RU2580868C1 - Device for dry magnetic separation of magnetic grain products - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mineral processing in processes of dry magnetic separation of polydisperse granular ore and alluvial materials in core, recleaning and finishing operations. Device for dry magnetic separation magnetic granular product contains a magnetic system and a hopper for collection of enriched product. Magnetic system made in form of a drum into a cylindrical shape with enlarged diameters at ends of its bases and a smaller diameter in middle, is rotatable about its axis and embedded therein a permanent magnet and a stationary thin tape covering magnet system from separated material receiving unit comprising hoppers for non-magnetic intermediate and magnetic products. Tape is made of wear-resistant material with thickness less than 0.1 mm and is rigidly attached at one end above loading site loading nozzle, and to other end in lower part of load attached tension. By pulling tape on drum, it takes form of trough drum due to difference in diameters at ends of its bases D_mo and middle D_c (D_mo> D_c).

EFFECT: technical result is improved quality of separation of primary products.

1 cl, 2 dwg

Description

The invention relates to the field of mineral processing in the dry magnetic separation of polydisperse granular ore and placer materials in basic, cleaning and lapping operations.

Known magnetic separation devices using permanent magnets (drum, tape, etc.) [Textbook V. Karamzin and Karamzin V.V. "Magnetic methods of enrichment", Moscow, "Nedra", 1984, Ch. 5, p. 177-239.]

The disadvantage of these devices is the relatively large thickness of the non-magnetic casing, limiting the magnetic system from the enriched product, while the scattering of the magnetic field increases sharply when moving away from it (in quadratic dependence on the distance), requiring the use of permanent magnets with increased magnetic field strength, therefore, more expensive.

The aim of the invention is to improve the quality of separation of the starting products and create optimal conditions.

The increase in the efficiency of dry magnetic separation is achieved by using a magnetic system in the form of a rotating drum and facilitating its motionless flexible tape with a device for supplying power and output of enrichment products and through the use of thin wear-resistant flexible tape (for example, metal foil), while its thickness can be in tens of times thinner than the casing in traditional separators.

Unloading of the non-magnetic product into the hopper occurs when it is torn from the drum and dropped into the receiving unit. The magnetic product captured by the magnetic field is transported to a point above the hopper, where the contact of the tape with the drum ends, and is poured into the hopper of the receiving unit for the magnetic fraction. The intermediate product is collected in a hopper of a receiving unit located in the boundary zone between the hopper for non-magnetic and the hopper for magnetic products.

The invention is illustrated by drawings, where in FIG. 1 and FIG. 2 shows a schematic diagram of a device for dry magnetic separation of magnetically containing granular products.

A device for dry magnetic separation of magnetically containing granular products contains a loading unit - 1 (feeder) with a loading nozzle. The magnetic system is made in the form of a rotating drum - 2 with permanent magnets built into it - 3, a stationary thin tape - 4, which closes the magnetic system from the material to be separated and the receiving unit - 5 containing bunkers for non-magnetic (N.M.FR) - 6, intermediate (PR.FR) - 7 and magnetic (MAGN.PR) - 8 products, the tape is made of wear-resistant material (for example, metal foil) with a thickness of less than 0.1 mm, and drum 2 is made in the form of a cylinder with an increased diameter at the ends of its bases and a smaller diameter in the middle, while atyazhenie tape - 4 on the drum - 2 is due to load - 9 attached to a lower portion of the tape - 4, which takes the shape of the trough, due to a difference drum diameters - 2 at the ends of its base D _mo and mid _{D c (D mo> D c} ) . Tension and quick change of the tape - 4 is achieved due to the rigid fastening of its one end above the loading nozzle of the loading unit - 1, and fastening the load to it - 9 from the bottom at its other end.

A dry magnetic separation device operates as follows. The source material through the download node - 1 (feeder) is fed to a stationary tape - 4, which takes the form of a gutter. Due to the smooth increase in the diameter of the drum - 2 from its middle to the ends.

Non-magnetic product is separated into the hopper - 6 when it is separated from the drum - 2. The magnetic product captured by the magnetic field is transported to a point above the hopper - 8, where the contact of the tape - 4 with the drum - 2 ends, and is poured into the hopper - 8, for magnetic fractions. The intermediate product is collected in hopper-7, receiving unit -5, located in the border zone between the hopper - 6 for magnetic and hopper - 8 for non-magnetic products.

To improve the quality of separation of the initial products, the tape - 4 is made of wear-resistant material with a thickness of less than 0.1 mm, while to create optimal conditions for the transportation of the separated sand, the drum - 2 is made in the form of a cylinder with an increased diameter at its bases. The tension of the tape - 4 on the drum - 2 is carried out by the load - 9, attached to the bottom of the tape - 4, which takes the form of a groove, due to the difference in the diameters of the drum - 2 at the ends of its bases D _mo and the middle D _c (D _mo > D _c ) of its bases, tension and quick change of belt - 4 is achieved due to its rigid fastening from above above the loading unit - 1 (feeder) with a loading nozzle and a load attached to it - 9 from the bottom. Non-magnetic product - 6 is separated when they are separated from the tape - 4 at the point of contact with the drum - 2, in which the vertical tangent to the cylindrical part of the drum - 2 passes. The magnetic product captured by the magnetic field is transported to the point where the contact of the tape ends - 4 s drum - 2 and poured into the hopper - 8, the intermediate product is collected in the hopper - 7 located between the hopper - 6 for non-magnetic and the hopper - 8 for magnetic products.

Claims (1)

A device for dry magnetic separation of magnetically containing granular products, containing a magnetic system and a hopper for collecting the enrichment product, characterized in that the magnetic system is made in the form of a drum in the form of a cylinder with increased diameters at the ends of its bases and a smaller diameter in the middle, the possibility of rotation around its axis and permanent magnets embedded in it and a fixed thin tape covering the magnetic system from the material to be separated, a receiving unit containing hoppers for non-magnetic, intermediate weft and magnetic products, while the tape is made of wear-resistant material with a thickness of less than 0.1 mm and is rigidly attached at one end above the loading nozzle of the loading unit, and a tension load is attached to its other end in its lower part, while it takes the form of tensioning the tape on the drum troughs due to the difference in the diameters of the drum at the ends of its bases "D _mo " and the middle of "D _c " (D _mo > D _c ).

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