SU1197217A1 - Electromagnetic separator - Google Patents

Description

The invention relates to the field of mineral processing and can be used to separate ferro, para and diamagnetic materials. five

The closest technical solution to the proposed is an electromagnetic separator, which includes an electromagnetic system consisting of conductive elements that are located parallel to each other at equal distances, and the working body in the form of a canister [1] ..

The disadvantage of this separator is its unsuitability when separating diamagnetic and paramagnetic materials according to the magnetic properties.

The purpose of the invention is the expansion of <the technological capabilities of the separator by providing the possibility of 20 separation of diamagnetic and paramagnetic materials according to their magnetic properties.

This goal is achieved by the fact that in an electromagnetic separator, including an electromagnetic system consisting of conductive elements arranged parallel to each other at equal distances, and an operating unit in the form of a canister, the conductive elements are located in the same plane, and the canister is located parallel to the plane of the arrangement of conductive elements. In addition, the conductive elements are made 35 in the form of rods, the separator is provided with an additional canister located symmetrically with the main one, the canisters are equipped with conveyors arranged parallel to their walls. At 40 this, the ratio of the width of the conductive element to the distance from its middle to the outer wall of the canister is chosen to be 1: 2.

The drawing shows the proposed 45th separator, a slit.

Electromagnetic separator includes an electromagnetic system consisting of conductive elements (busbars) 1 made of superconductors 5θ and located parallel to each other at equal distances, the working body in the form of canisters 2 arranged symmetrically, in which

installed parallel to the walls of the conveyor 3.

Electromagnetic separator works as follows.

Through the conductive elements 1 of the electromagnetic system, an electric current is passed, the current directed in the neighboring elements in opposite directions, as a result of which a highly non-uniform magnetic field occurs inside the canisters 2. Through the canister 2 is continuously pumped pulp. The action of magnetic forces between ferro and paramagnetic particles moves to the nearest 4, and diamagnetic to the far 5 walls of canisters with a speed proportional to the product of their magnetic susceptibility and average size, from where they are removed by conveyors 3. The enrichment efficiency is determined from the formula

Ze x ²

9

where p ₀ = 4ΪΓ · 10 GN / m;

N - the number of tires in the magnetic

system, "

ΐ - the period of the location of the tires;

V - pulp flow rate;

ES - volume magnetic susceptibility;

x is the average particle size;

- viscosity of the pulp;

L - technical current density. The arrangement of the conductive elements in the same plane and the canister parallel to the plane of the arrangement of the elements provides for an increase in the magnetic force in the working area by eliminating magnetic flux dispersion. With this arrangement, there is no region with zero field strength, and the execution of the conductive elements in the form of rods will provide optimal conditions for the passage of current, and the ratio of the width of the conductive element to the distance from its middle to the outer wall of the canister is chosen to be at least 1: 2 for the optimum ratio between device performance-. va and material consumption.

1197217

Claims (5)

ELECTROMAGNETIC SEPARATOR, including an electromagnetic system, "consisting of conductive elements arranged parallel to each other at equal distances, and a working body in the form of a canister, characterized in that, in order to expand the technological capabilities of the separator by allowing the separation of diamagnetic and paramagnetic materials according to their magnetic properties, the conductive elements located in one plane, and the canister is placed in parallel: the plane of the arrangement of conductive elements. 2. The separator according to claim 1, characterized in that the conductive elements are made in the form of rods. 3. The separator under item 1, characterized in that it is provided with an additional canister, located symmetrically main. 4. Separator on the PP. 1 and 3, in that the canisters are provided with conveyors arranged parallel to their walls. 5. Separator pop. 1, characterized in that the ratio of the width of the conductive element to the distance from its center to the outer wall of the canister is chosen to be 1: 2. 1197217 one 1197217 2