SU961784A1 - Electrodynamic separator - Google Patents

Description

one

The invention relates to the enrichment of minerals and can be used to separate and classify metals by their electrical conductivity.

An electrodynamic separator is known, in which permanent magnets are used to extract non-ferrous metals from a mixture with non-metals. The electrodynamic separator contains a loading device, a transporting organ, a unloading device and means for creating a traveling magnetic field, which is made in the form of a drum with magnets mounted on its surface. Moreover, the axis of rotation of the drum is parallel to the plane of transportation of the material being separated. When the drum is rotated with permanent magnets, a traveling magnetic field is created which induces eddy currents in the particles of non-ferrous metals. As a result of the interaction of the vortex soils in the particles of non-ferrous metals with a traveling magnetic field, the forces that push these particles out of the traveling magnetic field 1 appear.

The disadvantage of such a separator is the unevenness of the magnetic field strength in the separation zone.

The closest to the proposed technical essence and the achieved effect is an electrodynamic separator, including a transporting body, an traveling magnetic field inductor, made in the form of a roller with permanent magnets of alternating polarity located on the surface, the axis of rotation of which is perpendicular to the axis of the transporting body 2.

The disadvantage of this separator is the low efficiency of extraction of electrically conductive particles.

The purpose of the invention is to increase the efficiency of extraction of electrically conductive particles by uniformly distributing magnetic induction across the width of the transporting organ.

This goal is achieved due to the fact that the magnets are placed along a helix.

In addition, the inductor is located under the transporting body.

The drawing schematically shows the described separator.

The separator contains a transporting body 1, an inductor traveling magnetic field, made in the form of a roller 2 with grooves 3 on the surface, and the grooves are made along a helical line, magnets 4 with alternating polarity are placed in the grooves, the receiver 5 is colored metal.

Electrodynamic separator works as follows.

The separable mixture is fed through the transporting organ 1 into the working zone of the separator, which is determined by the diameter of the roller 2. In the working zone, the separable mixture enters the traveling magnetic field. rotation of the permanently created filament 4. Moreover, the permanent magnets 4 are arranged in the spiral grooves 3 made on the roller 2 so that in the adjacent grooves there are magnets 4 of opposite polarity. A running magnetic field induces eddy currents in nonferrous metal particles. The magnetic field of the eddy currents, interacting with the traveling magnetic field, causes the non-ferrous metal particles to be entrained by the traveling magnetic field and move to the bunker 5 for the non-ferrous metal in which they are assembled. The force that acts on the non-ferrous metal particles and removes them from the working surface of the transporting organ 1 depends on the frequency of rotation of the roller 2 with permanent magnets 4 and the induction of a traveling magnetic field ;. Installing the roller in a plane parallel to the plane of transportation of the separated mixture, perpendicular to the direction of transport, leads to the fact that the traveling magnetic field on the working surface of the transporting body 1 has a uniform magnitude characteristic of magnetic induction. This is achieved thanks to that.

that roller 2 is installed perpendicular to the direction of transport, which makes it possible to bring roller 2 as close as possible to the working surface of transporting organ 1 along its entire width. And this leads to the fact that non-ferrous metal particles in the working zone of the separator are acted upon by forces of the same magnitude across the entire width of the working surface of the transporting organ 1. This increases the efficiency of extraction of non-ferrous metal from the stream of the mixture being separated. The proposed electrodynamic

Claims (2)

the separator allows to increase the extraction of non-ferrous metal, due to the more efficient use of the entire width of the working surface of the transporting organ. Claim 1. Electrodynamic separator, including a transporting body, an inductor running a magnetic field, made in the form of a roller with alternating polarity permanent magnets located on it, the axis of rotation perpendicular to the axis of the transporting body, characterized in that, in order to increase efficiency efficiency extraction of electrically conductive particles by uniformly distributing the magnetic induction along the width of the transporting organ; on the surface of the roller are made along a helix; Threat, which placed the magnets. 2. A separator according to claim 1, characterized in that the inductor is located under the conveying body. Sources of information taken into account in the examination 1. US patent number 3448857, cl. 209-212, publ. 1969. 2. The patent of France No. 2.116.430, c. В 03 С 1/00, published. 1972 (prototype). -1 h