SU1750733A1 - Magnetic separator - Google Patents

Abstract

Use: wet magnetic separation. SUMMARY OF THE INVENTION: Magnetic 2 3frrf separator has a non-magnetic shell, a magnetic system for creating a rotating magnetic field, a feeder, a receiver of a non-magnetic fraction, a device for outputting the magnetic fraction. The adaptation is made in the form of a longitudinal concave groove formed by the bottom, part of the shell surface and the wall. 4 il.

Description

This invention relates to wet magnetic separation, primarily intended to beat off highly magnetic particles from gold-bearing sands.

A magnetic separator is known, comprising a rotating magnetic field system located coaxially within a non-magnetic cylindrical shell, a feeder, a receiver of a non-magnetic fraction, and a device for outputting the magnetic fraction in the form of a groove formed on the surface of the shell by a longitudinal bottom and a wall opposite to the shell.

The disadvantage of the prototype is a low extraction when working with a widely classified material, which is caused by the inability to supply power directly to the shell from above.

The purpose of the invention is to increase recovery.

For this, it is proposed to make the trough concave longitudinally. Then the power supply from above becomes possible, since the spatial separation of the magnetic and non-magnetic fractions is carried out with retention of flush water in an inverted chute - due to centrifugal forces, this provides an increase in extraction.

FIG. 1 shows the described separator; Figure 2 is the same side view; in fig. 3 is a section A-A in FIG. one; in fig. 4 is a section BB in FIG.

The rotating magnetic field system is made of an even number of permanent magnets 1, reinforced with polarity alternating around the circumference on the cylindrical magnetic circuit 2, made in the form of a shaft mounted in bearings in a cylindrical shell 3 of magnetic material and equipped with a pulley 4, while the axis of magnetization of the magnets 1 is radial; the flanges 5 of the shell are rigidly connected to the posts 6 of the frame 7; pulley 4 is connected by a belt with a pulley 8 of an electric motor mounted on frame 7.

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The feeder is made in the form of a flat tray 9 with sides 10, mounted on the frame so that its cut is located on the surface of the shell 3.

The chute of the device for removing the magnetic fraction consists of a concave bottom -11, hermetically fastened on the sidewall 3 and protruded along a cylindrical surface, the axis of which is perpendicular to the axis of the sidewall 3 and crossed with it, and the wall 12, made along a cylindrical surface coaxial the surface of the shell 3. The chute is equipped with a nozzle 13 supplying flush water.

The receiver of the non-magnetic fraction consists of non-magnetic walls 14, hermetically connected to the shell 3.

In operation, the separator is installed so that the rotor axis of the magnetic system is horizontal, the plane of the tray 9 of the feeder is 3-5 degrees with the horizon, and the trough of the device for outputting the magnetic fraction is located under the tray 9 above the lower point of the shell 3.

The magnets are rotated at a frequency of 80-100 rpm in the direction in which the magnetic particles roll from the cut of the tray 9 to the bottom 11 of the groove.

Flush water is fed to the nozzle 13 at a speed of 5-10 m / s (the position in FIGS. 1, 3 is indicated by the position 15), while the water

centrifugal forces are pressed against the bottom 11, the departure from the chute from its opposite end.

When feeding the pulp to the surface of tray 9, the following occurs: the particles with water flow down to the surface of the shell 3; here the magnetic particles are pressed by the ponderomotive forces to the surface of the shell 3 and roll over it with the frequency of the rotating magnetic field; the non-magnetic particles are transported by the water flow and under the action of a pull to the bottom of the receiver 14; The magnetic particles eventually enter the stream of flush water in the chute and are carried away from the separation zone.

Claims (1)

Claims of the Invention characterized in that, in order to increase the recovery rate, the chute is concave in the longitudinal direction, 15 Phie.1 FIG 2 Фцг.З