SU1105234A1 - Magnetic separator - Google Patents

Abstract

A MAGNETIC SEPARATOR, which includes a feeder, a rotating inclined drum made of non-ferromagnetic material, a magnetic system made in the form of arcuate stationary blocks and mounted externally coaxially with the drum with a gap, and means for removing the separated fractions. Characterized by the fact that, in order to increase the efficiency of the separation process by reducing the interpolation of the separated fractions, the separator is equipped with an additional drum made of a non-magnetic material installed eccentrically inside the main drum and an additional magnetic system installed inside the additional drum opposite the magnetic system of the main drum. (L

Description

The invention relates to magnetic separation of minerals and can be used in the mining industry.

A known magnetic separator, 5 including a rotating drum mounted obliquely, a magnetic system mounted on the outside of the drum, loading and unloading devices [ij. 10

The closest to the invention in technical essence and the achieved effect is magnetic ce. a parator, including a feeder, a rotating inclined drum made of non-ferromagnetic material, a magnetic system made in the form of arcuate fixed blocks mounted coaxially to the outside of the drum with a gap, and means for removing the selected 20 fractions [2].

A disadvantage of the known separators is the interlocking of separation products.

The purpose of the invention is to increase 25 the efficiency of the separation process by reducing the inter-contamination of the selected fractions.

This goal is achieved by the fact that the magnetic separator, including ₃₀ feeder, a rotating inclined drum made of non-ferromagnetic material, a magnetic system made in the form of arched fixed blocks and mounted externally coaxially to the drum with a gap, and means for removing the separated fractions, is equipped with an additional drum made of non-magnetic material installed inside the main drum eccentrically to the last, and an additional magnetic system installed inside the additional drum opposite the magnet total system of the main drum.

The drawing shows the proposed separator.

The separator consists of feeder 1,. The outer drum 2, the magnetic outdoor unit 3 of the strong magnetic particle separation section, the magnetic outdoor unit 4 of the weakly magnetic particle separation section, the inner drum 5, the magnetic indoor unit 6 of the strong magnetic particle separation section, the magnetic indoor unit 7 of the weakly magnetic particle separation section, the low magnetic removal device 8 particles, a transport device 9 for removing highly magnetic particles, a transport device 10 for removing non-magnetic particles.

The described separator operates as follows.

The source material is fed by the feeder 1 into the rotating drum 2 And, rolling along its inner surface, moves towards the magnetic blocks 3.4 and 6.7. Upon reaching the magnetic blocks of the first section, magnetic particles whose magnetic properties (magnetization) differ from each other are attracted by a magnetic field with different strengths. In this case, a part of the particles is pressed against the Inner surface of the drum 2, and the other part is pressed against the outer surface of the Drum 5. Since the magnetic blocks have poles of alternating polarity, there is a periodic reorientation of the magnetic particles, while weakly magnetic particles, the compressive force of which is less than the particle weight , and non-magnetic particles fall out from under the pressed, so-called strongly magnetic particles. Strong magnetic particles, reaching the upper end of the magnetic blocks, come off and fall along the path onto the transport device 9. When the material passes through the magnetic blocks of the second section, the separation of weaker magnetic particles that are removed by the transport device 8, the non-magnetic fraction is removed by the transport device Yu. ’

The proposed magnetic separator will improve the efficiency of the magnetic field * attraction of magnetic inclusions by reducing the amount of non-magnetic impurities in the magnetic product.

Claims (1)

MAGNETIC SEPARATOR, including a feeder, a rotating inclined drum made of non-ferromagnetic material, a magnetic system made in the form of arched fixed blocks and mounted externally coaxially to the drum with a gap, and means for removing the separated fractions, characterized in that, in order to increase the efficiency of the separation process by reducing interdependence of the selected fractions, the separator is equipped with an additional drum made of non-magnetic material, installed inside the main drum eccentrically after day, and more magnetic system mounted within said drum opposite the magnetic system of the primary drum.