RU2198032C2 - Panning-concentrating device for argillaceous metal-bearing sands - Google Patents

Abstract

FIELD: mineral concentration, particularly, devices for recovery of noble metals and other heavy valuable minerals from placer metal-bearing sands. SUBSTANCE: panning device includes successively installed sand preparation and transportation unit connected by transportation means with unit for catching large and medium in size gold and native metals, and having deep filling sluice rigidly connected with unit for catching of small size and fine gold and having screening device with tray made with W-shaped bottom and followed by pulp separator under which screw separators are installed and connected with transportation means to alluvial sand concentration plant, device for withdrawal of concentrate. Unit for sand preparation and transportation has drum disintegrator. EFFECT: increased recovery of gold and other valuable components; simplified design of device. 4 dwg

Description

 The invention relates to the enrichment of minerals, in particular to apparatus for the extraction of precious metals and other heavy valuable minerals from metal-bearing sands of placers.

 Known washing and processing device PGNVK (RF patent 2080933). The washing and concentration device ПГНВК includes sequentially installed unit for preparing and transporting sand, a unit for collecting large gold and nuggets, a unit for collecting fine and fine gold, and a unit for collecting a valuable component from a sieve product. The unit for the preparation and transportation of sand consists of a loading hopper, a hydraulic monitor, a hydraulic sash, a hydraulic elevator with a slurry line. This block is connected to the subsequent block through a hydraulic elevator with a slurry line. The block for collecting large gold and nuggets is a deep filling gateway that is directly connected to the block for extracting fine and fine gold. The block for collecting fine and fine gold consists of a screen with a flat pallet for feeding the under-sieve product to two V-shaped locks for enrichment of placers. The block for collecting fine and fine gold is connected to a block for the extraction of a valuable component from the over-sieve product, which is made of gutters having a V-shaped bottom, at the end of the axial part of which there is a device for withdrawing concentrate, having the form of an expanding slit with a nozzle for supplying concentrate to screw separators after which a concentration table is installed.

The disadvantages of the washing device PGNVK are:
- high losses of gold in the processes of erosion, disintegration and preparation of sand for enrichment;
- excessive bulkiness of the design of the industrial device, increased metal consumption.

 The objective of the invention is to increase the extraction of gold and other valuable components by reducing their losses during erosion, disintegration and preparation of metal-bearing sands for subsequent enrichment operations, as well as simplifying the design.

 The technical result consists in improving the quality of preparation of raw materials, increasing the concentration of valuable minerals of all size classes and improving the flow hydrodynamics.

The specified technical result is achieved by the fact that in the washing and processing device with a continuous output of concentrate, which includes successively mounted sand preparation and transportation unit, connected by a vehicle to a sand preparation and transportation unit, connected by a vehicle to a fine and fine gold recovery unit containing a sieving device with a pallet and a device for the output of concentrate, screw separators connected by a vehicle with a concentrator installation, the grooves of screw separators are made with a section profile consisting of a generatrix of the inner side, located at an angle of 30 ^o to the horizon forming the bottom of the groove, inclined to the horizon at an angle of 5-10 ^o , intersecting at a distance equal to 0.16-0.18 from the diameter of the gutter, and the generatrix of the outer side with a maximum vertical profile of 0.25-0.35 from the diameter of the gutter; the sifting device in the block for collecting fine and fine gold is made in the form of grid-irons arranged alternately at different altitude levels, and its sump is made with a W-shaped bottom, and behind the sifting device there is a device for controlling the output of the concentrate, under which there is a slitter divider, under which screw separators, while the unit for the preparation and transportation of sand is equipped with a drum disintegrator.

 The presence of signs that distinguish the claimed washing and beneficiation device from the prototype indicates the compliance of the proposed technical solution with the criterion of "novelty."

 The inclusion in the unit for the preparation and transportation of sands of a drum disintegrator working on the principle of ore self-grinding without impact forces while maximizing the use of hydrodynamic grinding to disintegrate highly clayey sands ensures high-quality preparation of mineral raw materials, washing and rubbing the sand fraction from boulder-gravel material, and reducing gold loss and gold loss valuable minerals with dump boulder-pebble material, effective separation and separation of grains of a valuable component from clay th material that enhances the recovery of valuable minerals and gold by 6-9%. Also, the unit can work in self-regulation mode.

 The inclusion in the capture unit of fine and fine gold and other valuable minerals of a sieving device made in the form of grates, located alternately at different altitude levels, with a W-shaped pallet, simultaneously provides transportation of an oversized sand-and-pebble material with a water stream, classification by size of washed out sand, sand enrichment and extraction of grains of heavy valuable minerals and gold of all size classes into the sublattice product (smaller than the size of the sieve perforation holes), ensuring optimum liquefy pulp before feeding it for further enrichment. An additional advantage of a screening device with a W-shaped tray is the formation of a water cushion above the sieve, created by the small and variable thickness of the tray. For this reason, part of the water in the screening device remains above the sieve and ensures transportation of the oversize product. There is no clogging of sieve slots, since the trapezoidal cross-section of the grid-irons does not impede the movement of mineral grains through perforation, and the eddies created by the grid-irons throw away “hard” grains of light minerals and rocks from the cracks, which is also facilitated by reverse circulation of the liquid phase with leached grains of light minerals. Therefore, all this makes it possible to increase the extraction of gold and other valuable components by at least 4-6% compared with the prototype.

 The inclusion of screw separators in the capture and recovery unit for fine and thin gold and heavy valuable minerals, which ensure a high concentration of the heavy sand fraction with intensive washing and removal of light mechanically trapped mineral grains, allows, without loss of fine-grained valuable grains, to further increase the recovery of gold and valuable minerals and reduce the complexity of the subsequent refinement of the draft concentrate to the required conditions.

 The compliance of the claimed invention with the requirement of "inventive step" is due to the fact that the combination of its features provides: reduction of the bulkiness of the design of the washing and processing device, metal consumption, complexity of manufacture and installation, structural approvals and adjustments, reduction of losses of gold and valuable minerals, increase of disclosure and their release from clay material and more effective preparation for enrichment; increasing the efficiency and degree of screening and size classification, combined with concentration and concentration operations; reduction of drift and losses with waste products of fine and finely divided fractions of gold and valuable components; ultimately, the possibility of processing all types of sand, increasing the extraction and increasing production of gold and other valuable minerals, and clearly does not follow from the prior art.

 Figure 1 schematically shows a washing and processing device, figure 2 - sieving device, figure 3 - element sifting surface, figure 4 - screw separator.

 A washing and concentrating device (Fig. 1) with a continuous output of concentrate includes a block 1 for preparing and transporting sand, a block 2 for collecting large and medium-sized gold, other valuable components and nuggets, a block 3 for collecting small and thin gold, a block 4 for finishing rough concentrate (concentrate installation - SHOW).

 Block 1 includes a platform 5 and a feed unit 6 of source sand to a drum disintegrator 7, a system for supplying boulder-pebble material to a dump 8 and a sump with a hydraulic elevator and a slurry conduit 9.

 Block 2 is a deep filling gateway 10 and is designed to capture nuggets, large and medium-sized gold and heavy valuable minerals. The deep filling gate 10 is directly rigidly connected to the block 3.

 Block 3 is designed to capture fine and fine gold and consists of an elongated (ratio of screen width to length is 1: (5-8)) screening device 11 (figure 2), behind which there is a device 12 for controlling the output of the concentrate, behind it there is a tail groove 13. Under the device 12, a reactive pulp splitter 14 is installed, and screw separators 15 are located under it.

 Block 4 is designed to fine-tune and concentrate valuable in the crude concentrate to the required degree and includes a hopper 16 with a feeder, classifying the device by size of the rough concentrate, for example, a vibrating (inertial) screen 17, a magnetic (electromagnetic) separator 18 with a weak magnetic field for extracting highly magnetic minerals, electromagnetic (roll) separator 19 for the extraction of weakly magnetic minerals, screw separator 20, concentration table 21, gravity apparatus or centrifugal enrichment end trattoria 22, drying unit 23, 24 Electroseparators.

 The housing 25 of the screening device 11 has the form of a fixed screen with a ratio of width to length 1: (5-8) with parallel sides 26 and a double bottom (sieve 27 with a pallet 28). The sieve 27 or the screening surface is made of grid-irons 29 of trapezoidal cross-section (Fig. 3) with different-height arrangement of grid-irons 29.

The screw separator 15 (Fig. 4) includes a box-type source power supply (rough concentrate) 30, a spiral groove 31 with a section profile consisting of a generatrix of the inner side 32 at an angle of 30 ^° to the horizon, forming the bottom of the groove 33, inclined to the horizon below angle 5-10 ^o , these generators intersect at a distance of 0.16-0.18 from the diameter of the gutter when counting from the vertical axis forming the outer side 34, made around a circle with a radius of 0.15-0.2 from the diameter of the gutter, the maximum profile vertical 0.25-0.35 of diameter w eloba. The helical groove in the center contains a central pipe 35 fixed with the groove 31 with openings 36 made along a helical line for supplying flushing water, the openings are made at an angle of 45-60 ^o down from the horizon, the concentrate cutoff 37 is installed on the output cut of the last turn, support racks 38 are attached directly to the outer side of the groove 30. To discharge the tailings of the screw separator 15, there is a tail groove 39.

 Blocks 1-4 are mounted in series. If it is necessary to increase the productivity of block 1, the remaining blocks forming the chain of devices are installed and mounted parallel to this circuit.

 When using the terrain, a hydraulic elevator 9 with a slurry line can be excluded from the circuit diagram of the apparatus; technologically and mechanically, the drum disintegrator is connected to block 2 (with a deep filling gateway 10).

 Washing and processing device with a continuous output of the concentrate works as follows (figure 1).

 The enriched sands supplied by the bulldozer to block 1 to the platform 5, through the feed unit 6 (loading funnel or hopper) enter the drum disintegrator 7. Waste and peeled boulder-pebble material is dumped into the dump (system 8).

 Blurred and disintegrated sands with a hydraulic elevator 9 and a slurry line or other vehicle are sent to block 2 to the head of the deep filling gate 10. In the deep filling gate 10, stencils with rugs capture coarse-grained heavy fraction, nuggets, large and medium-sized gold and other valuable components. The concentrate formed in this case is periodically removed, reduced on a sub-gateway and sent for refinement to a sludge treatment plant (SHOW).

 The tails of the deep filling sluice 10, containing fine and fine gold, by gravity enter block 3 onto the upper perforated bottom of the sifting device 11. The small product, especially heavy minerals, passes through a moving mineral bed and through the upper perforated bottom of the sieve 27 enters the W-shaped tray 28 with an angular arrangement of midday (to the lower bottom of the screen). The angular configuration of the bottom of the pallet 28 hydrodynamically stratifies the solid phase of the under-sieve product in density and concentrates heavy valuable minerals and gold when the axial flow moves in the angular longitudinal guides of the bottom. In this case, the transverse circulation of water is washed away from the flow of the heavy dispersed phase of the grain of light minerals. On sieve 27 of the screening device 11, the dispersed solid material with water enters already in a state that has stratified in density and fineness, in which heavy small grains are in the bottom layer. The trapezoidal cross-sectional shape and the installation of grates 29 at different heights hydrodynamically cause the formation of vortices, which draw the grains of heavy minerals and gold into the region of the pallet 28 and push the grains of light minerals into the oversize zone. The angular configuration (W-shaped) of the cross section of the pallet 28 of the screening device 11 provides an increase in the separation of the dispersed mineral phase in density in the vertical plane and the concentration of grains of heavy minerals in separately moving bottom flows and directs these flows to the device for controlling the output of the concentrate 12. When approaching the device 12 grains of heavy minerals and gold are concentrated in the lower parts of the stream, excess water and grains of light minerals accumulated in the upper part of the stream, which are dumped into the dump with by the tail of the gutter 13. At the same time, self-adjustment of dilution (consistency) of the power of the subsequent equipment is also carried out. The flow of the heavy fraction of sand (concentrate) at the outlet of the W-shaped trough (pallet) has a cross section in the form of a tail of a swallow. The cutter knife has the same configuration with the possibility of adjustment in the vertical and horizontal direction (bolted connections with bolted holes in the form of slots). The cut off part of the stream, containing an increased content of heavy valuable minerals, is sent to the pulp splitter and then to screw separators. Sublattice enriched dispersed material by gravity enters the reactive pulp splitter 14, dividing the stream into equal parts according to the number of screw separators 15.

 The pulp is fed into the box-type receiving device 30 (Fig. 4), from where it enters the upper part of the helical groove 31 and, under the influence of gravitational force, moves down the helical groove 31. Heavy minerals are concentrated in a moving stream closer to the vertical axis of the apparatus. Light minerals under the action of centrifugal force and most of the liquid phase (water) moves along the outer side 34 of the helical groove 31 of the separator 15. To improve the quality of the obtained concentrate, washing and flushing water is supplied through the openings 36 of the central pipe 35. The cut-off 37 heavy fraction (rough concentrate) sent to a concentrating plant (SHOW) to fine-tune the required conditions. The light fraction is dumped into the dump. The tailings of the screw separator are discharged into the tail channel 39.

 The rough concentrate of screw separators 15 enters block 4 for a concentrate treatment plant (SHOW) to refine, increase the concentration of gold and prepare for melting gold into bars. To do this, the rough concentrate is loaded into the SHOW bunker 16, from where it is directed by a feeder with the addition of process water to screening 17 according to the 0.5 mm class. The oversize product of the screen 17 is subjected to magnetic separation on a drum magnetic separator 18 to highlight strongly magnetic minerals. The magnetic fraction after magnetic cleaning is stored in a special dump. The non-magnetic fraction is subjected to electromagnetic separation on a roller electromagnetic separator 19 for the separation of weakly magnetic minerals, which are also stored in a special dump. The sublattice product of the screen 17 is also subjected to a similar refinement, but with a possible change in the technological and operating parameters of the equipment. The non-magnetic fraction after accumulation and accumulation is subjected to enrichment on a screw separator 20 (or a screw lock for the case of processing material smaller than 0.5 mm) of a small size with cleaning on a concentration table 21 (sand or sludge), a gravity apparatus such as a drum concentrator or on a centrifugal concentrator concentrator 22. The obtained gold-containing concentrate is dried in a drying apparatus 23 and, if necessary, is subjected to electrical separation on a combined electric separator 24. Tail products of the listed devices are stored in a special dump. Gold concentrates are handed over to the gold collection office (ZPK).

 The inventive washing and beneficiation device is supposed to be used on the current gold-bearing sands of the Khodakan site of the Taiga prospecting farm. This indicates that the technical solution meets the criterion of "industrial applicability". This device can also be used, in addition to gold, to extract other heavy valuable minerals such as tungsten, cassiterite, tantalite, columbite, diamond and others.

Claims (1)

A flushing and concentration device with a continuous output of concentrate, including a sequentially installed sand preparation and transportation unit, connected by a vehicle to a collection unit for large, medium-sized gold and nuggets, containing a deep filling sluice, rigidly connected to a collection unit for fine and thin gold containing sifting a device with a pallet and a device for the output of concentrate, screw separators connected by a vehicle with a concentrator a sheep, characterized in that the grooves of the screw separators are made with a section profile consisting of a generatrix of the inner side, located at an angle of 30 ^o to the horizon forming the bottom of the groove, inclined to the horizon at an angle of 5-10 ^o , intersecting at a distance equal to 0.16 0.18 of the diameter of the gutter, and the outer side forming with a maximum vertical dimension of 0.25-0.35 of the diameter of the gutter, the sifting device in the block for collecting fine and thin gold is made in the form of grid-irons located alternately at different altitude levels yach, and its pallet is made with a W-shaped bottom, and behind the screening device there is a device for regulating the output of the concentrate, under which a pulp splitter is installed, under which screw separators are installed, while the unit for preparing and transporting sand is equipped with a drum disintegrator.

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