SU1071003A1 - Method of underground leaching of useful minerals from ore bodies - Google Patents

Abstract

1 “METHOD OF UNDERGROUND LEAKING OF USEFUL MINERAL OWNERS, which include preparatory and cut workings, breaking and storing ore in chambers, constructing horizontal or slightly inclined irrigation wells equipped with perforated pipes in a normalized pattern, you can’t keep your blood for your homeland. solution in the lower part of the chambers, characterized in that, in order to increase the efficiency of the leaching process by increasing the The workings of the irrigation wells, the construction of irrigation wells are produced from irrigation wells, which pass from the preparatory workings to contact with the mapped ore.

Description

2. Method IOP.1, which is also distinguished by the fact that the irrigation workings pass to two opposite sides of the chamber, while the irrigation workings to one of the sides of the chamber pass in chess order relative to the irrigation workings passed to the opposite side of the chamber.

3. Method according to paragraphs. 1.2, which is based on the fact that irrigation wells are opposed fans with parallel placement of the extreme wells of adjacent fans.

4. A method according to Claims 1, 2, 3, characterized in that in the zone of contact of the irrigation treatment with the macerated ore in the soil of the irrigation generation, a slope is formed in the direction of the maged ore at an angle greater than the angle of repose of the maged ore.

5. Method POP.1, I distinguish between, u and u with the fact that at least one irrigation development is passed into one of the sides of the chamber in contact with the mapped ore.

6. Method POP.1, characterized in that the annular space of irrigation wells along their entire length is filled with an acid-resistant filtration material with a permeability that is less permeable to a gasified ore.

The invention relates to mining and can be used in the development of mineral deposits by underground leaching. There is a known method of underground targeting, which includes preparation and cutting of a block with mine workings, blasting and ore storage in chambers, irrigation of this ore with a solution using irrigation mounted on its surface. system consisting of pipelines and sprinklers, trapping production solution by drainage workings jj The disadvantages of this method are low chamber roof stability, the loss in safety pillars ore and reagent consumption povshenny spent on waste rock, sealing the chamber. The closest in technical essence and the achieved result to the invention is the method of underground leaching of minerals from ore blocks, including the carrying out of preparatory and rifled workings, blasting and storing of ore in chambers, the construction of horizontal or weakly inclined irrigation wells equipped with perforated pipes in bulk ore near the bed. chambers, the irrigation wells being drilled from the field drifts through intact rock, the leaching into these wells solution and collecting the pregnant solution at the bottom of chamber 2. A disadvantage of this known method is the low reliability irrigation wells that deform on contact with the ore zamagazinirovannoy vmeschagatsimi rocks with loss of ore. The purpose of the invention is to increase the efficiency of the leaching process by increasing the reliability of irrigation wells. The goal is achieved by the fact that, including the holding of preparatory and rifled workings, the breaking down and storage of ore in the chambers, the construction of horizontal or gently inclined irrigation wells equipped with perforated pipes in the gas ore at the roof of the chambers, flow through these wells, and a collection solution, and a sample-product, the sample will produce a hydraulic product of the roof of the chambers, feed through these wells. the lower part of the chambers, the construction of wells produced from irrigation workings that pass from the preparatory workings to contact with the gas injected ore. At the same time, the irrigation openings pass to the two opposite sides of the chamber, and the irrigation openings to one of. the sides of the chamber are staggered with respect to the irrigation works passed to the opposite side of the chamber.

Irrigation wells are drilled with counter-fans with parallel placement of the extreme wells of adjacent fans.

In addition, in the zone of contact of the irrigation production with the mapped ore in the soil of the irrigation production, a slope is made towards the mapped ore at an angle greater than the angle of repose of the gas ore.

At the same time, at least one irrigation excavation takes place along one of the sides of the chamber in contact with the oiled product.

In addition, the wellbore space of the irrigation wells along their entire length is filled with acid-resistant filtration material with a permeability that is less than the permeability of a gasified ore.

Fig. 1 shows a vertical section of the block across the strike during its preparation for leaching in Fig. 2 is a similar section of the block when it is leached; in Fig. 3 a section A-A in Fig. 2; FIG. 4 shows an irrigation site in the zone of contact with the mapped ore; FIG. 5 is a vertical cross-sectional cross-sectional view of a block with irrigation production, passed along the chamber j in FIG. 6, section BB of FIG. 3,

The method of the present invention is carried out in the following manner.

In the lower and lower sides of the ore body, preparatory drifts 1,2, 3,4 are passed, which knock down Horta 5 and 6. Drift 1 and 3 knock each other out with 7 rebirths, from which the subsurface Horta 8, Is. these, as well as the ortes 6, pass the drill drifts 9, from which the block is filled with fans of the explosive wells 10, and the ore is blasted and stored in the chamber 11.

Then, from drifts 1,2 of the upper section, the rizontal, irrigation workings 12 are carried out before contact with the ore, placing them in a staggered order with respect to opposing workings. Of

they are drilled by irrigation wells 13 over the aerated ore by horizontal or weakly inclined fans, and for uniform spreading of the solution, the extreme wells of adjacent fans are arranged parallel to each other. Casing perforations in wells 13 are performed with thickening, to the ends of the wells to evenly distribute the solution. Additionally, to eliminate possible longitudinal overflows of the solution in the annulus of irrigation wells, this space is filled with acid-resistant filtration material with permeability not greater than the permeability of the magnetized ore. Dp to ensure the mobility of the crushed ore displaced from the chamber 11 into the mines 12, the soil of these mines near the chamber is cut by drilling and blasting with an inclination towards the chamber at an angle greater than the angle of repose of the magnetized ore. In practice, this angle should be 5-10 greater than the angle of repose,

In the stable enclosing rocks of the mine 12, it is possible to pass along the chamber side in direct contact with the magnetized ore, which allows to reduce the amount of tunnel work and achieve more uniform irrigation of the block, since the irrigation wells can be placed parallel to one another. At the same time, the perforations of neighboring wells in the absence of sealing filter material are placed in the plan either in a checkerboard pattern or along a square grid. The capture of the productive solution is carried out, for example, in the bottom of Chamber 11, which is biased towards the residues of the orts 6, which now play the role of drainage workings together with the drift 4.

When moving to the lower floors, drainage horizons are used to design a new irrigation horizon.

The invention provides a continuous mining of deposits, improves the quality of irrigation and the extraction of mineral resources, and reduces the number of emergency wells.

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Claims (6)

1. METHOD FOR UNDERGROUND LEACHING OF MINERAL MINERALS FROM ORE BLOCKS, including preparation and threaded workings, breaking and ore storage in chambers, construction of horizontal or slightly inclined irrigation boreholes equipped with perforated pipes in a discharged grouting ore near the roof and collecting productive solution in the lower part of the chambers, characterized in that, in order to increase the efficiency of the leaching process by increasing the reliability of Ota irrigation wells, construction of irrigation from irrigation wells produce openings that extend from the preparatory workings before contact with zamagazinirovannoy. ore. (61) 2. The method according to claim 1, characterized in that the irrigation workings pass to two opposite sides of the chamber, while the irrigation workings to one of the sides of the chamber are staggered relative to the irrigation workings passed to the opposite side of the chamber. 3. The method according to claims 1, 2, wherein the irrigation wells are drilled with counter fans with parallel placement of the extreme wells of adjacent fans. 4. The method according to claims 1, 2, 3, characterized in that in the zone of contact of the irrigation mine with the magnetized ore in the soil of the irrigation mine, a bias towards the magnetized ore is formed at an angle greater than the angle of repose of the magnetized ore. 5. The method of pop. 1, I distinguish it with the fact that at least one irrigation work pass along one of the sides of the chamber in contact with the stained ore. • 6. The method of pop. 1, characterized in that the annular space of irrigation wells along their entire length is filled with acid-resistant filtration material with a permeability less than that of the stained ore.