RU137481U1 - MAGNETIC FLOCULATOR OF THE DESHLAMATOR - Google Patents

Abstract

1. Magnetic flocculator of a deslamator, consisting of a cylindrical ferromagnetic casing with a magnetic system located along the axis of the cylinder and consisting of permanent magnets with magnetic induction directed parallel to the axis of the cylinder, characterized in that a multilevel placed on the pole piece made in the form of a coaxial ferromagnetic disk a magnetic system in which permanent magnets are mounted on ferromagnetic bases, repeating the shape of the contact area of the permanent magnets and the tip, and on the magnet x of the first layer mounted on the disk, similar permanent magnets of the subsequent layers are installed through the bases, repeating the shape of the previous layer of magnets, and the magnetic system is limited to a solid shell of non-ferromagnetic material having the shape of a cylinder mated to the top of a truncated cone, at the base of which is a pole piece. 2. The magnetic flocculator of the deslamator according to claim 1, characterized in that the magnetic system is configured to alternate the direction of induction in the layers of magnets to the opposite.

Description

The utility model relates to the field of mineral processing and can be used to de-slurry and thicken finely ground magnetite ores.

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 action of gravity, are deposited on the bottom of the deslamator, and finely dispersed particles the host rock is carried upstream into the drainage system.

Known magnetic flocculator of a deslamator (RU No. 101655 U1, B03C 1/08, 01/27/2011), 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 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 izhney part.

The disadvantage of this solution is the inefficient use of the generated magnetic field due to the shunting of the field of ring magnets by the body of a conical concentrator and, accordingly, the low efficiency of the flocculation process.

Closest to the proposed combination of the essential features of the known technical solutions used to extract iron from lean pulp is the magnetizing apparatus of the Mechanobrchermet design (Handbook of ore dressing. Basic processes, M. Nedra., 1983, p. 198) mounted on a magnetic deslamator and consisting of a cylindrical body in which annular permanent magnets are coaxially arranged with induction directed parallel to the axis of the cylinder. In this case, the magnets are fixed at the input of the apparatus on a coaxial sleeve, and at the output there is a ferromagnetic pole piece in the form of a truncated cone, with its apex toward the magnets.

The disadvantage of this device is the incomplete extraction of magnetite in the concentrate due to the relatively low single-stage level of the magnetic field in the working gap of the apparatus, 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 of the flocculator.

The specified technical result is achieved by the fact that on the pole tip, made in the form of a coaxial ferromagnetic disk, there is a multilevel magnetic system in which permanent magnets with magnetic induction directed parallel to the cylinder axis are mounted on ferromagnetic bases repeating the shape of the contact area of the magnets with the tip, and the magnets of the first layer are equipped with magnets of the second and subsequent layers with bases repeating the shape of the previous layer of magnets, while the magnetic systems and it is limited by a solid shell of non-ferromagnetic material and has the shape of a cylinder mated to the top of a truncated cone, at the base of which there is a pole tip, and the magnetic system is configured to alternate the direction of induction in the layers of magnets to the opposite.

In FIG. 1 is a sectional view of a magnetic flocculator consisting of a cylindrical body 1 made of ferromagnetic steel. An axial magnetic system is fixed along the axis of the housing on the ferromagnetic spokes 2 and sleeve 3. The magnetic system consists of a pole piece in the form of a disk 4, flat magnets 5 mounted on it with ferromagnetic bases 6, magnets 7 of the second and subsequent layers with their bases 8 and magnetic circuit 9. The magnetic circuit 9 is attached to the axial sleeve 3. The magnetic system is protected from corrosion and wear shell of non-ferromagnetic material 10 and geometrically made in the form of a cylinder mated to the top of a truncated cone with a pole tip located at the base of the cone. The magnetic system is configured to alternate the direction of induction in the layers of magnets to the opposite. The direction of induction in the layers of magnets varies depending on the requirements of the technology.

The flocculator works as follows. The iron-containing pulp at the last stage of metal extraction enters from above into the coaxial gap of the flocculator between the axial magnetic system and the cylindrical body. Since the axial magnetic system consists of at least two layers of magnets separated by ferromagnetic bases, zones alternating in magnitude and above the poles and in direction with local increased and interpolar reduced magnetic strengths emerge on the conical surface of its protective layer fields. In an inhomogeneous magnetic field, the gel-like magnetic particles of the pulp are displaced in the general flow in the direction of increasing the gradient of the magnetic field, in particular, to the poles of the magnets of the magnetic system. Magnetic particles, approaching in areas of increased tension, form flocs into which non-magnetic particles of suspension of gangue (silicon-containing sand) are inevitably captured. A moving pulp stream shifts the formed flocs along the conical part of the protective shell of the magnetic system to a zone with a reduced magnetic field, where the flocs partially disintegrate, and when moving to the opposite pole, they also rotate when the magnetic parts of the flocs are reoriented and are freed from non-magnetic inclusions. With further movement to the next pole, passing another stage of rotational release from non-magnetic inclusions, the flocs fall into the zone of the last pole in the form of a disk that creates a magnetic field in the working gap with maximum intensity, where the final compaction of the flocs occurs and rinses them through the narrow part of the coaxial gap down into the settler of the deslamator. The use of flat magnets of a polygonal type, with angles facing the conical surface of the protective coating, enhances the heterogeneity of the magnetic field in the cross section and contributes to a more efficient opening of the flocs when they are released from non-magnetic inclusions.

The use of a prototype of the proposed magnetic flocculator of a deslameter at the GOKa Russian processing plant has improved the efficiency of the process of extracting iron from pulp.

Claims (2)

1. Magnetic flocculator of a deslamator, consisting of a cylindrical ferromagnetic casing with a magnetic system located along the axis of the cylinder and consisting of permanent magnets with magnetic induction directed parallel to the axis of the cylinder, characterized in that a multilevel placed on the pole piece made in the form of a coaxial ferromagnetic disk a magnetic system in which permanent magnets are mounted on ferromagnetic bases, repeating the shape of the contact area of the permanent magnets and the tip, and on the magnet x of the first layer mounted on the disk, similar permanent magnets of subsequent layers are installed through the bases, repeating the shape of the previous layer of magnets, and the magnetic system is limited to a solid shell of non-ferromagnetic material having the shape of a cylinder mated to the tip of a truncated cone, at the base of which is a pole piece. 2. The magnetic flocculator of the deslamator according to claim 1, characterized in that the magnetic system is configured to alternate the direction of induction in the layers of magnets to the opposite.

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