensitivity of the sensor being monitored.

The presence of a support screw with an adjustable micrometer feed, an elastic element in the loading mechanism, the absence of the impact nature of the variable effect on the sensor being turned, and the possibility of coptrol and control of the loading mechanism parameters with greater accuracy — all this improves the accuracy in estimating the sensitivity of the pressure sensors being checked at low levels with increased frequency of variable pressures.

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Claims (1)

Invention Formula A device for calibrating piezoelectric pressure sensors, comprising a stand with an aperture fixed on the base for mounting a pressure sensor and a loading mechanism for the sensitive element of the pressure sensor in the form of an electromechanical oscillator mounted on the base using a bracket, characterized in that In order to increase accuracy and expand the frequency range at low levels of variable pressures, in some meters the electromechanical oscillator is designed as an elastic element in the form of a parallelogram of elastic plates with a rod resonator located in one of its diagonals, and with two shanks located outside in the direction of the other diagonal, while one of the shanks is rigidly connected with an adjustable support screw installed in the bracket and the other the shank is located opposite the stand hole along its axis, the resonator being equipped with a system for excitation and pickup of oscillations with a recorder.