SU1327966A1 - Magnetohydrostatic separator - Google Patents

Abstract

The invention relates to the field of magnetic treating. used to separate scrap and non-ferrous metal waste. The purpose of the invention is to increase the efficiency of the separation process by reducing the loss of magnetic fluid (MF). The separator includes an electromagnetic system 1 with pole pieces 2, a chamber with M.F. and receivers of separation products. The surfaces of the tips 2, facing the camera, are rounded in the form of a circular arc. The length of the arc does not exceed the sum of its five radii. The radius is chosen according to the calculation based on the conditions of the constant gradient of the intensity, the direction of which coincides with the direction of the force of gravity, the magnitude of the magnetic field zone with this gradient and the size of the interpolar gap (i.e. the size of the material to be heated). The working layer of an MF consists of part 3 with a given effective density and part 4, a layer of quasi-lightweight MF. The source material is fed by the feeder to part 3 of the working layer, in which it is divided into light 7 and heavy 6 fractions. Fraction 6 passes through parts 4 of the layer, leaving the MF layer carried away from part 3, and enters the receiver 5. I Il. SS (L oo 1chE with O5 O5

Description

The invention relates to magnetic enrichment and can be used to separate scrap and non-ferrous metal wastes, as well as in enrichment of other materials.

The purpose of the invention is to increase the efficiency of the separation process by reducing the loss of magnetic fluid.

The drawing shows the proposed separator.

The separator contains an electromagnet 1 with pole tips 2, in which the surfaces facing the camera are rounded as an arc of a circle, and the length of the arc does not exceed the sum of its five radii. In the interpolar gap, there is a working layer of magnetic fluid, which consists of part 3 with a given effective density (separation density) and part 4, a layer of a quasi-lightweight magnetic fluid. The separator also includes a collection of 5 tons of yellow fractions 6 (collection of light fractions 7 is not shown).

The separator works as follows.

The magnitude of the current of the electromagnet 1, corresponding to the density of separation of the source material in part 3 of the working layer, is established. The magnetic fluid is poured into the interpolar gap of the separator to a predetermined level of this part of the working layer. A layer 4 of quasi-lightened magnetic fluid is formed automatically. Then served

the source material of the feeder. m to part 3 of the working layer, in which it is divided into light 7 and heavy 6 fractions. The hard fraction 6 passes through part 4 of the working layer, leaving a magnetic fluid blown away from part 3 of the working layer, emerges from the interpolar gap and enters collection 5.

The radius of the circle, along the arc of which you complete the profile of the working surfaces of the pole pieces of the separator, and hence the parameters of the magnetic field in the interpolar gap, is chosen based on the calculation based on the condition of the constant gradient of intensity, which direction coincides with

5 by the voltage of the gravity force, the magnitude of the magnetic field zone with this gradient and the magnitude of the interpolar gap (i.e., the size of the enriched material) and a given separation density.

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Claims (1)

Invention Formula A magnetohydrostatic separator comprising an electromagnetic system with pole pieces, a chamber with a magnetic fluid, a feeder and receivers of separation products, characterized in that, in order to increase the efficiency of the separation process by reducing the loss of magnetic fluid, the surface of the pole pieces facing the chamber, made rounded as an arc of a circle, and the length of the arc does not exceed the sum of five of its radii.