RU2138338C1 - Concentrating plant - Google Patents

Abstract

FIELD: concentration of minerals of gravel deposits; gold dust concentrations plants. SUBSTANCE: concentration plant includes vibrating screen with disintegrator and deep filling lock; it also includes sump with sand pump mounted under vibrating screen in form of bottom, classifying hydrocyclone mounted after sand pump and centrifugal separator mounted after hydrocyclone; vibrating screen is connected with sand pump through sump and sand pump is connected with centrifugal separator through hydrocyclone. EFFECT: reduced losses of gold in concentrating clay sands containing fine gold. 1 dwg

Description

 The invention relates to the enrichment of minerals in placer deposits, in particular to installations for the enrichment of gold-bearing sands.

 A known installation for the enrichment of placers, including installed during the process and hydraulically interconnected drum screen - disintegrator and airlock (1).

 In the known installation, gold-bearing sands are loaded into a disintegrator drum, where they are disintegrated and classified to a particle size of 300 mm with a fraction of 30 mm in size being fed to the dump, and fractions of less than 30 mm for enrichment in a sluice unit, in which gold is captured up to minus 0.25 mm .

 The disadvantage of this installation is the low to 70% recovery of gold in concentrate, especially with an increase in the mass fraction of small classes of gold in enriched sands of more than 30%.

 In addition, the disadvantages of the installation include its high intensity and cumbersomeness.

 A portable processing plant is known, including a vibrating screen mounted on a mobile frame with a disintegrating device in the form of high-pressure spray nozzles placed above the screen, and a deep filling gateway (2).

 In the known installation, gold-containing sands are fed to a vibrating screen, where they are disintegrated by water pumped from high-pressure nozzles, and are classified by size 20 mm with the supply of an oversize product to the dump, and the sub-sieve product to enrichment in the airlock.

 The disadvantages of the known installation also include high losses of small classes of gold, especially when clay sands are enriched with a mass fraction of fine and fine (especially fine) gold of 35-55%.

 The objective of the invention is to increase the degree of extraction of gold by reducing the loss of its small classes in the enrichment of clay sands due to the possibility of de-cladding and retrieval of fine and fine gold.

 The specified technical result is achieved in that the enrichment plant, including a vibrating screen with a disintegrating device and a deep filling gateway, according to the invention, is equipped with a sump with a sand pump mounted under a vibrating screen in the form of a bottom, a classifying hydrocyclone placed behind the sand pump, and a centrifugal separator installed behind the hydrocyclone, and the vibrating screen through the sump is connected to the sand pump, and the latter through the hydrocyclone with a centrifugal separator.

 The proposed installation, due to the possibility of deslaming the fine fraction of enriched clay sands in a classifying hydrocyclone and enriching it by density in a centrifugal field, allows 80-98% of small classes of gold to be recovered in concentrate.

 The invention is illustrated in the drawing, which schematically shows a General view of the installation.

 The enrichment plant contains a hydraulically interconnected during the technological process vibrating screen 1 with a disintegrating device 2 in the form of a system of high-pressure nozzles 3, a deep filling gate 4, classifying a hydrocyclone 5 and a centrifugal separator 6. A vibrating screen 1 with a disintegrating device 2 is designed for disintegration of gold-containing sands , their classifications by size into three classes: minus 4 mm, minus 20 + 4 mm and plus 60 mm with the supply of fractions larger than 60 mm to the dump, fractions of 60 d or larger about 4 mm for collecting large gold into a deep-filling sluice, and smaller than 4 mm through a receiving sump for dehydration and slag removal into a classifying hydrocyclone.

 The vibrating screen 1 is an inclined groove 7 with a three-tier screening surface made in the form of a grate 8 with a slit width of 60 mm in the upper part, a perforated sieve 9 with holes minus 20 mm in the middle and a wire sieve 10 with cells minus 4 mm in the bottom parts and bottom in the form of a sump 10 with a sand pump 12.

 The receiving sump 11 of the vibrating screen is designed to collect the pulp of the under-sizing product of the screen and stabilize the power of the hydrocyclone.

 The vibrating screen through the sand pump 12 of the sump 11 is connected by a pipeline to a hydrocyclone 5, and through a sieve 9 and 10 with a floodgate 4.

 The deep filling gateway 4 is designed to capture free gold from sands with a particle size of 4 to 60 mm and is an inclined groove 13 with rubber catching mats 14 and cliches 15.

 Classifying hydrocyclone 5 is intended for hydraulic classification of the under-sieve product of a vibrating screen by density and fineness of 0.1 with deslamination of mineral particles and thickening of the pulp, and is a cylindrical body 16 with supply 17, drain 18 and sand 19 nozzles.

 Hydrocyclone 5 pipeline transportation of the lower product is connected with a centrifugal separator 6.

 The centrifugal separator 6 is designed to extract small classes of gold by separating mineral particles in the pulp stream by density under the influence of centrifugal forces and is an enrichment bowl 20 with a loading funnel 21 mounted for rotation around a vertical axis in an annular drain channel 22.

 Installation works as follows.

 Sands of placer with a clay mass fraction of 30-40%, containing free gold with a grain size of 0.5 - 0.25 mm, 35-45%, smaller than 0.25 mm are loaded into a vibrating screen 1 on the grate 8, where under the influence of the pressure of the water pumped through the nozzles 3 of the disintegrating device 2, they disintegrate.

 In this case, boulders and sand fractions larger than 60 mm are screened into a dump, and the sand fraction smaller than 60 mm is poured together with water into a sieve 9.

 The resulting pulp on sieve 9 is classified by size 20 mm At the same time, a fraction of sands larger than 20 mm is screened onto a deep filling sluice 4, and sands smaller than 20 mm are sieved onto a sieve 10, which is classified by 4 mm size.

 From sieve 10, the vibrating screen pulp of the medium-grained fraction of sand with a particle size of 4 to 20 mm is fed to the sluice 4 for deep enrichment, and the sub-sieve (minus) screen product is received in the receiving sump 11, from where it is fed to the hydrocyclone 5 by a sand pump 12.

 In the sluice 4 of deep filling, when the pulp stream moves through the gutter 13, sands containing free gold larger than 4 mm under the influence of gravity are divided by density into heavy and light particles. In this case, light particles are carried away from the airlock by a stream of pulp into the dump, and heavy ones are concentrated on rubber mats 14, from where they are periodically rinsed.

 Extraction of gold larger than 4 mm in the concentrate reaches approximately 100%.

 In hydrocyclone 5, when the pulp rotates in a cylindrical housing 16, sands with a fineness of less than 4 mm are classified by density and fineness of 0.1 mm into silt (slag) and sand fractions. The discharge of the hydrocyclone containing 90 - 95% of the sludge fraction is discharged into the dump through the pipe 18, and through the pipe 19 - for enrichment in a centrifugal separator 6.

 The sands of the hydrocyclone 5, containing mainly gold with a grain size of 0.5 to 0.1 mm and smaller, are pulped and fed through the feeding funnel 21 of the separator 6 to the bottom of the enrichment bowl 20.

 In the beneficiation bowl 20, the sands in the pulp stream are separated by density in a centrifugal field with the deposition of gold in the riffles of the lining of the bowl and the supply of de-greased pulp through the drain chute 22 to the dump.

 Extraction of gold with a grain size of 0.50 -0.1 mm reaches 90-98%, finer than 0.1 mm 70-85%.

 Thus, the proposed installation due to the distinguishing features made according to the invention allows for the enrichment of clay sands containing fine gold, to extract 80-98% of fine and fine gold, respectively, in the concentrate.

Sources of information:
1. Bogdanov EI, Equipment for transport and washing sand of placers, M., Nedra, 1978, p. 202-203, fig. 82,
2. Mobile plants and apparatus for the extraction of gold from ores and placers, Catalog, N. TsNIGRI, 1995, S. 180-181 (prototype).

Claims (1)

 An enrichment plant, including a vibrating screen with a disintegrating device and a deep filling sluice, characterized in that it is equipped with a sump with a sand pump mounted under a vibrating screen in the form of a bottom, a classifying hydrocyclone placed behind the sand pump, and a centrifugal separator installed behind the hydrocyclone through a sump connected to a sand pump, and the latter through a hydrocyclone with a centrifugal separator.