CS230593B2 - Magnetic separator - Google Patents

Abstract

The invention relates to a magnetic separator for enrichment, in particular, of low-magnetic ores. The magnetic separator comprises multi-gradient magnetic columns mounted in a housing between the magnetic attachments. According to the invention, the multi-gradient magnetic columns consist of ellipsoidal-shaped members of magnetic material, the multi-gradient magnetic columns being arranged in a housing in horizontal layers with decreasing gaps between the individual multi-gradient magnetic columns in the direction of the passage of the material to be separated.

Description

The present invention relates to a magnetic separator comprising multigradient magnetic columns mounted in a housing.

Magnetic separators are used for the enrichment of industrially processed minerals, especially for the enrichment of low-magnetic ores.

A multi-ingredient magnetic separator is known from which free loose spheres of ferromegnetic materials are placed in the housing. The disadvantage of this arrangement is that the spacing between the individual balls is not graduated, so that the magnetic separator becomes clogged and thus the productivity and efficiency of the magnetic separator is reduced. The stripping of the magnetic fraction is made more difficult and entails relatively high costs.

Further, a magnetic separator with a rotor is known in which ferromagnetic bodies of angular shape are located. A disadvantage of this arrangement is that the magnetic pulling forces are constant over the entire working band height, so that only a material with a narrow grain size and magnetic conductivity spectrum can be processed with good efficiency. The upper part of the working zone is clogged by magnetic particles for longer time, the flow resistance of the banquet increases and the productivity of the magnetic separator decreases.

The above-mentioned drawbacks are eliminated according to the invention in a magnetic separator with a wavelength-gradient magnetic columns mounted in a housing, in that the multi-gradient magnetic columns consist of ellipsoid-shaped magnetic material members, wherein the multi-gradient magnetic columns are arranged in the housing in horizontal layers between individual multigradient magnetic columns in the direction of passage of the composite material.

The advantage of the solution according to the invention is that it is possible to decompose materials with a wide spectrum of ferromegnetic grain size and to avoid blockage of the device.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be described in more detail by way of example with reference to the accompanying drawings, in which: Figure 1 shows a top view of a plurality of gradient magnetic columns in a cabinet;

In the magnetic separator housing (not shown), multi-gradient magnetic columns J are located. These multi-gradient magnetic columns J consist of members 2 of ellipsoid-shaped magnetic material. The multigradinet magnetic columns 1 are mounted in the housing by means of a fastening device 2, which is not the subject of the invention and is therefore only shown schematically.

Help of the fastening device 2 are also members 2 ² magnetic material joined in magnetic column vícegradientové J. · £ Vícegradientové magnetic columns are arranged in horizontal layers within the housing between the pole pieces separators 2, one magnet.

Between individual multi-gradient magnetic columns J, the gap in the direction of passage of the material to be separated decreases. This can be achieved, for example, by increasing members 2 ² magnetic material in the direction of the longer axis.

Or, the size of the members 2 ^does not change, but the number of columns J in one layer gradually increases. The consequence of this arrangement is that in a magnetic separator! there is an uneven magnetic field in the direction of material flow, which field strengthens in those bands where the multigradient magnetic columns J are closer together.

When the material to be separated passes through the separator ae in the bands with maximum gaps between the multigradient magnetic columns, it separates the largest and the strongest magnetic fraction, while in the bands with the minimum gaps between the multigradient magnes3.

The smallest particles of the magnetic fraction are separated by magnetic columns 31 ». As numerous field tests have shown, the device of the invention is clog resistant. Due to the unevenness of the magnetic field in the direction of passage of the de-iced material, the quality and efficiency of operation of the magnetic separator has also significantly increased.

Claims (1)

A magnetic deicer comprising multi-gradient magnetic columns mounted in a housing between magnet pole pieces, characterized in that the multi-gradient magnetic columns (1) consist of members (5) of ellipsoid-shaped magnetic material, wherein the multi-gradient magnetic columns (1) are arranged in a the casing in horizontal layers with decreasing gaps between individual multigradient magnetic columns (1) in the direction of passage of the separated material.