RU2153399C2 - Method of concentrating gold-bearing dust and washing device for gold-bearing dust concentration - Google Patents

Abstract

FIELD: precious metal technology. SUBSTANCE: initial material is fed onto hydraulic buddle, broken, an subjected to two-stage size sorting followed by separate concentration of coarse and fine materials on deep and shallow water boards. Sorting into fractions +10 mm and -10 mm is effected in buddle pit, from which fraction -10 mm is withdrawn to shallow water board, while additional trapping of removed gold is performed in tail parts of deep and shallow water boards by means of hydraulic traps. Washing device contains hydraulic buddle additionally provided with pit mounted under its receiving bin accommodating on its bottom sorting grids for 10 mm- category separation of material. Undersize space of pit Two shallow hydraulic buddles each 13.5 m long abut undersize space of pit. Hydraulic traps made in the form of bases with cup-shaped deepenings 30 mm in diameter and semitubes 32 mm in diameter are mounted in tail parts of deep and shallow hydraulic boards. EFFECT: increased gold recovery degree. 2 cl, 5 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 such as 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 with the removal of fractions of class +100 mm into the dump and the withdrawal of fractions of class -100 mm to the deep filling gateway [1].

 Flushing devices for the enrichment of gold-bearing sands of the PGS type consist of a hydro-sherd, deep filling sluices, and PKS and PHB types consist of butrub scrubbers, deep and fine filling sluices [1].

 The disadvantages of the known method and the corresponding devices for its implementation are significant losses of fine gold due to its entrainment at a high flow rate of pulp at the locks, the inability to create sufficiently fine filling at the locks of small filling due to the large size of the material (-30 mm) supplied to gateways.

 The disadvantages of the known method in devices for its implementation are: the difficulty of regulating the flow rate of the pulp at the gateways, the ratio T: W, the inability to classify the material into smaller classes + 10 mm and - 10 mm and retrieval of the carried gold.

 The closest in technical essence to the achieved result to the proposed method should be called a method of enrichment of gold-containing sands, including the supply of material to the hydraulic sash, its disintegration and two-stage classification, followed by enrichment of the material at the locks of deep and shallow filling [2].

 A washing device for the enrichment of gold-containing sands contains a hydroswash, sluices of deep and shallow filling [2].

 The disadvantages of this method and the corresponding device for its implementation are the loss of gold when rinsing-removing concentrate from locks, low productivity and design complexity of the device.

 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 two-stage classification, followed by separate enrichment of large and small material at the locks of deep and shallow filling, according to the invention, the classification of material into fractions of class + 10 mm and -10 mm is produced in a bathtub with a lead of fractions of the -10 mm class to two fine filling sluices, and the removal of gold being carried out is carried out in the tail of the deep sluices for filling the small hydraulic traps made in the form of bases and Cupules polutrube.

 The purpose of the invention is also ensured by the fact that the washing device for the enrichment of gold-containing sands, containing a hydraulic guard, locks of deep and shallow filling, according to the invention, the hydraulic guard is additionally equipped with a bathtub mounted under its receiving hopper, with classification gratings laid at the bottom for separating material according to 10 mm class at the same time, two sluice of fine filling 13.5 m long adjoining the sub-bath space are installed parallel to both sides of the deep filling sluice, and in vostovoy portion gateways deep and shallow filling installed hydraulic trap, made in the form of bases with Cupules of 30 mm diameter and a half-tube with a diameter of 32 mm.

 The secondary classification of the material is carried out directly in the bathtub of the hydrogauge, and the adjoining of the fine filling sluices to the subsea space of the hydrogasherd bath allows to increase the length of the small filling sluices to 13.5 m, this allows to increase the screening area of the material, and therefore the productivity of the device, while increasing the enrichment efficiency and simplifies flushing device design.

 In FIG. 1, 2 and 3 depict a General view of the washing device for the enrichment of gold sands.

The device (Fig. 1) consists of a hydrogauge 1 with an inclined section 2, a length of 4.48 m and an inclination angle of 20 ^° , a bath of a hydrogauge 3 with classification gratings of 10 x 10 mm and perforated sheets 4. In FIG. 2 shows that a deep-filling lock 5, two fine-filling locks 6 and adjacent to the rear part of the locks are equipped with hydraulic traps 7. They are adjacent to the subsurface space of the bathtub of the hydroswagger. 3 shows the location of the bathtub of the hydraulic wash at an angle of 20 ^o , and the locks are adjacent to the receiving chamber 8 at an angle of 5 ^o .

 In FIG. 4 and 5 depict a hydraulic trap consisting of a concrete base 1 (Fig. 4), cup recesses 2 (Fig. 5) with a diameter of 30 mm and half pipes 3 with a diameter of 32 mm.

 The flushing device operates as follows.

 Material with a particle size of 100 - 110 mm is fed to the hydraulic damper, where it is disintegrated by a jet of a hydraulic monitor, due to the impact of the sand fraction on the partitions, openings, drops located at the bottom of the hydraulic damper, the material is classified into fractions of class +100 mm and -100 mm, fractions of class +100 mm are removed by a jet of a hydraulic monitor into the dump, and fractions of the -100 mm class enter the bath, where the secondary classification of the material into fractions of the +10 mm and -10 mm class is performed. Material of fractions of the +10 mm and -100 mm class enters the deep filling sluice reinforced with rubber mats and ladder-type stencils, and the -10 mm fractions from the subwoofer space of the hydraulic saber enter the two fine filling sluices 13.5 m long, installed parallel to to both sides of the deep filling lock, reinforced with dragee rubber mats and seamless stencils. Catching the inevitably demolished fine gold during the strip-survey is carried out at the end of the deep and shallow filling locks on hydraulic traps.

 The pulp flow rate at the deep filling gateway is 2.4 m / s, at the fine filling gateways - 0.6 - 0.7 m / s.

 A distinctive feature of the operation of the washing device is that the classification of material into fractions of the +10 mm and -10 mm class is carried out directly in the bathtub of the hydrogauge, with the withdrawal of fractions of the -10 mm class into two sluice filling gates, which allows to increase the screening area of the material, and therefore to increase the extraction of gold and the performance of the washing device, the catching of the carried gold particles is carried out in the tail of the locks of deep and shallow filling on hydraulic traps made in the form of vany with cup recesses and half pipes. The principle of indelibility of heavy particles of minerals and gold is used in the hydraulic trap. When it enters the cup recesses, the suspension tends to take a stable equilibrium position: particles of predominantly higher density are concentrated in the lower layers, and less in the upper layers. In addition to gravity, hydrodynamic forces and friction force act on a suspension of mineral particles when it enters a cup recess. The determining force is gravitational, which is determined by body mass and the acceleration of gravity.

The size of the cup recesses was chosen experimentally and then the relative loss of potential energy ΔE / E _{0 was} calculated, which gives a qualitative assessment of the process of separation of particles in a liquid by the height of the suspension. The larger the ratio ΔE / E ₀ , the more successful the separation process. The greatest decrease in potential energy with a cup diameter of 30 mm is 0.83, with a cup diameter of 25 mm it is 0.67, and with a diameter of 40 mm it is 0.66.

 A distinctive feature of the design of the washing device is that the hydraulic guard is additionally equipped with a bathtub mounted under its receiving hopper, at the bottom of which there are classification gratings for dividing the material according to the class of 10 mm, while two sluices of small filling 13.5 m long are adjacent to the underwater space of the bathtub installed in parallel on both sides of the deep filling sluice, and in the rear part of the deep and fine filling sluices hydraulic traps are installed, made in the form of vany with cup recesses with a diameter of 30 mm and half pipes with a diameter of 32 mm.

The productivity of the screen of the secondary classification is 40.5 m ³ / h, which was determined by the formula:
Q = 3600 • B • h • V • M,
where B is the width of the screen, m;
h is the height of the material flow, m;
V is the velocity of the material, m / s;
M is the coefficient of loosening of the material.

 B - 1.5 m; h - 0.04 m; V - 1.5 m / s; M - 0.125.

Hence: Q = 3600 • 1.5 • 0.04 • 1.5 • 0.125 = 40.5 m ³ / hour.

где ε - эффективность грохочения или коэффициент полезного действия, %;
q - количество подрешеточного материала, %;
q₁ - количество материала данной крупности (-10 мм) в исходном материале, %.Screening efficiency was determined by the formula

where ε is the screening efficiency or efficiency,%;
q is the amount of sublattice material,%;
q ₁ - the amount of material of this size (-10 mm) in the source material,%.

 According to the results of particle size analysis, placers contain material with a grain size of -10 mm on average 47% (40 - 55%).

 The amount of sublattice material according to experimental data is 38%.

Таким образом, вторичное грохочение обеспечивает хорошую классификацию материала.From here:

Thus, secondary screening provides a good classification of the material.

 When enriching gold-containing sands on a industrial instrument with lateral unloading 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 hydro-sherd, the extraction of gold is 94.7 - 95.2% due to an increase in the screening area of the material (increase in the length of locks of small filling).

 Hydraulic traps, made in the form of bases with cup recesses, allow you to effectively retrieve the gold carried during strip shooting.

 During the washing season, up to 3100 g of gold is recovered using hydraulic traps.

Sources of information
1. Handbook of ore dressing. The main processes. - M .: Subsoil. - 1988 .-- S. 106 - 109.

 2. Bogdanov E.I. Equipment for transport and washing of placer sand. M .: Subsoil. 1978. p. 209 - 210, p. 160, 162, 164, fig. 3, scheme II (prototype).

Claims (2)

 1. A method of enrichment of gold-containing sands, including the supply of material to the hydraulic sash, its disintegration, two-stage classification, followed by separate enrichment of large and small material at the sluices of deep and small filling, characterized in that the classification of the material into fractions of class + 10 mm and -10 mm they are produced in a bathtub with a hydrowashgard with the withdrawal of fractions of the -10 mm class to two fine filling sluices, and the removal of the gold being carried out is carried out in the tail part of the deep and small filling sluices on hydraulic women, etc., made in the form of bases and Cupules polutrube.  2. A washing device for the enrichment of gold-containing sands, containing a hydraulic guard, sluices of deep and shallow filling, characterized in that the hydraulic guard is equipped with a bathtub mounted under its receiving hopper, with classification gratings laid on the bottom for dividing the material according to 10 mm class, while at the same time the space of the bath is adjoined by two fine filling locks 13.5 m long, installed parallel to both sides of the deep filling lock, and in the rear part of the deep and fine filling locks hydraulic traps are made in the form of bases with cup recesses with a diameter of 30 mm and half pipes with a diameter of 32 mm.

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