RU2119827C1 - Gear for benificiation of metal-carrying sands - Google Patents

Abstract

FIELD: mining industry, benificiation of metal-carrying sands of placer deposits. SUBSTANCE: gear for benificiation of metal-carrying sands has loader, inclined chute with bottom and sides, magnetic system, intake hopper with holes in bottom mounted under chute bottom where amalgamated copper plates are installed for change of inclination angle with reference to hopper bottom and containers placed under holes of hopper. Loader is manufactured in the form of pulp line made from nonmagnetic material having additional system of permanent magnets with alternating polarity situated along its perimeter. Chute is assembled from separate sections and has two-sided trapping coat. Magnetic system is positioned in each section of chute, is composed of permanent magnets and ribs longitudinal relative to sides and is positioned on bottom in the form of barrier transverse to chute. Chute is fabricated from magnetically neutral material and is mounted for turn about longitudinal axis. EFFECT: enhanced degree of recovery of valuable component thanks to directional formation of flakes from thin classes and gold-carrying amalgam readily settling and held on trapping surface. 5 dwg

Description

 The invention relates to the mining industry, and in particular to devices for enriching metal-bearing sands of placer deposits, and can be used to extract valuable high-density minerals and utilize gold-containing amalgam in the processing of technogenic deposits of metal-bearing sands and conglomerates previously contaminated with mercury.

 A device for enriching metal-bearing sands is known, including a feed slurry pipe, an inclined chute with sides and a bottom, assembled from separate sections, trapping a coating in the form of stencils, rugs, fleecy fabric, a receiving hopper (Guide to ore dressing, t. 2, M .: Nedra , 1972, p. 90-95).

 A disadvantage of the known device is its low capture capacity: the structure and shape of the coating form a turbulent flow in the bottom layer, which washes away a valuable mineral of thin classes, for example, gold grade -0.074 mm and a gold-containing amalgam.

 The closest in technical essence is a device for the enrichment of metal-bearing sands (see ed. St. USSR N 1623759, B 03 C 1/02, 1991), including a loading device, an inclined trough with a bottom and sides, a magnetic system.

 A disadvantage of the known device is the low efficiency in capturing the thin classes of valuable mineral and amalgam due to their slip through areas where the influence of magnetic forces on them is negligible.

 The present invention allows to increase the degree of extraction of a valuable component due to the directed formation of flakes from thin classes and gold-containing amalgam that are easily deposited and held on a trapping surface.

 The essence of the invention lies in the fact that the device for collecting fine gold, including a loading device, an inclined gutter with a bottom and sides, a magnetic system, is additionally equipped with a receiving hopper installed under the bottom of the gutter with openings on the bottom, in which amalgamated copper plates are mounted, installed with the possibility of changes in the angle of inclination relative to the bottom of the hopper, and containers located under the holes of the hopper, while the loading device is made in the form of a slurry conduit from it of an agnitic material having an additional system of permanent magnets arranged along its perimeter with alternating polarity, the gutter is assembled from separate sections and made with a two-way capture coating, while the magnetic system is located in each section of the gutter and is made of permanent magnets and ribs longitudinal relative to the sides and is located in in the form of a barrier on the bottom across the gutter, while the gutter is made of magnetically neutral material and installed with the possibility of rotation around the longitudinal axis.

 The installation of a magnetic system in the bottom layer directly in the slurry stream creates an increased effect of magnetic field forces on the particles compared to the installation under the bottom of the trough in the known solution, where part of the magnetic flux is lost due to the gap between the magnets and the slurry stream formed by the capture coating and the bottom wall. An increase in the magnetic effect on the particles leads to an increase in the volume of magnetic flocs and, consequently, to an increase in the accumulation in the pores of the magnetic flocs of a small valuable component and amalgam.

 In addition, the installation of a magnetic system in the bottom layer in the form of a barrier along the entire width of the gutter prevents the removal of a valuable component and gold-containing amalgam from previous capture elements, and in the known solution, the absence of a barrier allows part of the bottom stream to pass without filtering, which reduces the capture capacity of the structure.

 The inclusion of vertical longitudinal ribs of the magnetic system in the device increases the sedimentary magnetic surface, which also leads to an additional increase in the volume of the porous mass, and, consequently, to an increase in the volume of the valuable component captured during filtration.

 The installation of an additional magnetic system on the loading device provides the preliminary formation of magnetic flocs, increases the precipitation surface with subsequent retention of a valuable component.

 The implementation of the magnetic system on a two-sided rotary trough allows you to control the process, more precisely, to shoot the enriched mass as it accumulates, without stopping the entire washing process. The known design does not allow to carry out this operation without stopping the process. Reducing the time to withdraw the enriched mass from the stream increases the main washing time, and therefore leads to an increase in the recovery of a valuable component. The receiving hopper under this design for unloading the productive fraction of the separated mineral grains and gold-containing amalgam is additionally equipped with amalgamated copper plates coated on top with a layer of mercury; under the action of adsorption, it allows to separate the gold-containing amalgam (mercury) from the concentrate with a weak water pressure and concentrate the gold-containing amalgam.

 In FIG. 1 shows a device for the enrichment of metal-bearing sands, a general view; in FIG. 2 - the same, top view; in FIG. 3 - remote element A in FIG. one; in FIG. 4 is a section BB in FIG. 2; in FIG. 5 is a view B in FIG. 3.

 A device for the enrichment of metal-bearing sands (Fig. 1) contains a loading device in the form of a slurry conduit 1 with a magnetic system 2, a chute 3, assembled from sections 4 with a two-sided capture coating 5.

 A receiving hopper 6 with amalgamated copper plates 7 and containers 8 is installed under the chute. The magnetic system of the chute 9 is fixed across the mass flow in each section in the bottom layer and is equipped with ribs 10. Magnetic system 2 (Fig. 4) consists of permanent magnets 11 mounted radially with alternating polarity on the slurry conduit 1 made of non-magnetic material.

 A device for the enrichment of metal sands works as follows.

 The slurry enters through the loading device 1 into the chute with a catching coating. Under the influence of permanent magnets, a porous threshold is formed from the magnetic fraction of the sands (for example, hematite, magnetite and others, which are usually found in metal-bearing sands) in the form of flocs along the width of the gutter.

 The porous mass from flocs, filtering the hydraulic mixture, retains the thin classes of the valuable component and the gold-containing amalgam. Also, the system of magnets forms a barrier that prevents the demolition of a larger fraction of the valuable component, which is trapped on the trapping elements (mats and stencils). The preliminary stage of flocculus formation occurs in the loading device 1 when installing a magnetic system 2 of alternating permanent magnets 11. To increase the precipitation surface, the magnetic system is additionally provided with longitudinal ribs 10.

The enriched mass is removed when the washing process is stopped or without stopping due to the use of a rotary trough. When it enters the bottom of the hopper, the enriched mass moves under the influence of a weak water flow and tilts the gutter to the discharge hole, amalgamated copper plates 7 located at the bottom of the hopper 6 adsorb a gold-containing amalgam. Periodically, the gold-containing amalgam is removed and transferred to the container 8 when the plates are turned at an angle of 0-30 ^o .

 The results of the experiments showed that due to the installation of the magnetic system in the bottom flow of the slurry, the gold losses were reduced by 7-10%, and the yield of enriched magnetic mass increased by 1.5-2 times and the capture of fine classes of the valuable component increased in the same proportions.

 The use of a device for the enrichment of metal-bearing sands will increase the extraction of valuable mineral raw materials when washing sands.

Claims (1)

 A device for enriching metal-bearing sands, comprising a loading device, an inclined gutter with a bottom and sides, a magnetic system, characterized in that it is equipped with a receiving hopper with openings under the bottom of the gutter with openings on the bottom, in which amalgamated copper plates are mounted, which can be tilted relative to the bottom of the hopper, and containers located under the holes of the hopper, while the loading device is made in the form of a slurry conduit of non-magnetic material, having its additional system of permanent magnets arranged along its perimeter with alternating polarity, the gutter is assembled from separate sections and made with a two-way capture coating, while the magnetic system is located in each section of the gutter and is made of permanent magnets and ribs longitudinal relative to the sides and is located in the form of a barrier on the bottom across the gutter, while the gutter is made of magnetically neutral material and mounted to rotate around the longitudinal axis.

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