RU78097U1 - TWO-SYSTEM MAGNETIC SEPARATOR - Google Patents

Abstract

The two-system magnetic separator is designed for the enrichment and separation of magnetic, weakly magnetic, paramagnetic, diamagnetic electrically conductive materials, as well as for cleaning magnetic impurities in chalk, ceramic, glass and other industries. The separator consists of a conveyor with an endless conveyor belt mounted on rotating driven and leading dielectric drums, two magnetic systems made in the form of a magnetic rotor inside the drums. Magnetic systems are equipped with independent drives, with the help of which the rotors rotate in two opposite directions. The driving dielectric drum is equipped with its own geared motor with a variable frequency drive, which allows changing the speed of the conveyor belt and is external. Magnetic systems are located in space at an angle to each other and the movement of the tape is directed towards the outer driving drum located above. Such a technical solution of a two-system magnetic separator makes it possible to simultaneously obtain the magnetic and electromagnetic fields of magnetic systems, which ensures efficient separation of the starting material. Improving the quality of the magnetic concentrate and the concentrate of electrically conductive materials occurs due to the possibility of rotation of the additional magnetic system installed in the drive drum, as a result of which the material falling on the conveyor belt into three fractions: electrically conductive, magnetic and particles of minerals that do not have these properties.

Description

The two-system magnetic separator is designed for the enrichment and separation of magnetic, weakly magnetic, paramagnetic, diamagnetic electrically conductive materials, as well as for cleaning magnetic impurities in chalk, ceramic, glass and other industries.

A known installation for the enrichment of mining waste (RU No. 43197, publ. 10.01.2005), containing a conveyor with an endless belt mounted on rotating drums, a magnetic system made in the form of a magnetic rotor inside the driven drum of the conveyor belt, and the magnetic rotor is equipped with with its drive, with the help of which the rotor rotates in two opposite directions, an additional unit of electrostatic separation of waste, a distributor of waste fractions, a receiver of the separated fraction of waste odes.

The disadvantage of this installation is the incomplete separation of mining waste in one processing cycle, i.e. a second recycling cycle is needed with the help of an additional electrostatic separation unit, which leads to an increase in the cycle time for more complete waste separation and an increase in energy consumption.

The closest technical solution to the proposed utility model is an installation for the enrichment of iron ore concentrate (RU No. 57641, publ. 10/27/2006), containing a loading device, a conveyor with an endless belt mounted on rotating drums, a magnetic system made in the form of a magnetic rotor inside the driven drum, conveyor belt and consisting of an internal magnetic drum and an external dielectric drum.

The disadvantage of this installation is the incomplete separation of magnetic, weakly magnetic, paramagnetic, diamagnetic conductive materials, as well as the incomplete separation of magnetic from weakly magnetic and non-magnetic conductive materials.

The objective of the proposed technical solution is to expand the arsenal of devices that increase the separation efficiency, the principle of operation of which is based on the difference between the magnetic and electrical conductive properties of substances used in the enrichment of any inert finely dispersed medium or purification of impurities of both highly magnetic and weakly magnetic, paramagnetic, and diamagnetic conductive particles.

The task is implemented in the proposed two-system magnetic separator, including a loading device, a conveyor with an endless conveyor belt mounted on rotating dielectric drums, a magnetic system inside the driven drum, made in the form of a magnetic rotor equipped with a drive, through which the rotor rotates in two opposite directions, and the separator is equipped with an additional magnetic system, in the form of a magnetic drum, consisting of permanent magnets with alternating polarity installed inside the drive drum and having an independent motor to enable rotation in two opposite directions.

Distinctive features of the proposed technical solution is that:

- the separator has an additional magnetic system, in the form of a magnetic drum, consisting of their permanent magnets with alternating polarity;

- each magnetic system is equipped with an independent motor with a variable frequency drive, which allows changing the number of revolutions and the direction of rotation of the magnetic drums;

- magnetic drums are located inside two external, leading and driven drums made of dielectric material, interconnected by an endless conveyor belt, also made of dielectric material;

- the driving dielectric drum is equipped with its own gear motor with a frequency-controlled drive that allows you to change the speed of the conveyor belt and is external;

- magnetic systems are located in space at an angle to each other, and the movement of the tape is directed towards the outer driving drum located above.

Such a technical solution of a two-system magnetic separator allows both magnetic and electromagnetic fields of magnetic systems to be obtained, which ensures efficient separation of conductive and magnetic particles from mineral particles that do not have these properties in the driven drum’s working zone, as a result of which particles with conductive magnetic properties get onto the conveyor belt and only a small amount of inert material. Improving the quality of the magnetic concentrate and the concentrate of electrically conductive materials occurs due to the possibility of rotation of the additional magnetic system installed in the drive drum, as a result of which the material falling on the conveyor belt into three fractions: electrically conductive, magnetic and particles of minerals that do not have these properties.

The proposed technical solution is presented in figure 1.

The two-system magnetic separator comprises a hopper 1, an adjustable vibratory feeder 2 for supplying the source material, a conveyor belt 3 of dielectric material, a magnetic system 4 located in the driven drum 5, and a magnetic system 6 located in the driving drum 7.

The device operates as follows.

The source powder material is fed into the hopper 1 of an adjustable vibrator 2, from where it is evenly sprinkled vertically with a thin stream at a certain distance from the conveyor belt 3 and the magnetic system 4 located in the driven drum 5, which is made of dielectric material and rotates in two opposite directions from its own drive ( not shown in fig.). The particles of the source material are affected by a magnetic field from permanent magnets and an electromagnetic field created by the rotation of the permanent magnets of the magnetic system 4. Magnetic particles of the source material are captured by the magnetic field formed by the magnetic system 4 and magnetized to the conveyor belt 3. In non-magnetic, but conductive particles, the electromagnetic field induces electromotive force, under the influence of which these particles also fall under the action of the magnetic system 4. Magnetic particles MF, electrically conductive parts a particle capture EPF with a certain amount of inert material, which together form concentrate C. All other inert materials are sent to waste X1. Despite the strong magnetic attraction to the magnetic system 4, the conveyor belt 3 pulls together the particles of the concentrate and directs them upward to the magnetic system 6. Once in the zone of influence of the magnetic system 6, particles having the magnetic properties of MF rotate together with the conveyor belt 3 around the lead drum 7 and are separated from it with decreasing exposure to magnetic and electromagnetic fields. Non-magnetic conductive particles of EPF under the influence of the electromagnetic field of the magnetic system 6, on the contrary, repel from the magnets, charging the same charge. Other non-magnetic and non-conductive particles X2 carry out a free fall by inertia. An increase in the angle of elevation between magnetic systems located in space does not allow non-conductive and non-electromagnetic particles to move upward along with the concentrate; they

fall back under their own weight, and in addition to this, a stream of inert particles is blown off from the conveyor belt in the form of dust (not shown in the figure). The location of magnetic systems at an angle in space increases the separation efficiency and the quality of the concentrate by 1-2% compared to the horizontal arrangement of magnetic systems.

Thus, separation of the starting material into fractions with a high degree of efficiency is achieved.

A two-system magnetic separator can be used in the mining industry:

- for preliminary enrichment of black and (or) color concentrates with the “dry” or “wet” method with a particle size of 0.2 mm;

- for the enrichment of waste from the factories of the enrichment of iron ore production to commercial concentrate;

- for the separation of materials into magnetic and non-magnetic fractions with simultaneous purification from inert components and increasing the content of Fe.

It can be used in the metallurgical industry for the preparation of materials and for the enrichment of iron ore concentrate to an Fe content of more than 71.5% with a particle size of 0.074 mm.

Claims (3)

1. A two-system magnetic separator, including a loading device, a conveyor with an endless conveyor belt mounted on rotating driven and driving dielectric drums, a magnetic system made in the form of a magnetic rotor inside the driven drum of the conveyor belt, the magnetic rotor is equipped with its own drive, by means of which rotation rotor in two opposite directions, characterized in that the separator is equipped with an additional magnetic system in the form of a magnetic drum, consisting of tinuous magnets with alternating polarity, mounted inside the master drum and having an independent motor in order to allow its rotation in the two opposite directions. 2. The two-system magnetic separator according to claim 1, characterized in that the driving dielectric drum is equipped with its own gear motor with a frequency-controlled drive that allows you to change the speed of the conveyor belt, and is external. 3. The two-system magnetic separator according to claim 1, characterized in that the magnetic systems are located in space at an angle to each other, and the movement of the tape is directed towards the outer driving drum located above.