CS226742B2 - Multigradient magnetic separator - Google Patents

Description

226 742

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-gradient magnetic coil with two horizontal rotors rotating between internal and external electromagnets with water-magnetic fields.

Multi-gradient magnetic separators are known, in which both rotors and external electromagnets are arranged on different support elements and are separated by more flat, non-rotatable mounting surfaces. There are beams between the coils of the inner and outer magnets. The rotormagnetic separator is driven by a shaft acting as a driving element, the rotors being supported by other additional elements.

The above-described magnetic separators have the following drawbacks. It is impossible to produce accurate and inexpensive manufacturing technology and to center and center it with the required precision. The iron bodies used unnecessarily increase the height of the iron bodies, which creates conditions for the dispersion of magnetic flux and attenuation of the magnetic fields. Additional rotor carrier elements result in substantially complicated configurations of magnetic separators and do not allow precise centering of the working members. SUMMARY OF THE INVENTION It is an object of the present invention to provide such a multi-stage magnetic separator, the components of which are 2 226 742 easy to manufacture, to allow perfect assembly and disassembly and self-centering and to create adequate conditions for achieving strong magnetic fields.

The essence of the invention is that the inner electromagnets are cylindrical on the back and mounted on a cylindrical hollow body, which is fixed by bearings, on a light shaft, the shaft carrying a central part of the magnetic separator and simultaneously connecting it to one another. Tory. The advantages of the magnetic separator according to the invention are as follows: All elements of the central part of the magnetic separator, that is, the shaft, the hollow body, the internal electromagnets and the rotors are deposited on the cylindrical rotating surfaces. This ensures easy and precise assembly of parts, easy and convenient assembly and disassembly. Furthermore, the best possible centering and self-centering of the parts is ensured as their cylindrical contact surfaces are co-joined with each other. Self-centering rotors with respect to the shaft of the bore holes in their hubs. The self-centering of the shaft with respect to the cylindrical hollow body is carried out by centering the bearings and bearing seats in the body and centering the inner magnets, with respect to the body and thus 3 226 742 to the shaft and to the rotors, by means of the outer body surface.

There are no supporting elements between the electromagnetic coils. Thereby, the iron body is lowered. iron bodies and their weight by 15 to 20 ° / o, while the intensity of magnetic fields increases by 5 to 8 ° / 0 · The middle part of the magnetic coil is easy to mount as a whole. Only the two bearings, top and bottom, of the support shaft, which are only fixed and fixed, require centering. If these are self-adjusting bearings, then further centering and assembly facilitations are provided, because there is no possibility of certain tolerances for the shaft or the shaft. Both bearings. At the same time, the magnetic diffuser shaft performs two functions, on the one hand, the function of the supporting element of the central part of the machine and the function of the driving element of the rotor. An exemplary embodiment of the invention is shown in the accompanying drawing, in which: Figure 1 is a vertical sectional view of a multi-gradient magnetic coil, in Figure 2 a horizontal section through a magnetic separator.

The magnetic separator consists of an upper rotor 1a of the lower rotor 2 which is mounted on a vertical drive shaft J which is mounted in the lower bearing 4 and in the upper bearing 5. which are mounted on / fixed support structure. A hollow cylindrical body 6 is mounted on the shaft 7 in the space between the two rotors, which is mounted on the shaft 3 by a bearing 7 and 8, the bearing 8 supporting the weight of the hollow body 6 and the parts mounted thereon.

Internal electromagnets 9 are mounted on the cylindrical body 6, the rear sides of which are machined to form cylinders. The external electromagnets 10 are a non-mounted rigid structure. The rotors are driven by a shaft 3 which is connected at one end to a corresponding drive device. The internal electromagnets 9 and the outer electromagnets 10 are connected to each other by a vent pipe 12 which prevents rotation of the cylindrical hollow body 6 by the shaft 3. The weight of the central portion of the magnetic the satellites consisting of the rotors 1 and 2, the shaft 3 of the cylindrical body 6 and the internal electromagnets 9 are transmitted by the lower bearing 4.

The crushed ore is mixed with water and mashed

is fed through the lance to the lateral annular spaces 10 of the two rotors, which are arranged between the inner and outer electromagnets 9, 10. The coupled magnetic 226 742 and non-magnetic fractions pass through the open portion of the annular spaces, and the shearer and ampere are discharged.

Claims (1)

Subject matter of the invention 226 742 A multi-gradient magnetic separator with two dark rotors, rotatably mounted between inner outer electromagnets with horizontal magnetic fields, characterized in that the inner electromagnets (9) are mounted on a cylindrical hollow body (6) which is fixed by means of bearings on a vertical shaft (3) carrying a central portion of the magnetic separator and simultaneously connecting its rotors (4,1).