SU915967A1 - Magnetic separator - Google Patents

Description

The invention relates to the beneficiation of minerals.

Known magnetic separator, including a cylindrical bath, a cylindrical magnetic system that creates a running magnetic field, a rotating drum located inside the bath, devices for power supply and discharge of separation products GP ·

The disadvantage of this separator is the low efficiency of the separation process due to the combination of material loading zones and the unloading of the magnetic product and clogging of the concentrate with waste rock.

The closest to the proposed technical essence and the achieved effect is a device for depleting pulps, which includes a cylindroscopic case, a traveling magnetic field system placed in a casing and installed in ^a cylindrical part of the case

2

supplies for feeding and unloading separation products E2).

The disadvantage of this device is the low quality of the magnetic product due to the low efficiency of the separation process.

The purpose of the invention is to improve the sepa ration efficiency of the separation process by creating a vertical downward gradient of the magnetic field in the working area.

This goal is achieved by the fact that the casing of the magnet separator system is made in the form of a truncated cone.

Between the housing and the casing are annular cone-shaped guides.

The drawing shows the described separator.

The separator includes a feeder 1, a power distributor 2, a conical casing 3 with a traveling magnetic field magnetic system 4 placed inside it, and annular cones

915967

guides 5, discharge canopy 6, ^ receiving funnels for tails 7 and. concentrate 8, cylindrical housing 9Magnetic separator works 5

in the following way.

The source material through the feeder 1 and the power distributor 2 is fed into the separator from the top around the entire perimeter of the conical casing 3. In the magnetic field, magnetic particles are pressed to the surface of the casing 3 and under the action of gravity and magnetic force due to the vertical gradient of the magnetic 15 field way down. The cone shape of the housing 3 causes a weakening of the magnetic field at the top of the separator -Operating zone and generates a vertical magnetic field gradient, nal- _m systematic way down and increasing the rate of passage of the material through the separator.

As a result, in the upper part of the separator in the zone of a weak magnetic field, intergrowths and non-magnetic particles are removed from the magnetic material, and magnetic particles under the action of gravity and the vertical component of the magnetic force move 30 down the surface of the casing 3 downwards, where they are unloaded with concentrate hopper 8.

Non-magnetic particles and intergrowths ₃₅

together with drain enter the hopper 7 tailing "and removed from the separator. 5 guides prevent ingress of adhesions and nonmagnetic particles back into the magnetic separator ₄₀ discharges are.

The conical shape of the casing of the magnetic system creates such a distribution of the magnetic field in the material separation zone, in which splices and non-magnetic particles are intensively removed from the starting material into the tailings and the speed of movement of magnetic particles through the separator increases, resulting in improved quality of the magnetic product and separator performance therefore, the separation efficiency is increased.

Claims (2)

Claim 1. Magnetic separator, including cylindrical corpus, traveling field magnetic system placed in the casing and installed in the cylindrical part of the body, devices for powering and unloading separation products, characterized in that, in order to increase the efficiency of the separation process by creating in the working area vertical, downward gradient of the magnetic field, the casing is made in the form of a truncated cone. 2. Separator by. Claim 1, in that annular cone-shaped guides are located between the case and the casing.