RU2601345C1 - Method for gravity extraction of fine and thin gold and system for gold extraction - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to mining industry and can be used for gravity extraction of precious metals from ores, as well as natural and technogenic deposits. Method for gravity extraction of fine and thin gold involves preliminary disintegration and classification of high-clay sands, feeding prepared pulp material into straight inclined chute of dressing plant into thin-layer flow with flow of rigidly fixed arc-shaped plates, installed with converging clearance on both sides of main flow of pulp, trapping gold with detachable traps of fine gold with straight and rounded walls. Thin-layer flow of pulp, turning from laminar and weakly turbulent rectilinear motion to bend in narrowing gap between arc-shaped plates, installed with displacement along straight inclined chute in staggered order, forms offset layers pulp flow on horizontal and vertical, capable of releasing more coarse particles of valuable components from clay particles and directing them to upper plane of removable trap of fine gold of one of sides. Then pulp flow strikes against cap and arc-shaped plate of said side, undergoes secondary bending, mixing, turbulence of pulp flow occurs, which results in release of additional part of valuable components from clay particles and direction to removable trap of fine gold of another side, where already finer particles of valuable components fall into cells of hexagonal shape of detachable trap of fine gold, are deposited on bottom of housing detachable trap of fine gold. Method is implemented by means of a system for gold extraction, including an installation for preliminary disintegration and classification of high-clay sands, transfer elements and elements of feeding pulp into dressing unit into thin-layer flow in form of straight inclined chute with sides and rigidly fixed arc-shaped plates, installed with converging clearance on both sides of main flow of pulp at bottom, detachable traps of fine gold with straight and rounded walls. Arc-shaped plates are installed with displacement along straight inclined chute in staggered order, forming bends of pulp flow from one side of straight inclined chute to another side and vice versa. End parts of arc-shaped plates are interfaced with recesses in bottom of straight inclined chute, in which there are detachable traps of fine gold with possibility of vertical movement and are made detachable in form of housing and cassettes with cells of hexagonal shape. At bottom of straight inclined chute there are mats.

EFFECT: high efficiency of extraction of fine and thin particles of valuable components in thin-layer flows, reduced losses of valuable components.

2 cl, 4 dwg

Description

The invention relates to the mining industry and can be used for gravitational extraction of precious metals from ores, as well as natural and man-made placers.

A known method of gravitational extraction of valuable minerals based on a vibration concentrator, including a box, vibration exciter, a concentration element in the form of symmetrically arranged transverse ribs, the ribbed coating of the concentration element is made wear-resistant, the box and the concentration element have the ability to change the frequency and amplitude of vibration, the concentration element is made in the form of a plate, transverse ribs on which are made integral with the plate, the plate is provided with longitudinal, vertically arranged with tenks, the transverse ribs have a slope towards the vertical walls and a slope towards the loading side of the vibro-concentrator, and it is possible to change their number, height and angle of inclination, at the loading end of the vibro-concentrator, a receiving box is placed on the plate shielded from the outside by a transverse vertical wall with a height exceeding the height transverse ribs, the concentration element is equipped with a coarse removable grate made of vertically arranged plates mounted on top of the transverse ribs and replicated for the longitudinal walls, it is possible to change the height of the plates of the removable grating and the size of its cells [1].

This method, carried out by means of a vibroconcentrator, has increased energy consumption due to the use of a vibration exciter, and increased wear due to the presence of elastic supports. This will require significant maintenance costs and cause a decrease in reliability.

A known method of gravitational extraction of valuable minerals on the basis of a device for the extraction of gold, consisting of an elevator deck fixed to the racks at an angle with a perforated part, under which there is a distribution deck with slots, is rigidly connected at an angle by one end to the perforated part and the other to the device rack and located under the distribution deck of the cassette assembly, consisting of the upper and lower row of cassettes pivotally connected to each other using the tension mechanism of the upper row and cassettes, strips fixedly connected to the distribution deck and pivotally connected to the upper end of the upper row of cassettes, the tension mechanism of the lower row of cassettes pivotally connected to the lower edge of the lower row of cassettes and the return deck, with tubes with openings across the width in the perforated part of the deck the decks facing the perforated part of the deck, and at the outlet of the deck, the tubes form a pipe connecting to the pump [2].

This method, carried out by means of a device for the extraction of gold, will also require significant maintenance costs due to the regulation of the rows of cassettes by means of tensioning devices in manual mode and will lead to a decrease in reliability due to the increased number of swivel joints.

A known method of gravitational extraction of valuable minerals on the basis of a sluice for sand dressing, consisting of an inclined bottom with sides, open from the bottom, trapping elements in the form of solid sills, mounted on the bottom, drive vibrations and irrigation, while the bottom with sides is installed with the possibility changes in the angle of inclination up to negative, when its rear part is higher than the front one, continuous sills are installed only in the rear part of the bottom, and the remaining sills are made intermittent, consisting mi of alternating walls and gaps between them, the walls of adjacent sills placed in a checkerboard pattern, grooves with discharge holes are made in front of the lower solid sills, under which bottom-mounted cassettes with tubes with internal diameters not less than the diameters of the holes, and the center-to-center distances between the tubes are equal to the center-to-center distances of the holes; a harrow with teeth is mounted on top of the bottom, mounted on rods located between the spigots on the side of grooves, while the oscillation drive is connected only with the harrow [3].

This method, carried out by means of a gate for sand enrichment, having removable cassettes inserted into grooves with gaps extending outwards, can cause fine and thin gold to enter the gaps and a significant loss of particles of valuable components.

The closest in technical essence and the achieved result is a method of gravitational extraction of valuable minerals based on the installation for the extraction of fine gold, which contains a straight inclined trough with stencils and rigidly fixed arcuate slats installed with a narrowing gap for the main pulp stream, the unit is equipped with removable flow dividers, located parallel to the bottom, and removable traps of fine gold mounted on the bottom, the inner part of which is formed by rounded and rounded walls, and the upper part is made in the form of two inclined planes mounted on arched planks and located with the opposite angle of inclination, with a gap one relative to the other and with the formation of a threshold [4].

The invention is not intended for the enrichment of pre-classified material with the subsequent extraction of valuable components in thin-layer flows, as well as for the enrichment of high clay sands of industrial and natural placers.

EFFECT: increased efficiency of extraction of fine and fine particles of valuable components in thin-layer flows after preliminary disintegration and shallow classification of highly clayey sands of industrial and natural placers, increased reliability by reducing the loss of valuable components during operation and reduced maintenance costs.

The technical result is achieved by the fact that in the method of gravitational extraction of fine and fine gold using a complex for the extraction of gold, including preliminary disintegration and classification of high clay sands, feeding the prepared pulp material to a straight inclined trough of the plant for enrichment in a thin-layer stream flowing around rigidly fixed arcuate slats, established with a narrowing gap on both sides of the main pulp stream, gold recovery with removable traps olota with rectilinear and rounded walls, a thin-layer flow of pulp, passing from laminar and weakly turbulent rectilinear movement to bending in the narrowing gap between the arcuate slats installed with a staggered offset along a rectilinear trough, forms a horizontal and horizontal displacement of the pulp stream to release larger particles of valuable components from clay particles and direct them to the upper plane of the cassettes of the removable trap of fine gold of one of the sides, Then the pulp stream hits the visor and the arched strip of this side, undergoes secondary bending, mixing, turbulence of the pulp occurs, as a result of which an additional part of valuable components is freed from clay particles and sent to removable traps of fine gold of the other side, where smaller particles of valuable components are already fall into the cells of the hexagonal shape of the removable trap of fine gold, settle on the bottom of the body of the removable trap of small gold.

In the complex for the extraction of gold, which includes a unit for preliminary disintegration and classification of high clay sands, transport elements and pulp feed elements for the installation for enrichment in a thin layer stream, made in the form of a straight inclined trough with sides and rigidly fixed arcuate slats installed with a narrowing gap with two sides of the main flow of pulp on the bottom, removable traps of fine gold with rectilinear and rounded walls, arcuate slats are installed with placed along a rectilinear inclined trough in a checkerboard pattern, forming bends of the pulp flow from one side of the rectilinear inclined trough to the other side and vice versa, while the end parts of the arcuate slats are associated with recesses in the bottom of the rectilinear inclined trough, in which removable traps of fine gold with vertical displacements and are made collapsible in the form of a body and cassette with hexagonal cells, with the upper plane of the cassettes formed by the edges of the hexagonal cells forms, in the working position it is installed with an inclination in the direction of the directly adjacent flow, and the upper edge of the upper plane of the cassettes is positioned with an adjustable stop and a visor 1/3 in height below the directly adjacent flow, with a gap between the lower plane of the cassettes and the bottom of the removable fine gold traps, and the upper edges of the case of removable small gold traps are provided with stability sides with rounded edges, and on the bottom of a straight inclined groove mescheny mats.

The possibility of forming the required sequence of actions by the proposed means allows us to solve the problem, determines the novelty, industrial applicability and inventive step of development.

The complex for the extraction of gold, providing the implementation of the method of gravitational extraction of fine and thin gold from industrial and natural placers, is shown in the drawings.

In FIG. 1 is a general top view of a gold recovery complex; in FIG. 2 is a section AA in FIG. one; in FIG. 3 is a top view of removable traps of fine gold with cassettes; in FIG. 4 is a section BB in FIG. 3;

The complex for the extraction of gold 1 includes installation 2 for preliminary disintegration and classification of high clay sands, transport elements 3 and feed elements of the pulp 4 to the installation 5 for enrichment in a thin layer stream. Installation 5 is made in the form of a straight inclined trough 6 with a right side 7 and a left side 8. Rigidly fixed arcuate slats 9 are installed with a tapering gap 10 on both sides of the main pulp stream on the bottom 11. Removable fine gold traps 12 are made with rectilinear walls 13 and rounded the walls 14. The arcuate slats 9 are installed with an offset of 15 along a rectilinear inclined groove 6 in a checkerboard pattern, forming bends of the pulp flow from one side 8 of the rectilinear inclined groove 6 to the other side 7 and vice versa t The end parts 16 of the arcuate slats 9 are associated with recesses 17 in the bottom 11 of a straight inclined trough 6. In the recesses 17 are removable traps of fine gold 12 with the possibility of vertical movement 18 and are collapsible in the form of a housing 19 and a cassette 20 with hexagonal cells 21. The upper plane 22 cassettes 20, formed by the edges 23 of the cells of hexagonal shape 21, in the working position is installed with a slope 24 in the direction 25 of the directly adjacent flow of pulp 26. The upper edge 27 of the upper plane 22 of the cassettes 20 in in working condition is positioned using an adjustable stop 28 and a visor 29 at a height of 30 1/3 of the 31 below the directly adjacent pulp stream 26. A gap 34 is formed between the lower plane 32 of the cartridges 20 and the bottom 33 of the removable fine gold traps 12. The upper edges 35 of the housing 19 removable traps of fine gold 12 are equipped with stability sides 36 with rounded edges 37. Rugs 38 are placed on the bottom 11 of the rectilinear inclined groove 6. The formed bends of the pulp stream from one side 8 of the rectilinear inclined groove 6 to another Ortho 7 and vice versa shift the layers of the flow of pulp horizontally 39 and vertical 40.

The method of gravitational extraction of fine and fine gold using a complex for the extraction of gold is implemented as follows.

Using installation 2 of the complex for the extraction of gold 1, preliminary disintegration and classification of high clay sands of the geological object of man-made or natural placers is carried out. Fine gold traps 12 by vertical movement 18 of the housing 19 are located in the recesses 17 of the installation 5 for enrichment in a thin layer stream. The upper plane 22 of the cassettes 20, formed by the edges 23 of the cells of the hexagonal shape 21, in the working position is set with a slope 24 in the direction 25 of the directly adjacent pulp stream 26. Using the adjustable stop 28 and the visor 29, the upper edge 27 of the upper plane 22 of the cartridges 20 of removable fine gold traps 12 is positioned at a height of 30 1/3 part 31 below the directly adjacent pulp stream 26. Between the lower plane 32 of the cartridges 20 and the bottom 33 of the removable traps of fine gold 12, a gap 34 is formed. The upper edges 35 of the housing 19 will be removed traps of fine gold 12, equipped with stability flanges 36 with rounded edges 37, prevent solid particles from entering the pulp into the recesses 17 of the bottom 11 of the rectilinear inclined groove 6. By means of the transport elements 3 and pulp feed elements 4, the prepared pulp material is fed to the rectilinear inclined groove 6 of the installation 5 for enrichment in a thin-layer stream flowing around rigidly fixed arcuate strips 9 installed with a tapering gap 10 on both sides of the main pulp stream to beggar 11. A thin-layer flow of pulp, passing from a laminar and weakly turbulent rectilinear movement to bending in the narrowing gap 10 between the arcuate slats 9, installed with an offset 15 along a straight inclined trough 6 in a checkerboard pattern, forms a movement of the layers of the pulp stream horizontally 39 and 40 The coupling of the end parts 16 of the arcuate slats 9 with the recesses 17 in the bottom 11 of the straight inclined trough 6 provides an effective direction of the directly adjacent flow of pulp 26 to the removable st fine gold diggers 12. Hydrodynamic effects can free larger particles of valuable components from clay particles and direct them to the upper plane 22 of the cartridge 20 of the removable fine gold trap 12 with straight walls 13 and rounded walls 14 of the starboard 7. Inclined position of the cartridges 20 of removable fine traps gold 12 provides more efficient penetration of high-density particles of valuable components that glide over the surfaces of hexagonal cells 21. Moreover, lighter particles ymyvayutsya resulting turbulence occurring through swirl light when contacting the pulp with edges 23. Immediately adjacent the pulp stream 26 strikes the deflector 29 and an arcuate starboard strap 9 7 undergoes secondary bending occurs stirring, the slurry flow turbulence. An additional part of the valuable components is freed from clay particles and sent to removable traps of fine gold 12 port 8, where smaller particles of valuable components fall into the cells of the hexagonal shape 21 of the removable trap of fine gold 12 and move through the gap 34 to the bottom 33 of the housing 19 of the removable trap fine gold 12. The process develops further, repeating cyclically. After the accumulation of a valuable component, the removal of removable traps of fine gold 12 and mats 38 is carried out.

Information sources

1. Pat. No. 2354456 of the Russian Federation, B03B 5/70; B03B 5/02. Vibration concentrator.

2. Pat. No. 2374003 of the Russian Federation, B03B 5/70. The device for the extraction of gold.

3. Pat No. 2433869 of the Russian Federation, B03B 5/70. Gateway for sand enrichment.

4. Pat. No. 2160164 RF, B03B 5/70. Fine gold recovery plant.

Claims (2)

1. The method of gravitational extraction of fine and fine gold using a complex for the extraction of gold includes preliminary disintegration and classification of high clay sands, feeding the prepared pulp material to a straight inclined trough of the enrichment plant in a thin-layer stream flowing around rigidly fixed arcuate slats installed with a narrowing gap with two narrowing gaps sides of the main pulp stream, gold recovery with removable fine gold traps with straight and rounded walls and, characterized in that the thin-layer pulp flow, passing from a laminar and weakly turbulent rectilinear movement to a bend in the narrowing gap between the arcuate slats installed with a staggered offset along a rectilinear trough, forms a horizontal and vertical displacement of the pulp flow layers larger particles of valuable components from clay particles and direct them to the upper plane of the cartridge of a removable trap of fine gold of one of the sides, then the flow of pulp they are pulled against the visor and the curved strip of this side, undergoes secondary bending, mixing, turbulence of the pulp flow occurs, as a result of which an additional part of valuable components is freed from clay particles and sent to removable traps of fine gold of the other side, where smaller particles of valuable components get into the cells hexagonal shape removable trap of fine gold, settle to the bottom of the body of the removable trap of fine gold. 2. A complex for the extraction of gold, including a unit for preliminary disintegration and classification of high clay sands, transport elements and pulp feed elements for the installation for enrichment in a thin-layer stream, made in the form of a straight inclined trough with sides and rigidly fixed arcuate slats installed with a narrowing gap with two sides of the main flow of pulp on the bottom, removable traps of fine gold with rectilinear and rounded walls, characterized in that the arched the anchors are staggered along a straight inclined trough in a checkerboard pattern, forming bends of the pulp stream from one side of a straight inclined trough to the other side and vice versa, while the end parts of the arcuate slats are associated with recesses in the bottom of the straight inclined trough, in which removable traps of fine gold are placed with the possibility of vertical movement and made collapsible in the form of a housing and cassettes with hexagonal cells, with the upper plane of the cassettes formed by the edges a hexagonal shape, in the working position it is installed with an inclination in the direction of the directly adjacent flow, and the upper edge of the upper plane of the cassettes is positioned using an adjustable stop and a visor 1/3 part in height below the directly adjacent stream, and a gap is formed between the lower plane of the cassettes and the bottom of the removable traps of fine gold, and the upper edges of the body of the removable traps of small gold are equipped with stability sides with rounded edges, and on the bottom of a straight Pull the chute placed mats.

Images