SU1487999A1 - Drum-type magnetic separator - Google Patents

Description

The invention relates to magnetic separation of low-magnetic materials. The goal is to increase the efficiency of the separation process by increasing the extraction of the magnetic product. Inclined cylindrical magnetic system (MS) 1 CO2

It consists of permanent magnets 2 and ferromagnetic pole pieces 3. The latter form grooves (P) on the inner surface of the MC 1. Inside the MC 1, a cylindrical shell 6 is placed eccentrically with protrusions included in P in the lower part of the MC 1. The feeder 9 serves the source material inside the shell 6. In P creates a field with an increased intensity gradient. The magnetic product is attracted to the surface of the protrusions of the shell 6 and due to the rotation of the MS 1, and hence the shell 6, rises in the upper zone. There, the magnetic field on the surface of the shell 6 is weakened due to its eccentric location relative to MS 1. Therefore, the magnetic product is unloaded into the receiver 10. The non-magnetic product enters the receiver 11.4 Il.

5 and 1487999 A1

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1487999

The invention relates to the field of separation of materials according to magnetic properties and can be used in the beneficiation of weakly magnetic ores.

The purpose of the invention is to increase the efficiency of the separation process by increasing the extraction of the magnetic product.

FIG. 1 shows a separator, a cross-section; in fig. 2 — node I in FIG. one; in fig. 3 - node II in FIG. one; in fig. 4 - section A — A in FIG. one.

Drum magnetic separator includes an inclined cylindrical magnetic system 1, consisting of successive permanent magnets 2 and ferromagnetic pole pieces 3.

Pole tips 3 have protrusions 4, the tops of which are located along the axis of symmetry of the latter, and the number of protrusions 4 and grooves 5 on the inner surface of the magnetic system 1 is equal to the number of pole pieces 3 and permanent magnets 2. The bottom of each groove 5 between two adjacent protrusions 4 pole pieces 3 serves as the surface of the magnets 2.

Inside the magnetic system 1 there is a cylindrical thin-walled shell 6, the diameter of which is less than the internal diameter of the magnetic system 1. The surface of the shell 6 is a series of consecutive protrusions 7 and cavities 8, and the projections of the magnetic system 1 and the projections 7 of the shell 6 are equidistant and have different pitch and height and the number of projections of the shell 6 is one less than the number of projections of the magnetic system 1.

The shell 6 is located inside the magnetic system 1 eccentrically so that in the lower part the protrusions 7 of the shell 6 enter into the corresponding grooves 5 of the magnetic system 1 (are in “engagement”), and in the upper part between the magnetic system 1 and the shell 6 there is some air gap.

The feeder 9 serves to feed the source material, and receivers 10 and 11, respectively, for receiving magnetic and non-magnetic products.

The separator works as follows.

The source material is fed by the feeder 9 into the working zone formed in the lower part of the magnetic system 1 by the slots 5. Under the influence of the magnetic field between the protrusions of the 4 pole tips 3, magnetic particles are attracted to the walls and bottom of the cavities 8 located between the projections 7 of the sidewall 6.

When the magnetic system 1 rotates, the shell 6, which is in the engagement, rotates. The magnetic particles rise by the depressions 8 of the shell 6 to the upper part of the magnetic system 1 and are removed from the zone of action of the magnetic field. Here, under the influence of gravity or water, the magnetic particles are discharged into the receiver 10. Non-magnetic particles remain in the lower part of the shell 6, from where they are output to the receiver 11.

Full unloading of magnetic particles, including strongly magnetic (magnetite, hardware iron), is caused by an air gap between the magnets 2 of the magnetic system 1 and the shell 6. The air gap ensures the reduction of magnetic forces in the zone of cleaning the magnetic fraction to zero.

Claims (1)

Claim Drum magnetic separator, including an inclined cylindrical magnetic system with grooves on the inner surface, a cylindrical shell eccentrically placed inside the magnetic system, feeder and receivers of separation products, characterized in that, in order to increase the efficiency of the separation process by increasing the extraction of the magnetic product, the magnetic system is installed rotatable and made of permanent magnets separated by pole pieces forming grooves directed along the image cylinder, and the shell is made with protrusions that repeat the shape of the slots of the magnetic system and are included in them. 1487999 FIG. 2