SU1331567A1 - Corona-type electrostatic separator - Google Patents

Abstract

This invention relates to a technique for separating bulk materials in an electric field into components differing in their electrophysical properties. The purpose of the invention is to increase the efficiency of the separation of materials into components by stabilizing the electric field in the separation zone. The separator includes a hopper with a feeder 2, consisting of a rotating precipitation drum (B) 3 and corona 4-6 and deflecting 7, 8 electrodes (E) of the working body, cutter I1 and receivers (P) of separation products 12-14. In this case, E 4-8 are placed along the longitudinal axis B 3 above its surface one above the other with the formation of through passages 9, 10. Made in the form of concave plates with pointed edges facing B 3, E 4-6 are fixed on the dielectric section. body II, and Э 7, 8 in the form of dielectric plates fit snugly to the concave surface 34, 5. Brush I5 is installed on the side of the case for cleaning B 3 of dust. When applied to an E 4-6 high voltage, a complex, uneven corona-electrostatic field is formed in the electroseparation zone. When it gets into it, the mineral grains are charged and fly through passages 9, 10 to P 12. Grains that cannot be charged in this field are poured into P 13. Small grains and dust are pressed to the surface B 3 and cleaned with a brush 15 in P 14. I il. from 9 seconds to t "from

Description

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The invention relates to a technique for the separation of bulk materials in an electric field into components that differ in their electrophysical properties, and can be used, for example, in the separation of micaceous ores.

The purpose of the invention is to increase the efficiency of the separation of bulk materials into components due to the stabilization of the electric field in the separation zone.

The drawing shows a corona-electrostatic separator.

The corona-electrostatic separator contains a hopper 1 with a feeder 2, a working body located below it, consisting of a rotating precipitation drum 3 and 4-6 corona-bearing electrodes and deflecting 7 and 8 electrodes placed along the longitudinal axis of the drum 3 above its surface one above the others with the formation of through passages 9 and 10 between them. A dielectric cutter 11 and receivers 12-14 of separation products are located under the working member. A brush 15 is fixed on the side of the casing for cleaning the dust drum 3 from dust.

The corona electrodes 4-6 are made in the form of concave plates with pointed edges facing the precipitator 3. The deflecting electrodes 7 and 8 are made in the form of dielectric plates tightly adjacent to the surface of the corona electrodes 4 and 5, and Corona electrodes 4-6 are fixed on the dielectric isolator 11.

The separator works as follows.

The original ore to be separated is poured into the hopper 1, the feeder 2 is fed to a rotating grounded settling drum 3. A high voltage is applied to the conductive plates of the discharge electrodes 4-6. At the same time, between the parallel, sprawling, sharp edges of the current

the conductive plates 4-6 and the surface of the settling drum 3 form a corona discharge field, and static electricity builds up on the surface of the dielectric plates 7 and 8. Thus, a complex, uneven corona-electrostatic Q field is formed in the electro-separation zone. Mineral grains, falling into an uneven corona-electrostatic field, depending on the electrophysical properties of the minerals, are charged in it and, having received a sufficient charge of 5, fly through the passages 9 and 10 to the receiver 12. Mineral grains that cannot be charged in the corona-electrostatic field, poured into the receiver 13, fine grains of mineral 2p and pyp are pressed by the electric field of the corona discharge to the surface of the precipitation drum 3 and brushed off it with the brush 15 into the receiver 14.

Claims (1)

Invention Formula Corona-electrostatic separator, which includes a feeder, a working body located under it, consisting of a rotating precipitation drum, Corona and deflecting electrodes placed above the drum surface one above the other with the formation of through passages between them, and cutters and receivers of products located under them. separation, characterized in that, in order to increase the efficiency of the separation of bulk materials into components by stabilizing the electric field in the separation zone; The corona electrodes are made in the form of concave plates with pointed edges facing the settling drum, and the deflecting electrodes are made in the form of dielectric plates tightly adjacent to the concave surface of the corona electrode, and the cutter is made of a dielectric material, and the corona electrodes are fixed on the shut-off device.