SU1276982A1 - Dust meter - Google Patents

Abstract

The invention relates to the control of technical processes and can be used to measure the concentration of magnetic particles in a two-phase flow. The purpose of the invention is to improve measurement accuracy. Magnetic flux permeates cuvettes 3 and 5 with the test and reference materials. With equal quantities of the test and reference materials in both cuvettes, the magnetic fluxes, respectively, are also equal. The difference in EMF in the windings of the inductance is zero. With a decrease in the material under study, the magnitude of the magnetic flux penetrating the cuvette 3 and, accordingly, the emf induced in the corresponding inductance winding decreases. The presence of the cuvette 5 for the reference material, the winding 2 of the inductance and the implementation of the pole tip with symmetrical C-shaped cores allow F to reduce the measurement error by a factor of 10 or more. 1 il. WITH

Description

The invention relates to the control of technical processes and can be used to measure the concentration of magnetic particles in a two-phase flow.

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

FIG. Figures 1 and 2 show the design of a dust meter, two types.

The design includes a magnetic core 1 in the form of two U-shaped cores, on which an additional inductance winding 2, which is exciting, is connected to an alternating voltage network (not shown). Part of the cuvette 3 with the test material 4 and the cuvette 5 with the reference material are placed between the pole piece 6 and the W-shaped pole piece with symmetrical cores 7 and 8, on which the inductance winding 9 (measuring) and the inductance winding 10, (compensation) are respectively located. The windings of inductance 9 and 10 are connected in opposite directions and are connected to the recording device 12 through an alternating voltage amplifier 11 with an adjustable gain factor.

The device works as follows.

Under the action of an alternating current of an additional winding 2 of the inductance in the magnetic core 1, a magnetic flux appears that penetrates the cell with the test and the cell with the reference materials. If the amount of the material under study, for example, ferromagnetic dust, is the same for the material under study and in the cell with the reference material, then the magnetic fluxes flowing through them are also equal. Since these same flows penetrate the windings 9 and 10 of the inductance, having the same number of turns, the difference in emf induced in the windings 9 and 10 of the inductance is zero and the reading of the device 12 is also zero.

When reducing the amount of material under study 4 in the cuvette, its magnetic conductivity also decreases, as a result of which the magnitude of the magnetic flux penetrating the cuvette 3 and, accordingly, the EMF, is induced in the corresponding inductance winding. The difference of EMF, windings 10 and 9, () cionapln

the difference in quantity of the material under study 4 in the cuvette 5 with the reference material and in the cuvette 3 with the material under study is fed to the amplifier 11 and the recording device 12.

The calibration of the dust meter is carried out as follows. In the absence of the investigated material (dust) 4 in the cuvette 3 in the cuvette 5, for the reference material, a sample of controlled dust 4 is placed. By adjusting the gain of the amplifier 11, the maximum reading of the recording device 12 is set.

The width of the symmetrical pole tip 7 is not more than the width of the cell Z. with the test material. Thus, the entire magnetic flux covered by the winding inductance 9 penetrates the internal volume of the cuvette 3 with the test material 4 and at least 20% of the width of the cuvette with the test material, which is confirmed by experimental acts.

Formula

the invention

A gear meter containing a magnetic core in the form of two U-shaped cores, two inductance windings connected together by one terminal to another, the other terminals of which are connected to the input of an amplifier, the output of which is connected to a recording device, a cell for the material under investigation, characterized in that accuracy, it is equipped with a cuvette for the reference material, an additional inductance winding, one pole lugs of the U-shaped cores are interconnected, and between the others there are cuvettes for the reference and and of the inspected materials, one of the pole tips with which the cuvette is placed with melvdu is made W-shaped, two induction windings are placed on the rods of the W-shaped pole tip, and the additional inductance winding is placed on the magnetic core at the junction of the pole tips of the U-shaped cores, the width of the W-shaped pole tip satisfies condition b. 0,2a,

where b is the width of the W-shaped tip J

a is the width of the cuvette for the material under study.

with,

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Claims (1)

SUMMARY OF THE INVENTION A dust meter containing a magnetic circuit in the form of two U-shaped cores 30, two inductance windings connected by one terminal to each other, the other terminals of which are connected to an amplifier input, the output of which is connected to a recording device, a cuvette for the material under study, 35 characterized in that , in order to increase accuracy, it is equipped with a cuvette for the reference material, an additional inductance winding, one pole tips U-shaped cores are interconnected, and between the other there are cuvettes for the reference and studied materials, one of the pole tips, between which the cuvettes are placed, is made Sh-shaped, two inductance windings are placed on the rods of the Sh-shaped pole tip, and an additional winding the inductance is placed on the magneto5® wire at the junction of the pole pieces of the U-shaped cores, while the width of the Ш-shaped pole piece satisfies the condition b 0.2a, 55 _where b is the width of the W-shaped tip} a is the width of the cell for the material under study. Figure 2