SU1722586A1 - Electromagnetic separator - Google Patents

Abstract

Usage: wet magnetic separation, mainly the selection of small weakly magnetic particles according to the ratio of magnetic and gravitational properties. SUMMARY OF THE INVENTION: The separator comprises a housing 1 located obliquely between the poles of an electromagnet. The case is filled with ferromagnetic plates with a wavy surface. To the entrance of the body adjacent the pipe 7 of the feeder. The receiver 9 of the magnetic product with the outlet nozzle 10 adjoins the output part of the body. The nonmagnetic product receiver is made in the form of a bottom 11 with sloping walls and nozzles 12 for supplying water and 13 for outputting a nonmagnetic fraction settled on the bottom. In the output part of the housing 1 between the plates fixed non-magnetic rods 8 needle shape. The needles have a quadrilateral shape in cross section and are pointed at the inlet part of the body 1. The needle length is 10-15% of the length of the flow part of the body 1. The presence of needles contributes to minimizing the flow of pulp and improving the unloading of the magnetic fraction. 5 yl. with

Description

The invention relates to wet magnetic separation, mainly intended for the separation of weakly magnetic particles according to the ratio of magnetic and gravitational properties.

A known electromagnetic separator, comprising an electromagnet, between the pole pieces of which a non-magnetic housing is disposed, the flow part of which is filled with ferromagnetic bodies in the form of longitudinal plates, a feeder, a device for supplying water and receivers of separation products.

A disadvantage of the known device is the low efficiency of extracting small, weakly magnetic particles, which is caused by the turbulization of the flow in the separation zone at the speeds required for the removal of the magnetic fraction.

The aim of the invention is to increase the efficiency of extraction of weakly magnetic particles.

The goal is achieved by supplying the separator with needle-shaped rods of non-magnetic material that are installed between the ferromagnetic plates in the output part of the body, while the needles are pointed to the input part of the body. The presence of these elements leads to a smooth change in the living cross section of the pulp flow, due to which the flow laminarity is preserved in the separation zone, and the magnetic fraction is removed in the exit part.

FIG. 1 shows the proposed electromagnetic separator, a general view; in fig. 2 — section A – A in FIG. one; in fig. 3 is a section BB in FIG. 2; in fig. 4 shows a section B-B in FIG. 2; in fig. 5 - section GG on fit2.

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The body 1 is made of a non-magnetic material in the form of a rectangular shaped box with solid side walls 2, four crossbars 3 and covers 4.

In the flow-through part of the body, longitudinally ferromagnetic bodies are installed, made in the form of plates 5 parallel to each other, made of non-corrosive magnetically soft material, inserted into grooves made in crossbars.

The plates 5 are made with parallel longitudinal ridges 6, in this case of a semi-circular section, with the ridges on the inner plates on both sides, and on the two extreme plates pressed against the side walls 2, only on the inside. The tops of the adjacent ridges of 6 adjacent plates are located opposite each other.

A feed pipe 7, having a rectangular chute, whose height is approximately equal to the height of the case, is hermetically connected to the housing 1.

On the opposite side of the body, rods 8 are inserted into the spaces between the ridges of the adjacent plates 5 in the form of four-sided needles made of a non-magnetic material, the length of which is 10-15% of the length of the ridges 6, directed by edges inside the case.

On the same side, a magnetic fraction receiver, made in the form of a cover 9 with a branch pipe 10, is hermetically connected to the body.

The receiver of a non-magnetic product is made in the form of a bottom 11 with sloping walls and nozzles 12 and 13, respectively, of a device for supplying water and withdrawing the non-magnetic fraction.

The magnetic system in this case is made on the basis of two U-shaped electromagnets and includes a radio tape recorder 14 of water 14 and four coils 15, as well as two identical pole tips 16 formed by a straight line generator parallel to the axis of the case 1c of a parabolic guide, fixed symmetrically on magnetic circuit 14.

The housing 1 is fixed in the gap between the tips 16 so that the plates 5 are parallel to the plane of symmetry of the tips 16, and the tops of the ridges 6 are parallel to the generator of the tips 16.

In operation, the separator is installed in such a way that the plane of symmetry of the tips 16 is vertical, and the angle between them and the horizon is 40-60 °.

Before starting the operation, the coils 15 are turned in opposite directions, i.e. with a magnetic flux short circuit through the air gap between the tips 16.

Then, through pipe 12, water is supplied to housing 1 until it is filled with closed pipes 10 and 13, after which pipe 7 begins to feed raw material pulp, reducing, respectively, the flow of clean water and opening pipes 10 and 13.

The flow of the pulp is set so that the flow between the plates in the separation zone is close to laminar and that when the coils are turned off all particles

deposited on the bottom 11, i.e. clean water should go from the nozzle 10, while the flow-through part of the body should be filled, which is ensured by the selection of the cross section of the nozzles 10 and 13, installation of the sleeves in them

with calibrated holes.

When you turn on the coils 15 is generally the following. Non-magnetic particles, i.e., those for which the gravitational forces exceed the ponderomotive forces under given conditions, still sink to the bottom. The weakly magnetic particles are trapped between the crests of 6 adjacent plates, where the magnetic field is strongest, and under the action of gravity and hydraulic forces descend along the crests 6. When they thus reach the areas of the needle rods 8, where the flow velocity gradually increases, they gain speed, with which

the magnetic field is no longer able to keep them in the gap - the particles are carried to the receiver 9 of the magnetic fraction and then go through the nozzle 10.

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Claims (1)

Invention Formula Electromagnetic separator, including an electromagnet, between which pole ends is located a non-magnetic body, the flow part of which is filled with ferromagnetic bodies in the form of plates, a feeder, a device for supplying water and receivers of separation products, characterized in that with. In order to increase the efficiency of extracting small weakly magnetic particles due to the smooth variation of the living cross section of the pulp flow in the separation zone, the separator is equipped with needle-shaped rods made of non-magnetic material that are installed between the ferromagnetic plates in the output part of the body, while the needles are pointed at the input part of the body. .B.