SU1150500A1 - Capacitive pressure pickup - Google Patents

Abstract

CAPACITIVE PRESSURE SENSOR containing two moving electrodes. between which there is a fixed electrode with a gap, characterized in that, in order to improve accuracy in measuring pulse pressures and to simplify the design, the movable electrodes are made in the form of flat elastic membranes, which are bonded to each other along the contour, and the fixed electrode is between the membranes and fitted with insulating washers, with a rigid perforated plate installed outside each membrane.

Description

The invention relates to instrumentation engineering, in particular to sensors for detecting the pressure of air and liquid shock waves.

Known capacitive pressure sensor containing two membranes, between which there is a fixed electrode),

When measuring the pulse pressure with such a sensor, after the passage of a pulse, the membrane continues to oscillate, introducing an error in the measurements.

Closest to the proposed technical result and the effect achieved is a capacitive pressure sensor J containing two movable electrodes, with which the fixed electrode 2j is located.

The design of the sensor makes it possible to compensate for errors caused by the influence of inertial forces acting on the moving electrodes of the sensor. But the error caused by oscillations of the movable part of the sensor after the passage of a pressure pulse is not compensated, which reduces the accuracy of the measurement of pulse pressures.

The purpose of the invention is to increase the accuracy in measuring pulse pressures and simplify the design,

The goal is achieved by the fact that in a capacitive pressure sensor containing two movable electrodes, between which there is a fixed electrode with a gap, the subelectrical electrodes are made in the form of flat elastic membranes, which along the contour are bonded to each other, and the fixed electrode is made in the form of a disk mounted between membranes and peripherally insulated washers, with a rigid perforated plate mounted outside each membrane.

The drawing shows the design of the proposed sensor.

The sensor contains two flat membranes .K & 1 with edge sleeves of high-strength spring steel, facing one another with the ends,. Between the membranes 1 there is a metal fixed electrode 2, made in the form of a disk with conical end depressions. The disk is clamped in the center of the case with the help of two washers, 3 of a material with high electrical and impermeable properties and sealing properties, for example, fluoroplastic.

The membranes are covered with perforated plates 4 with a thickness and rigidity greater than that of the membranes. These plates are tightly pressed to the membranes 1 if with screws 5.

In the side wall of the sleeves, there is a hole in which a flexible coaxial cable 6 is taped to the shielding braid, the central core of the cable is soldered to the inner electrode 2. The other end of the coaxial cable is attached to the shielding shaft 7, in which a matching transformer 8 is installed, protected by shock absorber 9. Through the connector 10, the sensor is connected to the electronic unit 11, to the output of which the storage oscilloscope 12 is connected.

During operation, the sensor is articulated with a hole in the wall 13 of the equipment, limiting the volume filled with liquid or gas, experiencing pulsed or pulsating pressure. The sensor is tightly pressed against the hole by means of a plug 14.

The sensor works as follows

The pulsed (pulsaric) pressure of a liquid or gas through the holes in the loop 4 is supplied to the membrane 1, which bends, approaches the inner electrode 2, causing a change in the capacitance of the capacitor formed by the approaching surfaces. This capacitance change, carrying information about the recorded pulse, is converted into an electrical signal by a complex-shaped voltage using an electrical measuring circuit, which includes a section of coaxial cable 6 and a matching transformer 8. The electrical signal, finally formed in block 11, is fed to the input memory an oscilloscope 12, on the screen of which a pulsed or pulsating process is recorded in a liquid or gas.

Under the influence of the measured pulse, the movable membranes of the sensor make small oscillations and cause parasitic changes in the capacitances between the elements of the sensitive measuring transducer. However, these parasitic changes cancel each other out. 3 The excitation of elastic membranes is damped by contact with perforated plates, and 11505004 the speed controller assumes its initial state before the arrival of the next pulse of the pulsating process.

Claims (1)

CAPACITIVE PRESSURE SENSOR, comprising two movable electrodes, between which there is a fixed electrode with a gap, characterized in that, in order to improve accuracy when measuring pulse pressures and simplify the design, the movable electrodes are made in the form of flat elastic membranes that are fastened together along the contour, and the fixed electrode is made in the form of a disk installed between the membranes and equipped with insulating washers, and a rigid perforated plate is installed outside each membrane. 1150500 i