SU1405879A1 - Electric magnetic separator - Google Patents

Abstract

FIELD: processing equipment, m. B. used for the separation of waste non-ferrous metals. The purpose of the invention is to increase the efficiency of the separation process. . Between the pole tips (PN) of the main electromagnetic system, a rotating unloading device (RP) is installed. In the main part of the TI, additional half internal 4 and external 5 magnetoes are installed:., :: 1; odes (MPs) placed equidistantly RM on both sides. The working faces 4 and 5 are made in the form of a conic) noEsep, -just, MP 4 and 5 have a variable cross-section along the length, decreasing in the direction of RP lying. On the side of the feeder, an additional PN 7 is installed opposite the front part of the main 1H with the possibility of nejie-space in the vertical plane. The latter is connected to the main PN by means of a nano-section of a soft-soft one hundred, 1i. Initially, the main part of the magnetic fraction is removed from the original chips by means of the PN 7. The remaining part of the chip enters the zone with a magnetic field, creating (- we have an electromagnetic system with main PNs. Weakly magnetic particles expand, strong magnetic retain 1s in the RP due to the magnetic field created by MP 4 and 5, non-magnetic by the feeder . 2 3. p. F-crystals, 3 ill. (C (L

Description

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The invention relates to mineral processing technology and can be used to separate non-ferrous metal wastes.

The purpose of the invention is to increase the efficiency of the separation process.

FIG. 1 - electromagnetic separator, vertical section; in fig. 2 - electromagnetic separator, top view; in fig. 3 shows section A-A in FIG. 2

The electromagnetic separator includes an electromagnetic system 1 with pole pieces 2, between which a rotating unloading device 3 is installed. In the side part of the pole tips 2 there are additional magnetic cores: internal 4 and external 5 with working faces 6, equidistant unloading device 3 on both its sides, This working faces are made in the form of a conical surface, which is a continuation of the inner conical surface of the pole pieces 2, and the magnetic cores themselves have not a variable cross-section, decreasing in the direction of rotation of the discharge device. On the side of the device 3 opposite the end part of the pole piece, an additional pole piece 7 is installed, which is connected to the pole piece 2 by means of plates 8 of soft magnetic steel. An additional pole piece 7 is mounted for movement in a vertical plane to regulate the intensity of the magnetic field. Electromagnetic system I is installed above the feeder 9.

The separator works as follows.

The original non-ferrous metal chips, consisting of a mixture of an alloy of magnetic, non-magnetic and highly magnetic particles, is fed by a feeder 9. Under the action of a magnetic field created by an additional pole tip 7, strong magnetic particles are attracted to it and removed from the zone of a magnetic field by a discharge device 3 .

A part of the strongly magnetic fraction, represented by particles of size up to 100 microns, is not extracted in this zone and moves together with other particles (non-magnetic and weakly magnetic) to a zone with a strong magnetic field, where there are weakly magnetic particles and uncured strong-magnetic particles.

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the particles are removed by the electromagnetic system 1 with pole tips 2 and removed from the magnetic floor by the discharge device 3. The weakly magnetic particles are unloaded, and the strong magnetic particles are retained in the discharge device 3 by the magnetic field created by the additional magnetic cores 4 and 5. waters 4 and 5, decreasing in the direction of material unloading, the magnetic field gradually weakens in this direction and when it becomes insufficient to hold a strong magnetic field. x particles, they fall out of the discharge tool. Non-magnetic particles are carried away by the feeder and discharged.

The presence of an additional pole tip 7 provides more qualitative extraction of weakly magnetic particles due to preliminary extraction of strongly magnetic particles.

Claims (3)

1. Electromagnetic separator comprising a feeder, an electromagnetic system consisting of a magnetic core with pole pieces, and a discharge device mounted rotatably in an interpolar gap, characterized in that, in order to increase the efficiency of the separation process, the separator is equipped with additional internal and external magnetic conductors with the working edges installed in the side part of the pole tips equidistant to the unloading device - on both its sides, while the working edges For more cores made as a conical surface, while the magnetic cores are variable section along the length, in the direction of rotation umenshayuschees unloading device. 2. A separator according to claim I, characterized in that it is provided with an additional pole piece installed on the side of the feeder opposite the end portion of the pole piece connected to it by means of plates made of soft magnetic steel. 3. Separator on the PP. 1 and 2, characterized in that the additional pole piece is mounted for movement in a vertical plane. cfjual fig.d