RU2661965C1 - Gold-containing sands enrichment plant - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to the mining and is intended for the gold-containing sands enrichment with the placer deposits open development. Gold-containing ores enrichment plant includes hydromechanical screen with the water supply system to incoming gold-containing ore and sluice box. Plant further comprises the concentrated productive formation forming device, which is mounted under the screen sieve and consists of two adjacent hoppers without bottoms. On the hoppers side walls vibrators are fixed. Above the hoppers controlled by hydraulic cylinders mobile damper is arranged. Under each hopper, by one compartment without bottom is installed, containing vertical sides, tightly resting against the horizontal decking, which is the hoppers and compartments common bottom. Compartments are configured to alternately extended along the guides towards the sluice box receiving hopper and to unload the concentrate into it. Two adjacent hoppers have possibility of alternating displacement perpendicular to the screen axis with the waste rock unloading into the dumps.

EFFECT: enrichment process continuity, reduction of dimensions, as well as increase in the precious metals extraction efficiency.

1 cl, 3 dwg

Description

The invention relates to mining and is intended for gravitational separation of minerals and gold in a washing plant with an open method for developing placer deposits.

A known method of developing alluvial deposits, including the removal of peat, the subsequent formation of an enriched near-flat reservoir using the flowing motion of water, seismic waves and the supply of this formation to a washing plant (RF patent No. 2147684 E21C 41/30).

The disadvantage of this method is an indefinitely long period of formation of an enriched reservoir under the influence of flowing water and seismic waves of possible earthquakes.

A known method of developing alluvial deposits, including the removal of peat, installing a shock wave generator and supplying water to the area of active shock waves. The lower productive layer is removed and served for enrichment (patent RU 2188947, E21C 41/30).

The disadvantages of this method are, firstly, the withdrawal of precious metals into the cracks of the denser space, which requires additional generation of the rock from the raft and subsequent washing. Secondly, this method requires a large consumption of water resources.

A known method of enrichment of gold-bearing placers and a mobile installation for its implementation, including feeding the material, its disintegration on the washing table using a hydraulic monitor and feeding the hydraulic mixture with a pump to a centrifugal concentrator (patent RU 2355476, B03B 7/00).

The disadvantages of this method are that the disintegration of gold ore occurs using a hydraulic monitor, during the operation of which significant losses of large and small gold are possible. Secondly, the hydraulic monitor is located on the upper part of the mobile unit, which complicates the work of the operator. Thirdly, a centrifugal concentrator creates large dynamic loads on the entire installation. Finally, the centrifugal concentrator is “sensitive” to changes in the properties of the enriched material, the purity of the loosened water, which necessitates frequent reconfigurations.

The closest in technical essence to the analogue (prototype) of the claimed installation is a method of gravitational enrichment and a device for its implementation, including a vertical, downward feed into the working bottom zone of the material in the form of a thick aqueous suspension, the subsequent direction of the material in a thin layer diverging in a horizontal stream, feeding into the layer loosening water, exposure to vibrations over the entire volume of the material, the movement of high density particles down the layer of moving material with their concentration on the bottom the surface that limits the working space, the removal and unloading of light fractions (patent RU 2511310, B03B 5/12, publ. 04/10/2014, Bull. No. 10).

The disadvantages of this method are that to remove the heavy fraction requires a stop in the operation of the entire device. In addition, thin gold can go with an upward flow of water along with an empty light fraction. Finally, the impossibility of the design features of this device to combine with existing in practice washing plants. The considered method can only be used in exploration and laboratory practice.

The technical problem to which the invention is directed is to increase the technical and economic indicators for the extraction of precious metals by placing a device for forming a concentrated productive formation directly inside an industrial processing plant, reducing the size and weight of the washing device and achieving continuity of the entire enrichment process.

The task is achieved in that the installation for the enrichment of gold-bearing ores, including a hydromechanical screen with a water supply system for the incoming ore and a sluice device, according to the invention contains a device for forming a concentrated productive formation, which is installed under the screen and consists of two adjacent bins without bottoms, at the same time, vibrators are fixed on the side walls of the bunkers, and a mobile shutter controlled by hydraulic cylinders is located above the bunkers, and under each bunker The meter installed one compartment without a bottom, containing vertical sides, leaning tightly on a horizontal flooring, which is a common bottom for bunkers and compartments. In addition, the compartments are made with the possibility of alternately extending along the guides towards the receiving hopper of the lock device and unloading the concentrate into it, and two adjacent hoppers have the ability to alternately move perpendicular to the axis of the screen with unloading waste rock into dumps.

Differences from the closest analogue are in a number of essential features:

- the formation of a concentrated reservoir is carried out in a special device located directly in the installation for the enrichment of gold-bearing ores;

- the formation of a concentrated reservoir is continuous and its compartments move into the receiving hopper of the locks without stopping the washing process;

- the device for the formation of a concentrated reservoir by its design features is combined with installations for enrichment of industrial purposes.

The installation for the enrichment of gold ores is shown in the drawings, where in FIG. 1 - general view of the installation, side view; in FIG. 2 is a view A in FIG. one; in FIG. 3 is a section BB of FIG. one.

The installation for the enrichment of gold-bearing ores contains a platform 1 for supplying ore 2 from the developed section of the deposit, a conveying and conveying machine, for example, a bulldozer 3, a receiving sheet 4 of a hydraulic puller 5, which includes a hydromechanical screen 6, a roller battery 7 with a driving hydraulic cylinder 8, a water pressure system 9, located above the screen, a discharge chute 10 for moving large-clastic inclusions (gali) into the gale blade 11. The hydraulic rail 5 is mounted and secured to the metalwork 12. Under the hydraulic rail 5 using the guides There are 13 adjacent two hoppers 14 without bottoms. Between the hydraulic guard and the upper edges of the bunkers, a movable shutter 15 is installed, which has the ability to move with the help of side hydraulic cylinders 16 mounted on the housing of the hydraulic guard. The bins 14 have the possibility of translational-reciprocal movement perpendicular to the axis of the screen 6 along the guides 13 with the help of end hydraulic cylinders 17 and rollers 18 with unloading through inclined trays 19 into the effective dumps 20. Vibrators 22 are fixed on the side walls 21 of the bins 14 with vibrations in horizontal and vertical directions . Under each hopper 14 there are two adjacent compartments 23 without bottoms, which have the possibility of translational-reciprocal movement along the axis of the screen using longitudinal hydraulic cylinders 24 along the guides 25 to the receiving hopper 26 of the lock device 27.

Compartments 23 contain four vertical sides 28, rigidly interconnected. The vertical sides 28 fit snugly against the deck 29 located in the horizontal plane and fixed together with the guides 25 to the steel structure 12 of the installation. The flooring 29 is a common bottom for the hoppers 14 and compartments 23. On the sides 28 of the compartments 23 located on the side of the receiving hopper 26 of the airlock washing device 27, vibrators 22 are fixed with vibrations in the horizontal direction.

The dimensions of the flooring 29 in the transverse direction from the axis of the screen overlap the sizes of the outlet openings of the compartments 23, and in the longitudinal direction they are docked with the side of the receiving hopper 26 of the lock device 27.

Installation for the enrichment of gold ores works as follows.

After opening peat at the worked out section of the deposit, ore 2 is fed for disintegration by a conveying machine (bulldozer) 3 along platform 1 and the receiving sheet 4 into a hydraulic ram 5 with a hydromechanical screen 6. Under the influence of reciprocating movements of the hydraulic cylinder rod 8, the roller battery 7 also makes reciprocating motion and forces ore 2 to move down the slope of the screen. As a result of abundant irrigation of ore by the water-pressure system 9, a pulp is formed, while small fractions of ore pass through the holes in the screen and fall alternately into one of the two bunkers 14 and, respectively, into compartment 23. Coarse-grained inclusions (pebbles) move along the drain chute 10 into the dump dump 11 . In bunkers 14 and compartments 23, under the influence of gravitational forces, water jets and intense vibrations of rock mass (pulp) in the horizontal and vertical directions or only in the horizontal compartments 23 with vibrators 22 heavy fra cations (gold) go down into compartments 23 on flooring 29, and clay pellets are crushed, which can contain precious metal particles. Thus, in compartments 23 on the flooring 29, a concentrated mineral productive layer is formed.

For the purpose of continuous operation of the installation, the slide gate valve 15, using the lateral hydraulic cylinders 16, opens the pulp entrance from under the screen 6, alternately only into one of the two bins 14 and, accordingly, vertically into one compartment 23. So far, in one hopper 14 and compartment 23 under action the forces of gravity, water and vibration, the formation of a productive formation occurs on the flooring 29, there is a pulp filling another hopper and compartment. After the formation of a productive formation in the bottom compartment, unloading of waste rock from the hopper in the transverse direction from the screen axis begins with the help of end hydraulic cylinders 17, rollers 18 along the guides 13, for example, from position IV to position III for one hopper and from position V to position VI for of another. The waste rock is discharged onto the inclined trays 19, and from them into the epoxy dumps 20.

The productive layer of pulp with gold, located in the compartments 23 on the deck 29, is alternately unloaded after unloading the higher hoppers 14 into the receiving hopper 26 of the airlock washing device 27 due to the operation of the longitudinal hydraulic cylinders 24 along the guides 25 from position I to position II. After unloading the bins 14 and compartments 23, they return to their original position under the loading pulp. The waste rock after passing through the locks of the washing device falls into the epoxy dump 20.

The essential features that distinguish the installation for the processing of gold-bearing ores from the closest analogue, allow to obtain the following technical result:

- continuity of the enrichment process;

- reduction of dimensions, weight and load on the lock device;

- the ability to use the device to form a productive concentrated formation in the washing plants used for industrial purposes.

Claims (1)

Installation for the enrichment of gold-bearing ores, including a hydromechanical screen with a water supply system for the incoming gold-containing ore and a sluice washing device, characterized in that it contains a device for forming a concentrated productive formation, which is installed under the screen and consists of two adjacent bins without bottoms, while Vibrators are fixed on the side walls of the bunkers, and a mobile shutter controlled by hydraulic cylinders is located above the bunkers, and under each bunker there is a one compartment without a bottom has been installed, containing vertical sides, leaning firmly on a horizontal flooring, which is a common bottom for bunkers and compartments, in addition, the compartments are made with the possibility of alternately extending along rails towards the receiving hopper of the lock device and unloading concentrate into it, and adjacent bunkers have the ability to alternately move perpendicular to the axis of the screen with the unloading of waste rock in dumps.

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