SU1648568A1 - Electromagnetic polygradient separator - Google Patents

Abstract

This invention relates to polygradient magnetic separation. The goal is to increase the efficiency and productivity of the separation process. The separator contains a rotor (P) 1 mounted rotatably around axis 7. The working chambers P 1 are filled with ferromagnetic filler in the form of corrugated plates (P) 2 of various heights. Installed P 2 in the chamber R 1 with alternating high and low. During rotation, P 1 passes between the pole pieces of the electromagnetic system 3. A feeder 4 is located above P1 and receivers 5 and 6 of separation products are located below it. The pulp is fed by the feeder 4 to the working chambers P1. Due to the different heights of P 2, in the upper part of them, induction is less; therefore, strongly magnetic particles settle here, and more weakly magnetic particles settle in the middle part of P 2. The non-magnetic fraction is drained into the receiver 5. By rotating P 1, the matrix P 2 is removed from the magnetic field. Water from the squirting 8 magnetic fraction is washed off into the receiver 6. The different height P 2 in the upper part of the matrix increases the gap between adjacent P 2, therefore the possibility of clogging up the gap decreases. 1 il.

Description

The invention relates to the enrichment of minerals and can be used in the enrichment of weakly magnetic ores of ferrous and non-ferrous metals,

The purpose of the invention is to increase the efficiency and productivity of the separation process.

The drawing schematically shows the proposed separator, General view.

The separator includes a rotor 1, corrugated plates 2 of different heights, an electromagnetic system 3, a feeder 4, receivers 5 and 6 of the separation products, respectively magnetic and non-magnetic, axis 7 and spray 8.

The rotor is fixed on axis 7 and has corrugated plates 2 of different heights on the periphery of the matrix. The magnetic target 3 of the electromagnetic system is closed through the rotor 1, feeder 4, spray 8 and receivers 5 and 6 of the separation products. 20

The separator works as follows.

The initial product in the form of a pulp containing a mixture of non-magnetic, weakly magnetic and strongly magnetic particles, through 25 feeder 4 enters the surface of the matrix of corrugated plates 2 of different sizes. Under the action of the magnetic field created by the electromagnetic system 3, strongly magnetic particles are attracted and 30 are fixed on the protrusions of the corrugated plates 2 in the upper part of the matrix. Medium-magnetic particles are attracted to the protrusions of the plates in the middle and lower part of the matrix, where the gap between the plates is small and the magnetic field is large. Non-magnetic 5 particles pass through a matrix of corrugated plates and enter receiver 5 for a non-magnetic product. Due to the rotation of rotor 1, the matrix of corrugated plates 2 with captured strong and medium magnetic particles 10 is removed from the magnetic field and enters the discharge zone, where, under the action of water coming from the spray 8, the captured particles are washed off and enter the receiver 5 of the magnetic product 15.

Claims (1)

Claim The electromagnetic polygradient separator, which includes an electromagnetic system with poles, with a rotor with a ferromagnetic filler, the upper edge of which is located above the pole pieces of the electromagnetic system, is rotatably mounted, the drive splashed, loading and unloading devices, characterized in that, in order to increase efficiency and separation process performance. the ferromagnetic aggregate is made of corrugated plates of different heights, while the plates of greater height are installed through one with the plates of lower height.