RU101655U1 - MAGNETIC FLOCULATOR OF THE DESHLAMATOR - Google Patents

Abstract

 Magnetic flocculator of a deslamator, consisting of a cylindrical ferromagnetic casing with a magnetic system consisting of permanent magnets with magnetic induction directed along the axis of the cylinder and placed on the top of a ferromagnetic concentrator made in the form of a truncated cone, characterized in that the ferromagnetic concentrator has a cavity in the form of a truncated cone and is equipped with an additional annular permanent magnet with a radially directed magnetic induction located in its lower part.

Description

The utility model relates to the enrichment of minerals and can be used for de-cladding and thickening of finely divided magnetite ores, as well as as a structural element of a magnetic separator.

One of the main stages of magnetic mineral processing is the process of magnetic deslamation, in which the magnetic particles in the pulp passing through a special magnetizing device (magnetic flocculator) are combined into conglomerates (flocs), and under the influence of gravity are deposited on the bottom of the tank, and finely dispersed particles containing rocks flow upward into the drainage system.

Closest to the proposed combination of essential features is a magnetic deslator (SU No. 1546158 A1, September 28, 90) (prototype), in which magnetizing devices of the Mechanobrchermet design are installed (Reference for ore dressing, Basic processes, M. Nedra., 1983, p. 198), consisting of ring permanent magnets located coaxially along the axis of the cylindrical flocculator body on the top of a ferromagnetic concentrator made in the form of a truncated cone.

The disadvantage of these devices is the incomplete extraction of magnetite in the concentrate due to the relatively low magnetic field strength in the working gap of the deslimator, which leads to the loss of part of the useful product.

The technical result of the proposed device is to increase the efficiency of the process of defamation through the use of an advanced magnetic system.

The specified technical result is achieved by the fact that the magnetic concentrator is equipped with an additional annular permanent magnet with a radially directed magnetic induction located in its lower part, and the presence in it of a cavity in the form of a truncated cone, which ensures the effective involvement of fine particles of magnetite in the enrichment process.

Figure 1 (section in plan) shows a magnetic flocculator - deslator thickener, consisting of a cylindrical body 1 made of ferromagnetic steel, ring permanent magnets 2 with magnetic induction directed along the axis of the flocculator 3, a ferromagnetic concentrator 4 and an additional permanent magnet in the form rings 5 with magnetic induction directed along the radius 6. The ring can be made solid or from separate sectors 7. Magnetic system 2 is mounted inside the housing using ferromagnetic spokes 8 through ohm ferromagnetic transition ring 9. The housing hub cavity 10 formed in a truncated cone, intended to reduce the magnetic flux losses down the axis of the flocculator produced by the magnet system 2 and its redistribution in the radial direction.

The flocculator works as follows. The pulp for magnetic processing enters the flocculator from above in the direction of arrow 11. Under the influence of a magnetic field due to magnetostatic forces, the primary approach of magnetic particles occurs with the formation of magnetic flocculi. When approaching the surface of the concentrator and an additional magnet, an intensive enlargement of the flocs and their “magnetic pressing” due to the forces of the gradient magnetic field occur.

The use of an additional magnet and a cavity in the concentrator body contribute to the intensive involvement of finely dispersed magnetic particles in the flocculation process, followed by their deposition to the bottom of the deslamator.

Claims (1)

Magnetic flocculator of a deslamator, consisting of a cylindrical ferromagnetic casing with a magnetic system consisting of permanent magnets with magnetic induction directed along the axis of the cylinder and placed on the top of a ferromagnetic concentrator made in the form of a truncated cone, characterized in that the ferromagnetic concentrator has a cavity in the form of a truncated cone and is equipped with an additional annular permanent magnet with a radially directed magnetic induction located in its lower part.