SU69437A1 - Gas or liquid analyzer - Google Patents

Description

A method for analyzing substances and, in particular, is already known. gases by measuring the force acting on the body, placed in the analyzed medium in a non-uniform magnetic field to determine the magnetic properties of the medium and, on the basis of the last IjHX, its composition. The known devices for carrying out this method have a body suspended in a non-uniform magnetic field in the analyzed medium, the twisting angle of which is measured by means of a mirror that throws a beam of light on the scale.

The present invention concerns the improvement of this kind of known devices for analyzing gases and liquids and consists in that a frame with a winding of a conductor is attached to a body placed in the test medium, in which induction currents occur in the magnetic field, damping the body oscillations. The frame winding may be included in the current source circuit in order to determine the magnitude of this force from the current in the frame winding required to compensate for the force that seeks to drive the body in magnetic tulle from zero.

To compensate for the effects of temperature on the results of a change, a shunt with a suitably selected temperature coefficient of electrical resistance may be included in the power supply circuit of the winding of the frame.

FIG. 1 is a diagram of the proposed device according to one of the possible design options; FIG. 2 - diagram of the device according to the second constructive option.

The device has a tube 7 through which the gas or liquid being tested flows continuously. In tube 7, a rod 2 of oval section is placed, suspended on two thin suspensions 3, to one of which a mirror 4 is attached, reflecting a light beam on a calibrated scale. Tube 7 with rod 2 located in it is placed in an inhomogeneous permanent magnetic field N-S.

A frame 5 with a copper wire winding is attached to the oval rod 2, in which, when crossing magnetic lines, induction currents occur, respectively damping torsional vibrations of the rod 2, arising during

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a change in the position of the latter in connection with a change in the composition of the surrounding gas. In this way, the device will more quickly be set to this countdown.

If it is necessary to obtain greater accuracy from the device, it can be turned into a device with zero reading. For this, a current from a constant source 6 is passed through the winding of the frame 5. When measuring, a current is selected using a rheostat 7 so that the rod 2 is always in the same position, at zero (at a constant field strength). Obviously, the current passing through the frame and measured by the galvanometer 8 will be proportional to the magnetic properties of the environment and it will be possible to accurately determine the magnetic properties of this medium.

To further clarify the instrument readings, it is possible to introduce small corrections for pressure and temperature of the measured gas, which can be entered by appropriate calculations, it is also possible, for example, to ensure a constant pressure in the instrument itself with an appropriate device and thereby eliminate the effect of pressure. The correction for temperature when operating by the “zero method can be, for example, carried out in the following way. The winding of the frame 5, clad on the rod, is energized by the circuit shown in FIG. 2, in which shunt 9 is connected. Changes in the resistance of the winding due to temperature changes are compensated by the corresponding current flowing through the shunt 9. By selecting the material for shunt 2 with a certain temperature coefficient, it is possible to compensate to a large extent the changes in the magnetic properties of the medium associated with in this case, within certain limits of accuracy, the percentage composition of the mixture will give, regardless of the temperature of the medium being measured.

Subject invention

Claims (3)

1. A device for analyzing gases or liquids, whose action is based on the difference in the magnetic properties of the components of a gas or liquid under investigation, determined by measuring the force acting on a body placed in the test medium in a non-uniform magnetic field, characterized by the fact that A frame with an IZ winding is attached to the body; I, a conductor in which induction currents arise in a magnetic field, damping body oscillations. 2. The form of the device. Claim 1, characterized in that the winding of the frame is included in the circuit of the source of direct current in order to determine the strength of the current in the winding of the frame required to compensate for the force that tends to bring those in the magnetic field from the zero position the magnitude of this force. 3. The form of the device; Claim 1-2, characterized in that in order to compensate for the temperature YES, a shunt with a corresponding temperature resistance coefficient was included in the power supply circuit of the winding of the frame. No. 6943T - 3 FIG. one FIG. 2 5 (:% - tf  anateareny gaiI