SU1631334A1 - Device for testing and calibrating measuring pressure transducers - Google Patents

Abstract

The invention relates to a measurement technique and can be used for testing, testing and calibrating pressure transmitters. The aim of the invention is to improve the accuracy of calibration and mechanical reliability. Based on 1, a tuning fork of 5 sec. OO b P the lower branch 4, which is equipped with a movable electromagnet 3, placed in a stationary electromagnetic coil 2 excitation oscillations. On the upper branch 6 of the tuning fork there is a rotating measuring chamber 7, which is connected by a channel 12 with a source of static pressure. To separate the working and driver media, a piston 13 is installed. The lower branch 4 is driven into oscillatory motion by an oscillation pathogen. In this case, the upper branch 6 with the camera 7, the exemplary 8 and the tested 9 converters also begins to oscillate at one of the resonant frequencies. By turning the camera 7, the amplitude of the pulsating pressure is not changed. In order to provide temperature effects, branch 6 with chamber 7 is placed in a device with low and high temperature. 1 hp f-ly, 1 ill. 77, 70 7 (L with oe with with with with 4

Description

The invention relates to a measurement technique and can be used for testing, calibration and calibration of measuring transducers.

The purpose of the invention is to improve the accuracy of calibration and mechanical reliability.

The drawing shows the proposed device.

A device for testing and calibration of pressure transducers contains a base 1, on which a vibration exciter is rigidly fixed, consisting of an electromagnetic coil 2 and a movable electromagnetic coil 3 fixed by ng of the lower branch 4 of the tuning fork 5.

The tuning fork 5 is rigidly fixed on the base 1 along its neutral plane, and its branches are located parallel to the base 1. On the upper branch 6 of the tuning fork 5 there is a measuring chamber 7 with sockets for exemplary 8 and test 9 measuring transducers. Chamber 7 is pivoted with seals 10 and latch I.

Channel 12 for communicating the measuring chamber 7 with a source of static pressure is made in the neutral plane of the upper branch 6 of the tuning fork 5 and is provided with an unconsolidated piston 13 for separating the working and setting media. The piston 13 is made of the same material as the upper branch of the tuning fork 5 and is lapped over the surface of the channel.

The device works as follows.

A constant voltage is applied to the electromagnetic coil 2, and a alternating voltage from the master oscillator is selected to the moving coil 3, selecting its frequency equal to the resonant frequency. The lower branch 4 of the tuning fork 5 begins to oscillate with a predetermined frequency of alternating voltage. The upper branch 6 of the tuning fork with a measuring chamber 7, an exemplary 3 fixed on it, and the test 9 transducers also begins to oscillate at one of the resonant frequencies.

The working fluid filling the measuring chamber, due to inertial forces, forms a pulsating pressure inside the chamber, the amplitude of which varies from the maximum (at

five

0 5

0

.Q

five ,

five

five

the measurement chamber shown in the drawing) to a minimum (when the camera is rotated 90 °). The maximum value of the amplitude of the pulsating pressure is determined by the choice of the density of the working fluid.

Thus, static pressure, alternating pressure, and vibration simultaneously affect the SPD sensing elements.

Claims (2)

1. An apparatus for testing and calibrating pressure transducers, comprising a base with an oscillation activator mounted on it and a measuring chamber with sockets for securing the sample and test transducers filled with working fluid, characterized in that, in order to improve accuracy and reliability the exciter is made in the form of a tuning fork, the branches of which are parallel to the base, while on one branch of the tuning fork it is perpendicular to its longitudinal axis on the first electromagnetic coil placed in the second electromagnetic coil fixed on the base, and in the second fork branch: fixing relative to its longitudinal axis, and part of the through longitudinal channel between the unconsolidated piston and the chamber is filled with working fluid. 516313346 2. The device according to claim 1, about tl and - are made of the same material that is not compacted; Ny piston and the second branch of the tuning fork