RU115689U1 - Conveyor Concentrator - Google Patents

Abstract

 1. Conveyor-conveyor, comprising a frame, conveyors, each of which includes a conveyor belt mounted on a rotating master and driven drums, a magnetic system inside the driven drum, a receiving hopper, an inert particle removal and accumulation system, characterized in that the conveyors are N pieces are mounted sequentially on a common frame and have one geometric axis, and the system of removal and accumulation of inert particles in the amount of N pieces is made in the form of a receiver of inert particles, a tray, a storage tank and a vertical second pipe which is the support for a common frame. ! 2. Conveyor-conveyor according to claim 1, characterized in that the common frame can be inclined or horizontal. ! 3. Conveyor-conveyor according to claim 1, characterized in that the number of conveyors corresponds to the number of systems for removal and accumulation of inert particles and is equal to N greater than two.

Description

The utility model relates to devices for transporting and enriching bulk magnetic materials and can be used in mining, metallurgical and other industries.

Known tape magnetic separator (RU 2400307, publ. 09/27/2010), including two rotating drums, in each of which are magnetic systems made of permanent magnets, and receivers of separation products.

Also known is a tape separator (JP 62221455, published on 09/29/1987), including belt conveyors placed on top of one another, in one of which is a magnetic system in the form of an electromagnet, the magnetic field of which is directed towards the lower conveyor.

The disadvantage of these technical solutions is that such belt separators cannot be used to transport bulk magnetic material both over large and short distances.

The closest in technical essence to the proposed utility model is a device for double magnetic separation (CN 201168645, published 24.12.2008), including a frame, conveyors, with a conveyor belt mounted on rotating drums, a magnetic system, a receiving hopper, a removal and accumulation system inert particles in the form of an electromagnetic vibratory feeder.

The disadvantages of this device are the availability of additional equipment for moving material between conveyors, the inability to transport bulk magnetic material on an inclined surface upwards, since the drums of one conveyor are located on the frame above the drums of another conveyor, i.e. with offset relative to each other.

The objective of the proposed technical solution is to expand the arsenal of devices for transporting bulk magnetic materials both over large and short distances while cleaning from inert particles.

The problem is solved using the proposed conveyor-concentrator containing a frame, conveyors, each of which includes a conveyor belt mounted on a rotating drive and driven drums, a magnetic system inside the driven drum, a hopper, a system of removal and accumulation of inert particles, and the number of conveyors N pieces are mounted sequentially on a common frame and have one geometric axis, the system of removal and accumulation of inert particles in the amount of N pieces is made in the form of a receiver of inert particles, otka, storage tank and the riser, which is the support for a common frame.

 The novelty of the claimed technical solution is confirmed by the fact that, unlike the known solution:

- conveyors in the amount of N pieces are fixed sequentially on a common frame at a certain distance from each other and have one geometric axis, which allows you to change the angle of inclination of the frame and the distance of transportation of bulk magnetic material;

- the magnetic system inside the driven drum, which is equipped with an independent drive, allows the transportation of bulk magnetic material between conveyors without installing additional equipment due to the magnetic field of the magnetic system, the value of which is set taking into account the magnetic properties of the original bulk magnetic material;

- the system of removal and accumulation of inert particles in the amount of N pieces is made in the form of a receiver of inert particles, a vertical pipe, a tray and a storage tank, and a vertical pipe for removal of inert particles is a support for the common frame, i.e. performs a dual function.

This technical solution of the conveyor-concentrator allows the transport of bulk magnetic material along the conveyor belt of the conveyors when they are horizontal or inclined, and the material is moved between the conveyors due to the influence of the magnetic field created by the rotation of the magnetic system and in addition, the bulk magnetic material is inert particles in suspension at the junction of conveyors due to the influence of the magnetic field of magnetic systems s.

Figure 1 shows a General view of the conveyor-enrichment, figure 2 shows the node And in figure 1.

The conveyor-enrichment device contains a loading device 1, a common frame 2, which can be inclined or horizontal, conveyors 3 in the amount of N pieces, mounted on a common frame 2, each of which includes a conveyor belt 4, a driving drum 5 and a driven drum 6, inside of which a magnetic system 7 is installed, equipped with an independent drive to enable its rotation at different speeds in two opposite directions and made in the form of a magnetic drum consisting of permanent magnets alternating along a circle of polarity, a receiving hopper 8, a system of removal and accumulation of inert particles in the amount of N pieces in the form of a receiver of inert particles 9, a vertical pipe 10, a tray 11 and a storage tank 12. The number of conveyors mounted on the frame is N more than two and depends on the transportation distance and the required quality of the bulk magnetic material at the exit. The number of systems of removal and accumulation of inert particles corresponds to the number of conveyors and is equal to N greater than two.

The operation of the conveyor-concentrator is as follows. Bulk magnetic material through the loading device 1 is uniformly fed onto the conveyor belt 4 of the first conveyor 3 and transported to the junction with the second conveyor 3, where under the influence of a magnetic field created by the rotation of the magnetic system 7 located inside the driven drum 6 made of dielectric material, the magnetic particles of the original bulk magnetic material are captured by a magnetic field, attracted to the conveyor belt 4 of the second conveyor 3 and transported to the last conveyor 3, from which it enters the receiving hopper 8. The inert particles of the source material cannot overcome the free space between the conveyors 3 and, under the action of gravity, fall into the inert particle receiver 9 and, along the vertical pipe 10, which serves as the support of the common frame 2, enter storage tank 12.

Thus, the task is solved, with the help of the proposed conveyor-concentrator, bulk magnetic material is transported both over long and short distances, and at the same time, inert particles are cleaned.

The proposed conveyor-concentrator can be used at the stages of loading and unloading vehicles, when transporting iron ore concentrate to the shops of metallurgical plants, and when processing technogenic deposits of concentration plants in the mining industry.

Claims (3)

1. Conveyor-conveyor, comprising a frame, conveyors, each of which includes a conveyor belt mounted on a rotating master and driven drums, a magnetic system inside the driven drum, a receiving hopper, an inert particle removal and accumulation system, characterized in that the conveyors are N pieces are fixed sequentially on a common frame and have one geometric axis, and the system of removal and accumulation of inert particles in the amount of N pieces is made in the form of a receiver of inert particles, a tray, a storage tank and a vertical second pipe which is the support for a common frame. 2. Conveyor-enrichment according to claim 1, characterized in that the common frame can be inclined or horizontal. 3. Conveyor-conveyor according to claim 1, characterized in that the number of conveyors corresponds to the number of systems for removal and accumulation of inert particles and is equal to N greater than two.