RU2209677C1 - Method for extracting small grains of useful component in mining clay placers - Google Patents

Abstract

FIELD: preparing of metal-bearing sands for concentration process. SUBSTANCE: method involves washing and disintegration of sand on perforated table of hydraulic buddle with the use of hydraulic monitor jet having elliptical section, with long axis of jet section being arranged in parallel with perforated surface during washing procedure; providing gravitational concentration in deep and shallow sluices; rinsing concentrate from deep and shallow sluice catching surfaces in head and tail parts; developing to placer metal. EFFECT: increased efficiency in extracting small grains and increased capacity of hydraulic buddle. 2 cl, 2 ex

Description

 The invention relates to the preparation of metal-bearing sands for enrichment by gravitational methods and is intended for washing and disintegrating the source material in the development of minerals of placer deposits.

 A known method of extracting gold during the gravitational enrichment of metal-bearing sands of placer deposits, including washing, disintegration, gravitational enrichment in locks of deep and shallow filling, rinsing the concentrate from the catching surfaces and refinement to the bulk metal (Potemkin S.V. Development of placer deposits, M .: Nedra , 1995. From 190-192; 343-340).

 However, the known solution does not provide an increase in the degree of extraction of small grains of a useful component in the development of clay placers.

 The closest in combination of essential features is a method for extracting small grains of a useful component in the development of placers, including washing, disintegration, gravity enrichment in locks of deep and shallow filling, a rinse from the catching surfaces and refinement to sludge metal (Patent RU 2172648 C1, 20.03.2000) .

 However, this method does not sufficiently increase the efficiency of extraction of small grains of the useful component and increase the productivity of the perforated table of the hydrogauge in the development of clay placers, since washing and disintegration of clay mass on the perforation table of the clay mass is carried out by mixing the next portion of sand with a jet of hydraulic monitor by rotating the pulp along the table. Due to the limited width of the jet stream, the process of mixing the pulp is repeated, carrying out transverse movements of the stream on the table of the hydroswash.

 The main objective of the invention is to increase the efficiency of the extraction of small grains of a useful component and to increase the productivity of the hydrograss in the development of clay placers through the use of a jet of a hydraulic monitor, in the cross section having the shape of an ellipse, the long axis of which is parallel to the perforation surface by once mixing the next portion of sand, rotating the pulp only along the table of the hydrovaschurde, which is a disintegration surface.

 To solve the problem in a method of extracting small grains of a useful component in the development of clay placers, including washing and disintegration on a perforator table, gravitational enrichment in locks of deep and fine filling in the head and tail parts, as well as refinement to sludge metal, and washing and disintegration on a clay sands hydrovasherd punch table, carry out a jet of a hydraulic monitor, in cross section having the shape of an ellipse, the long axis of which is parallel to oratsionnoy surface as well as the process of erosion and disintegration on perforation table gidrovashgerda clayey sands operate in one rotational stirring stope from the proximal end, along the next portion of the heap of sand "to the distal edge.

 The erosion and disintegration of a clay mass hydro-sherd on a perforating table is performed by mixing the next portion of sand with a jet of a hydraulic monitor by rotating the pulp along the table. Due to the limited width of the jet stream, the process of mixing the pulp is repeated, carrying out transverse movements of the stream on the table of the hydroswash.

 The process of erosion and disintegration on a perforating table of a hydro-sherd clay mass of sand is performed in four sets. The first entry is carried out by rotational mixing from the near edge, along the pile of sand fed by a bulldozer blade, to the far edge. After such a passage, two prisms of unwashed sands remain to the left and to the right of the narrow jet of the hydraulic monitor. The second and third approaches perform erosion and disintegration of the clay mass of sand in the remaining prisms. The fourth setting is carried out softening by rotational mixing of the gali on the far inclined table of the hydraulic sash.

 The duration of rotational loading depends on the degree of cementation of sand with gale and is established empirically at each deposit and site.

 For clay placers with small boulders, it is advisable to use a jet of a hydraulic monitor, in cross section having the shape of an ellipse, the long axis of which is parallel to the perforation surface.

 The process of erosion and disintegration on the perforating table of a clay sludge clay mass of sands with a jet of a hydraulic monitor is performed in one run by rotational mixing from the near edge, along the next portion of the sands, to the far edge.

 The intensity of rotational loading on the hard-washed and low-disintegration part of clay-banded sands present in the total mass will increase as the softening front advances. Qualitatively, this phenomenon will affect the increase in the extraction of small grains of the useful component cemented with part of clay-banded sands, and in quantitative terms, the performance of the hydrogurger for erosion and disintegration of high-clay placers during a one-time softening approach will increase. Firstly, the reverse flow of the idle jet monitor will be excluded. Secondly, to create a process of rotational mixing of the pulp on the perforated table of the hydrogauge, it is necessary to create a certain volume of pulp, at which there will be a high speed of rotation, and this will create conditions for intensive erosion and disintegration of clay sands. Thirdly, the unproductive movements of the jet of the hydraulic monitor in the transverse direction along the perforation table of the hydraulic guard will be excluded.

 The method is as follows.

Example 1. The deposit of alluvial gold with a high content of clay fraction of 80% is mined open-cast using hydromechanical development. The supply of sand to the perforation table of the hydroswash is carried out by a bulldozer. The erosion of the rocks on the horizontal and inclined table of the hydrogauge is carried out with a hydraulic monitor in four rotational mixing steps in the clay sand pulp from the near edge, along the heap, to the far edge. With the GrAU-400/20 soil pump, the pulp is fed to the PGS-50 deep filling sluice and from there into a barrel screen. A fraction of 10 mm is fed to a complex of fine filling gateways. The average gold content in the sand is 1 g / m ³ . The productivity of the mining complex is 16 m ³ / h. The use of operational time for washing sand during the day is 23 hours. The duration of the season 180 working days. Through gold recovery was 81%.

 Example 2. The developed field and mining technology are similar to those in example 1.

 Clay sands are washed and disintegrated on a perforating table with a jet of water, in cross section having the shape of an ellipse, the long axis of which is parallel to the perforation surface, and also made in one run by rotational mixing in the clay sands pulp from the near edge, along the heap, to the far edge.

The productivity of the mining complex is 18 m ³ / h.

 Through recovery was 83%.

 The proposed method for the extraction of small grains of a useful component in the development of clay placers in comparison with the prototype allows to increase the amount of recoverable metal for one off-season by 8.2 kg.

Claims (2)

 1. A method of extracting small grains of a useful component in the development of clay placers, including washing and disintegration on a perforating table of a hydroswash, gravity enrichment in locks of deep and shallow filling, rinsing the concentrate from trapping surfaces of deep and shallow filling in the head and tail parts, as well as finishing up sludge metal, characterized in that the washing and disintegration on the perforation table of the clay sands water saber is carried out by a jet of a hydraulic monitor in a section having the frame of the ellipse, the long axis of which is parallel to the perforation surface.  2. The method according to p. 1, characterized in that the washing and disintegration of a clay mass of sands of clay on a perforating table is performed in one run by rotational mixing from the near edge, along the heap of sand of the next portion, to the far edge.