SU874191A1 - Electromagnetic rotary separator - Google Patents

Description

(54) ELECTROMAGNETIC ROTARY SEPARATOR

The invention relates to the field of mineral processing and can be used for the magnetic enrichment of finely divided weakly magnetic ores and for iron removal of various materials in the mining, coal preparation, metallurgical, chemical and other industries. A known electromagnetic separator, made in the form of an annular vessel, placed in a magnetic field filled with ferromagnetic chips or sawdust. And the disadvantage of this separator is the low efficiency of the separation process. A known electromagnetic rt separator comprising a rotor with cells filled with ferromagnetic bodies, an electromagnetic system, an actuator, a feeder, receivers of separation products, devices for supplying flush water 2. A disadvantage of the known separator is the low efficiency of the process. The purpose of the invention is to increase the efficiency of the separation process, hey, by ensuring the optimal speed of pulp through ferromagnetic bodies and reducing the flow turbulence. This goal is achieved by installing discharge chambers under the rotor cells, which are made tapering in the direction of material movement, and the chambers are equipped with interchangeable nozzles. FIG. 1 shows the proposed separator, a general view; in fig. 2 section A-A without ferromagnetic bodies. Electromagnetic rotor separator consists of electromagnetic (magnetic) system 1 with excitation winding 2, rotor 3, divided by partitions 4 into cells, under which discharge chamber 5 is installed with attachment 6 of shaft 7, drive 8, water supply devices 9, sprayer 10, sprayed 11 and 12, a bath 13, which has receivers 14, 15 and 16 for discharging non-magnetic, intermediate and magnetic products. The rotor cells 3 are filled with ferromagnetic bodies 17, for example, jagged plates. The discharge killers 5 have outlet openings 18 which are smaller than the inlet openings 19. The chambers 5 are attached to the rotor cells using electric welding, but other mounting methods can be used, for example, by means of a flange connection.

In order to enable the control of the pulp flow rate through ferromagnetic bodies, each chamber 5 is equipped with a system of interchangeable nozzles.

The principle of operation of the separator is the following.

When the rotor 3 rotates, each cell and chamber 5, with interchangeable nozzle b, when approaching a strong magnetic field, are pre-filled with water supplied from tool 9 located in the immediate vicinity of the pit 10, which, with an appropriate choice of the diameter of the interchangeable nozzle 6 provides the optimal flow rate of the pulp through ferromagnetic bodies, reduces the turbulence of the pulp movement and eliminates jet breakage.

Then, into the rotor cell, pre-filled with water, at the entrance to the strong field zone from the feeder 10, power is supplied which, due to the presence of V chamber 5 (with interchangeable nozzle 6), flows through ferromagnetic bodies with a given optimal speed

Magnetic particles are attracted to the surface of the ferromagnetic bodies 17 and, by rotating the rotor 3, are removed from the strong field.

The non-magnetic part of the pulp, passing through ferromagnetic bodies, is discharged through the nozzle b into the bath receptacle 13 for the non-magnetic product 14. When the rotor cell leaves the strong field, it is washed with water supplied from the blister .11 to release an intermediate product that is discharged into bath receiver 13 for intermediate product 15, In the zone, there is no magnetic field, flush water is supplied from the igniter 12 and the magnetic product is discharged into the bath receiver 13 for the magnetic product.

Installation under the rotor 3 cells to & 5, in which the outlet openings are smaller than the inlet openings, provides the optimum rate of flow of pulp through ferromagnetic bodies and reduces the turbulence of the flow of pulp, which contributes to a significant increase in the operating efficiency of the electromagnetic rotor separator.

The results of preliminary studies on the deferrization of the chamber product of the feldspar flotation of the Vishnevogorsky mine control show that the installation of chambers under whose rotor ensures removal of feldspar to 68.4% and an increase in the efficiency of enrichment to 55.4%.

Claims (3)

1. Electromagnetic rotary separator, which includes a rotor with cells filled with ferromagnetic bodies, an electromagnetic system, a feeder, receivers of separation products, devices for supplying flush water, due to the fact that, in order to increase the efficiency of the separation process, pulp through ferromagnetic bodies and reduce turbulent-. These streams have discharge chambers under the rotor cells. , 2. The separator according to claim 1, which is made constricted in the direction of movement of the material. 3. Separator on the PP. 1 and 2, that is, in order to be able to control the flow rate of the pulp, the chambers are equipped with interchangeable nozzles. Sources of information taken into account in the examination 1. USSR author's certificate 60933, cl. B 03 C 1 / 10.09.01.39. .2. International Congress on Mineral Rescue (London, April, 1960). M., Gosgortekhizdat, 1962, .0.424-425