RU2350395C1 - Magnetic centrifugal separator - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: magnetic centrifugal separator contains magnetic system of stationary magnets, transporting member made in form of disk, arranged on shaft, feeder and receivers of separated products. The magnetic system is made out of constant magnets magnetised vertically and arranged along radii of circumference with alternating polarities. The feeder is equipped with a pulp distributing ring. The receivers of separated products are made in form of concentric chutes with discharge sleeves.

EFFECT: improved operational characteristics and upgraded quality of concentrate.

2 cl, 2 dwg

Description

The invention relates to mineral processing, in particular to wet magnetic separation devices, mainly for iron ores and the production of high-quality magnetite concentrates.

Known magnetic separator, consisting of a magnetic system, a working body in the form of a shell, feeder and receivers of separation products (see AS USSR No. 1720721, IPC ⁸ V03C 1/04, publ. 23.03.1992).

The disadvantage of this separator is the cumbersome electromagnetic system, which requires large amounts of electricity to create a magnetic field.

The closest in technical essence to the claimed device is a magnetic centrifugal separator containing a magnetic system of fixed magnets, a transporting body made in the form of a disk mounted on a shaft, a feeder and receivers of separation products (see AS USSR No. 829183, IPC ⁸ B03C 1/04, publ. 05.15.1981).

The disadvantages of the prototype are low performance due to the rapid wear of parts subjected to constant vibration during operation, and the complexity of the process of separation of fractions during transportation of products due to the presence on the disk of radial ribs that limit the rotation of magnetic particles around its axis, which leads to a decrease quality of the resulting concentrate.

The objective of the proposed technical solution is to improve the operational characteristics of the device and improve the quality of the concentrate.

The solution to the technical problem is achieved by the fact that the known magnetic centrifugal separator containing a magnetic system of fixed magnets, a transporting body made in the form of a disk mounted on a shaft, a feeder and receivers of separation products, according to the invention, the magnetic system is made of permanent magnets, magnetized vertically, located along the radii of the circle with alternating polarities, while the feeder is equipped with a distribution ring, and the receivers of the separation products are made in the form e concentric gutters with drain pipes.

The transporting body is mounted on the shaft using a nozzle and is made of non-magnetic material.

This design will improve operational characteristics and obtain high-quality magnetite concentrate.

The invention is illustrated by drawings, where figure 1 shows a schematic diagram of the proposed separator, figure 2 is a section along aa.

The magnetic centrifugal separator consists of a magnetic system with fixed permanent magnets 1 located along the radii of the circumference of the magnetic circuit 2 with alternating polarities, the transporting body 3, made in the form of a disk of non-magnetic material mounted on the shaft 4 using the nozzle 5, a cylindrical-shaped feeder 6 with a distribution box ring 7 and inlet pipe 8, separation product receivers made in the form of concentric grooves for non-magnetic fraction 9 and magnetic fraction 10 with drain with nozzles 11, 12 and a water supply pipe 13. The shaft 4 is mounted on the base plate 14 using bearings 15 and the stand 16, and is equipped with a pulley 17. The magnetic circuit 2 is located on the holder 18 mounted on the posts 19. The electric motor 20 is placed on the frame 21 and is equipped with a pulley 22.

Magnetic separator operates as follows.

The pulp enters the feeder 6 through the inlet pipe 8, enters the surface of the distribution ring 7 and spreads in a thin layer in the radial direction. The electric motor 20 drives the conveying body 3 through the pulleys 22 and 17, the shaft 4 and the nozzle 5. As the pulp advances, the magnetic particles are removed from the stream along the entire surface of the pulverizing ring 7 by the ponderomotive magnetic forces of the permanent magnets 1. The magnetic particles are pressed against the lower surface of the conveying organ 3, forming flocs, under the action of centrifugal forces they move towards large radii and simultaneously rotate around their axis, making one revolution on each pair of the field owls of permanent magnets 1. At the same time, they are cleaned of non-magnetic particles and discharged into the chute for the magnetic fraction 10, from where they are washed off by running water entering through the water supply pipe 13 to the drain pipe 12. The pulp together with non-magnetic particles flows into the chute 9 and is discharged through the drain pipe 11 With rotation, the flocculi take on a new form and material composition, and non-magnetic particles trapped between the magnetic particles are discharged by gravitational forces during the transition from one pole of permanent in 1 to another, as a result of which multiple purification of the product occurs. The transporting body 3 is made of non-magnetic material that is resistant to mechanical stress, for example textolite, and is mounted on the shaft 4 using a nozzle 5, designed to simplify the alignment of the disk and reduce vibration.

Using the proposed magnetic centrifugal separator in comparison with the prototype will improve the operational characteristics of the device and improve the quality of magnetite concentrate.

Claims (2)

1. Magnetic centrifugal separator containing a magnetic system of fixed magnets, a transporting body made in the form of a disk mounted on a shaft, a feeder and receivers of separation products, characterized in that the magnetic system is made of permanent magnets magnetized vertically located along the radii of the circle with alternating polarities, while the feeder is equipped with a slurry distribution ring, and the receivers of the separation products are made in the form of concentric grooves with drain pipes. 2. The separator according to claim 1, characterized in that the conveying body is mounted on the shaft using a nozzle and is made of non-magnetic material.

Images