SU1271568A1 - Magnetic separator for wet concentration of finely milled ferric quartzites - Google Patents

Abstract

The invention makes it possible to increase the extraction of iron content of the components due to the additional extraction of weakly magnetic electrically conductive particles. For this, the non-magnetic drum (B) 1 is separated. the torus is made with annular protrusions of non-conductive material located on the surface of the B 1 along its guide. At the entrance and the exit of the bath 4 between the annular heights Ia and P1 on both sides of B 1 there are installed four electrodes 6. Inside B 1 there is a magnetic shield 2. During B 1 rotation, strong magnet particles are attracted to its surface between the projections in the zones of the strongest magnetic the floor Between the electrodes 6 through the pulp pass current. As a result of the combined effect of the electric field and the magnetic field of the system 2, the conductive parts, including the weakly magnetic hematite, are pressed against the side surface of the annular projections. After exiting the surface (L I B I from the pulp, adhered magnetite and hematite particles are washed off with water. 2 ill. Is5 DM 0 00

Description

The invention relates to the field of magnetic enrichment and can be used; it is> .t> -. It is associated with mining and other sectors of the national economy.

The purpose of the invention - an increase izvls- ₅ cheniya iron components by an additional extraction komnsnentov weakly conductive.

In FIG. I schematically depicts / ken the proposed magnetic separator, a cut along the drum guide; in FIG. 2 is the same ^! ° cut along the generatrix of the drum.

The magnetic separator contains a drum I of non-magnetic material coated with a layer of insulating material, a magnetic system 2, a feeder 3, a bath 4c, 5 a tail pipe 5, at the input and output of which are placed electrodes 6 connected to a power source 7, an unloading box 8 and sprayed 9 On the surface of the drum I are placed annular protrusions K) of insulating material, located ²⁰ between the poles of the magnetic system 2. Electrodes 6 are placed at the inlet and outlet of the bath 4 between the annular protrusions 10.

The separator works as follows.

During rotation of the drum 1, strongly magnetic particles are attracted to the surface of the drum between the annular protrusions 10 in the zones of the strongest action of the magnetic field. Between the electrodes 6, a current is passed through the pulp. The combined action of .. .. and the current and magnetic field of system 2 presses electrically conductive particles, including weakly magnetic hematite, to the lateral surface of the annular protrusions 10. When the surface of drum 1 leaves the pulp, adherent particles of magnetite and hematite are washed off by water coming from squirted 9.

For the effective extraction of hematite from the pulp between the electrodes, it is necessary to pass a current with a density of ~ 10 A / cm ² .

Claims (1)

Claim Magnetic separator for wet enrichment of finely divided ferruginous quartzites, including a non-magnetic drum, a magnetic system installed inside the drum, a bath, a feeder and receivers of separation products, characterized in that, in order to increase the extraction of iron-containing components by additional extraction of weakly magnetic conductive particles, a non-magnetic drum made with annular protrusions of non-conductive. material located on its surface along the drum guide, and the separator is supplied with electrodes mounted between the annular projections on both sides of the drum. Phage 2