SU949482A1 - Magnetic gas analyzer - Google Patents

Description

(54) MAGNETIC GAS ANALYZER

The invention relates to analytical instrumentation and is intended to measure the concentration of a paramagnetic gas, for example oxygen, in the gas mixture to be analyzed.

A thermomagnetic gas analyzer for measuring oxygen concentration, containing a permanent magnet magnetic system and a camera with sensitive elements in the form of thermistors, is known. The disadvantage of such a gas analyzer is that it depends largely on the content of unmeasurable components in the analyzed gas mixture.

Most blnaktl to the invention is a magnetic gas analyzer containing a magnetic system with a gap, which includes. permanent magnet with pole-like. nechnikami, between which there is a magnetometer, included in the measuring circuit 23.

The drawbacks of the gas analyzer are large measurement errors, design complexity.

The purpose of the invention is to improve the measurement accuracy.

The goal is achieved by the fact that in a magnetic gas analyzer containing a gap-made magnetic system, which includes a permanent magnet with pole pieces, between which there is a magnetometer, included in the measuring circuit, the magnetometer is made in the form of a magnetostriction rod

10 one end of which is rigidly connected to the pole tip, and the second has one plate of a capacitor, the other plate of which is mounted on the second pole tip.

The drawing shows a diagram of a magnetic gas analyzer.

The magnetic gas analyzer contains a magnetic system, which includes

20

a permanent magnet 1 with pole pieces 2 and 3, between which a magnetometer is installed, made in the form of a magnetostrictive rod 4, one end of which is rigidly connected to the pole tip 3, and one plate of a capacitor 5 is installed on its second end, pole tip 2. Condenser

30 5 is connected to the measuring circuit 6, which is connected to the secondary indicating device 7. The gap 8 serves to supply the gas mixture to be analyzed.

The capacitor 5, the measuring electrical circuit 6 and the secondary indicating device 7 form a capacitive transducer.

The gas analyzer operates as follows.

When the concentration of the paramagnetic gas (oxygen, in the particular case) in the analyzed gas mixture supplied to the gap 8 changes, the magnetic resistance of the gas analyzer magnetic circuit and, consequently, the magnitude of the magnetic flux change.

A change in the magnitude of the magnetic flux between the pole pieces 2 and 3 leads to a change in the length of the magnetostrictive rod 4, and therefore the size of the gap between the plates of the capacitor 5 changes.

A change in the gap between the plates of the capacitor causes a change in the electrical signal at the output of the capacitive transducer. Thus, a change in the electrical signal at the output of the capacitive transducer depends on the change in the oxygen concentration in the gas mixture.

Due to the use of a magnetostriction rod placed between the pole tips of a permanent magnet, its construction is greatly reduced, its reliability and service life, and, most importantly, the accuracy of measurement of the concentration of paramagnetic gases, is increased.

Claims (2)

1. Pavlenko V.A. Gas analyzers. M., Mechanical Engineering, 1965, p. 66-69. 2.Agaykin D.I. Magnetic gas analyzers. L., Gosenergizdat, 1963, p. 181 (prototype).