SU742806A1 - Thermomagnetic analyzer - Google Patents

Description

one

The invention relates to analytical instrumentation and can be used in measuring circuits of gas analyzers, for example, thermomagnetic .5

A thermomagnetic gas analyzer is known, which contains a magnetic system, chambers with sensitive elements and a compensating device, which is a compact pressure sensor and a resistance connected in series with it 1. The compensating device is included in the measuring diagonal of the bridge as a load.

The closest in technical essence and the achieved effect to the proposed is a thermomagnetic gas analyzer, which contains a magnetic system, sensitive and ball-20 power elements, included in the measuring bridge, and a compensating device.

In order to reduce the error, the research institute of the gas analyzer on the effect of changes in atmospheric pressure will show that the measuring diagonal of the bridge includes as a load a compensating device, which is an additional resistance, corresponding to

specific values of atmospheric pressure (2.

A disadvantage of the known gas analyzers is a decrease in sensitivity due to the inclusion of a compensating device in the measuring diagonal of the bridge as a load.

The purpose of the invention is to increase the sensitivity of the gas analyzer.

This goal is achieved by the fact that the compensating device is made in the form of a membrane with a rod connected to a cantilever beam on which the strain gages are mounted, which are the ballast elements of the measuring bridge.

The drawing shows a diagram of the device.

The gas analyzer contains a magnetic chamber 1 with a non-uniform magnetic field created by a permanent magnet 2, a sensitive element 3 located in the chamber, and a sensitive element 4 located in the compensation chamber 5, and a compensating device 6 including a membrane 7 connected to a cantilever beam 8 with a rod 9 and two strain gauges 10, mounted on the surface of the cantilever arm.

Sensitive elements 3 and 4 together with the ballast element yes (tbn eresistors) form an experimental bridge.

In the absence of oxygen, the measuring bridge is in equilibrium. In the presence of oxygen in the gas to be measured, the latter is drawn in by a magnetic field and cools the sensitive element 3. The bone imbalance appearing is proportional to the oxygen content. The change in pressure is perceived by the membrane 7 and through the rod 9 is transmitted to the beam 8. The beam deformation, caused by a change in pressure, changes the resistance of the strain gauges lOi. Thus, the output signal is removed (from the measuring mode; a hundred, it is automatically compressed when the atmospheric pressure changes.

The use of the invention will increase the sensitivity of the gas analyzer approximately two times.

Claims (2)

Invention Formula The thermomagnetic gas impregnator, containing the magnetic system, sensitive and ballast elements included in the measuring bridge, and a compensating device, is made in such a way that, in order to increase its sensitivity, the compensating device is made in the form of a membrane with a rod connected to the console beam, on which strain gauges are strengthened, which is the ballast elements of the measuring bridge. Sources of information taken into account in the examination 1, Bushuev VV, Barkan A, L. Investigation of the effect of pressure on the readings of thermomagnetic gas analyzers. Mine rescue, Donetsk, issue 13, p. 52-55, 1976. 2. Zaets E.A. Oxygen Magnetic Gas Analyzers, TsINTI, | Electroprom, 9b4, p. 28 (trototype). L P R