SU1618447A1 - Magnetic separator - Google Patents

Abstract

This invention relates to the sorting of ferrous and non-ferrous scrap in a magnetic field. The goal is to increase the efficiency of extraction of ferrous and non-ferrous metals from scrap due to the intensification of its mixing. The separator contains an inclined rotatably mounted cylinder (C) 3. On its outer surface, belt conveyors (C) 4 are fixed along the forming C 3. There may be several, for example, four. On the tapes K 4, permanent magnets (PM) 8 are fixed with a gap relative to each other. All K 4 are installed with the possibility of reciprocating motion. To supply scrap, K 18 serves. To remove non-magnetic and non-conductive material, serve K 19. Receiver 20 serves to collect electrically conductive non-magnetic fraction (non-ferrous metal), receiver 16 and 17 to collect magnetic fraction (ferrous metal). Scrap is fed into inside of C 3 with K 18.

Description

This invention relates to the extraction of magnetic and non-magnetic metals from streams of bulk materials and can be used in the metallurgical and mining industries.

The purpose of the invention is to increase the efficiency of extraction of ferrous and non-ferrous metals from scrap due to the intensification of its mixing.

FIG. 1 shows a separator, a general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a view B in FIG. one.

The magnetic separator contains a cylinder 3 made obliquely on the rollers 1 and rotated by a corresponding drive 2 of a non-magnetic material, on which a system of equidistant conveyors 4 is fixed, consisting of a frame 5 with driving drums 6 equipped with an oscillating driving drive. The length of the conveyors 4 is equal to the length of the generator of the cylinder 3. The conveyors 4 are installed on the cylinder 3 in the direction of the generator. Outside, the conveyors 4 are covered with protective covers 7. There is a belt on the reels 6 of the tension, on which magnets 8 are placed with a gap relative to each other. Between them there are non-magnetic sections Q of the tape, and the working side of the magnets 8 is shaped like the outer surface of the cylinder 3. Near the lower end of the cylinder 3 there are radial struts 10, which are led out into zones free from the influence of the magnets 8, on which the conical shell 11 facing the base in the direction of inclination of the cylinder 3. In addition, there is a shaft 12 for transmitting the rotation of the cylinder through the sleeve 13 to the shaft 14 of the current distribution box 15, To control the drives of the conveyors 4 and supplying electricity to wires through radial supports 10, which are tubes, and axial holes of shafts 12 and 14, couplings 13 are brought into current distribution box 15. The separator has right 16 and left 17 boxes for magnetic metal, source conveyor 18 and outlet conveyor 19 non-magnetic materials, a box 20 for non-magnetic metals, mounted in the lower part of the upper end. The separator works as follows.

The source material is introduced into the rotating, through the drive 2 and the rollers 1

a cylinder 3 of non-magnetic material by the conveyor 18. Being in the lower position, the conveyors 4 are turned on, the belts begin to move in reciprocating, oscillating movements in the direction

the upper end of the cylinder 3. As a result of the rotation of the cylinder 3 and the reciprocating oscillatory movements of the magnets 8 between which there are non-magnetic sections 9 of the tape, the material moves intensively, and the magnetic field does not act on non-magnetic materials, so they move to the lower edge of the cylinder 3 and the income is up to radial struts 10, which impede the movement of non-magnetic material due to the fact that the material can be lifted by the struts 10, to fall, therefore the struts have an annular cross section and a conical The shell 11, directed by a large base towards the output end of the cylinder 3. The shell 11 takes the blows of materials falling from racks 10 and dumps it to the lowest point of cylinder 3. Next, non-magnetic materials pass radial struts 10 and slightly moving along the cylinder are removed through its lower end on the conveyor 19 non-magnetic materials. Non-magnetic metals in rotating cylinder 3 are subject to eddy currents induced by magnets, and oscillatory currents induce eddy currents. the movement of the magnets 8, so they move to the upper edge of the cylinder 3 and are discharged into the duct 20 for non-magnetic metals.

5 The magnetic particles adhere to the inner surface of the cylinder 3 and move upward due to the rotation of the cylinder 3, making oscillatory movements due to the movement of the magnets 8, while the magnetic particles shake and release the particles of non-magnetic material trapped with them. Having reached the top point, the conveyor 4 moves the tape with magnets in the direction of the right 16 or left 17 box for the magnetic material and releases the magnets 8 from the magnetic material.

The advantages of the magnetic separator are that due to the oscillating, reciprocating movements of the magnets, a more efficient separation of the magnetic and non-magnetic metal occurs, which is expressed in higher quality of the produced magnetic metal, faster upward movement of the non-magnetic metal, more efficient unloading of the magnetic material as there is no discharge chute.

Claims (1)

Invention Formula Magnetic separator, including an inclined rotatably mounted cylinder with a magnetic system, a feeder and receivers of separation products, characterized in that, in order to increase the efficiency of extracting ferrous and non-ferrous metals from scrap by intensifying its mixing, the separator is equipped with belt conveyors with a drive attached on the outer surface of the cylinder along its generators and installed with the possibility of reciprocating motion along the axis of the cylinder, the magnetic system being in a permanent magnet mounted on conveyor belts with gaps relative to each other, wherein the magnet side facing the cylinder, made in the form of its outer surface. ЈAAAЈS2ZS5g2SS ZЈ2Z2SaysX -i fP, AA 7 86 Chgg-g-gch g 4g.  ZЈ2Z2SaysX -i fP, I | ----- f ----- p 1 g us uuh; ogaz Phi 2 But B sixteen eleven FIG. 3 ten 18