RU2328346C2 - Auriferous gravel enrichment line - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: auriferous gravel enrichment line consists of connected hydraulically by conveyance consequence of: disintegration, screening and calibration device, preliminary enrichment module, grading module and centrifugal concentrator. Grader is installed between disintegration device and preliminary enrichment module. Preliminary enrichment module consists of two non-related sluices. Undersize product outlet is connected by a pipe to the first sluice, and top size product outlet is connected to the second sluice. Reducer and grader are installed consequently between the first sluice and centrifugal concentrator. The first sluice is connected by tailings outlet pipe to reducer, which is connected to the grader by discharge pipe, and grader discharge is connected to the centrifugal concentrator by a pipe.

EFFECT: higher efficiency of gold extraction at gravel deposits.

1 dwg, 1 tbl

Description

The invention relates to the field of mineral processing and can be used in the processing of sand on dredges and industrial instruments.

A known line for the enrichment of gold-containing sands (RF patent No. 2122897, class B03B 9/00). According to this patent, the line contains a device for disintegration and particle size classification with a spreader, sequentially installed and interconnected by vehicles, jigging machines for the main and cleaning operations, for extracting fine gold, a screen with a spreader and a centrifugal separator installed between the jigging machine for recovering small gold and a concentration table for basic cleaning.

The extraction of gold on such a line compared with other known lines is slightly increased due to the additionally installed equipment for collecting fine gold.

The closest technical device to the claimed is a line for the enrichment of gold-containing sands (US Pat. Germany No. 3222862 A, class B03B 9/00), containing a disintegrating module designed for loosening and screening loose rock mass, a preliminary enrichment module made in the form of a lock self-trapping with a rubber coating, designed to capture large grains of gold, a classification module designed to separate the tails into two fractions and an enrichment module made in the form of trobezhnogo separator and feeding device designed to trap fine gold.

However, this line, like the previous one, has a number of disadvantages, which are as follows.

The existing technological schemes for the enrichment of sands of placer deposits initially suggest that the gold in the placers is free, the surface of the gold grains is relatively clean, and when enriched in a liquid medium, they obey the laws of free and constrained fall, i.e. minerals that are heavy in specific gravity (gold) have a higher fall rate than light minerals of the same size. However, recent studies have shown that in the sands of alluvial deposits, gold is present not only in free form, but also physically associated with the host rocks, the so-called "hard-gravity" gold, particles of which are associated with clay particles coated with oxide films, powders, or are in splices with minerals. It has been established that in technogenic formations in overburden rocks of placers, almost all gold is bound, resistant, that is, not gravitated. The content of bound gold in some placers can significantly exceed the content of free gold (Ore Dressing, 2005, No. 5, pp. 42-43). Gold associated with minerals, covered with clay oxide films, various kinds of powders, as well as in aggregates, is not extracted either by analogy or by prototype and everything goes to the dump.

The technical task of the present invention is to increase the extraction of gold from the sands of alluvial deposits due to the release of "hard-gravitated" gold from various films, splices, powders and its translation into "gravitated" gold.

The problem is solved in that in the line of enrichment of gold-containing sands, which includes a disintegration and screening device and particle size classification sequentially and hydraulically connected by vehicles in the course of the technological process, a pre-enrichment module, a classification module designed for separating tails and a centrifugal concentrator, according to According to the invention, a classifier is installed between the disintegration device and the pre-enrichment module, the pre Variable enrichment is made of two non-interconnected gateways, while the output of the sublattice classifier product is connected by a pipeline to the first gateway, and the output of the superlattice classifier product is connected by a pipeline to the second gateway. The line is also equipped with sequentially installed behind the first lock, grinding device and classifier, and the classifier is installed between the grinding device and centrifugal concentrator, while the first lock is connected by a tail exit pipe to the grinding device, which is connected to the classifier by a drain pipe, and the classifier drain is connected to centrifugal concentrator.

Thus, the proposed technical solution has distinctive features both from the analogue and from the prototype, and therefore meets the criterion of "novelty."

Due to the fact that the sublattice product enters the classifier, and not the concentrator, whose tails go to the dump, the whole pulp in the classifier is distributed to the superlattice and sublattice product, namely the latter contains “hard to gravitated” gold and, and to the dump on this stage does not go away, unlike the prototype. Each of the products of the pre-enrichment apparatuses is subjected to a separate processing, in particular, after collecting large gold, the light fraction of the first sluice enters the grinding apparatus, where gold particles are freed from films, powders, and also grinding of aggregates, as a result, gold, which was not “gravitated”, passes into a gravitational form and is easily captured in a centrifugal concentrator, since in this form it obeys the laws of free and constrained fall and is deposited together with thin gold not deposited in the first lock, at the stage of preliminary enrichment. Thus, along with the extraction of free fine and thin gold located in the sands, gold is also extracted in tachogenic formations and overburden, which significantly increases the extraction of gold in the deposit.

Consequently, the processing of alluvial gold deposits on the proposed line allows you to get a new qualitative effect that is not achieved in the known solutions, namely, to increase the extraction of gold due to the conversion of the "non-gravitated" form of gold (in films, splices, powders) into gravitated.

Thus, the proposed technical solution meets the criterion of "inventive step".

The proposed technical solution is illustrated in the drawing.

The technological line for the enrichment of gold-containing sands contains a device 1 for screening and classification of gold-containing sands installed during the technological process and hydraulically interconnected, made for example in the form of scrubbers - butas according to patent No. 2212940, the output of the superlattice of which is connected to a dumping unit 2. Device 1 by a pipe 3 is connected with a classifier 4, made, for example, in the form of an inertial screen, which is connected by a pipe 5 to the first apparatus pre-enrichment 6, and pipeline 7 with a second pre-enrichment apparatus 8. As pre-enrichment apparatuses 6 and 8, fine-filling gateways are installed. The gateway 6 is connected by a pipe 9 to the grinding apparatus 10, the discharge from which through the pipe 11 enters the spiral classifier 12, the discharge from which through the pipe 13 enters the centrifugal concentrator 14, and a large fraction is closed by the pipe 15 to the grinding device 10.

The line works as follows.

The sands of the placer deposit enter the scrubber - Butam 1, in which disintegration, screening and the first classification of sands by size are carried out. The superlattice product with a grain size of +16 mm (particle size is selected experimentally) is sent to the dumping unit 2 and stored in the dump. The scrubber sublattice product - butars 1 is fed through a pipe 3 to a secondary classification into an inertial screen 4. The sublattice product (+5 mm, also selected experimentally) of classifier 4 enters the pre-enrichment apparatus 8. After enrichment of the superlattice product in apparatus 8, the concentrate is sent for finishing and the tails are dumped. The sublattice product of classifier 4 enters the pre-enrichment apparatus 6 through pipeline 5, as a result of enrichment, the concentrate is sent to refinement, and the tailings through pipeline 9 enter the grinding apparatus 10, in which the separation of gold from films, powders, and grinding of aggregates to the desired dimension (-0.1 mm). From the grinding apparatus 10, the pulp enters the spiral classifier 12, the discharge, the particle size of which is less than 0.1 mm, passes through the pipe 13 to the centrifugal concentrator 14, where the heavy fraction (gold-containing concentrate) is separated from the light fraction (tailings), which is transported to the dump, and the gold-bearing concentrate is sent for refinement. The sands of the spiral classifier 12, the fraction that is not crushed to the required size, is sent to the grinding mill 10 through a pipe 15.

The size of the sands of all stages of classification is selected experimentally. For example, in classifiers 1 and 4, the size is regulated by the installation of the appropriate sieves, in classifier 12, the regulation of size is carried out by raising or lowering the drain threshold. Regulation of the drain threshold allows you to determine the optimal grinding mode in the apparatus 10.

The proposed line was tested on a pilot installation on the sands of the Lower - Mikhailovskaya terrace.

The table shows the test results for the processing of sand on the proposed line and the prototype. This deposit is characterized by various mining and geological characteristics, in particular, the mass fraction of clay-clay fraction (fineness less than 0.1 mm) from 10 to 70%, and the content of native gold of medium fineness from 0.5 to 0.074 mm, with a mass fraction of such gold , with a mass fraction of fine gold in it, fineness -0.1 mm to 80%, including pulverized, fineness less than 0.05 mm to 60%, and the presence of a class of -0.025 mm, up to 30%, was noted. The share of “non-gravitated gold is up to 90%.

Table No. The name of indicators One measuring .Prototype line Line according to the invention one The volume of processed rock mass, including cbm 10.0 10.0 1.1 peat
1.2. sand cbm
cbm 8.8
1,2 8.8
1,2 2 Gold content per weight, incl.
1.1. in peat:
1.2. in the sand: g / m3
g / m3
g / m3 0.211
Not detected or retrieved
1,759 0,607
0.45
1,759 Gold recovery gram 1.85 5.59

Based on the foregoing, it follows that the proposed line for the enrichment of gold-containing sands in comparison with the prototype can significantly increase the extraction of gold, due to the transfer of gold from the "hard to gravity" form, located in all layers of placers, in the "gravitated" form.

Claims (1)

A line for the enrichment of gold-containing sands, including a disintegration, screening and particle size separation unit installed in the course of the technological process in series and hydraulically connected by vehicles, a pre-enrichment module, a classification device and a centrifugal concentrator, characterized in that the classifier is installed between the disintegration device and the module pre-enrichment, pre-enrichment module is made of two non-interconnected x locks, the output of the sublattice product of the classifier is connected by a pipeline to the first gateway, and the output of the superlattice product of the classifier is connected to the second gateway, the line is also equipped with a grinding device and a classifier installed in series between the first gateway and the centrifugal concentrator, while the first gateway is connected to the grinding device by the tail outlet pipe, which is connected by a drain line to the classifier, and the drain from the classifier is connected to a centrifugal concentrator.