SU968356A1 - Method of preparing ore to subterranean leaching - Google Patents

Description

| Arrangement refers to mining, and can be used in the development of well-known leaching of mineral deposits.

There is a known method of preparing ore for underground leaching, which includes penetration of preparatory-rifled workings, the formation of a vertical compensation space, the breaking of ore into this compensatory production area and the subsequent storage of the ore mass 1.

There is also known a method of preparing ore, which includes the driving of preparatory-rifled workings, the formation of a compensation space in the form of a V-shaped cut, the breaking of ore into this .KOMneHcaipioHHoe space and the storage of ore in block 2.

A disadvantage of the known methods is the uneven loosening of the ore mass by volume of the block and, as a result, incomplete study of the mapped ore mass by leaching solutions, which reduces the extraction of useful components and the effectiveness of the process of pulping.

The purpose of the invention is to increase the efficiency of the leaching process.

The goal is achieved by the fact that the V-shaped cut is formed with an inclination to the horizontal plane of the block at an angle ft, without changing the angle of repose of the maged ore mass, while the longitudinal apex of the V-backward cut 10 is oriented in the same vertical plane with the longitudinal axis of the block, and the solution of the V-shaped cut is directed downwards.

FIG. 1 shows a diagram of the preparation of ore for underground leaching, a vertical section along the longitudinal axis of the block; in fig. 2 - section A-A in FIG. 1} in FIG. 3 g section bb in fig. one; in fig. 4 - scheme

20 preparation of ore, a vertical section along the longitudinal axis of the block after the ore shrinkage.

The method is carried out as follows. .

25

In the upper and lower parts of the block, respectively, the yields of 1 irrigation horizon and 2 of the trapping horizons are developed. Then, on one of the flanks of the block, a boring 30 rising 3 is held in which they form

drilling chambers 4; From rising 3, they form, for example, lecture blasting of wells, compensation space 5 in the form of a V-shaped cut with an inclination to the horizontal plane of the block beneath. angle | b, not less than the angle of repose of the maged ore mass. In this case, the longitudinal apex of the V-shaped cut will be oriented in the same vertical plane with the longitudinal axis of the block, and the solution of the V-shaped cut will be directed downwards. Fencing ore from the compensation space is given out through the ore pass 6, which passes in the lower part of the compensation space. Angle p provides normal conditions for the release of ore from the compensation space.

The area of the compensation space is determined based on the allowable area of the exposed roof, and the volume of the compensation space, taking into account the predetermined loosening coefficient.

After the formation of the compensation space 5 is completed, the ore array from the drilling chambers 4 is drilled with fans of wells 6, which are arranged parallel to the V-shaped planes of the compensation space. After that, the wells 7 are charged with explosives and the ore is crushed into the compensation space. At the same time, the ore is extracted with a briefly delayed intake of p -: wells at the top and bottom of the compensation space 5..

At the end of ore blasting, the massed ore mass 8 is irrigated with leaching solutions, which are fed from the workings of the 1. irrigation horizon through the unexploded ends of 9 wells 7. The recovery of productive solutions is carried out in

openings 2 through wells 10, drilled in the substreamer pillar field of development 2.

The proposed method will improve leaching efficiency by increasing the recovery of useful components.

Claims (2)

1.Lunev L.I. et al. Underground metal leaching systems. Obzorna informatsii. Ser. Mining. Case, M., Color metinformation, 1974, p. 34 2. Grebenkov A.Z. Concerning the use of kinetic energy of the rock mass repulsed by the explosion for additional crushing. Sat The problem of the destruction of rocks by the explosion M., Nedra, 1967, p. 172-184 (prototype).