SU1479107A1 - Magnetic separator - Google Patents

Abstract

The invention relates to the magnetic separation of magnetite ores and increases the efficiency of the separation process by reducing the entrapment of magnetic flocs of non-magnetic particles. The separator contains a rotating non-magnetic drum 1 with its magnetic system 2 placed inside, a loading box 3 and a semi-counterflow bath consisting of a loading pipe 4 and a working zone 5. The nozzles placed in the bath sprayed 6 and the pipe 4 are directed towards the device 8 for unloading tails and installed at an angle of 30-85 ° to the vertical. The magnetic product is unloaded in device 7. The pulp through the duct 3 and the nozzle 4 enters the working zone 5. By tilting the nozzle 4 and the nozzles spraying 6, a decrease in the density of the pulp and the directionality of the flow are created in the working zone, and the flocculi of non-magnetic particles are reduced. The non-magnetic product is discharged into the device 8, and the magnetic one is carried out by the drum 1 to the device 7. 1 sludge.

Description

The invention relates to the separation of materials by magnetic properties and can be used in the enrichment of magnetite ores.

The purpose of the invention is to increase the efficiency of the separation process by reducing the capture of non-magnetic particles by magnetic flocs.

The drawing schematically shows a General view of the separator.

The magnetic separator includes a non-magnetic drum 1 with a magnetic system 2 located inside it, a loading box 3, a semi-countercurrent bath consisting of a loading nozzle 4 and a working zone 5, sprayed 6 with nozzles and discharge devices 7 and 8 for concentrate and tailings. The nozzles sprayed 6 and the loading nozzle 4 of the bath is inclined in the direction of the device for unloading the tails 8 and mounted to the vertical at an angle of 30–85 °. With this installation, the rear wall of the loading pipe 4 in the vertical plane of the drum 1 is associated with the working area 5 of the separator bath.

The device operates as follows.

The initial pulp from the loading box 3 enters the loading pipe 4 and through it at an angle of 30-85 ° enters the working zone 5 of the separator. Squirting 6 creates a reduced pulp density in the tailings discharge zone and in the power supply zone and imparts directional movement to the pulp flow. The non-magnetic part of the initial supply under the influence of hydrodynamic pressure by gravity enters the unloading device 8, and the magnetic product is attracted to the surface of the drum 2 by the action of magnetic forces, transported to the concentrate unloading zone and enters the unloading device 7.

Claims (1)

Claim A magnetic separator, including a non-magnetic drum with a magnetic system located inside it, a loading box, a semi-counterflow bath consisting of a loading nozzle and a working zone, sprayed with nozzles and devices for unloading concentrate and tailings, characterized in that by reducing the capture of non-magnetic particles by magnetic flocs, the nozzles sprayed and the loading nozzle are directed toward the device for unloading tails and are set at an angle of 30–85 ° to the vert potassium.