SU1505588A1 - Magnetic fluid separator - Google Patents

Abstract

This invention relates to magnetic enrichment and can be used to separate ores in terms of density. The purpose of the invention is to increase the efficiency of the separation process due to the stabilization in time of the ponderomotive force acting on the particles of the material being separated. The separator includes a magnetic core 1 with coils 2, pole pieces 3, made hyperbolic in a vertical section plane. Pole tips 3 are equipped with 4 main and additional 5 covers of non-magnetic material. A receiver of 6 tons fraction is installed under the interpolar gap. The source material is fed to the layer of magnetic fluid poured into the interpolar gap. The denser particles sink and enter the receiver 6. The less dense ones float along the inclined surface of the magnetic fluid, roll off it and enter the receiver of light particles. 2 Il.

Description

X

SP

about

ate a joint venture

00 00

1

The invention relates to the field of magnetic enrichment and can be used to separate the ores of non-ferrous and noble metals by density.

The purpose of the invention is to increase the efficiency of the separation process due to the time stabilization of the ponderomotive force acting on the particles of the separated material.

FIG. 1 shows a separator, a cross section; in fig. 2 is a section A-A in FIG. one.

The separator includes a U-shaped magnetic core 1 with coils 2, pole pieces 3 made hyperbolic in a vertical cutting plane, a feeder and receivers of separation products (not shown). Pole tips 3 are equipped with basic 4 and additional 5 covers of non-magnetic material, for example, made of PCB or in the form of a coating on pole pieces of several layers of PVA glue with a wall thickness of 0.5-1.0 mm. The walls of the housings cover both the hyperbolic surfaces of the lugs and the adjacent areas of the other surfaces of the lugs. The dimensions of the housings 4 and 5 and their location at the ends are such that, in the presence of the rated current in the coils 2 and the calculated amount of magnetic fluid filled with the nominal concentration, it does not directly contact the metal surface (iron) of the pole tip 3. Under the gap

l

a receiver of 6 tons of fraction is installed,

The separator works as follows.

The source material is fed to the MF layer at the higher end of the interpolar-PS1 gap. The denser particles sink into the breast, punch through its layer and enter the receiver 6. The less dense particles float on the inclined surface of the breast and roll off of it onto a dividing wall (not shown), where they accumulate and fall away under their own gravity.

of

bratis

Formulas

A magneto-liquid separator comprising a magnetic system with pole pieces, which have a hyperbolic pro / L in the vertical cutting plane, housings installed on said surfaces and forming a separation chamber, feeder and receivers of separation products, in order to increase the efficiency of the separation process. due to the stabilization in time of the ponderomotive force acting on the particles of the material being separated, the separator is equipped with additional covers installed on the bottom and side surfaces: the pole pieces, with their conjugated hyperbolic surface, the primary and secondary housings are made of nonmagnetic material.

Claims (1)

SUMMARY OF THE INVENTION A magneto-liquid separator comprising a magnetic system with pole pieces having a hyperbolic profile in the vertical cutting plane%, casings mounted on said surfaces and forming a separation chamber, feeder and receivers of separation products, characterized in that, in order to increase the efficiency of the process separation due to stabilization during At the time of the ponderomotive force acting on the particles of the material to be separated, the separator is equipped with additional casings mounted on the lower and lateral surfaces of the pole pieces coupled to their hyperbolic surface, while the main and additional casings are made of non-magnetic material.