SU1639748A1 - Magnetic separator - Google Patents

Abstract

The invention relates to magnetic enrichment and makes it possible to increase the efficiency of the separation process by reducing the scattering of the magnetic field. The magnetic separator contains a cryostat 1 with a superconducting winding 2 placed inside it and a groove (G) 3 with inlet and outlet holes. Moreover, a winding 2 and G 3 screwed Winding 2 covers Ж 3 from above and below and coaxially in a vertical plane. Pulp through inlet 4 is fed to Ж 3. When it moves along screw W 3 particles are affected by centrifugal and magnetic force. attracting weakly magnetic particles to the inner wall of W 3 while the heavier particles are located closer to the outer wall of W 3 When exiting G 3 through the outlet 5, the fractions are separated due to the separation plate 6 1 or

Description

The invention relates to magnetic enrichment and can be used to clean the environment from weakly magnetic inclusions in various fields of the national economy.

The purpose of the invention is to increase the efficiency of the separation process by reducing the scattering of the magnetic field.

The drawing shows a magnetic separator.

The magnetic separator includes a cryostat 1 with a superconducting winding 2 located inside it, a groove 3, an inlet 4 and an outlet 5 openings, moreover, the windings 2 and the groove 3 are screw-shaped, and the windings 2 enclose the groove 3 from above and below and are aligned in a vertical plane.

The separator works as follows.

Through the inlet end of the chute 3, the pulp of the enriched material is fed with speed. When it moves along the helical groove 3, centrifugal forces act on the particles of material, dropping them to the outer wall of the groove 3. The material is divided by density in the radial direction of the groove, the heaviest and largest particles are closer to the outer wall, light and smaller ones are closer to the middle of the gutter 3.

If you turn on the magnetic field, the magnetic forces of which are larger than the centrifugal ones, then under its action weakly magnetic particles will be attracted to the inner wall of the trough and, sliding along it along with the pulp stream through the outlet 5 provided with a separation plate 6, will enter the magnetic and non-magnetic receivers fractions.

Claims (1)

Claim Magnetic separator including a cryostat placed inside it by a superconducting winding, a chute with inlet and outlet openings, characterized in that, in order to increase the efficiency of the separation process by reducing the scattering of the magnetic field, the chute and windings are screw, and the windings cover the chute from above and below and coaxial to him in a vertical plane,