RU2355476C1 - Procedure of concentrating gold placers and movable installation for implementation of this method - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention refers to minerals concentrating, particularly to procedures and installations for concentrating gold and other virgin metals from placers; invention can be implemented for concentrating blocks as well as previously developed (anthropogenic) placers containing fine, thin, flattened or disperse gold. The procedure of concentration of gold containing placers is performed by means of the movable installation and consists in supply of material, its disintegration on a washout table, in preliminary sizing into fractions +60 and -60 mm with removal of fractions exceeding 60 mm to dump, in double sizing fractions -60 mm on a vibration screen with removal fractions from -60 to +20 mm to dump and in selective concentrating of medium fraction with size from 20 to 4 mm in a deep-filled sluice and fine fraction from 4 mm and less in a centrifugal concentrator. In the process of disintegration of gold bearing sands and their sizing on the vibration screen there is prepared gold containing hydraulic mixture of fine fraction containing gold of 4 mm size and less at required for centrifugal concentrator ratio of solid to liquid s:l =1:8; further all gold containing hydraulic mixture without losses is supplied by means of a gravel pump to the centrifugal concentrator. The flow of hydraulic mixture looses rate before entering the centrifugal concentrator in a flow damper installed at the inlet to the centrifugal concentrator; then as a gravity flow it slowly comes into the centrifugal concentrator. The flow damper of gold containing hydraulic mixture is made out of a truncated four panel pyramid installed with its base upward and of a prism arranged on the base of the pyramid. The wall of the prism receiving the flow of hydraulic mixture is made as replaceable armoured sheet, while dash plates are assembled on the opposite to the armoured sheet panels of the pyramid; the dash plates meet flows of hydraulic mixture reflected from the armoured sheet and direct them to the opposite panels of the pyramid, wherefrom the flows under force of gravity come into the centrifugal concentrator. Due to highly intensified turbulence sand is additionally disintegrated without increasing water contents in hydraulic mixture during the process of displacement of hydraulic mixture with the sand pump and the process of speed retarding in the flow damper. Hydraulic mixture not containing gold is directed from the centrifugal concentrator to the deep-filled sluice, wherein gold containing sand of medium fractions of gold size from 4 to 20 mm comes.

EFFECT: increased efficiency of extraction of fine, thin, flat and disperse gold.

2 cl, 4 dwg

Description

The invention relates to the field of mineral processing, in particular to methods and plants for the enrichment of gold and other native metals from placer deposits, and can be used to enrich both whole and previously worked (man-made) placers containing small, thin, flattened and dispersed gold.

A known method of enrichment of gold-containing sands and a washing device with a self-trapping device for implementing this method, including feeding the material to the hydraulic guard, its disintegration, double classification first into fractions of +140 and -140 mm, then into fractions of the class +30 mm and -30 mm with the withdrawal of the fraction +140 mm to the dump, class +30 mm and -140 mm - to the lock of the nugget, and fractions of the class - 30 mm - through the bath - receiver to the main lock. Moreover, classification into fractions of the class +140 and -140 mm is carried out in the receiving hopper of the hydrogauge, and classification into fractions of the class +30 mm and -30 mm is carried out in the bath of the hydrogauge, catching of the gold being carried out is carried out on hydraulic traps installed in the tail of the main lock. (see p. RU No. 2149197, MPK-7, С22В 11/00, В03В 5/48, 9/00).

The disadvantage of this method is the need to prepare pulp with a high water content, the ratio of solid to liquid t: w = 1: 22 to 1:25 and large losses of thin, fine, flattened and dispersed gold, inevitably carried away by the pulp stream from the locks. With a large mass fraction in placers of thin, fine, flattened and dispersed gold, this known method gives unacceptably large losses.

A known method of processing mineral-containing rock mass, comprising removing dry or wet sieve from the initial mass of gangue particles, stage-by-stage screening of the sublattice product sequentially on high-performance screens using various types of calibrating sieves — conical broken or parabolic to control the passage time of the processed material through them, thickening the under-sieve hydro-screening product before magnetic separation, enrichment of the last stage oversize product hunting, supply of a concentrate of under-sieve, over-sieve products and drainage of condensation in a concentrator to obtain concentrate (see p. RU No. 2144430, MPK-7, V03V 9/00, 7/00).

Significant disadvantages of this method are the need for continuous determination by laboratory research and analysis of the particle size distribution and the content of the allocated mineral contained in the original rock mass, as well as the granulometry of the host rock mineral, which vary widely as the field is developed, to configure the entire technological sequence of processing mineral-containing rock masses, the complexity of the design and maintenance of the technology built by this method line of rock processing.

These shortcomings do not allow the use of the known method for the enrichment of gold-bearing placers in real field conditions in which gold mining enterprises (artels) operate.

The closest way to the claimed one is the method of enrichment of gold sands, including the supply of material, disintegration of sands on the washing table, preliminary classification of fractions +60 and -60 mm with the removal of fractions larger than 60 mm into the dump, double classification of the fraction -60 mm on a vibrating screen with removal fractions from -60 to +20 mm to the dump and separate enrichment of the middle fraction from 20 to 4 mm in size in the deep filling gateway, feeding the fractions finer than 4 mm through the inlet sump for dehydration to the classifying hydrocyclone, feeding bezvozhennoy pulp to a centrifugal separator to extract fine gold classes by separating mineral particles in the pulp flow under the influence of centrifugal force (see. p. RU №2138338, MPK-6 V03V 9/00).

A mobile concentrator with a continuous outlet of concentrate is known, including a frame, a loading device, a receiving hopper with a gate, a screen, two separators, two sluices, an impeller disintegrator equipped with a grate screen, a classifying device for mixing water with sand, which is a slope tube with pressure nozzles , with a sub-gateway for collecting large heavy metals from an oversize product (see p. RU No. 2102150, MPK-6 V03V 5/00, 9/00).

A disadvantage of the known installation is the design complexity, the use of inefficient screw devices, on which it is impossible to catch flattened and dispersed gold, as well as fine and thin gold less than 30 microns and low productivity, which allows the installation to be used for processing only large-bulk samples and makes it unsuitable for industrial enrichment alluvial deposits.

Known flushing unit, including mounted on a frame vibrating screen with a device for the disintegration of gold-containing sands and an apparatus for enriching them in the form of a deep filling sluice, is equipped with a shalt screen for separating sands into a fine and medium-grained fraction, installed under the screen in the form of a false bottom, with a second deep sluice located along the screen symmetrically to the first, a fine-grained sand dehydrator, located under the locks, and an apparatus for enriching fine-grained sand sands the share installed behind their dehydrator (see p. RU No. 2116133, MPK-6, V03V 5/00, 9/00).

A disadvantage of the known installation is the need to use a dehydrator, in which, together with the water discharged to the dump, thin, flattened and dispersed gold is lost, as well as low productivity, which allows the installation to be used mainly for enriching large-volume samples during exploration and makes it unsuitable for industrial enrichment of minerals .

The closest installation to the claimed one is an enrichment plant containing a sand preparation module, including a vibrating screen with a disintegrating device and a deep filling gateway, a sump with a sand pump mounted under the vibrating screen in the form of a bottom, and an enrichment module containing a classifying hydrocyclone located behind the sand pump and a centrifugal separator installed behind the hydrocyclone. The concentration plant can be mobile (see p. RU No. 2138338, MPK-6 V03V 9/00).

A significant drawback of the known installation and method is that to extract small classes of gold, only a part of the gold-containing pulp obtained as a result of the disintegration of the gold-containing pulp is sent to the centrifugal separator, and most of this pulp is used during the operation of the sluice to collect nuggets and coarse gold and then dumped into the dump with it thin, flattened and dispersed gold. A further disadvantage is the need to ensure that the installation operates to heavily float the under-sieve product and then dehydrate the pulp sent to the centrifugal separator in a hydrocyclone, in which fine, flattened and dispersed gold is also washed off to the dump. When enriching alluvial deposits in which the mass fraction of fine, flattened and dispersed gold is up to 60% or more, the loss of the precious metal is unacceptably large and becomes comparable with its mining.

The aim of the invention is to create a simple high-performance method of enrichment of gold-bearing placers and a mobile installation for its implementation, providing an increase in the degree of extraction of fine gold and ensuring the extraction of fine, flattened and dispersed gold with sizes from 4 to 0.005 mm when mining gold from whole placer deposits and from previously worked out (technogenic) placers.

The goal is achieved by the fact that in the method of enrichment of gold-bearing placers, including feeding the material, its disintegration on the washing table, preliminary classification of fractions +60 mm and -60 mm with the removal of fractions larger than 60 mm into the dump, double classification of the fraction -60 mm on a vibrating screen with removal of the -60 and +20 mm fractions into the dump and separate enrichment of the middle fraction from 20 to 4 mm in size in a deep filling sluice and a fine fraction of 4 mm or less in a centrifugal concentrator in the process of gold sands disintegration and classification and x a small fraction of a gold-containing hydraulic mixture is prepared on a vibrating screen, containing gold from 4 mm in size and finer, with a solid to liquid ratio necessary for a centrifugal concentrator; t = 1: 8 and the entire gold-containing hydraulic mixture is losslessly fed by a sand pump to a centrifugal concentrator, while the flow the slurry before entering the centrifugal concentrator loses speed in the flow damper installed at the inlet of the centrifugal concentrator and flows by gravity into the centrifugal concentrator, and in the process The displacement of the slurry by the sand pump and during the quenching of its speed in the flow damper additionally disintegrates the sands without increasing the water content in the slurry due to high intensity turbulence, and the gold-free slurry from the centrifugal concentrator is fed to the deep-filling gateway to which gold is collected with the vibrating screen comes in gold-containing sands of medium fraction with gold sizes from 4 to 20 mm.

The goal is also achieved by the fact that in a mobile installation for the enrichment of gold placers, including a sand preparation module mounted on the vehicle, containing a washing table with a receiving hopper and with a disintegrating device, a vibrating screen for classifying sand, a deep filling sluice for collecting nuggets and medium fractions, a pallet and a sand pump, and an associated enrichment module hydraulically mounted on the vehicle, comprising a centrifugal concentrator, at the inlet of the centrifuge a hedgehog concentrator is equipped with a gold-containing slurry flow damper made of a truncated tetrahedral pyramid installed with the base upward and a prism placed on the base of the pyramid, and the prism wall receiving the slurry is made in the form of a replaceable armor plate; perceiving flows of slurry reflected from the armor plate and directing them to the opposite faces of the pyramid, and with them by gravity in a centrifugal second hub that output is hydraulically connected with the deep content gateway.

Due to the fact that the gold-containing hydraulic mixture obtained after disintegration and classification with a solid to liquid ratio of t: W = 1: 8 is not too wet, there is no need to dehydrate the gold-containing hydraulic mixture before feeding it to a centrifugal concentrator, in which, with water, a thin one is inevitably lost. flattened and dispersed gold, and therefore, the entire gold-containing mixture is collected in a pan and fed by a sand pump to a centrifugal concentrator. In addition, the slurry is fed into the centrifugal concentrator through a flow damper, in which additional gold sands disintegrate when they hit the armor plate and the breaker sheets and faces of the damper pyramid, as well as the flow rate decreases and the gold-bearing slurry enters the centrifugal concentrator calmly by gravity, without causing vibration rotating at high speed the inner bowl of the centrifugal concentrator, provides almost complete extraction of small, flattened gold and dis gold with a minimum size of up to 0.005 mm.

The hydraulic connection between the outlet of the centrifugal concentrator and the deep filling sluice, into which gold-containing sands of medium fraction with gold sizes from 4 to 20 mm are received from the vibrating screen, increases the efficiency of the sluice due to the arrival of gold-free hydraulic mixtures with a fine fraction to the gold-collecting mats from the centrifugal concentrator, which provides the most optimal extraction mode in the gold gateway.

Comparison of the proposed technical solutions with prototypes made it possible to establish the presence of features that are different from the prototypes, therefore, these technical solutions meet the criteria of NOVELTY.

The figure 1 shows a General view of a mobile installation for the enrichment of gold-bearing placers, with which the method is carried out; in figure 2 is a view a in figure 1; figure 3 is a view of B in figure 2; figure 4 shows a General view of the flow damper in the context.

A mobile installation for the enrichment of gold-bearing placers consists of two modules: a sand preparation module and an enrichment module. Each module is placed on a vehicle (tractor sled) for ease of use, so that the installation can be transported and installed in the right place.

Both modules are hydraulically interconnected according to the technological sequence of the enrichment process.

The sand preparation module is located on tractor sleigh 1 and includes a wash table 2 with a receiving hopper 3 and a disintegrating device in the form of a hydraulic monitor 4 or a high-pressure sprinkler (not shown in the drawing), a vibrating screen 5 for classifying sand, a deep filling gate 6, a sump 7 and a sand pump 8.

The enrichment module is located on the tractor sleigh 9 and includes a centrifugal concentrator 10 and a flow damper 11, consisting of a truncated tetrahedral pyramid 12 installed with the base upward and a prism 13 located on the base of the pyramid 12. The wall of the prism 13, which initially receives the slurry stream, is made in the form of a replaceable armor plate 14. On the faces of the pyramid 12 opposite the hydroflow reflected from the armor plate, baffle plates 15 and 16 are installed, which receive hydraulic fluid flows and direct them to the opposite other faces of the pyramid 12.

During the process, the module for preparing sand using a slurry pipe 17 passing from the sand pump 8 to the flow damper 11 is connected to the enrichment module, and the enrichment module, in turn, is hydraulically connected through the pipe 18 connecting the outlet of the centrifugal concentrator to the deep filling gateway 6 with sand preparation module.

The method of enrichment of gold placers using the inventive mobile installation is as follows.

Of the placers, gold-containing sands are fed into the receiving hopper 3 of the wash table 2 and washed out by a hydraulic monitor 4 or a high-pressure sprinkler. Oversize fractions larger than 60 mm are discharged by a jet of hydraulic monitor 4 into the dump, and smaller fractions minus 60 mm pass through the holes in the table and fall on the top sieve 19 of the vibrating screen 5, where they are classified into two fractions, large ones from 60 to 20 mm are discharged through the tray 20 into a dump, and a fraction finer than 20 mm is sifted onto a lower shalt sieve 21 of a vibrating screen 5, on which it is classified as small - less than 4 mm and medium - from 4 to 20 mm.

A small fraction slurry containing gold from 4 mm in size and finer enters the sump 7, from where it is fed by a sand pump 8 through a slurry pipe 17 to a centrifugal concentrator 10 through a flow damper 11, during which additional gold sands disintegrate through the slurry pipe 17, the flow of the slurry collides at high speed with the armor plate 14, crumbles and, reflected from it, falls on the bump sheets 15 and 16, and then on the walls of the damper opposite to them. In the process of multiple collisions, additional disintegration of the sands contained in the slurry stream occurs, the stream loses speed and the slurry flows by gravity into the centrifugal concentrator by gravity. This creates the most favorable conditions for the operation of the centrifugal concentrator 10 and eliminates the occurrence of vibration. Under the influence of centrifugal forces in the ribs of the inner bowl of the centrifugal concentrator, heavy particles from 4 to 0.005 mm are deposited, which are periodically removed in the form of concentrate through the nozzle 22, and the precious metal-free pulp from the centrifugal concentrator 10 is continuously drained through the tube 18 into the deep filling gate 6 , where from the lower sieve 21 of the vibrating screen 5, gold-containing sands of the middle fraction with sizes from 4 to 20 mm are fed. Due to the deep filling of a fine fraction in the composition containing no precious metals pulp into the airlock, it is more efficient to capture precious metals on the mats of the airlock of deep filling, and the waste rock together with the spent pulp is dumped into the dump. Rugs of the deep filling gateway are periodically rinsed to remove the concentrate.

Tests of the inventive method and a mobile installation for the enrichment of gold-bearing placers confirmed their significant advantages compared to the prototype: the method and installation provide high performance comparable to the productivity of the PGSh-II-50 industrial device widely used by prospectors, highly efficient capture of thin, flattened and dispersed gold up to 0.005 mm . When enriching alluvial deposits in which the mass fraction of fine, flattened and dispersed gold is up to 60%, an increase in gold production by 30-40% is provided. The characteristics of the proposed method and installation can also be successfully used to enrich previously worked out (man-made) placers, which makes their re-processing profitable and ensures rational nature management, significantly expands the ore reserves of precious metals. Moreover, the cost of mined gold in this case is significantly lower due to the exclusion of a large amount of stripping operations.

In connection with the foregoing, the claimed method and installation for the enrichment of gold-bearing placers will find industrial application.

Claims (2)

1. A method of enrichment of gold-bearing placers, including feeding the material, its disintegration on the washing table, preliminary classification of fractions +60 mm and -60 mm with the removal of fractions larger than 60 mm into the dump, double classification of the fraction -60 mm on a vibrating screen with removal of the fraction from - 60 to +20 mm into the dump and separate enrichment of the middle fraction from 20 to 4 mm in size in the deep filling sluice and fine fraction from 4 mm or less in a centrifugal concentrator, characterized in that during the process of gold sands disintegration and classification a fine fraction containing gold mixture containing gold with a size of 4 mm and finer is prepared on a vibrating screen, with a solid to liquid ratio t: w = 1: 8 necessary for the centrifugal concentrator and the entire gold-containing hydraulic mixture is losslessly fed by a sand pump to the centrifugal concentrator, while the slurry stream before entering the centrifugal concentrator, it loses speed in the flow damper installed at the inlet of the centrifugal concentrator and flows by gravity into the centrifugal concentrator, and during displacement of the slurry by the sand pump and in the process of quenching its speed in the flow damper additionally disintegrates the sands without increasing the water content of the slurry due to high intensity turbulence, and the gold-free slurry from the centrifugal concentrator is fed to the deep-filling gateway to increase the efficiency of gold recovery, into which Gold-containing sands of medium fraction with gold sizes from 4 to 20 mm come from the vibrating screen. 2. A mobile unit for the enrichment of gold-bearing placers, including a sand preparation module mounted on a vehicle, containing a washing table with a receiving hopper and with a disintegrating device, a vibrating screen for classifying sand, a deep filling sluice for trapping nuggets and medium fractions, a sump and a sand pump and an associated sand pump with it an enrichment module hydraulically mounted on the vehicle, comprising a centrifugal concentrator, characterized in that the disintegrating devices o made in the form of a hydraulic monitor or high-pressure sprinkler, and the vibrating screen for classification of sand consists of two screens - the upper one for classification into a coarse fraction of 60–20 mm and the fraction finer than 20 mm and the lower baptismal sieve for classification into a small one - less than 4 mm and medium fraction - from 4 to 20 mm, while at the entrance to the centrifugal concentrator, a gold-containing hydraulic mixture flow damper is installed, made of a truncated tetrahedral pyramid, and the prism wall receiving the hydraulic mixture flow is made in the form of replaceable armor of the sheet, and on the sides of the pyramid opposite the armor sheet, there are installed bump sheets that receive hydraulic fluid flows reflected from the armor sheet and direct them to the opposite sides of the pyramid, and with them by gravity to a centrifugal concentrator, which is hydraulically connected to the deep filling gateway at the outlet.

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