SU1570778A1 - Magnetic separator - Google Patents

Abstract

This invention relates to magnetic separation of ferrous and non-ferrous metal wastes. The goal is to increase the efficiency of the separation process by adjusting the depth of the magnetic field and its intensity. The magnetic system of the separator is made in the form of symmetrically located and hinged bonded plates (P) 1 of ferromagnetic material. Magnets (M) 3 are fixed on the surface of the P 1 row. In the row of the M 3 along the P 1, the polarity of the poles alternates. Opposite each pole M 3 one P 1 is located opposite pole M 3 another P 1. The magnetic system is located above the lifting branch of the discharge conveyor (K) 4. Under the discharge K 4 is located perpendicular to it feed K 5. Over K 5 there is a bunker 6. U The K 4 and 5 ends are located receivers 7 and 8 of the separation products. The mixture of ferrous and non-ferrous metal chips from the bunker 6 is fed to K 5 and enters the zone of action of the M 3. The magnetic chips are attracted to the K 4 belt and are discharged into the receiver of the magnetic product. Non-magnetic chips are discharged to the receiver of the non-magnetic product. Due to the alternation of poles the release of non-magnetic chips, mechanically trapped magnetic. The presence of a hinge at the point of contact between faces P 1 allows the depth of the magnetic field to be adjusted. 2 Il.

Description

FIG. R

The invention relates to the separation of materials according to magnetic properties and can be used to separate waste ferrous and non-ferrous metals.

The purpose of the invention is to increase the efficiency of the separation process by adjusting the depth of the magnetic field and its intensity. -

FIG. 1 shows the proposed separator, general view, section; in fig. 2 - the same, top view.

The magnetic separator includes an in-feed conveyor belt and a discharge conveyor located perpendicular to it. Above the removal branch of the discharge conveyor is a magnetic system.

The magnetic system consists of a magnetic conductor, made in the form of two symmetric plates 1 made of ferromagnetic material, arranged at an angle to each other with a top angle in the upper part at the point of contact of their faces. Plates 1 of the magnetic conductor at the point of contact of their faces are provided with a hinge 2. On each of the plates 1 there are rows of permanent magnets 3. The blocks of permanent magnets 3 are mounted in rows on each plate 1 with alternating polarity of poles of the plates 1, it is opposite to the magnetic pole of the opposite polarity of the other plate 1. The discharge conveyor 4 can be installed above the feed conveyor 5 not only perpendicular to it, but also in parallel. Above the conveyor 4 there is a bunker 6. At the end of the conveyors 4 and 5 there are receivers 7 and 8, respectively, of a magnetic and non-magnetic product.

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The separator works as follows.

The mixed ferrous metal chips are clogged with non-magnetic non-ferrous metals, from the hopper 6 it is fed to the conveyor. Getting into the zone of action of a magnetic field excited by magnets 3 mounted on plates 1 with opposite poles one opposite the other, magnetic chips are pulled to the surface of the discharge.

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A conveyor belt 4 installed above the conveyor 5. When the unloading conveyor 4 moves along the magnets 3 installed with alternating polarity on each plate 1, the ferrous metal chips re-magnetize and when passing from one interpolar space zone to another, the trapped non-ferrous metals that fall on a conveyor 5 and a transfer to the receiver 8 of the non-magnetic product. The ferrous metal chips are discharged to the receiver 7 of the magnetic product. To create the required magnitude of the gradient of the magnetic field of the plate 1 are located at an angle to each other with the top of the corner in the upper part in the place of contact of their faces. The angle between the plates 1 is adjusted by the hinge 2 and is set from 90 ° to 180 °. Making the angle between the plates 1 less than 90 ° does not create the required magnitude of the magnetic field strength on the surface of the conveyor 5, and making the angle between the plates J greater than 180 ° causes a change in the position of the top of the corner and a sharp drop in the magnetic force on the surface of the conveyor 5.

Claims (1)

Invention Formula A magnetic separator containing a feeding belt conveyor, a discharge conveyor perpendicular to it and a magnetic system located above the lifting branch of the discharge conveyor belt, characterized in that, in order to increase the separation process efficiency by adjusting the depth of the magnetic field and its intensity, the magnetic system is made in the form of two plates made of ferromagnetic material symmetrically arranged and hinged together among themselves, on the surface of which there are rows of rows of magnets, and in rows along each plate recruited magnets with alternating polarity field poles, and each pole opposite one plate located opposite pole of the other plate. m FIG. 2