SU934600A1 - Method of electrodynamic separaion - Google Patents

Abstract

A METHOD OF ELECTRODYNAMIC SEPARATION, which includes feeding the initial mixture into the working area, exposing it to a running magnetic field, unloading the separation products, characterized in that, in order to increase the efficiency of the separation process due to more complete extraction of non-ferrous metal particles, opposite directions in a plane perpendicular to the plane of motion of the initial mixture. W Ш оо 1 о

Description

The invention relates to the field of mineral processing, in particular to the extraction of non-ferrous metals from municipal solid waste. The known method of electrodynamic separation is based on the interaction of the eddy currents of the particles and the traveling magnetic field acting on the flow of the material being separated. . ., The lack of e. Th - low degree of extraction of non-ferrous metals. The closest in technical essence and the achieved effect is the method of electrodynamic separation, including the supply of the initial mixture to the working zone, the action of a running magnetic field on it, the discharge of separation products. The disadvantage of it is incomplete extraction of non-ferrous metals. The purpose of the invention is to increase the efficiency of the separation process due to more complete extraction of non-ferrous metal particles. This goal is achieved by operating in a traveling magnetic field in opposite directions in a plane perpendicular to the plane of motion of the initial mixture. 1 shows a device that implements the proposed method, side view; figure 2 - the same view in the plan; fig. 3 - the same, front view. The device contains a loading tray 1, a receiving tray 2, a transporting body 3 with a conveyor belt 02 that 4, receiving bins 5 for conductive metal particles, a trodvig 6. The method is as follows. The initial mixture, consisting of electrically conductive and non-conductive particles, flows through the loading chute 1 to the conveyor belt 4 of the conveyor 3. The ribbon mixture moves to the separation zone, i.e. to the region where magnetic fields running in opposite directions are created with the help of linear motors 6 (field directions are indicated by arrows). Under the action of traveling fields of linear electric motors in electrically conductive non-magnetic particles, eddy currents are induced, the interaction of which with traveling fields leads to the emergence of electromagnetic forces that dump particles into receiving bins 5 for electrically conductive particles. The non-conductive and magnetic particles are transported by tape to the receiving tray 2 for the non-conductive particles. The installation of linear motors with running magnetic fields of opposite directions makes it possible to increase the extraction of non-ferrous metals into the conductor fraction in the medium, by 10–15%. The separation efficiency is increased by reducing the likelihood of delay of electrically conductive particles in the separation zone by non-conductive and magnetic particles.

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Claims (1)

SP0C0B of ELECTRODYNAMIC SEPARATION, including the supply of the initial mixture to the working area, exposure to it with a traveling magnetic field, unloading of separation products, characterized in that, in order to increase the efficiency of the separation process due to more complete extraction of non-ferrous metal particles, exposure to a running magnetic field is carried out in opposite directions in the plane perpendicular to the plane of motion of the initial mixture. SU „934600