RU2055644C1 - Aggregate for benefication of gold-bearing alluvial deposits - Google Patents

Abstract

FIELD: natural minerals beneficiation. SUBSTANCE: aggregate for beneficiation of gold-bearing alluvial deposits has mounted in accordance with production process and hydraulically connected to each other in accordance with production process disintegrating module, preliminary beneficiation module, classifying module and beneficiation module. Classifying module is made in the form of arc-shaped sizing screen with device for under lattice product thickening. Beneficiation module is made in the form of at least one centrifugal separator. EFFECT: aggregate is effective in gold-bearing sands processing. 3 cl, 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.

Known mobile concentration plant for gravitational enrichment of alluvial gold-bearing samples, including mounted on a supporting frame drum screen disintegrator, self-locking gateway and two centrifugal separators hydraulically connected to the screen-disintegrator [1]
In a known installation, the sample material is loaded into a drum disintegrator, where it is disintegrated and classified into two classes.

 A material with a particle size of plus 8 mm is fed to a self-catching lock and then to a dump.

 A material of minus 8 mm in size, containing the bulk of the gold, is subsequently enriched in centrifugal separators of the main and control stages of enrichment.

 The known installation provides a high order of 96-98% degree of gold recovery.

The disadvantages of the installation include low productivity of 0.35 m ³ / h.

A known concentrator is a flushing hydraulic device with a capacity of 400 to 1200 m ³ / day, designed for washing gold-bearing sands of placer deposits, the kit of which includes a hydraulic loading device, a hydraulic monitor, a deep accumulation head lock installed along the technological process and connected by vehicles , drum screen, small accumulation airlock, spreader and epheleral aggregate [2]
In a well-known installation, the sands are fed by a bulldozer to the restrictive lattice of the hydrogauge, where they are intensively disintegrated by a stream of water from the hydraulic monitor. At the same time, the fine fraction together with water enters the hopper through the restriction grate, and the large fraction and boulders are transported upstream of the screen with a jet of a hydraulic monitor and dumped into the dump.

 The sub-sieve product of the hydraulic saber is fed by a hydraulic elevator to the deep-water head lock, where 70-90% of gold is captured, including all gold larger than 10 mm. The tails of the head airlock are sent to the drum screen, where they are classified by size. Material larger than 20 mm is discharged onto a mobile spreader, and the undergrate is fed to a small-sized gateway, where fine gold with a grain size of up to minus 0.25 mm is captured.

 The tailings of a shallow sluice are removed by an ephele harvester.

 In the known installation, the loss of gold when washing sand with large gold is 5% with gold of medium fineness 9% with fine gold of about 20%. In addition, the known installation has a high metal consumption and energy intensity.

 The aim of the invention is to reduce the loss of gold when washing sand with fine gold, as well as reducing the energy and metal consumption of the installation.

 This is achieved by the fact that in the installation for the enrichment of gold-bearing placers, including a disintegrating module installed in the process and hydraulically interconnected, a pre-enrichment module, a classification module and an enrichment module, according to the invention, the classification module is made in the form of an arc screen with a thickening device sub-sieve product, and the enrichment module in the form of at least one centrifugal separator.

 In this case, the pre-enrichment module is made in the form of a self-catching gateway, and the device for thickening the under-sieve product of the arc screen is in the form of a package of parallel plates mounted under the screen grid obliquely to the pulp stream.

 The proposed installation, due to the classification of the tailings of the self-locking sludge trap, of the preliminary enrichment stage on an arc screen with thickening of the sublattice product, makes it possible to enrich it in density under the influence of centrifugal forces with almost complete trapping of finely dispersed gold with a grain size of up to 0.1 mm.

 In addition, the classification of the tailings of the pre-enrichment module using an arc rather than a drum screen and the subsequent thickening of the under-sieve product increases the productivity of the installation with a decrease in the volume of the classification module, its metal consumption and the reduction of energy consumption for sand enrichment.

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

 Installation for the enrichment of gold-bearing placers according to the scheme: disintegration screening of sand and their two-stage enrichment contains disintegration module 1 installed in the course of the process and hydraulically interconnected, preliminary enrichment module 2, classification module 3 and enrichment module 4.

 The disintegrating module 1 is designed for loosening alluvial ore (sands) and weighed out a large fraction (+60 mm) and is a receiving table 5 with a bottom in the form of a restrictive screen 6 and a hydraulic monitor 7. Module 1 is connected through the perforated holes of the screen 6 to the preliminary enrichment module 2 .

 The pre-enrichment module 2 is designed to trap 6 gold grains from the under-sieve product of the screen, the fineness of which is larger than the sands class of the classification module 3 and is a lock self-trap made in the form of a gutter 8 with a rubber coating 9. The module 2 for the enrichment tail discharge pipe is connected to the classification module 3 .

 Classification module 3 is designed to separate pre-enrichment tailings into two fractions with the release of sands of minus 6 mm in size into the under-sieve product, as well as dewatering and thickening of the under-sieve product and is made in the form of an arc screen 10 with a receiving pipe 11 in the upper part, an arc grate 12 with an angle 90 degrees and a collector of 13 subgrate products at the bottom. Moreover, in the collector 13 of the under-sieve product, a package 14 of parallel plates 15 mounted obliquely to the flow of the pulp is mounted under the lower edge of the grating 12.

 The module 3 is connected to the beneficiation module 4 by a pipeline for transporting the under-sieve product. The beneficiation module 4 is designed to extract fine gold by density separation of minerals under the influence of centrifugal forces and consists of two centrifugal separators 16 connected by a slurry pipe to a supply device 17. The installation is equipped with a pump station and a console control (not shown in the drawing).

 Installation works as follows.

Alluvial ore with a mass fraction of free gold in enriched sands with a grain size of 0.5-0.2 mm 35-45% and finer than 0.2 mm 35-55% is fed to a disintegrating module 1, where it is continuously washed out at the receiving table by 1 jet of water from a hydraulic monitor 7. In this case, boulders and a fraction with a particle size of plus 60 mm are discharged by the water pressure into the dump, and a fraction with a particle size of minus 60 together with water with a ratio of Zh: T 12: 1 through a restrictive screen 6 enters the lock self-trap of module 2. When the pulp moves along the gutter 8 gateway, sands under the influence of gravity are stratified according to lots and size. At the same time, nuggets and grains of heavy minerals with a particle size of minus 10 mm are concentrated on rubber mats 9, and light fractions and fine gold are carried by a stream from the gateway to module 3. The extraction of gold from ore is 68%
In module 3, the pulp through the receiving pipe 11 of the arc screen 10 is sent to the arc grid 12 with a length of 1/4 of the circumference and, sifting through it, is divided into two fractions.

 An oversize product with a particle size of plus 6 mm is fed into a dump, and an under-sieve product with a particle size of minus 6 mm is discharged into a collector 13, where the pulp passes through a packet 14 of parallel plates 15, in which, due to separation into laminar flows and a decrease in the settling path of solid particles, it is dehydrated to W: T 4: 1 and then fed to module 4.

 In module 4, the pulp through the feed device 17 is distributed between parallel-working centrifugal devices 16, in the processing chambers of which the solid phase of the pulp is divided by density under the influence of centrifugal forces. In this case, the light fraction together with water is discharged through the rotor board into the drain chute and fed to the dump, and heavy minerals and fine gold are concentrated in flutes made on the side walls of the rotor (not shown in the drawing), and are unloaded from the separator as they accumulate.

Extraction of gold from ore is 30%, including fine gold fineness minus 0.2%
Thus, the proposed installation, due to the distinguishing features made according to the invention, allows for the beneficiation (washing) of placer deposits containing fine gold to increase the recovery of gold to 98% from ore by reducing the loss of fine gold.

 In addition, the proposed installation improves the efficiency of placer mining by reducing the cost of electricity and the volume and metal consumption of the equipment in the classification cycle for tailings for pre-enrichment.

Claims (3)

 1. INSTALLATION FOR THE ENRICHMENT OF GOLD-CONTAINING SCAINS, including installed during the process and interconnected hydraulically disintegrating module, pre-enrichment module, classification module and enrichment module, characterized in that the classification module is made in the form of an arc screen with a device for thickening the under-sieve product, and the enrichment module in at least one centrifugal separator.  2. Installation according to claim 1, characterized in that the pre-enrichment module is made in the form of a lock self-trap.  3. Installation according to claim 1, characterized in that the device for thickening the under-sieve product of the arc screen is a package of parallel plates mounted under the screen grid obliquely to the flow of pulp.

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