SU1537297A1 - Overhead self-unloading electromagnetic iron separator - Google Patents

Abstract

This invention relates to magnetic separation. The goal is to reduce metal consumption and dimensions of the separator while increasing its reliability. The iron separator includes a discharge conveyor and an electromagnet containing core 1, poles 2 with pole pieces (PN) 3 and magnetizing winding (BUT) 8. The discharge conveyor contains tape (L) 4 with scrapers 5. The working branch L 4 is located under PN 3, not working branch L 4 - between PN 3 and BUT 8. Poles 2, core 1 and BUT 8 are located outside the discharge conveyor. When the HO 8 is connected to a direct current source between the PN 3, a non-uniform magnetic field is created. Magnetic inclusions are attracted to the working branch L 4 and are scraped by the scrapers 5 to the unloading zone, where the field is absent and they fall into the receiver. 2 Il.

Description

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The invention relates to magnetic separation and is intended for use in coke-chemical plants, thermal power plants, ore-dressing and metallurgical plants, cement factories, etc., to extract ferromagnetic objects from coal, ore, sand, molding compounds and other non-magnetic materials.

ferromagnetic metal turns. The magnetizing winding 8 is connected to a direct current source and the discharge belt conveyor of the separator is set in motion (in the direction of arrow C in Fig. 2). As a result, in the working volume between the pole tips 3 a stationary non-uniform magnetic field is created, under the action of which ferromagnetic metals turn off

The purpose of the invention is to reduce the metal content and dimensions of the separator at 10 are extracted from the flow of bulk material, while increasing its reliability. la, "stick to the working branch of the movement. In FIG. 1 shows the iron separator, the discharge belt 4, and with

cross section; in fig. 2 shows a section AA of the scrapers 5 transported out of bounds in FIG. 1. pole tips 3 where

| The iron separator consists of electromagnetically weakening the magnetic field by means of a filament with a C-shaped magnetic conductor, including natural falling away, i.e. unloading the extracted ferromagnetic objects into any receiver.

 core 1, poles 2 attached to core 1, pole pieces 3 attached to poles 2, and a magnetizing winding placed on core 1 from a belt unloading conveyor that includes a belt 4 with scrappers 5 of non-magnetic material tensioned on the drums 6, mounted on the frame 7. The working branch of the tape 4 is the formula of the invention

Suspended self-unloading electromagnetic separator, including an electromagnet with poles, pole pieces, and a magnetizing wound under pole tips 3, ",. which and unloading conveyor belt, and non-working - between the pole tip-working branch of the tape which is located

3 and the magnetizing winding 8. Poles 2, core 1 and winding 8 are pole-type electromagnet tips, characterized in that, in order to reduce metal consumption and dimensions of the separator while simultaneously increasing the separator, the non-working branch works

beds outside the discharge conveyor.

in a way.

The iron separator is installed above the conveyor, moving any loose non-magnetic material (coal, ore, sand, etc.) with the contained

the discharge conveyor belt is installed between the magnetizing winding of the electromagnet and its pole pieces, while the poles and the electromagnet winding are located outside the discharge conveyor.

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4 ferromagnetic metal inclusions. The magnetizing winding 8 is connected to a direct current source and the discharge belt conveyor of the separator is set in motion (in the direction of arrow C in Fig. 2). As a result, in the working volume between the pole tips 3 a stationary non-uniform magnetic field is created, under the action of which ferromagnetic metals turn off

 removed from the flow of bulk material, "stick to the working branch of the moving discharge belt 4 and

Claims (1)

Invention Formula A suspension self-unloading electromagnetic separator including an electromagnet with poles, pole pieces and magnetizing windings of the discharge conveyor is installed between the magnetizing winding of the electromagnet and its pole tips, and the poles and winding of the electromagnet are located outside the discharge conveyor. W //////////// 79r-5 I e