SU1392382A1 - Gas meter - Google Patents

Abstract

This invention relates to cost measurement. The purpose of the invention is to expand the field of use by providing flow measurement in dusty, high-temperature gases. Under the action of gas pressure, the plates 2 begin to diverge and the air gap of the magnetic circuit 1 increases. The size of the gap is proportional to the gas flow rate. Changing the gap leads to a change in inductance of the coil 3, the signal from which is fed to the device 7 and the block 8 signal processing. The magnetic flux created by the coil 6 compensates the effect of gas temperature on the measurement of its flow. The positive effect is due to the shape of the magnetic circuit 1 and the compensating element, as well as the installation of the inductance coils outside the gas duct. 1 il. % (L in V oo soy oo with 1C

Description

This invention relates to the measurement of flow rates, in particular, dusty, high-temperature gases.

The aim of the invention is to expand the field of use by providing a flow measurement in dusty high-temperature gases.

The drawing shows the device

 The device contains an inductive sensor consisting of a magnetic core 1, the ends of which are provided with elastic plates 2 of a magnetic hard material, and an inductance coil, a temperature compensating element consisting of a thermocouple 4 placed in the gas flow, a regulator 5 and a compensation coil 6, mounted on the magnetic conductor 1 of the sensor, and a measuring transducer consisting of a secondary device. 7 and block 8 signal processing. The device is mounted on a non-magnetic plate 9, mounted on the wall of the duct 10. In this case, the input of the regulator 5 is connected to a thermocouple 4, and the ends of the compensation coil 6 are connected to the output of the regulator 5, the input of the secondary device 7 is connected to the ends of the inductor 3, and the input of the unit 8 signal processing is connected to the output of the secondary device 7.

The device works as follows.

Under the action of gas pressure, the elastic plates 2, which are set at an angle to each other, begin to diverge, and the air gap of the magnetic circuit 1 increases. The size of the gap is proportional to the gas flow rate. Changing the gap entails

the change in inductance of the coil 3, the signal from which is fed to the secondary device 7 and the block 8 signal processing. The change in gas temperature affects the magnitude of the magnetic flux in the magnetic core 1. To compensate for this effect, the signal from thermocouple 4 is converted into a regulator 5, which generates a current feeding the compensation coil 6. The additional magnetic flux it creates compensates the effect of gas temperature on measuring it expense.

The positive effect of the proposed device is due to the shape of the magnetic circuit and the compensating element, as well as the installation of inductors outside the duct.

Claims (1)

Invention Formula A device for measuring the flow rate of gases containing an inductive sensor with a magnetic magnetic gap, a temperature compensating element and a measuring transducer, characterized in that, in order to expand the field of use by providing measurement in dusty high-temperature gases, the magnetic circuit is equipped with elastic magnetic-material plates The thermocompensating element is designed as a thermocouple installed in the flow, a regulator whose input is connected to a thermocouple, and an installed on the magnetic core of the compensation coil, the ends of which are connected to the output of the regulator.