RU2400307C2 - Belt magnetic separator - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: invention relates to magnetic concentration of magnetite ores for high quality products production. The belt magnetic separator includes two non-magnetic rotary drums wherein magnetic systems are contained composed of permanent magnets as well as separation products receptacles. The magnetic systems are composed of permanent magnets of the neodymium-iron-boron type shaped as rectangles with magnetic moments directed in one side and composed of several magnets with a rotation axis coinciding with that of the drums and passing through their geometrical axes so that to enable rotation from individual drives and with variable frequency to meet the movement of the conveyor belt with partitions generating a directed flow of rotary magnetic particles rising from the bottom to the top with re-cleaning at the second drum.

EFFECT: invention enables improved selectivity of separation and production of concentrates rich in iron.

2 dwg

Description

The invention relates to the field of magnetic concentration of magnetite ores to produce high quality products.

Known magnetic tape separators with an electromagnetic system with sharply changing and decreasing maximum tension, which ensures separation of particles in suspension by repeatedly raising particles to the magnetic system and dropping them [V. B. Chizhevsky. Investigation of the process of dry magnetic separation of fine material in suspension. Ore beneficiation. 2006, No. 2, p.25-28].

The disadvantage of this separator is the small number of magnetization reversal cycles of the separated product.

The closest technical solution to the proposed one is an electrodynamic separator, including a transporting body, receivers of separation products and a magnetic system made in the form of a rotating disk with permanent magnets mounted on it [A.S. No. 1139506, class B03C 1/10, publ. 02/15/1985. Bull. No. 6 (prototype)].

The disadvantage of this separator is the presence of braking torque when moving the material along the tape and, as a result, low productivity and low selectivity of separation, the inability to obtain high quality products.

The technical result of the proposed separator is a high separation selectivity and the possibility of obtaining concentrates with a high iron content.

The indicated technical result is achieved in that in a magnetic tape separator, including two non-magnetic rotating drums, in each of which there are magnetic systems made of permanent magnets, receivers of separation products, it is new that the magnets are located so that their magnetic moments are directed to one side, and the axis of rotation coincides with the axis of rotation of the drums and passes through their geometric axis with the possibility of rotation from individual drives with a variable frequency towards the movement conveyor belt.

A new technical result is achieved thanks to two rotating magnetic systems, which allow one to obtain alternating magnetic fields that destroy magnetic flocs, pull particles of a valuable component from the lower conveyor (the first system), cause the particles to roll over and run along the surface of the conveyor belt into the operating zone of the traveling magnetic field of the second system, which makes it possible to obtain high-quality concentrate.

Figure 1 shows the tape separator on the side, figure 2 shows a section of the magnetic system.

The inventive magnetic tape separator consists of a conveyor belt 1 with a loading device 2, rotating drums 3 and 4, with the possibility of adjusting the number of revolutions, inside of which there are magnetic systems 5 of unitary design, having the ability to rotate around an axis parallel to the axis of the drums, with variable speed from individual drives and creating traveling magnetic fields. The design of the magnetic system is made with the possibility of installing several magnets with magnetic moments directed in one direction, and the formation of blocks from them in order to obtain the necessary magnetic induction on the surface of the drum - within 0.3 T. Thus, using various layout options neodymezoborodnogo magnetic plates 6, the induction is achieved, which is necessary and sufficient for the enrichment of magnetite ore in different modes of separation. Feeder 2, gate 7 and receivers of products 8, 9, 10 allow the process to be conducted in a continuous mode.

The work of the separator is as follows. The enriched material through the feeder 2 enters the surface of the conveyor belt 1 and is transported to the magnetic field of the rotating magnetic system 5 formed by magnetic plates 6. Once in the traveling magnetic field, the magnetic particles begin to rotate and from the conveyor 1 rise to the conveyor belt 11, due to the rotation and movement of the conveyor belt, they move to the drum 4. The described phenomenon effectively destroys the flocs, while non-magnetic particles fall on the conveyor 1, and magnetic particles - the protractor They are fed to the drum 4, on which the process is repeated - after-treatment takes place and using the slide device 7 the material is divided into magnetic 8 and intermediate product 9.

By changing the distance h from the conveyor 1 to the magnetic system 5, as well as the speed of rotation of the system, high purity fractions can be obtained.

The advantages of the inventive tape magnetic separator are that the use of traveling magnetic fields created by magnets with high magnetic induction leads to the extraction of rich valuable components and due to magnetization reversal and directional upward movement to an effective separation of ore, which is fixed on the second drum, which performs the function of a cleanup .

The results of the experiments showed that through the use of combined magnetic systems it is possible to enrich large-sized unclassified material, which significantly expands the scope of magnetic separation as an independent operation in mines, quarries, factories, without losing a valuable component.

Claims (1)

A magnetic tape separator, including two non-magnetic rotating drums, in each of which there are magnetic systems made of permanent magnets, receivers of separation products, characterized in that the magnets are located so that their magnetic moments are directed in one direction, and the axis of rotation coincides with the axis the drums rotate and passes through their geometric axes with the possibility of their rotation from individual drives with a variable frequency towards the movement of the conveyor belt.

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