SU1290216A1 - Granulometer - Google Patents

Abstract

The invention relates to a gauge of non-electric parameters in the field of metallurgy, in particular to sinter production. The goal is to increase the sensitivity when measuring the fraction in the charge array. It is achieved by the fact that in the granometer containing the measuring transformer (T) 1, the compensation T 3, the receiving T 4 and the non-magnetic base (BUT) 2, in the measuring T I the core is made of a magnetic conductor (MP) in the form of an open equilateral of a triangle with an open base facing f // rtr / r7 W Сю qjuel

Description

but 2, which tracks the surface of the measured medium, the compensation core T 3 is made in the form of an open linear MF mounted for movement in two planes, and the receiving T A is made in the form of open MFs and are located in a vertical plane perpendicular to the common plane of the measuring and compensation T I, 3, which allows adjustment of compensation

one

The invention relates to measuring instruments of non-electrical parameters in the field of metallurgy, in particular to sintering production, and can be used for continuous and non-contact measurement of particle size distribution, the rate of flow from the place of completion of the sintering process, as well as the height of a layer of ferromagnetic granular media. The granulometric composition of the charge determines the structure of its array, its change leads to a change in porosity, i.e. forms, quantities, sizes of air inclusions in the volume of the charge.

The purpose of the invention is to increase the sensitivity of measurements when measuring a fraction of small size, simplifying the design.

Fig. 1 shows a particle size analyzer in conjunction with a power unit, a control unit and a variable parameter setter.

The particle size meter contains a measuring transformer 1, the core of which is made of a magnetic conductor in the form of an open equilateral triangle facing an open base to a non-magnetic base 2 of the device, which tracks the surface of the measured medium; the core of the compensation transformer 3, made in the form of an open linear magnetic circuit, installed

with the ability to move in the horizontal gi vertical planes h. Cores measuring 1 and compensation 3 transformers

90216

T 3 by changing the distance 1shy in height above the like magnetic poles of the receiving T 4 and the air gap between the nearest pole of the compensation T 3 and the axial plane of the MP receiving T 4. The invention can be used for continuous and non-contact measurement of particle size distribution, flow velocity from the place of completion sintering process, as well as the height of the layer of ferromagnetic granular media. 2 Il.

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located in a common vertical ground. Two receiving transformers 4, made on linear open-loop magnetic circuits, are located in a vertical plane, perpendicular to a common plane with measuring and compensating transformers 1 and 2 located in it.

Obm1; The compensating transformer 3 and the measuring transformer 1 are connected back-to-back to the AC source, the power supply unit 5.

The measuring transformer creates an alternating magnetic field in the bulk of the charge, and the compensation transformer 3 suppresses parasitic interference from external magnetic magnetic fields.

The coils of the receiving transformer 4 with the same number of screws Wni are connected in series to each other and connected to the first input of the control unit 6, to the second input of which the unit 7 of the reference signal is connected.

The ability to move the magnetic conductor of the compensation transformer 3 relative to the fields of the measuring 1 and the 4 transformers ensures easy adjustment of the compensation fields and reliability in operation. Coils measuring, compensation and receiving transformers contain the same; in shape and size, the frames differ only in the number of turns. Adjustment of compensation

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The leu is carried out by changing the height h, the compensation transformer 3 above the magnetic poles of the receiving transformers A and the air gap between the nearest pole of the compensation transformer 3 and the axial plane of the magnetic conductors of the receiving transformer 4. In this case, the difference in the magnetic fluxes of the DF is to compensatory FC, i.e.

yF F, - Fz. In proportion to the value of iF in the windings of the receiving transformers, an EMF is induced, which characterizes the current value of the particle size distribution, and is fed to the first input of the control unit 6, to the second input of which a signal proportional to the specified value of the composition of the charge from the generator 7,

In Fig. 2, curves for the invention and curves 13-17 for a known device show the influence of the charge size at different contents of the fines in its gas permeability. Curves 18-22 are the composition of the charge in the average volume of its array. Curves 8, 3, 18; 9, 14, 19; 10, 15, 20; And, 16, 21; 12, 17, 22 correspond to the content of the fraction 1 mm 10, 30, 50, 70, 90% in the charge array equal to 2.5-3.5 mm. The sensitivity of the present invention has increased by about 30 times as compared with the prototice. Per change in the percentage of the fine fraction of the mixture, 0 mm from 10 to

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90% of the known sensor almost does not react and the difference in readings is U 0.1 V, while with the invention & 6.5 V, i.e. 65 times.

Claims (1)

Invention Formula The particle size meter contains measuring and compensation transformers with field windings connected in series to the power supply unit, receiving MaTopjbi transformers, whose windings are connected in series and connected to the first input of the control unit, to the second input of which the control unit is connected, as well as a non-magnetic base that differs from so that, in order to increase the sensitivity when measuring the fraction in the charge array, the core of the measuring transformer is made by an open-ended magnetic wire an open equilateral triangle, facing an open base to a non-magnetic base of the device, the core of the compensation transformer is made in the form of an open linear magnetic circuit mounted for movement in the horizontal and vertical planes, the measurement and compensation transformers are located in a common vertical plane, and in the plane , perpendicular to it, symmetrically to the axis of their intersection, receiving transformers are installed. five 0 five PcfSMep fro / (AI, Mf Fi8.2 Editor N.Gorvat Compiled by V.Shulgin Tehred A. Kravchuk Order 7896/42 Circulation 752. Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Proofreader E. Roshko