SU1233937A1 - Electrodynamic separator - Google Patents

Description

The invention relates to the separation of materials according to electrical conductivity and can be used in the processing of non-ferrous metal scrap for separating a mixture of non-magnetic particles into electrically conductive and non-electrically conductive fractions

The purpose of the invention is to improve the extraction and quality of the concentrate by creating areas with different orientations of a running magnetic field in the working area.

Fig, 1 shows a separator, general view; in fig. 2 - separator inductors, cut.

The electrodynamic separator contains a feeder 1, a belt conveyor comprising a belt 2 and a belt 3 and 4 driven drums, lower 5 and upper b inductors of a traveling magnetic field, located below and above conveyor belt 2, respectively, and receivers 7 and 8 for electrically conducting and non-conductive materials. The bottom 5 and top 6 inductors have the same design and are made in the form of a rectangular magnetic conductor 9 made of electrical steel, made with grooves 10 in which: 1 K windings are located. The pole division of the inductors is the same. 51 Inductors are considered to be the fact that the lower inductor 5 has grooves located across the conveyor belt 2, and the upper 6 along it. In addition, the lower inductor 5 is made in the direction of the drive drum 4 longer by an amount equal to 4-b pole divisions. The lower inductor 5 has grooves O with windings .11 not placed in them along its entire length.

and on the part that extends beyond the upper inductor 6 in on the direction of the driving drum 4 of the belt conveyor. Top inductor

b has grooves along the entire length.

The separator works as follows.

The conveyor belt 2 is driven by rotating the drive train.

Rabana 4 in the direction indicated by. FIG. arrow d. The original mixture is fed by feeder 1 to tape 2, preferably a monolayer. The windings 1I are supplied with alternating voltage, while

inductors 5 and 6 produce traveling magnetic fields oriented in the mutually perpendicular directions shown in FIG. 1 arrow / 3 and y. Under the action of the lower running floor

inductor 5, electrically conductive particles move in the opposite direction to the flow of the initial mixture. At the same time, they can carry away non-conductive particles due to mechanical coupling.

When entering the zone of action of the upper inductor 6, the electrically conductive particles drastically change their path, directed across the tape to the receiver 7. At the same time, they are freed from trapped non-conducting particles. By experience, it has been established that the best results are obtained when the length of the inductor 5 is longer than the length of the inductor 6, in the direction of the drive

drum 4 by an amount equal to 4-6 pole divisions.

Electropod particles, to which the traveling magnetic field does not act, move by a conveyor in

side of receiver 8 and unload into it.

cpuz 2

Claims (1)

ELECTRODYNAMIC SEPARATOR, containing a conveyor belt with tension and drive drums, traveling magnetic field inductors with the same pole division, one of which is located below and the other above the conveyor belt, the feeder and receivers of separation products, which differ in that, with In order to increase the extraction and quality of concentrate by creating sections in the working aeon with different orientations of a traveling magnetic field, the length of the lower inductor in the direction of the drive drum is greater than the length of the upper by 4– 6 pole divisions, and the feeder is installed above the conveyor belt between the -. water drum and upper inductor § rum. F*./ SU ,, „1233937 A1 ί