SU50586A1 - Electromagnetic belt separator - Google Patents

Description

The existing high-intensity electromagnetic separators have the significant disadvantage that their performance is low, despite their considerable size and weight.

The main disadvantages of these separators (such as Veterill, etc.) are due to the following reasons:

1) the length of the working space is insignificant and cannot be significantly increased due to the construction of the separator itself;

2) the movement of the removed magnetic grains, with respect to the movement of the material being processed, is perpendicular and not parallel;

3) the magnetic flux scattering is large, since the coils are located far from the working space.

In the proposed separator, these drawbacks are eliminated, due to which high productivity and compactness of the structure are achieved. With the same performance, magnetic field intensity and power consumption, the weight of the proposed separator, according to the inventor, is about 5Vo of the average weight of existing separators.

With group operation of separators, this design allows compact arrangement of them both with sequential and parallel p б bot.

High separator productivity can expand the area of electromagnetic enrichment, at the expense of other methods, in relation to hematite, limonite, iron ores, etc.

The design features of the separator are as follows:

1) the movement of the conveyor belt along the interpolar gap formed by a pair of horizontally arranged cores, which allows to increase the length of the working space and the speed of the belt;

2) conveyor belt and tape removal are parallel; due to this, the gap between the tapes is reduced, which makes it possible to use the intensive part of the magnetic field;

3) the coils are located on the pole cores in close proximity to the working space, which greatly reduces the magnetic flux scattering.

In FIG. 1 shows a longitudinal view and FIG. 2-section of the electromagnetic element.

The coils 3 are worn on the cores 2 connected by the rm 1; 4-frame separator; 5 stripping tape (for magnetic fraction); 6-conveyor belt; 7-feeder; 5 zholob for magnetic fraction.

Subjected to the enrichment of ore is fed through the feeder 7 to the conveyor belt 6; in the area of the magnetic field, the grains of magnetic minerals rise upward, pressing against the removal tape 5. When exiting the magnetic field, the grains are dropped into the trough S.

Grains of non-magnetic minerals are discharged at the end of the conveyor LRNTY 6.

The subject matter of the invention.

An electromagnetic belt separator using two parallel endless conveyors arranged one above the other, one of which serves to feed material and the other to discharge the magnetic fraction, characterized in that the conveyor 6 is located along the interpolar gap formed by a pair of horizontal cores 2.

Ip

FIG. ti

Shig. i