SU617600A1 - Method of excavating mineral deposits - Google Patents

Description

one

The invention relates to the mining industry and can be used, for example, in the development of mineral deposits in the permafrost zone.

There is a known method for developing placer mineral deposits in the permafrost zone, which consists in continuous mining of placer mines with ice pillars from blocks of ice harvested on surface 1.

However, with this method, the work of procuring blocks of ice on the surface, transporting them to the point of laying and arranging the blocks in the developed space is very complicated and laborious, since it consists of many manual operations.

There is also known a method for developing permafrost placers with artificial ice pillars, which consists in the fact that the clearing recess is made by separate tapes through one. The ribbons are filled with ice by pouring water into the mines and freezing it. After freezing the water in the excavation, the excavation of the rock between the created ice pillars begins, beating it with a drilling and blasting method 2.

The disadvantage of this method is that the placement of explosive charges

substances in the immediate vicinity of the ice pillar, as well as partially inside the pillar, causes the destruction of its side surface during an explosion, which, with a small width of the pillar (based on technical and technological considerations, it is advisable to erect the pillars as small as possible) , but

consequently, an increase in the probability of the collapse of the roof of the treatment plant.

The aim of the invention is to increase the efficiency of cleaning operations by reducing the impact of explosions on the pillars.

This is achieved by covering the side surfaces of the mine with a layer of, for example, a hydrophobic screening material prior to the erection of the ice pillar, and with the approach of the clearing face to the latter, the holes are not drilled to the walls of the pillar.

FIG. 1 shows a vertical section of mine workings; in fig. 2 - section

A-A in FIG. one.

The mine field is prepared for clearing work by sinking main (rifled and preparatory) workings 1 and intended for filling with ice workings 2. After the completion of the penetration, the last side racks are covered with a layer of, for example, hydrophobic shielding material 3 (polyethylene film) having low acoustic rigidity. Yatem in this formulation pour water and freeze it. After the water freezes and ice pillars form, the cleaning excavation of sands 4, which are between the ice pillars, begins. The blasting of frozen rock is carried out by drilling and blasting. With the approach of the cleaning face 5 to the ice column, the holes 6 do not reach the rear column for a distance equal to 20-25 radii of boreholes (this distance is determined by calculation, depending on the properties of the shielding material and the rock). As a result, a bare rock layer 7 is formed, which during the explosion of explosives in boreholes is destroyed without breaking the solidity of the ice pillar. The elimination of direct contact of the rock with ice makes it possible to eliminate the loss of the mineral during blasting, and to prevent the partial destruction of the ice pillar.

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 i., - (Iо .....:; ./ | -L -L J-1 f. (-, l (i Invention Formula A method for developing mineral deposits in the permafrost zone, which includes excavation of mine workings, They are covered by freezing of water and mining under the protection of the pillars of minerals by blasting, characterized in that, in order to increase the efficiency of cleaning operations by reducing the impact of explosions on the pillars, before erecting the ice column, the lateral surfaces of the mine are covered screened When the clearing hole approach to the ice pillar, the bore-holes do not finish the walls of the pillar. Sources of information taken into account during the examination 1. Klimenko MI, etc. On the choice of rational ice-laying technology .- “Kolyma, 1971, No. 12, pp. 9-12. 2. Bakakin V.P. Ice as a material for laying the developed space, M., 1955, pp. 69-70.

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