UA17530U - Method of magnetic concentration of ores and materials - Google Patents

Abstract

A method of magnetic concentration of ores and materials includes the supply of material of initial feed, the displacement of material into the area of influence of magnetic system, the separation of material under the action of magnetic centrifugal and gravitational forces, its separation to concentrates.

Description

Description of the invention

The utility model relates to the mining and beneficiation industry, in particular, to methods of magnetic 2 beneficiation of ores and materials to obtain an intermediate or final product that can be used as a raw material for metallurgical enterprises.

In addition, the declared technical solution can be used as an intermediate technological link, which allows for preliminary enrichment of iron magnetic and weakly magnetic ores immediately after extraction as a result of cleaning excavation in underground and open mining. 70 A known method of magnetic beneficiation of iron-containing ores, which consists in the upper feeding of the initial feed material to a rotating drum with a magnetic system, further separation of the material into beneficiation products by holding magnetic particles on the surface of the drum. The unloading of the magnetic product pressed against the drum is carried out beyond the boundary of the magnetic system, and the non-magnetic product is separated from the general flow due to centrifugal and gravitational forces. 75 The main procession. Ed. O.S. Bohdanova. M. "Nedra", 1983, pp. 164-165).

The disadvantage of the known method of magnetic separation is the low degree of extraction of iron-containing iron particles in the magnetic product. The method is characterized by a short length of the separation zone, which leads to insufficiently effective separation of the magnetic fraction and large losses of iron-containing particles with tails of the enrichment process.

The closest technical solution, chosen as a prototype, is a method of magnetic enrichment of ores and materials, which includes the upper feeding of the initial feed material in front of the magnetic system influence zone of a rotating drum equipped with a magnetic system, moving the initial feed material into the magnetic system influence zone, separating the material under the action magnetic, centrifugal and gravitational forces with the formation of a natural fan of material flows, their separation into beneficiation products (Patent of Ukraine Mo37833A for the invention "Method of dry magnetic beneficiation of ores and materials". Published on 15.05.2001. Bull. Mo41.

The disadvantage of the known method is that the supply of the initial feed material to the drum, which has a high rotation frequency to obtain a natural fan of material flows, contributes to a significant scattering of pieces. Pieces of non-magnetic material that have a significant size can change their trajectory, fall into the magnetic enriched product, deteriorating its quality. The high frequency of rotation of the drum necessitates the use of a large magnetic system, which complicates the separation process, especially with weakly magnetic ores.

The task of the useful model is to improve the method of magnetic beneficiation of ores and materials due to sequential vibration processing of the beneficiated material and feeding it to the transporting working body in the form of a continuous belt, which is equipped with drive and tension drums, one of which is supplied with a magnetic system that ensures the separation of the initial material into components according to magnetic properties: -- magnetic and intermediate product, as well as empty rock - enrichment tails.

The implementation of the technical solution allows to ensure effective separation of magnetic and weakly magnetic ores, as well as to include in the ore extraction process the preliminary magnetic separation of extracted raw materials to reduce the technological load on the main processing equipment of the beneficiation complex. This increases the efficiency of ore enrichment, reduces the cost of its extraction and further processing into conditioned metallurgical raw materials.

From" The task is solved due to the fact that the method of magnetic enrichment of ores and materials includes the upper feeding of the initial feed material in front of the zone of influence of the magnetic system of a rotating drum equipped with a magnetic system, the movement of the initial feed material into the zone of influence of the magnetic system, separation of the material under the action of magnetic , centrifugal and gravitational forces with the formation of natural - fan flows of material, their separation into enrichment products. - According to a useful model, the initial feed material is subjected to preliminary vibration and fed to a continuously moving transporting working body, which is performed in the form of a continuous belt, which is also equipped with tension and drive drums, while moving the initial feed material into the zone

Ge) 20 under the influence of the magnetic system, which is installed inside the drive or tension drum.

The declared technical solution is illustrated by the structural diagram of the method of magnetic enrichment of ores and materials.

The main units that implement the proposed method of magnetic enrichment of ores and materials in the complex are an electrovibration feeder and a belt-pulley magnetic separator with 29 high-energy permanent magnets, which has a transporting working body - a continuous belt with tension and drive with drums. A magnetic system is placed inside one of the drums.

The method is carried out as follows. From the hopper (1), the mineral raw material enters the electro-vibrating feeder (3) equipped with an electric drive (4) through the adjustable unloading hole (2).

On the electrovibration feeder, the raw material is prepared for separation due to its segregation. 60 This allows you to move large pieces to the lower part of the layer that is formed on the surface of the transporting working body - the continuous belt (5) and, accordingly, to ensure sufficient attraction of large magnetic pieces to the drum equipped with a magnetic system. Then the prepared segregated material enters the continuous belt (5) of the separating device.

Enriched material as it moves along the belt (5) enters the zone of the drive (6) or tension drum (7) equipped with a magnetic system (8). In the zone of action of the magnetic system (8), magnetic particles are captured, and particles of hollow rock are separated from the general flow under the action of centrifugal forces.

Magnetic particles move with the drum to the exit from the zone of influence of the magnetic system. Enrichment products are located in receivers (9, 10, 11), the walls of which play the role of separating devices. At the same time, the first receiver (9) contains the richest product (concentrate) with a significant mass fraction of the iron component, the second receiver (10) contains an intermediate product with weak magnetic properties, and the third receiver (11) contains the product with the lowest mass fraction of the useful component - enrichment tails.

The product in the receiver (10), located between the concentrate and the tails, is intermediate and, depending on the desired result, can be combined with the concentrate or the tails. If necessary, the intermediate 7/0 product can be sent for purification, as a result of which the yield of the concentrate is increased.

The electro-vibration feeder is installed for the purpose of preparing mineral raw materials for beneficiation, as the segregation of particles occurs on it under the action of disturbing forces of variable direction, which arise during fluctuations of the medium. Thus, the separator receives pre-prepared raw materials classified by size and density, which improves the enrichment process.

Enrichment of weakly magnetic ore is possible when using a magnetic system with high-energy permanent magnets, which provide magnetic induction from 1.0 to 0.4-0.6 T in the separation zone. This magnitude of induction is sufficient for the ore particles to be attracted to the surface of the separator under the influence of the magnetic field, and the empty rock to be thrown away from it by the force of the densitrifier at a given distance.

The method provides a highly intensive mode of enrichment of iron ore raw materials and allows more complete

To use in the process of separation of the initial raw materials, in addition to magnetic and gravitational forces.

The reduction of wear of the transport body - a continuous belt - is provided by resting it on rollers. At the same time, the idle branch of the belt interacts with the supporting rollers, and the working branch interacts with the supporting rollers.

The amount of sagging of the working branch of the tape is adjusted with the help of a tensioning device.

Depending on the enriched raw material and its properties, the method allows you to change the parameters of the technological process by varying the action of the magnetic system on the product, choosing the optimal speed of movement of the working transport body, forming a layer of the initial product with the given geometric (and about, granulometric parameters, the degree of particle segregation, changing the frequency and the amplitude of the vibration processing of the enriched raw material when it is loaded onto the transport body.

The conducted studies showed that the proposed method allows to increase the efficiency of enrichment of magnetic raw materials due to operational change of enrichment parameters, depending on the quality indicators of the initial product. and,

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Claims (1)

The formula of the invention h-35, | . at. : -- The method of magnetic enrichment of ores and materials, which includes the upper supply of the initial feed material in front of the zone of influence of the magnetic system of a rotating drum equipped with a magnetic system, the movement of the initial feed material into the zone of influence of the magnetic system, separation of the material under the action of magnetic centrifugal and gravitational forces with the formation a natural fan of material flows, separating them into "enrichment" products, which differs in that the initial feed material is subjected to a preliminary vibrational action and from c is fed to a continuously moving transport working body, which is performed in the form of a continuous belt, which is equipped with tension and drive drums, with this moves the original material :from" power to the zone of influence of the magnetic system, which is installed inside the drive or tension drum. - -And 1 at 50 (42) with 60 b5