RU2727992C1 - Jigging machine - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: disclosed invention relates to beneficiation of minerals and can be used in gold mining industry during enrichment of loose and core ores, tailings and other products containing free particles of noble metals. Jigging machine includes housing installed inside screen housing, installed under sieve pulsator and device for unloading of oversize and undersize products, thin-layer module with wave-like plates installed in upper part of housing and device for unloading of discharge, grate with chute for unloading of upper product installed in the side of housing and chamber for receiving of lower product, which in lower part through horizontal slot hole in housing is interconnected with gaps between wave-like plates of thin-layer module. Wave-like plates of thin-layer module are concave in height. Wave-like plate wave troughs in lower part have recesses with rectilinear bottom. Discharge unloading device is made in the form of drain chute connected to chute for discharge of grate top product.

EFFECT: high efficiency of beneficiation of finely dispersed particles of noble metals.

1 cl, 1 tbl, 3 dwg

Description

The invention relates to the beneficiation of minerals and can be used in the gold mining industry for the beneficiation of loose and primary ores, tailings and other products containing free particles of precious metals.

Known jigging machine, including a housing installed inside the housing a sieve installed under the sieve pulsator, and devices for unloading oversize and undersize products (US Pat. RF No. 2077388 from 03/14/1994, CL B03B 5/24, publ. 04/20/1997 , bull. No. 11).

The closest in technical essence to the claimed invention is a jig, which includes a body, a sieve installed inside the body, a pulsator installed under the sieve, and devices for unloading oversize and undersize products, a thin-layer module with wave-shaped plates installed in the upper part of the body and a device for unloading the drain, a grate-type screen installed on the side of the body with a chute for unloading the upper product and a chamber for receiving the lower product, which in the lower part through a horizontal slotted hole in the body communicates with the gaps between the wavelike plates of the thin-layer module (Morozov Yu.P., Afanasyev A.I., Pospelov VP et al. Development and implementation of the OMZ-01 jigging machine into the technology of processing platinum-containing technogenic products // Problems of exploration, mining and concentration of precious metal ores and technogenic raw materials: materials of the international scientific and technical conference. Yekaterinburg: ed. UGGU, 2000, pp. 15-16).

The disadvantage of these jigging machines is the low efficiency of enrichment of fine particles of noble metals.

The common feature of the considered analog and prototype is the implementation of the submerged jigging option.

The proposed invention is aimed at increasing the efficiency of enrichment of fine particles of noble metals.

To perform the assigned task in a jig, including a body, a sieve installed inside the body, a pulsator installed under the sieve and devices for unloading oversize and undersize products, a thin-layer module with wave-shaped plates installed in the upper part of the body and a device for unloading discharge, a grate screen installed on the side of the body with a chute for unloading the upper product and a chamber for receiving the lower product, which in the lower part communicates with the gaps between the wavelike plates of the thin-layer module through a horizontal slot in the housing, the wavelike plates of the thin-layer module are made concave in height, the depressions of the waves of the wavelike plates in the lower part with a straight bottom, and the discharge unloading device is made in the form of a drain chute connected to the chute for unloading the top product of the grate screen.

FIG. 1 shows a top view of a jig, FIG. 2 - section A-A, in Fig. 3 is a general view of a wavelike vertically concave plate of a thin-layer module.

The jigging machine consists of a housing 1 installed inside the housing 1 of the sieve 2, installed under the sieve 2 in the wall of the housing 1 of the pulsator 3, installed at the end of the sieve 2 of the threshold 16 for unloading the light fraction into the collector 15, located in the lower part of the housing 1 of the unloaders 4 for unloading undersize product and 5 for unloading oversize product installed in the upper part of the housing 1 of a thin-layer module 6 with wavy concave plates 7, having in the lower part of the depressions recesses 8 with a straight bottom. In the upper and lower parts of the top of the wave-shaped plate 7, fixing strips 9 are fixed, providing a predetermined gap between the wave-shaped plates. A grate 10 with a chute for unloading the upper product 11 and a chamber 12 for receiving the lower product is installed on the side of the housing 1. The chamber 12 in the lower part is adjacent to the horizontal slotted hole 13 in the housing 1. The device for unloading the drain 14 is made in the form of a drain chute connected to the chute for unloading the top product of the screen 11.

The depositor works as follows.

The initial feed in the form of a mixture of solid and liquid phases is fed to the grate screen 10, on which the material is wet screened. The top product of the screen is directed by gravity to the chute 11.

The bottom product of the screen 10 in the form of a slurry enters the chamber 12, from which, through the horizontal slot 13 in the housing 1, it is distributed between the undulating plates 7 of the module 6 and in the form of ascending flows rises in the gaps between the undulating concave plates 7 of the thin-layer module 6 upward.

Large and heavy particles of the solid phase in the ascending flows due to the forces of gravity and centrifugal force in the space between the wavelike plates, collect in the depressions and form a descending flow of the heavy fraction downward, which, through the depressions 8 with a straight bottom, enters the surface of the sieve 2.

Lighter fractions with a liquid phase rise upward and are carried out with discharge into the chute 14. The overflow streams from the chute 14 enter the chute 11 of the grate screen 10 and wash the top product of the grate screen into the tailings.

When the pulsator 3 is turned on, the material that has fallen onto the sieve 2 is separated by jigging. Heavy particles of precious metals pass through the material deposited on the sieve 2 and through the sieve 2, go down in the undersize space and are unloaded using a device for unloading the undersize product 4 into the concentrate. The rock particles on the sieve 2 through the threshold 16 are loaded into the 15 oversize product collector and are discharged into the tailings using the 5 unloading device.

Making the wavelike plates 7 of the thin-layer module 6 concave increases the efficiency of capturing fine particles of noble metals in the depressions of the wavelike plates due to the additional effect of centrifugal forces on the particles, and the presence of depressions with a straight bottom in the lower part of the depressions facilitates efficient transportation without mixing with the initial feed of the heavy fraction to the sieve 2. Lighter fractions with a liquid phase rise upward in the gaps between the wavelike plates and are removed to the drain.

Pulsations from the pulsator 3 through the sieve 2 are transmitted to the gaps between the undulating plates, lead to oscillatory movements of the heavy fraction in the depressions of the undulating plates, thereby releasing the particles of waste rock that have fallen into the heavy fraction, which are carried away by the ascending flows of the liquid phase into the drain. Due to this, the quality of the heavy fraction sent to the sieve 2 is increased, which also leads to an increase in the quality of the concentrate.

Implementation of the device for unloading the overflow in the form of a chute connected to the chute for removing the top product of the grate screen ensures efficient removal of the top product of the grate screen (hali) into the tails using the overflow streams of the jigging machine.

Comparative tests of the proposed jigging machine with the known jigging machine OMZ-0.1 were performed on an artificial mixture of waste rock with a size of -30 + 0.1 mm, a density of 2200 kg / m ³ , quartz with a size of -0.05 + 0.01 mm and a density of 2650 kg / m ³ and powder of metallic tungsten with a size of -0.016 + 0.01 mm with a density of 18000 kg / m ³ . The experiments were carried out on samples of 2000 g, the mass fraction of tungsten in which was 0.1% (20 g).

The results of the comparative tests are shown in Table 1.

Table 1 - Results of jigging in the known and proposed jigging machines

Indicator name Technical solution The famous The proposed Concentrate yield,% 6.31 2.9 Mass fraction of tungsten in concentrate,% 0.8 2.2 Extraction of tungsten into concentrate,% 50.5 63.8

The results shown in Table 1 indicate that the proposed jigging machine allows, in comparison with the known solutions, to increase the extraction of fine particles of heavy metal into the concentrate with a particle size of -0.16 + 0.01 mm from 50.5% in the known jigging machine to 63 , 5% in the proposed jigging machine while increasing the quality of the concentrate from 0.8 to 2.2%.

Sources of information taken into account

1. Pat. RF No. 2077388 dated 03/14/1994, class. В03В 5/24, publ. 20.04.1997, bull. No. 11 (analogue).

2. Morozov Yu.P., Afanasyev A.I., Pospelov V.P. and others. Development and implementation of the OMZ-01 jigging machine in the technology of processing platinum-containing technogenic products // Problems of exploration, extraction and concentration of precious metal ores and technogenic raw materials: mater. int. scientific and technical conf. Yekaterinburg: publishing house. USGU, 2000.S. 15-16. (prototype).

3. Pat. RF No. 2077389 dated 03.14.1994, class. В03В 5/24, publ. 20.04.1997, bull. No. 11.

4. Auth. wit. USSR No. 1660713 dated 06.06.1989, class. V.01.D 21/24, publ. 07.07.1991, bull. No. 25.

5. Pat. RF No. 1223955 dated 08/22/1984, class. V.01.D 21/24, publ. 04/15/1980, bull. No. 14.

6. Pat. RF No. 1172578 dated 03/02/1983, class. V.01.D 21/24, publ. 08/15/1985, bull. No. 30.

Claims (1)

A depositing machine, including a body, a sieve installed inside the body, a pulsator installed under the sieve and devices for unloading oversize and undersize products, installed in the upper part of the body, a thin-layer module with wave-shaped plates and a device for unloading a drain, a grate screen installed on the side of the body with a chute for unloading the upper product and a chamber for receiving the underproduct, which in the lower part through a horizontal slotted hole in the housing communicates with the gaps between the wavelike plates of the thin-layer module, characterized in that the wavelike plates of the thin-layer module are made concave in height, the wave depressions of the wavelike plates in the lower part have recesses with with a straight bottom, and the device for unloading the drain is made in the form of a drain chute connected to the chute for unloading the top product of the grate screen.

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