RU2149197C1 - Method of concentrating gold-containing sands and washer with nugget catcher for method embodiment - Google Patents

Abstract

FIELD: metallurgy, particularly, methods of concentration of gold-containing sands with the help of washer. SUBSTANCE: method includes supply of material to hydraulic washing table, disintegration of material, double classification, first into fraction of plus 140 and minus 140 mm class, then fractions of plus 30 and minus 30 mm class with withdrawal of fraction of plus 140 mm class to dump, fractions of plus 30 and minus 140 mm class are fed to sluice box of nugget catcher, and fractions of minus 30 class, to main sluice box through receiving bath. In so doing, classification into fractions of plus 140 and minus 140 mm class is effected on receiving bin of hydraulic washing table, and classification into fractions of plus 30 and minus 30 mm class is carried out in bath of hydraulic washing table. Washed away gold is finally caught by hydraulic catchers installed in tail part of main sluice box. Washer with nugget catcher has hydraulic washing table, sluice box of nugget catcher, main sluice box, hydraulic catcher. Hydraulic washing table is additionally provided with classification screens located above receiving bin of hydraulic washing table, bath of hydraulic washing table with screens having opening 30 mm of diameter, hydraulic washing table trough made in the form of trapezoidal section narrowing upward and covered with screens having openings 30 and 40 mm in diameter and having under screens, plane inclined at an angle of 19 deg and connected with sluice box of nugget catcher, receiving bath located in under-screen space of hydraulic washing table bath and connected with main sluice box. EFFECT: higher recovery of gold and efficiency of method; simplified design of equipment. 2 cl, 2 dwg

Description

 The invention relates to the field of metallurgy, and in particular to methods for enrichment of gold-containing sands on washing devices.

 A known method and flushing devices for the enrichment of gold-containing sands like PGSH, PHB, PKS, where the enrichment of the material is carried out by feeding it to a hydraulic damper or scrubber, disintegrating and classifying the material into classes + 100 mm and -100 mm with the removal of fractions of class +100 mm into the dump and the withdrawal of a fraction of the class -100 mm to the deep filling gateway [1,2].

 Flushing devices for the enrichment of gold-bearing sands of the PGS type consist of a hydraulic wash, deep-filling sluices, and PKS and PHB types consist of scrubbers-butars, deep and fine filling sluices, self-locking gate catchers can be installed in front of the scrubber and washing scrubbers, and in front of the scrubber, after a scrubber when processing clay placers [1,2].

 In the design of washing devices like PKS, there is no self-trapping device.

 Famous electric self-trapping devices can be installed for hydro-washing flushing devices and dredges [2].

 The disadvantages of this method and the corresponding devices for its implementation are significant losses of both nuggets and large and small gold due to the lack of preliminary preparation of the material for extraction of nuggets, classification and separate enrichment of large and small material.

 The disadvantages of this method in scrubbing devices are: high energy consumption, the difficulty of installing a self-trapping device on the dashboard in front of the scrubber and its maintenance (the entire area of the sluice self-trapping is raised to a height of 2 m), high metal consumption.

 The disadvantages of this method in hydro-washing flushing devices with electric self-trapping devices are their unreliability in operation (high sensitivity in vibrations, voltage fluctuations in the electrical network, poor separation from ferrous metals, etc.), the need to raise self-traps to a height and carefully configure them, and there is no possibility of classification material into smaller classes of +30 mm and - 30 mm and the capture of demolished gold.

 The closest in technical essence and the achieved result to the proposed method should be called a method of enrichment of gold-containing sands, including feeding the material to the hydraulic saber, disintegration and classification into classes +100 mm and -100 mm with the output fraction +100 mm to the dump, and the fraction -100 mm - to the deep filling gateway, the classification of the material on the deep filling gateway into classes + (6-10) mm and - (6-10) mm with the withdrawal of the fraction - (6-10) mm to the shallow filling gateway [3].

 The washing device for the enrichment of gold-containing sands contains a hydraulic damper, deep and fine filling sluices, slit-shaped screens installed in the head and tail of the deep filling sluice, distributor trenches-collectors and a cone-shaped hydraulic trap located in the underwater space of the tail part of the deep filling sluice [3].

 The disadvantages of this method and the corresponding device for its implementation are the loss of gold due to the lack of preliminary preparation of sand on a hydrograd for subsequent separate enrichment of nuggets and fine gold, low productivity and design complexity of the device due to the presence of weed grooves, slurry conduits for slurry distributors, slit-like screens.

 The purpose of the invention is to increase the extraction of gold, increase productivity and simplify the design of the washing device.

 This goal is achieved by the fact that in the method of enrichment of gold-containing sands, including feeding the material to the hydraulic sash, its disintegration and double classification with separate enrichment of coarse and fine material at the sluices and collecting the carried gold in a hydraulic trap, according to the invention, the classification of material into fractions of class +140 and -140 mm are produced in the receiving hopper of the hydrogauge, with the withdrawal of fractions of class -140 mm into the bath of the hydrogauge and secondary classification of the material into classes +30 mm and -30 mm in the hydra bath ashgherd and on the nibbled tray with the output of large material of class +30 mm and -140 mm to the gate of the self-trap, and small material of class -30 mm through the bathtub-receiver to the main gateway.

The purpose of the invention is also ensured by the fact that a flushing device with a self-trap for carrying out the indicated method, comprising a hydraulic guard, a self-trapping lock, a main lock, a hydraulic trap according to the invention, is additionally equipped with classification grids of 140 x 140 mm in size, located above the receiving hopper of the hydraulic guard, mounted in a bathtub under a receiving hopper, at the bottom of which screens with 30 mm diameter holes are stacked, a hydraulic saber tray made in the form of a trapezoidal section, with alive up and ready made screen with openings of diameter 30 mm and 40 mm, having the crash of an inclined angle of 19 ^o the plane connected to the gateway samorodkoulovitelya, bath receiver situated in the space podgrohotnom gidrovashgerda bath and connected to a major gateway.

 The double classification of the material is carried out directly on the hydrogauge, and the adjoining of the sludge trap locks and the main one to the hydrogauge bath makes it possible to increase the length of the locks: the main one to 13.5 m, i.e. 4.8 m, and self-trapping - up to 7 m, i.e. by 3 m, which increases the screening area of the material, and therefore productivity, increases the concentration efficiency and simplifies the design of the washing device, because there is no need to install slurry distributors, slurry lines, collection gutters.

 In FIG. 1 shows a General view of the washing device for the enrichment of gold sands.

The device consists of a hydracharder 1 having an inclined section 2 with a length of 4.48 m and an inclination angle of 19 ^o , a receiving hopper 3, a hydracharder tray 4, a bathtub of a hydromachder 5, a receiver bath 6, classification grids of 140 x 140 mm 7 size, a screen 8, self-trapping lock 9, main lock 10, stencils 11 with cells 140 x 140 mm in size, 120 mm high, ladder-type stencils 12 110 mm high, the distance between the strips 120 mm and the angle of the strips 70 ^o , the hydraulic trap 13.

 The flushing device operates as follows.

 In FIG. 2 depicts the process flow of a washing device with a self-trapping device.

The material is fed into the receiving hopper 3 of the hydrogauge 1, where it is disintegrated by the jet of a hydromonitor due to the impact of the sand fraction on the partitions, openings, gradients of the classification grating 7 mounted on the hydrogauge; the material is classified into classes +140 mm and -140 mm, fractions of class +140 mm are removed by a jet of hydraulic monitor into the dump, and fractions of class -140 mm enter the bath of hydraulic saber 5, where the secondary classification of material on screen 8 with 30 mm openings is made into classes + 30 mm and -30 mm. Material of the class +30 mm and -140 mm enters through the hydraulic sash tray 4, covered with screens with openings of 30 mm and 40 mm, to the lock of the self-trap 9 with a length of 7 m, a width of 0.5 m and a tilt angle of the lock 12 ^o , and fractions of the class -30 mm From the under-water space of the bathtub, the hydraulic wash through the receiver bath 6 enters the main gateway, reinforced with dragee rubber mats and ladder-type stencils. The first 3 meters of the sluice trap are lined with 11 stencils with square cells 140 x 140 mm in size, the next 4 m are with ladder-type stencils 12. The inevitably demolished fine gold is caught during the strip-survey at the end of the deep filling sluice on the hydraulic trap 13.

 The pulp flow rate at the self-trapping lock is 2.4 m / s, at the main lock is 0.6 - 0.7 m / s; the ratio of T: W = 1: 22-25.

 A distinctive feature of the operation of the washing device with a self-trapping device is the complete preparation of the material for enrichment directly on the hydrogauge: double classification and output of large fractions of the material +30 mm and -140 mm to the gate of the self-trap and small fractions of the -30 mm class through the receiver bath to the main gate, which allows you to increase the screening area of the material, and therefore increase the extraction of gold and the performance of the washing device.

A distinctive feature of the design of the washing device is that the hydraulic guard is additionally equipped with classification grids of 140 x 140 mm in size, located above the receiving hopper of the hydraulic guard, a bath of the hydraulic guard, mounted under the receiving guard of the hydraulic guard, at the bottom of which screens with holes 30 mm in diameter are laid, with a hydraulic guard in the form of a trapezoidal section, tapering to the top and covered with screens with holes with a diameter of 30 and 40 mm, having an inclined plane under the screens be an angle of 19 ^o, coupled to the gateway samorodkoulovitelya, bath receiver located in the space podgrohotnom girovashgerda bath and connected to a major gateway.

 When enriching gold-containing sands on a industrial instrument with a lateral load of small material (prototype), the gold recovery is 93.7%. When enriching gold-containing sands on the proposed industrial device with a double classification of the material on a hydraulic saber, the gold recovery is 95.5-95.8% due to a decrease in the loss of nuggets and fine gold, an increase in the screening area of the material, i.e. increasing the length of the main sluice and the self-trapping unit and preliminary preparation of the material for enrichment on a hydroswash.

Sources of information:
1. The main processes. Guide to ore dressing. -M.: Nedra, 1983, p. 106-109.

 2. Vyazelschikov V.P., Paritsky Z.N. Handbook of processing gold-bearing ores and placers, - M .: Nedra, 1963, 650 p.

 3. Patent N 2083701 of the Russian Federation 10.07.97.

Claims (2)

 1. The method of enrichment of gold-containing sands, including the supply of material to the hydraulic saber, its disintegration, double classification with separate enrichment of large and small material at the locks and trapping the carried gold in a hydraulic trap, characterized in that the classification of the material into fractions of class +140 mm and -140 mm is produced in the receiving hopper of the hydrogauge with the withdrawal of fractions of class -140 mm into the bath of the hydrogauge and a secondary classification of the material into classes +30 and -30 mm in the bath of the hydrogauge and on the gutter, with house large class of material 30 and -140 mm through gidrovashgerdny tray gateway samorodkoulovitelya and Class -30 mm fraction through a bath receiver - the primary gateway. 2. A flushing device with a self-trap for carrying out the indicated method, comprising a hydroguard, a self-trapping gateway, a main gate, a hydraulic trap, characterized in that the hydroguard is additionally equipped with classification grids of 140 • 140 mm in size, located above the receiving hopper of the hydroguard, mounted bathtub, mounted under the receiving a bunker, at the bottom of which there is a screen with holes with a diameter of 30 mm, a hydraulic saber tray made in the form of a trapezoidal section, tapering upwards, and jammed with screens with holes with a diameter of 30 and 40 mm, having under the screens an inclined plane at an angle of 19 ^o , connected to the lock of the self-trap, a receiver bath located in the under-screen space of the bathtub and connected to the main lock.

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