SU1548745A1 - Magnetomechanical compensation gas analyzer - Google Patents

Abstract

The invention relates to the field of gas analytical instrumentation and is intended for use in areas of technology where it is required to carry out an analysis of the paramagnetic susceptibility of substances, for example, the oxygen content of the air. The purpose of the invention is to reduce the inertia of the magnetomechanical gas analyzer by approaching the flow of the analyzed gas to the ends of the rotor. When the analyzed gas is supplied to the input channels, it enters the measuring chamber and exits through the output channels. The input and output channels are located on the rotor axis, which makes the gas diffusion paths between the upper and lower pole tips and the rotor ball the same and minimal. In this way, the gas diffusion path to the rotor balls is shortened, which leads to a decrease in the time for establishing indications, i.e. to reduce the inertia of the gas analyzer. 2 Il.

Description

The invention relates to gas analytical instrumentation and is intended for use in those areas of technology where the paramagnetic susceptibility of substances is required to be analyzed, for example, in determining the oxygen concentration in various gas mixtures.

 The purpose of the invention is to reduce the inertia due to the approaching flow of the analyzed gas to the ends of the rotor.

FIG. 1 shows a magnetomechanical compensation gas analyzer; in fig. 2 is a section A-A in FIG.

The gas analyzer contains a rotor 2 with a mirror 3, rotatable on tension bars 1, placed in the measuring chamber 4, and a system for feeding it into the measuring chamber.

analyte gas chamber. The latter is a system for creating a laminar flow, made in the form of laminating channels of inlet 5 and outlet 6 of the analyzed gas located on the same axis, with the axis of the channels intersecting perpendicularly the axis of the rotor passing through the centers of the rotor balls 7. The axis of the channels passes between the ends of the rotor and the side walls of the measuring chamber. The rotor balls located at the rotor ends are located in an uneven magnetic field between the poles 8 of the magnetic system. The rotor is made of diamag-filament material. A flow booster (not shown) is connected to the gas outlet channel.

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The gas analyzer operates as follows.

When the analyzed gas is supplied to the inlet channels 5, the gas enters the measuring chamber 4 and exits through the outlet channels 6.

The channels are located on the rotor axis, which makes the gas diffusion paths between jQu to the upper and lower pole tips 8 and the rotor ball 7 equally and minimal. The channels are perpendicular to the rotour axis between the ends of the rotor and the side (the walls of the measuring chamber so that jj so that with the laminar flow of the analyzed gas, the flow does not directly affect the balls 7 of the rotor 2, but gets into the space between the pole tips 2 and 7 of the mouths 2Q jpa only by diffusion.

Thus, in the gas analyzer, the path of gas diffusion to the balls 7 of the rotor 2 is shortened, which leads to a decrease in the measurement time, i.e. to reduce inertia

W.1

gas analyzer. The inertia of the gas analyzer does not exceed one second

Claims (1)

Invention Formula A magnetomechanical compensating gas analyzer containing a rotating rotor made of diamagnetic material, located in the measuring chamber on the extensions, the ends of which are located between the poles of the magnet, the system for supplying the measuring gas to the measuring chamber with gas input and output channels and a flow rate stimulator, characterized in that , in order to reduce the inertia, the supply system of the analyzed gas is made in the form of laminating gas inlet and outlet channels arranged on the same axis, the booster of the flow rate of the connections to the gas outlet channel, the channel intersects the axis perpendicular to the rotor axis and extends between kontsa- g E rotor and the side walls of the measuring chamber. Schig.2