SU908403A2 - Magnetic separator - Google Patents

Description

(54) MAGNETIC SEPARATOR

one

The invention relates to magnetic separation of materials, in particular, to devices for enriching highly magnetic ores and materials.

According to the main author. St. No. 511971 is known for a magnetic separator consisting of a working body made in the form of a non-magnetic drum with a magnetic system located inside, a flocculator made in the form of a grooved tray with magnets between the grooves, loading and unloading devices 1.

A disadvantage of the known separator is that the separation efficiency is not high enough due to incomplete flocculation of the material, due to the large scattering of the magnetic flux at the ends of the flocculator.

The purpose of the invention is to increase the separation efficiency by increasing the degree of flocculation.

This goal is achieved by the fact that in a magnetic separator the grooves are made tapering in the direction of movement of the material, and the magnets are equipped with magnetic flux concentrators made of a magnetically soft material and installed at the exit from the flocculation zone.

FIG. 1 shows the device, a general view; in fig. 2 shows section A-A in FIG. one; 5 in FIG. 3 shows a section BB in FIG. one.

The separator consists of a non-magnetic rotating drum 1 with a magnet-type system 2 inside, a semi-current type bath 3, a power supply device 4, a flocculator 5, a discharge device 6 and 7 for the concentrator and tailings, respectively.

Flocculator 5 includes a groove chute 8, the grooves being made tapering along the movement of the material, and magnets 9 installed between the grooves. 5 The magnets 9 are fastened on the yoke 10 on both sides of the B with the form of poles with alternating polarity. At the ends of the magnets there are mounted hubs 11 made of a magnet of a soft material fixed to the ems 10. 20 Between the poles of the magnets 9 there are non-magnetic seals 12. A yoke 10 with the magnets 9 is attached to a transverse mounting plate 13, at the ends of which handles are welded to fasten the magnets

the edge of the feeding device, which allows to simplify the installation of magnets.

The separator works as follows.

The initial power in the form of a pulp with finely divided magnetic and non-magnetic particles in it is fed into the supply device 4. When flowing along the narrowing grooves 8, the pulp delaminates, at the bottom of the pulp flow (along the bottom of the tray) mainly heavy magnetic particles move, above the slit, the main non-magnetic, therefore, the magnetic material is processed by the magnetic field of the magnets 9 installed between the grooves, separately from the slime particles. At the end of the magnets, the formed, but not yet completely strong, floccules are subjected to hardening due to the concentrated magnetic field of increased intensity created by the hub 11.

After treating the concentrator with the magnetic field, the floccules immediately enter the zone of the absence of a magnetic field and, therefore, do not undergo destruction, as is observed with a gradually decreasing magnetic field, in the absence of a concentrator.

Due to such processing, the degree of flocculation of the magnetic particles is significantly higher, and the floccules that form are stronger and cleaner from the waste rock. The processed pulp enters the working area of the separator, where under the action of the magnetic forces of the magnetic system 2, the magnetic fraction is extracted onto the surface of the drum I, which transports it to the discharge device 6, and the nonmagnetic fraction to the discharge device 7.

Claims (1)

Invention Formula Magnetic separator according to ed. St. No. 511971, characterized in that, in order to increase the efficiency of the separation process by increasing the degree of flocculation, the grooves are made tapering in the direction of material movement, and the magnets are equipped with magnetic flux concentrators, made of a soft magnetic material and installed at the exit from the zone flocculation. Sources of information taken into account in the examination. USSR Author's Certificate No. 511971, cl. At 03 C 1/10, 1971 (prototype).