SU659188A1 - Electrodynamic separator - Google Patents

Description

one

The invention relates to the field of mineral processing, in particular, to devices for separating and classifying a mixture of particles of non-magnetic materials and electrical conductivity, for example, for separating copper from lead or aluminum from lead.

The electrodynamic separator is known, which includes a transporting organ, a liqueur motor electric actuator, a waveguide with Iazas and located under the transporting body, a feeder and receivers of separation products 1.

The disadvantage of this separator is the short time the magnetic field is exposed to particles with high electrical conductivity, as a result of which they experience a weak impulse of force from the magnetic field H. their trajectories differ little from the trajectory of particles with low specific electrical conductivity, which reduces the separation efficiency.

The aim of the invention is to increase the efficiency of the separation process.

This is achieved by the fact that the separator is equipped with an additional inductor, made with grooves and located above the transporting body, the slots of the main inductor being placed along the transporting body, and the additional grooves perpendicular to the transporting body.

The drawing shows the described seyarator.

The electrodynamic separator includes a transporting body I, an inductor 2 of a linear electric motor, an iodine transporting body, a feeder 3, an additional inductor 4 located above the transporting body and a main inductor, a receiving device 5 for particles with low conductivity and a pre-device 6 for particles with large electrical conductivity.

The separator works in the following manner.

The mixture of particles from the feeder 3 enters the transporting orgai 1 and is transported in the direction of the receiving device 5. Particles with a high specific electromotiveness in the gap between the inductors 2 and 4 are subject to a force effect from their traveling fields. Running

an additional inductor 4 (the direction is indicated on the drawing by the vector Ud) due to the location of its grooves perpendicular to the transporting body is directed to meet the movement of the mixture of particles and decelerates the particles with

3

large conductivity, and the traveling field of the inductor 2 (direction indicated in the drawing by the vector Vo) drives its grooves parallel to the transporting body, pulls these particles into the receiving device 6. Particles with low specific conductivity do not experience the traveling fields of the inducers 2 and 4 and unhindered transported to receiver 5.

The presence of an additional inductor 4, which brakes particles with a high specific electrical conductivity, increases the efficiency of the recovery, since the particles are in the separation zone for longer time than particles with a small specific electrical conductivity. The location of the additional inductor above the transporting organ and the main inductor allows one to obtain an induction value of 0.2-0.25 T, which is an order of magnitude higher than the UHF using one inductor. An increase in induction in the area of senation (in the gap between the inductors) leads to an increase in the force effect of the running floor

inducers on particles with high electrical conductivity, and, consequently, increases the efficiency of senation.

Claims (1)

Invention Formula Electrodynamic separator, including a transporting body, linear motor inductor, made with grooves and located under the transporting body, feeder and receivers of separation products, so that, in order to increase the efficiency of the separation process, the separator is equipped with an additional an inductor, made with grooves and located above the transporting body, the main inductor is located along the transporting body, and the additional grooves are perpendicular to the transport governing body. Sources of information taken into account in case of ekertise 1. Patent of France L 2.116.430, cl. In OZS 1/00, pub. 1971.