SU784918A1 - Ferromagnetic filler for polygradient magnetic separators - Google Patents

Description

(54) FERROMAGNETIC FILLER OF POLYGRADIENT MAGNETIC SEARATOR

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The invention relates to the field of mineral processing, in particular, to the field of separation of particles in a magnetic field according to their magnetic properties.

The invention can most effectively be used in the wet separation into magnetic and nonmagnetic fractions of fine ores and materials | Q materials.

Known ferromagnetic aggregate, made in the form of cotton wool from a metal fiber or metal mesh from a thin steel sheet l ... The disadvantage of this aggregate is that the finely porous material used in it is suitable only for enriching thin classes of ores and materials. For enrichment of ores with a size of 0.5-1.5 mm, it is practically unsuitable, since the ferromagnetic aggregate in the specified separator cannot provide filtration of significant quantities of 25 products of the specified size through them.

A ferromagnetic aggregate is known containing a series of parallel wafer plates made of a magnet of a soft material L2. thirty

The disadvantage of this filler is incomplete extraction of the magnetic fraction.

The purpose of the invention is a more complete extraction of the magnetic fraction by increasing the zone of contact of the particles with the aggregate.

This goal is achieved by the fact that the plates are made with slots, the slots of the adjacent plates being displaced relative to each other, and the core is provided with rods arranged perpendicular to the plates and mounted between them.

FIG. 1 shows a filler in the interpolar gap polygraphic. separator, in FIG. 2 - section A-A of FIG. one; in fig. 3 - section bb of FIG. 2,

The ferromagnetic filler of polygradient separators consists of plates 1 with nozzles arranged in parallel rows and placed in the working body of the separator 2, located between the pole pieces 3 of the electromagnetic system.

Claims (2)

To provide the necessary gap between the plates, space rods 4 are installed. In each plate, slots 5 are made, each next row offset from one another. The device works as follows. The initial power is supplied to the ferromal filler in the direction of the arrow (Fig. 1) while the working body of the separator 2 is in the interpolar gap of the electromagnetic system. The material is moved by the HU gutter in the space between the plates 1 and through the slots 5 E, they are vertically moved. Due to the high magnetic field gradient on the sharp edges of the edges of the mag magical particles in the original power supply, they are drawn to the rims, and the nonmagnetic particles along with the pulp flow are transferred from the working element to the corresponding receiver. .After the working body exits the intercluster gap (or turns off the magnetic system); carried out by the United States. particles downward or upward flow of water. The proposed ferromagnetic filler of polygradient separators allows efficient enrichment of particles with a particle size of 0.11.5 mm on polygradient separators. Making the filler plates with slots will allow for more complete extraction of magnetic particles by increasing the zone of contact of the particles with the filler. Claim 1. Ferromagne filler of polygradient magnetic separators, containing a series of parallel plates with filaments made of magnetically soft material, characterized in that, in order to more fully extract the magnetic fraction by increasing the area of contact of the particles with the filler, the plates are made with slots, with the slits of adjacent plates one relative to another. 2. The filler of claim 1, characterized in that, in order to ensure a constant gap between the plates, it is provided with rods arranged perpendicular to the plates and installed between them. Sources of information taken into account during the examination 1. US Patent No. 3920543, cl. 209-222, published. 11/18/75. 2. International Congress on Mineral Processing, M., GNTI, 1962, pp. 244-425 (prototype). te /  Phage. 2 fcj