RU2171716C1 - Device for gravity concentration of metalliferous sands - Google Patents

Abstract

FIELD: concentration of metalliferous sands of placer deposits; mainly applicable in gravitation concentration of sands on sluice boxes. SUBSTANCE: device includes inclined trough with parallel side members and smooth bottom on which trapping surface and ladder riffles are installed; guides secured over entire length of parallel side members on which magnet is squarely installed for reciprocation above trapping surface and ladder riffles. Installed from both ends of guides are end switches. Inclined pan with pipeline system and bin is installed in point of sluice box discharge between sluice box and electromagnet over entire length of sluice box. EFFECT: higher efficiency of concentration. 3 dwg, 1 tbl

Description

 The invention relates to the field of enrichment of metal-bearing sands of placer deposits and can mainly be used in the gravitational enrichment of sand at locks.

 Known magnetic separator, including a horizontally placed working body with a vibration source, a magnetic system located under the working body, nozzles for outputting magnetic and non-magnetic fractions, and the working body is made in the form of a hollow pipe of magnetic material with a cutout in its upper part in the magnetic zone system, while the pipe section with the cutout is enclosed in a sealed casing of non-magnetic material, and the pipe for outputting magnetic fractions is connected to the casing (ed. certificate of the USSR N 973162 MKI B 03 C 1/02 1975).

 A disadvantage of the known magnetic separator is the low efficiency of extracting magnetic fractions, the loss of valuable accompanying non-magnetic fractions, because when the working body vibrates, part of the magnetic fraction captured by the magnetic system can fall back.

 The closest set of essential features is the gateway for the gravitational enrichment of minerals, including an inclined trough with parallel sides and a smooth bottom, trapping surfaces and ladder stencils installed in it (see, for example, A.N. Shokhin, A.G. Lopatin. Gravity methods of enrichment. - M .: Nedra, 1980, p. 281-283).

 However, the known gateway does not allow to reduce the loss of the useful component, providing a low enrichment efficiency, since the accumulated layer of heavy fractions of the mineral bed on the trapping surface intensively fills the cells of the latter and the stencils and is compacted by the pulp stream and the effluent fractions of the tailings from washing the metal-bearing sands. Fillable cells of the trapping surface and stencils impede not only the process of trapping the useful component, but also its segregation in the mineral bed.

 The main objective of the invention is to increase the efficiency of enrichment due to the additional loosening of the mineral bed and cleaning the collecting surface and stencils, as well as the extraction of magnetic fractions.

 To solve this problem, in a device for gravitational enrichment of metal-bearing sands of placer deposits, including an inclined trough with parallel sides and a smooth bottom, a trapping surface and ladder stencils installed in it, and guides on which the electromagnet is mounted perpendicular to it with the ability to reciprocating movement over the catching surface and the stencils, with end mounted on both ends of the guides switches, and in the place of unloading the gateway, between it and the electromagnet, an inclined tray with a water supply system and a hopper is installed across the entire width of the gateway.

The proposed device is shown on:
FIG. 1 - longitudinal section;
FIG. 2 - in plan and FIG. 3 - transverse sections.

 The device comprises an inclined trough 1 with parallel sides 2, a catching surface 3 at the bottom of the trough 1 in the form of rugs with different configurations of cells, ladder stencils 4 located above the catching surface 3, guides 5, fixed along the entire length of the sides 2 above the ladder stencils 4, an electromagnet 6 installed in the guides 5 with the possibility of reciprocating movement over the catching surface 3 and the ladder cliches 4, limit switches 7 and 8 mounted on the guides 5 in the place of unloading and 9 airlock, and a limit switch 10 mounted on one of the guides 5 at the loading point 11 of the airlock, an inclined tray 12 installed at the unloading site 9 of the airlock between the electromagnet 6 and the ladder stencils 4, a water supply system 13 that supplies water to the inclined chute 12, and a hopper 14 connected to the inclined tray 12.

 The device operates as follows.

 A catching surface 3 and ladder stencils 4 are installed in the gateway containing the inclined chute 1 and parallel sides 2, above which the electromagnet 6 moves reciprocally along the guides 5 mounted on the parallel sides 2. Pulp is fed to the loading point 11 of the gateway, which passes separation process at the gateway.

 Electromagnet 6, passing over the pulp stream, trapping surface 3 and stencils 4, is in the on state and attracts minerals with magnetic properties (for example, magnetite). Approaching the place of unloading 9, the gateway, he turns on the limit switch 7, as a result of which the electromagnet 6 is turned off and the magnetic fractions are unloaded into the inclined tray 12. At the same time, the limit switch 8 is turned on, which moves the electromagnet 6 in the opposite direction. Having reached the loading point 11 of the gateway, the electromagnet includes a limit switch 10, which provides movement, and the process repeats. The magnetic fractions deposited in the inclined tray 12 are washed off into the hopper 14 with water supplied by the water supply 13.

 By the influence of an electromagnetic field during the passage of an electromagnet above the trapping surface and the stencils of the airlock, the vibration of the latter occurs, which provides loosening of the mineral bed and the creation of a fluidized bed. Such an environment provides a more intense segregation of small particles of the useful component and prevents their washing off with enrichment tailings. In addition, additional loosening of the mineral bed, as well as cleaning of the catching surface of the locks, provides an attraction of magnetic fractions (for example, magnetite) to the electromagnet. The freed space is filled with a useful component, increasing the extraction coefficient in the enrichment process, because heavy magnetic fractions not only occupy the useful volume on the trapping surface, but also prevent the aggregation of small particles of the useful component.

 The resulting vibration in the stencils 4 from exposure to an electromagnetic field when an electromagnet 6 passes above them creates an additional loosening of the mineral bed.

 The technical and economic comparison of the base facility, for which the prototype was adopted, with the proposed device is shown in the table.

 The use of the invention in comparison with the prototype provides a higher recovery of the useful component (10%).

Claims (1)

 A device for the enrichment of metal-bearing sands of placer deposits, including an inclined trough with parallel sides and a smooth bottom, a collecting surface and ladder stencils installed in it, characterized in that guides are fixed along the entire length of the parallel sides to which an electromagnet is installed perpendicular to it with the possibility of reciprocating movement above the catching surface and the ladder stencils, and limit switches are installed on both ends of the guides, and in the place zgruzki gateway between it and an electromagnet across the width of the gateway is installed inclined tray with water supply system and the bunker.

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