SU1681960A1 - Magnetic separator for low-magnetic ores - Google Patents

Abstract

This invention relates to the beneficiation of minerals. The purpose of the invention is to increase the efficiency of the separation process by increasing the residence time of the ore grains in a magnetic field. The separator contains a magnetic system, in the interpolar gap of which vertically with a gap the working elements (RE) 2 connected to each other by means of jumpers 8 are installed. The RE consists of a mixture of a magnet of a soft powder and a non-magnetic binder. Alternately inclined protrusions and grooves are alternated on the surface of the RE. All ER 2 in cross section have a cylindrical shape and are mounted concentric with each other. In addition, РЭ 2 can consist of separate vertical sections, the size of a magnetically soft powder in which decreases along the height of the interpolar gap. The material from the feeder enters the ER 2, where, under the influence of a magnetic field, magnetic particles are deposited on the ER, and non-magnetic particles go to the receiver of the separation products. 1 hp f-ly, 4 silt, A-A SL C

Description

The invention relates to the enrichment of minerals, in particular to the magnetic separation of finely divided weakly magnetic ores, and can be used in the treatment of wastewater and chemical raw materials from magnetic impurities.

The purpose of the invention is to increase the efficiency of the separation process due to an increase in the residence time of the ore grains in a magnetic field.

FIG. 1 shows a separator diagram; in fig. 2 shows section A-A in FIG. one; in fig. 3 - plate surface area; in fig. 4 is a variant of multi-sectional plate making.

The separator includes a magnetic system 1 (solenoid type), cylindrical gear plates 2 (working elements) located in the interpolar gap. The plate surfaces form the channels 3 for the passage of the pulp. Under the plates there is a receiver 4 for removal of enrichment products, and above the plates is a feeder 5. The surface of the plates 2 is made in the form of inclined alternating protrusions 6 and

grooves 7, and the projections 6 and the grooves 7 on both sides of the same plate 2 have the opposite angle of inclination. Adjacent plates 2 are mutually fixed relative to each other by means of jumpers 8 and form channels 3, the axes of which coincide with the vertical direction,

The method of manufacturing the plates is similar to that known and differs only in the shape of the casting. The plates 2 may consist of separate vertical sections 9, the size of the magnet of a soft powder in which decreases in height of the interpolar gap.

The separator works as follows.

The magnetic system 1 is turned on and the plates 2 are magnetized. Pulp enrichment material from Pitatzl 5 is fed to the magnetized plates 2 and begins to move in the form of a film along the projections 6 and grooves 7 in a spiral, partially flowing through the projections 6. With a spiral-shaped movement of the pulp, particles having magnetic properties , are attracted to the grains by a magnet of a soft powder that forms plates 2. The extraction of particles takes place both on the surface of the protrusions 6 and on the surface of the grooves 7. During the spiral movement of ore particles their stay in the interpolar space of the separator (in channels 3) increases, thus, almost all the particles are in time for

the time of its movement to get into the zone of action of magnetic forces. When leaving the channels 3, the non-magnetic part of the pulp enters the receiver 4. After the magnetic system 1 is disconnected, the plates 2 are washed off the surface

magnetic fraction.

When plates 2 are made from separate sections 9, particles with ever weaker particles are successively separated from the stream of enriched material along its path.

magnetic properties

Due to the fact that the size of the magnet of a soft powder in each subsequent section decreases in height of the interpolar gap, the magnetic force generated

individual grains of powder increases. Therefore, an increasing magnetic force acts on weakly magnetic particles along the path of their motion. In the presence of grains in the enriched material

strongly and moderately magnetic minerals, they are extracted first and do not clog subsequent products.

To extract particles with very weak magnetic properties, it is possible to use a superconducting electromagnet as the magnetic system 1. Formula 1. Magnetic separator for beneficiation of weakly magnetic ores, including a magnetic system, in the interpolar gap of which is vertically placed with a gap and interconnected by means of jumpers working elements consisting of a mist of a soft powder and non-magnetic

bridges, on the surface of which alternate inclined protrusions of the grooves are made, feeder and separation product receiver, characterized in that in order to increase the efficiency

separation process by increasing the residence time of the ore grains in a magnetic field, the working elements in the cross section have a cylindrical shape and are mounted concentric with each other.

2. A separator according to claim 1, characterized in that the working elements are made of separate sections, the size of the magnet of soft powder in each of which decreases in height of the interpolar gap.

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Claims (2)

Formula of the invention 1. Magnetic separator for the enrichment of low-magnetic ores, including a magnetic system, in the interpolar gap of which vertically placed with a gap and interconnected by means of jumpers working elements consisting of a mixture of soft magnetic powder and a non-magnetic binder, on the surface of which alternating inclined protrusions and grooves are made , feeder and receiver of separation products, characterized in that, in order to increase the efficiency of the separation process by increasing the residence time of ore grains in total field, the working elements in cross section have a cylindrical shape and are mounted concentrically to each other. 2. The separator by π. 1, in that the working elements are made of separate sections, the fineness of the soft magnetic powder in each of which decreases in height of the interpolar gap.