SU1543264A1 - Pressure transducer - Google Patents

Abstract

The invention relates to a measurement technique and can be applied for measuring pressure in electrical protection apparatuses in the process of their triggering. The purpose of the invention is to improve the accuracy of the sensor in the presence of intense electromagnetic fields and increase reliability. The pressure sensor contains a ferromagnetic body 4 with a ferromagnetic membrane and a magnetic core with a winding 3 placed inside the body opposite the membrane. serves as a magnetic circuit with a winding 3. 2 Il.

Description

fig1

The invention relates to a non-tech meter, in particular to sensors for arcing, and can be applied to measure pressure in electrical protection apparatuses and the process of their triggering.

The aim of the invention is to increase the accuracy of the sensor operation in the presence of intense electromagnetic fields and increase its reliability.

Fig 1 shows a schematic of the proposed sensor; in fig. 2 is a measurement circuit and which a pressure sensor is included.

The sensor contains a ferrite ring 1 with a gap of 2 and a winding 3, which is housed in a steel case 4. Opposite the gap 2, there is a membrane made of two layers. The outer layer 5 of the membrane is made of elastic steel, the inner layer 6 is made of copper. The membrane is fixed to the lid 7, which is screwed onto the housing. four . The sensor winding 3 is an inductive element and is included in the oscillating circuit of the high-frequency generator 8. The voltage from the generator 8 is fed to the source follower 9, from the repeater 9 to the voltage limiting amplifier 10. From the load of the limiter 10, the voltage goes to the phase discriminator 11, the signal from which goes to the amplifier 12. The calibration of the calibration is carried out by the instrument indicator 13. The circuit is powered from the stabilized source 14.

The sensor works as follows. The sensor serves to measure the pressure inside the housing of the electrical apparatus of protection during its operation. The sensor is installed in the corresponding hole in the housing of the apparatus. The presence of the screw connection of the cover 7 to the housing 4 not only facilitates the installation of the sensor, but also allows its sensitivity to be adjusted. When the apparatus turns off large currents inside its case, the pressure rises sharply, the sensor membrane bends and the distance between it and the gap 2 in the ferrite ring 1 decreases. As a result, the demagnetizing effect of eddy currents induced in layer 6 is enhanced, the inductance of the oscillatory circuit and its frequency change. The frequency change signal changes

with

0 5

0 5

five

0

five

The voltage change is removed from amplifier 12 and can be switched to oscilloscope. The required elastic properties of the membrane provides a layer 5 of steel. He also shields the area of the mash 2 from external magnetic fields. The role of the screen protecting the sensor from intense electromagnetic fields arising from the opening of the circuit with current is also performed by the sensor body 4. The thickness of the layer 6 is determined by the depth of penetration of the electromagnetic field into it, which depends on the oscillation frequency and the electrical conductivity of the material. In this case, layer 6 must eliminate the influence of the ferromagnetic part 5 of the membrane with a change in the distance between the membrane and the gap 2, i.e. The electromagnetic field should not penetrate into the ferromagnetic part, which otherwise would distort the readings due to the opposite effect on the oscillation frequency of eddy currents and ferromagnetic. The thickness h of layer 6 should be determined by the ratio

c. 1 ° 3

h F

where f is the frequency of the current in the winding 3 (. Hz); i - the electrical conductivity of the material

layer 6 ().

The possibility of measuring the proposed pressure sensor inside electrical devices ensures their optimal design, on the one hand, without fear of destruction of the case when large currents are disconnected, and on the other hand, without unjustified material consumption to create an excessive safety margin.

Claims (1)

Invention Formula A pressure sensor comprising a housing with a membrane made of ferromagnetic material and placed in the housing opposite the membrane is a magnetic conductor with a winding, characterized in that, in order to increase the accuracy of the sensor operation under conditions of the presence of intense electromagnetic fields and increase its reliability, the membrane on the side of the magnetic core is covered with a layer of material with high electrical conductivity, and the thickness h of the layer of material is determined from the ratio 51543264 h / 103 / Vc6, where f is the frequency of the current in the winding, Hz; 6 - electrical conductivity of the material covering the membrane,. fig 2