RU2709259C1 - Processing line for processing clay gold-bearing sands of placer deposits - Google Patents

Abstract

FIELD: mining.SUBSTANCE: invention relates to mining, and namely to processing of hard-enriching gold-containing sands and metal-containing mixtures of placer deposits. Line comprises a device for disintegration of initial material, made in form of a blind scrubber, device for separating material into fineness classes, made in form of washing drum screen with screening surface, a spiral classifier located between them, a device for entrapping heavy particles of the concentrate, associated with a complex of devices for separating the magnetic fraction of the concentrate and for separating the nonmagnetic fraction of the concentrate, concentrate accumulators, a dehydrating classifier, which outlet is connected via drain pipe with cleaning products cleaning section to hydraulic spout, wherein drain branch pipe of spiral classifier is connected by transporting chute to sewage ground ditch, equipped with shutter of top layer of enriched hydraulic flow and device for transportation of upper layer of hydraulic flow to inlet of physical and chemical module for extraction of plate gold, output of productive fraction of physical-chemical module is connected by transport system with device for entrapping heavy particles of concentrate, and output of physical-chemical module tails is connected by transport system to hydraulic trap, made in form of two settling sections, separated by process dam, dam is equipped with pipe spill with mixer located inside it, a dispenser of water-soluble polymers and a device for transfer of a flocculated sludge-clay deposit into a receiving container and a complex for processing the residue into a finished product, also the output of the undersized product of the washing drum screen is connected to a device for entrapping heavy particles of the concentrate by means of a transportation system, and output of oversize product of flushing drum screen is connected by transport system with empty pebbles and a set of devices for obtaining finished products from pebbles.EFFECT: increased efficiency of line operation due to reduction of level of technological losses of free gold of different size classes and increased complexity of extraction of clay and gale of empty rocks from metal-bearing sands.1 cl, 1 dwg

Description

The invention relates to mining, and in particular to the processing of refractory gold-containing sands and metal-containing mixtures of placer deposits.

A well-known production line for processing clay metal-bearing sands of placer deposits, including a disintegrating and classifying device, gravity trapping devices, devices for pumping pulp and water supply, means of transporting the processed material and flushing the valuable component extracted from it (see V.G.Leskov Theory and practice of developing placers by drags. M: Nedra, 1980, p. 36, 100-101)

The main disadvantage of the known technical solution is associated with high technological losses of free grains of medium and small classes of fineness of gold contained in the sands of placer deposits. The main technological losses of gold are caused, first of all, by the unsatisfactory erosion of difficultly washed clay sands by water and the low efficiency of their disintegration, due to which the level of technological losses can reach up to 50%, while the problem of the complex use of the host non-metallic mineral raw materials is also unsatisfactorily solved.

There is also a known production line for processing gold-bearing sands of the coastal sea shelf based on the use of a complex of hydraulic structures and gravity equipment, for example, rotary locks and collecting enrichment chambers for the extraction of free gold (see RF patent No. 2490466 MPK Е21С 41/30, В03В 5/70 , publ. 08/20/2013).

The main disadvantage of the technical solution is associated with a high level of technological losses of the prevailing small and hard to recover grains of gold grains (-0.315 mm) in gravity-type sluice-type apparatuses and the problem of the complex use of the host non-metallic raw materials is not solved.

The closest technical solution to the claimed one is a production line for processing a metal-containing mixture of sand from placer deposits, containing a device for disintegrating the source material, a device for separating the material into size classes, a device for collecting heavy particles of concentrate, associated with a complex of devices for separating the magnetic fraction of the concentrate and for separation of the non-magnetic fraction of the concentrate, concentrate accumulators, a dehydrating classifier, the output of which through a drain pipe with a section for cleaning products of transportation to a hydraulic dump containing a pipeline, sump, pump, thickener, a dewatering device, the discharge pipe of which is connected to the input of a magnetic separator for separating a weakly magnetic fraction, and the thickener and drainage devices drain are connected to the reverse water supply system, the line also contains transport systems of processed material and waste rock warehouses (see RF patent No. 2078616, IPC B03B 7/00, B03B 9/00, publ. 05/10/97).

The main disadvantage of the known technical solution is associated with technological losses of lamellar floating gold (-50 μm) that cannot be extracted from the metal-containing mixture and the low degree of extraction of gold of small fineness classes (-0.315 mm), as well as additional losses of large (-3 + 1 mm) and medium classes of fineness of gold (-1 + 0.315 mm) with clay “pellets” formed in a disintegrating device when washing clay gold-containing sands. In addition, the increased content of silt-clay particles in the process water also leads, due to an increase in its density and viscosity, to the additional demolition of fine gold in the beneficiation plants. Another significant drawback is the lack of the possibility of a complex allocation of metal-bearing sands of the host nonmetallic mineral raw materials represented by clay admixtures and gales of gangue.

The technical result of the claimed invention is to increase the efficiency of the line by reducing the level of technological losses of free gold of various particle sizes and increasing the complexity of the allocation of metal sands of clay and galium of gangue.

The result is achieved by the fact that the processing line for processing clayey gold-bearing sands of placer deposits, containing a device for disintegrating the source material, a device for separating material by size classes, a device for collecting heavy particles of concentrate, associated with a complex of devices for separating the magnetic fraction of the concentrate and for separating non-magnetic concentrate fractions, concentrate accumulators, a dehydrating classifier, the outlet of which is connected through a drain pipe with an asthk of cleaning products to a hydraulic dump containing a pipeline, sump, pump, thickener, dewatering device, the discharge pipe of which is connected to the inlet of the magnetic separator to isolate a weakly magnetic fraction, and the thickener and drainage drains are connected to the recycled water supply system, the line also contains processed transport systems material and waste rock storage facilities is characterized in that the device for the disintegration of the source material is made in the form of deaf scrubber, and the device for separating the material into size classes is made in the form of a washing drum screen with a screening surface, while the scrubber and the washing drum screen are interconnected using a spiral classifier, the drain pipe of which is connected by a conveying chute to a sewage ditch equipped with a cut-off of the upper a layer of enriched hydroflow and a device for transporting the upper layer of hydroflow to the input of the physicochemical module for separation of the platelet gold, the output of the productive fraction of the physicochemical module is connected by a transport system to a device for collecting heavy particles of concentrate, and the output of the tailings of a physicochemical module is connected by a transport system with a hydraulic dump, made in the form of two settling sections separated by a technological dam, the dam is equipped with a pipe spillway with an located inside it, a mixer and a doser of water-soluble polymers installed in front of the inlet of the hydroflow to the pipe spillway, while the outlet of the second settling section is equipped with The device for transporting the flocculated silt-clay sludge to a receiving tank and to the complex for processing the sludge into a finished product and a device for transporting clarified water to a recycling water supply system is also connected to a conveyor with a device for collecting heavy particles of concentrate, and an outlet the over-sieve product of a washing drum screen is connected by a transport system to a warehouse of empty pebble rocks and complex m devices for producing finished products from pebble rocks.

The essence of the invention lies in the fact that, to reduce technological losses of gold, a disintegrating-classifying complex is installed at the inlet of the line, consisting of a sequentially installed blind scrubber with an open discharge side and a washing drum screen equipped with a screening surface, interconnected by a spiral classifier, which allows remove clay from metal-bearing sands in the head of the process of processing refractory gold-containing sands. Moreover, the drain pipe of the spiral classifier is connected through a transport chute to a drainage ditch equipped with a thin-layer cutoff of a hydroflow containing thin lamellar gold on the surface and a device for transporting the upper layer of the hydroflow to a physicochemical module for separating a valuable component, the tailings of which are sent to a hydraulic dump, separated by a technological dam into two separate settling sections, a pipe spillway with a mixer located inside is placed inside the dam, and at the entrance hydraulic flow in the weir tube further arranged dispenser of water-soluble polymers. A collection of clarified process water through a pump and a connecting pipe is connected to the line's reverse water supply system, and the flocculated clay-clay sediment is supplied by the transporting system to a separate technological site for further use as a finished product, for example, in the construction industry or the formation of agglomerates with heap leaching of gold.

The undersize product of a washing drum screen, i.e. productive fraction is sent for further processing, and the oversize product of the washing drum screen, i.e. the unproductive fraction, with the help of the transport system, is sent to a warehouse of empty pebble rocks, from where they enter a separate complex for obtaining finished products from gali, for example, for use in road construction.

In FIG. 1 shows the proposed production line for processing clay gold-bearing sands of placer deposits, containing a receiving hopper 1, a transporting tray 2, a disintegrating-classification complex made of series-connected apparatuses - a blank scrubber 3, a spiral classifier 4, a washing drum screen with a perforated surface 5, tray 6, conveying belt conveyor 7, pebble rock warehouse 8, a set of devices for producing finished products from ha hard rocks 9, a device for collecting heavy particles of concentrate 10, a collection tank for the extracted product 11, pipeline 12, a device for separating the magnetic fraction of the concentrate 13, a storage tank for the selected magnetic fraction of the concentrate 14, a dewatering classifier 15 with a drain pipe 16, an additional magnetic separator 17 for separating the magnetic fractions of the concentrate, a device for separating weakly magnetic fractions of the concentrate 18, a collection store of the weakly magnetic fractions 19, a section for cleaning the drainage products living classifier 20, made in the form of a technological chain of sequentially installed and interconnected pipelines for transporting the pulp 21 of the sump 22, a pump for feeding the pulp 23, a thickener 24, a dewatering device 25, connected through a pipe to the input of the device for separating low-magnetic concentrate fractions, and the discharge a thickener and a dewatering device are connected to the water recycling system 26, a sewer earthen ditch for transporting the hydraulic mixture 27, a thin layer inclined from The projection of the surface layer of the enriched hydroflow 28, the guide tray 29, the product receiver 30, the conveying device 31, the physico-chemical module for the extraction of thin plate gold 32, the tail deck 33, the hydraulic dump 34, the separation technological dam 35, the pipe spillway 36, located in the body of the dam, sedimentation sections in the form of separate structures 37 and 38, a hydraulic flow mixer 39, a dispenser of water-soluble polymers 40, a collector of the clarified layer of the surface water flow 41, a pump 42 and a connecting pipe 43, a device for transportation sflokkulirovannogo silty-clay sediment 44, a receptacle clay sediment 45, the complex processing of the isolated precipitate in the final product 46.

The proposed production line operates as follows. Clay sands enter the hopper 1 and are transported through the tray 2 to the input of the deaf scrubber 3, the output of which is connected to the input of the spiral classifier 4, and the output of the spiral classifier with the input of the washing drum screen with a perforated surface 5, the oversize product of which goes through the tray 6 and conveyor 7 to the empty pebble rock warehouse 8, and the undergrate product to the input of the device for collecting heavy particles of concentrate 10, the captured product is sent to the collection tank 11, and the tailings through the pipeline 12 to the input devices for separating the magnetic fraction of the concentrate 13, the separated concentrate is sent to the collection tank 14, and the tails to the inlet of the dehydrating classifier 15 connected to the drain pipe 16, the sands of the classifier are fed to the input of the device for separating the magnetic fraction of the concentrate 17, connected to the output of the dehydrating classifier 15, and the tailings are transported to the input of the device for separating the weakly magnetic fraction of the concentrate 18, the concentrate is stored in the receiver-drive 19, the outlet of the drain pipe is dehydrating classifier 15 is associated with the section for cleaning products of the discharge 20, which is made in the form of a technological chain of pulp 21 21 of a sump 22, a pump 23, a thickener 24, a dewatering device 25 connected to the input of a device for separating weakly magnetic fractions of a concentrate, connected in series and connected by pipelines of transport 18, and the drain of the thickener 24 and the dewatering device 25 are connected to the water recycling system 26. The drain pipe of the spiral classifier 4 is connected through a protractor a gutter with an earthen gutter for transporting the hydraulic mixture 27, equipped with a thin-layer cut-off of the surface layer of the enriched mass stream 28 and, using the guide tray 29, the product receiver 30 and the transport device 31, are connected to the input of the physicochemical module for the extraction of thin plate gold 32, whose tails are deck 33 are transported to a hydraulic dump 34, divided by a technological dam into two settling sections 37 and 38, interconnected by a pipe spillway 36 located in the body of the dam, equipped with a hydroflow mixer 39, and a water-soluble polymer 40 dispenser at the inlet for flocculation of suspended clay-clay particles of a hydroflow and their further deposition in the second settling section. The separated sludge is supplied by the transporting device 44 to the receiver 45, and then it enters the complex for processing the separated sludge into the finished product 46, and the clarified layer of process water through the collector 41, pump 42 and connecting pipe 43 enters the recycled water supply system.

The implementation of the proposed production line for processing clay gold sands allows to reduce technological losses of gold of large and medium classes of gold fineness, to additionally highlight previously unrecoverable small lamellar floating gold with a grain size of -0.1 mm, to increase the complexity of using host non-metallic raw materials of metal-bearing sands due to the isolation of empty pebble rocks and clayey sediment for use as finished products in various industries. The line will reduce the total water consumption of process water - up to 20%.

Claims (1)

A processing line for processing clayey gold-bearing sands of placer deposits, containing a device for disintegrating the source material, a device for separating material by size classes, a device for collecting heavy particles of concentrate, associated with a set of devices for separating the magnetic fraction of the concentrate and for separating the non-magnetic fraction of the concentrate, concentrate storage , a dehydrating classifier, the output of which is connected through a drain pipe to the section for cleaning products maneuvers into a hydraulic dump containing a pipeline, sump, pump, thickener, a dewatering device, the discharge pipe of which is connected to the input of a magnetic separator for separating a weakly magnetic fraction, and the thickener and drainage device drains are connected to the recycled water supply system, the line also contains materials transport systems and warehouses waste rock, characterized in that the device for the disintegration of the source material is made in the form of a deaf scrubber, and the device for To separate the material into size classes, it is made in the form of a washing drum screen with a screening surface, while the scrubber and the washing drum screen are interconnected using a spiral classifier, the drain pipe of which is connected by a conveying chute to a sewage ditch equipped with a cutoff of the upper layer of the enriched hydraulic flow and a device for transporting the upper layer of hydroflow to the input of the physico-chemical module for the separation of plate gold, the output is productive fractions of the physicochemical module is connected by a transport system to a device for collecting heavy particles of concentrate, and the tail of the physicochemical module is connected by a transport system to a hydraulic dump, made in the form of two settling sections separated by a technological dam, the dam is equipped with a pipe spillway with a mixer located inside it and a dispenser of water-soluble polymers installed in front of the inlet of the hydraulic flow into the pipe spillway, while the outlet of the second settling section is equipped with a device for transporting sludge sludge-clay sediment into a receiving tank and a complex for processing the sludge into a finished product and a device for transporting clarified water to a circulating water supply system, the output of the under-sieve of the washing drum screen is connected by a transportation system to a device for collecting heavy particles of concentrate, and the output of the sieve product a washing drum screen is connected by a transport system to a warehouse of empty pebble rocks and a complex of devices for producing gravel products.

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