SU1731952A1 - Method of rock selective storage - Google Patents

Abstract

The invention makes it possible to increase the degree of extraction of useful components (PC) from rocks (MP). Antifiltration layer (C) 2 is laid on surface 1, then C 3 dehydrated enrichment tails are poured, the composition of which is a geochemical barrier for migrating PCs, and C 4 empty HP with low PC content. Along the surface of the blade (O) mount a perforated pipe (PT) 5, at the base O - a solution receiving device (P) 6 connected to (PT) 5 a return pipe (BT) 7. Surface O is treated with solutions from PT 5. The PC migrates and enters C 3 where, precipitates. The solutions are collected in P 6 and after cleaning are fed through BT 7 and PT 5. Screw body 8 is introduced into the array O and transferred to the receiver GP 9. The HP is divided into fractions, small fraction enriched HP is fed for processing, and empty lumpy HP is transferred to crushing and re dumping. 2 hp f-ly, 2 ill. (L with

Description

The invention relates to the mining industry and can be used in the development of mineral deposits, mainly ore, by the open method.

There is a method of jointly-separate storage of overburden rocks, including dumping a number of parallel pioneer embankments with the formation of containers between them and storing different-quality rocks in tanks with shielding near-contact zones with high anti-filtration indicators (AS USSR No. 937721, cl. E 21 C 41 / 00,1980).

There is also known a method of jointly-separate storage of rocks in Rusa, including dumping at the base.

dumping of a layer of draining rocks, forming a series of parallel pioneer embankments with the formation of tanks between them and shielding their side surfaces with rocks with high anti-filtration indicators, filling the tanks of the first rus with carbonate-containing rocks, and the tanks of the second rus with substandard carbonate-containing ores and water saturated with carbon dioxide ( A.S. USSR № 1046512, CL E 21 C 41/00, 41/02, 1982).

Closest to the proposed technical essence and the achieved results is a known method of storing rocks, including the formation of the filtration or shielding base of the blade, the device

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shielding coating, laying of unconditioned minerals and rocks with a low content of useful component and surface treatment of the upper tier of the blade with a solution in which the rock layer is formed as a geochemical barrier for migrating dissolved mineral components (application Ns 4452273 of July 01, 2008, floor Decided on 03/29/90).

In the implementation of this method, the redistribution of useful components in the lumpy rock mass is difficult, which reduces the degree of their subsequent extraction, the process is cyclical in nature and is characterized by relatively high costs, which reduces the efficiency of the method.

The purpose of the invention is to increase the degree of extraction of useful components from large pieces of rock due to re-stocking after increasing the degree of their fragmentation while ensuring the continuity of the process and reducing costs.

The goal is achieved by the fact that when implementing the method of selective formation and working out of a heap, including preparing an impervious base, laying the lower layer of rocks with a high content of useful component, processing the heap surface with a dissolving liquid, developing heap rocks, the heap of the heap is formed by inclined, the development of rocks is carried out in the lower part, the rock is divided into fractions, large pieces of rock with a low content of the useful component are separated, these pieces are crushed, and then roizvod m stacking them on the bottom layer of rock.

For example, tailings are laid in the bottom layer.

The useful components migrating in the solution fall from the upper layer of the dump into the lower, barrier layer, where, due to an abrupt change in the geochemical environment, they are deposited and concentrated to industrial values. The difference in the fractional composition of rocks with high and low content of useful components leads to their effective separation when working the heap. Crushing large pieces of rock and returning to the upper part of the blade contributes to a better working out of its solutions and an increase in the degree of extraction of useful components.

The mining of rocks produced a screw device.

This ensures the excavation of the rock mass formed on an inclined base.

blade in the lower part of the entire depth of the blade, without interrupting the process of in-mold enrichment. In addition, during the extraction with a screw device, additional grinding and disintegration of the rock mass occurs.

All this in a complex contributes to the achievement of the goal.

Figure 1 presents the scheme formed in the implementation of the proposed method of the blade; Fig. 2 shows a proposed device for its implementation.

The blade (Fig. 1), located on an inclined surface 1, includes an anti-filtration layer 2 at the base, a lower (barrier) layer 3 formed, for example, from dehydrated enrichment tails with a low content of useful components, and an upper layer 4 formed from coarse-grained rocks containing beneficial components in lower concentrations. The blade is equipped with a perforated pipeline 5, a mortar receiver 6 and a return pipe 7. In the lower part of the blade there is a screw body 8 and a receiver 9 of a separating device (FIG. 2), which also includes a duct 10, a conveyor 11, pans 12, a leading 13 and a driven 14 stars, storage bin 15, tray 16.

The method is carried out as follows.

On the surface 1 of the mountain slope (Fig. 1), a layer 2 of rocks with anti-filtration properties with a capacity of 0.5-1 m is laid as the base of the blade (in the case of steep slopes, a concrete mix or synthetic film can be used). Then a layer 3 of dehydrated enrichment tails with a low content of the useful component, such as gold, and playing the role of a geochemical barrier, and layer 4 of coarse-broken, empty gold-bearing rocks, is formed by throwing off the slope. The thickness of layer 3 is, for example, 5-6 m, and layer 4 is 10-15 m. Perforated pipeline 5 is mounted along the surface of the blade, from which the array of the blade is treated with water with dissolved active agents, for example, acids. At the base of the blade, a solution-receiving device 6 is formed, where productive solutions are collected and cleaned, the purified solutions are then fed via the return line 7 to the perforated pipeline 5.

At the same time, the useful component — gold — migrates, for example, in the form of colloidal particles, from layer 4 to barrier layer 3, where it is concentrated to a content equal to industrial values, which makes it advisable to further develop the dump with the involvement of rocks of barrier layer 3 in recycling. For this purpose, the screw body 8 is inserted into the lower part of the dump array and the enriched rock mass of layer 3 and the lean layer 4 is transferred to the receiver 9 of the separation device, and then (figure 2) into the duct 10, where it falls on the conveyor 11 At the same time, the enriched mass due to the insignificant size of its fractions enters the storage bin 15, and the lumpy rock is empty along the conveyor 11 with the help of pan 4 moves further and through the tray 16 enters, for example, a crushing device (not shown), which is crushed and taking out then to place a re-dumping. The repeated dumping of rocks is accompanied by their additional grinding, which, in combination with the constant movement of the blade array, facilitates the migration of useful components and increases the degree of their subsequent extraction.

Claims (3)

1. A method of selectively storing rock, including preparing an anti-filtration base, laying the bottom layer of rocks with a high content of useful component, treating the surface of the blade with a dissolving fluid, developing rocks of the blade, so as to increase straits for extracting useful components from grains due to re-stocking after increasing the degree and crushing while ensuring the continuity of the process and reducing costs, the base of the blade is formed by sawmills heel are dissolved rock at the bottom of the fractionating section, separated th large pieces of rock with low content of useful components it, crushed Set nye pieces, whereupon T and laying: the lower layer of rock. 2. The method according to claim 1, about tl and h and y and u with 5 so that the tail of the enrichment is placed in the lower layer. 3. Method according to paragraphs. 1 and 2, I differ from the fact that the mining of rocks is produced by a screw device. /////////////// Рig.1 35 13 50 Rig. 2