SU1708420A1 - Electromagnetic separator - Google Patents

Abstract

The invention relates to the extraction of weakly magnetic impurities from non-ferrous metal scrap and increases the efficiency of the separation process by increasing the intensity and gradient of the magnetic field while reducing the metal intensity of the magnetic system. The separator contains a feeder 1, an electromagnetic system 2 with pole pieces in the form of part of cylinders 3 located inside the drum 4. The conveyor belt 5 is provided with scrapers 6. Power is supplied from the hopper 7. In the pole pieces, multi-faceted grooves along their axis are made. The interpolar gap in the lower part of the drum is larger than in the upper ^. The source material from the hopper 7 is fed to the belt 5 by the feeder 1. Non-magnetic pieces tangentially to the drum 4 are fed to the receiver of the non-magnetic fraction. The weakly-magnetic pieces are attracted to the surface of the belt 5 in the working area and are discharged into the receiver: mass fraction. 2 il .'- ^^ 7S ^ S00 4b. Yu O

Description

The invention relates to mineral processing and can be used at enterprises of secondary non-ferrous metallurgy and processing plants for extracting 5 weakly magnetic lumpy waste from the material being enriched.

The purpose of the invention is to increase the efficiency of the separation process by increasing the intensity and gradient of the magnetic field in the working zone, while reducing the intensity of the electromagnetic system.

In FIG. 1 shows a separator, section; in FIG. 2 - pole pieces, size 15 res.

The separator includes a feeder 1, an electromagnetic system 2 with pole tips, made in the form of a part of cylinders 3 with a multifaceted groove along their 20 axis and located inside the drum 4, conveyor belt 5 with scrapers 6 loading hopper 7.

The separator works as follows. 25

The source bulk material from the hopper 7 is fed by a feeder 1 to the conveyor belt 5 passing through the working area of the separator. Non-magnetic pieces of material moving through the separation zone, not 30 are affected by magnetic forces and are tangential to the drum 4 are unloaded into the receiver for non-magnetic materials. The weakly magnetic pieces under the influence of magnetic forces are held on the conveyor belt 5 and with the help of scrapers 6 are removed from the separation zone and unloaded into the receiver for weakly magnetic materials.

The implementation of the pole pieces in the form of a part of cylinders with a multifaceted groove along their axis located inside the drum, and the clearance between the poles with its increase in the discharge zone can increase the magnetic field in the working area of the separator, and therefore, increase the efficiency of the separation process and improve the conditions of unloading weakly magnetic material.

Claims (1)

Claim An electromagnetic separator comprising an electromagnet with pole pieces installed with a gap between each other, located inside the drum on a non-magnetic axis, a conveyor belt covering the drum and receivers of separation products, characterized in that, in order to increase the efficiency of the separation process by increasing the tension and tension gradient magnetic field in the working area while reducing the metal intensity of the electromagnetic system, the pole pieces are made as part of a cylinder with many faceted groove along its axis, while the gap between the pole pieces in the lower part of the drum is greater than in the upper. Figure 2