SU1145144A1 - Mine construction method - Google Patents

Abstract

A MINE CONSTRUCTION METHOD, which includes opening the prepared upper horizons by one of the centrally doubled trunks, opening the lower horizons by the other trunk and discharging the rock from the penetration of each trunk into the adjacent trunk, characterized in that, in order to shorten the construction time, a capital mine is constructed within the upper horizons in the near-trunk part of the first shaft with one discharge chamber in its lower part, and then auxiliary ore passes in the near-stem part of the second trunk within the lower parts your horizons. (L

Description

The invention relates to mining, in particular to methods for constructing deep mines, and can be used in the lifting of minerals in the mining industry. . The known method is horizontal: opening and preparation of mineral deposits, consisting in the sequential opening of the underlying horizons as the overlying horizons are developed with a gradual deepening of the stems. Various methods ll. The disadvantage of this method is the very difficult organization of work for the deepening of both trunks with the presence of working working horizons, since the conditions for TV for workers engaged in the excavation work are deteriorating, the mine lifting work is complicated and the mining mass delivery performance sometimes decreases. The third auxiliary equipment is used specifically for in-depth work, but its use requires large additional capital outlays, which. drastically increases the cost of the extracted mineral. The closest to the proposed technical essence and the achieved result is a method of constructing a mine, including opening the prepared upper horizons by one of the centrally double shafts, opening the lower horizons to another by the trunk and discharging the rock from the penetration of each trunk along the adjacent trunk 2. The disadvantages of this method are the long periods of dredging and preparation of opening lower horizons, equipping the cage stem with an additional lift, additional capital expenditures and difficulties in organizing the release of rock from the well into the first prepared horizon with subsequent overload of the rock to release it to the surface of the cargo. jy, the impossibility of combining, according to TV conditions, the deepening of trunks with the excavation of mine workings on the open horizons. The purpose of the invention is to reduce the construction time. 442 This goal is achieved in that, according to a method involving opening one prepared upper horizon by one of the centrally doubled trunks, opening the lower horizons by another trunk and discharging the rock from the penetration of each trunk through the adjacent trunk, within the upper horizons, a capital ore discharge in the trunk part of the first trunk is constructed with one discharge chamber in its lower part, and then an auxiliary ore pass in the near-stem part of the second shaft within the lower open horizons. FIG. 1 and 2 depict various stages of mine construction; in fig. 3 is a section A-A in FIG. 1. The method is carried out as follows. The cargo barrel 1 produces an accumulation of the ore body 2 to the depth of the priority horizons 3 and temporarily suspends the penetration of this trunk. Then, a major ore-launch 4 is constructed to service all horizons by constructing one skip-loading chamber 5. After the trunk is equipped with a skip-cage lift, horizontal connections 6 under the axis and vertical workings (rising) 7 with a narrow section along the axis of the future penetration of the second trunk with mating 8. The penetration of the second bore in the area where the insurgent was passed is carried out using a screen grating 9 for the safety of stem workers. The rock from the sinking of the trunk in this area is bypassed by the rising ore passes, loaded into the trolleys on the lower linkage and unloaded into the chamber the skips of the first trunk are loaded and then the mine lifting of the first trunk is delivered to the surface. After the second barrel is connected with the upper horizons prepared, in accordance with the requirements of the EPB, to have two exits to the surface, they start preparing the upper horizons from the skip-cage (first) trunk. At the same time, the second trunk is penetrated to the full depth to the design mark (Fig. 2). At the end of the penetration of the second borehole, temporary ore passes 10, which are necessary for the simultaneous carrying out of connections 11 on the lower horizons, with the aim of their simultaneous penetration, are held in the near-stem part. Then there are horizontal ssi 11 under the axis and vertical generation 12 along the axis of the future deepening of the first barrel. After that, the first hole is dredged with the rock from the dredging of the village of p. cv 114 mine rise of the second trunk. The mine rise of the first shaft during its dredging period serves only to dispense the rock from the upper prepared horizons. The dredging is carried out under the protection of ld 13 and durable overlap 14. The proposed method shortens the construction time of the start-up queues by combining in time the penetration and deepening of the barrels and the preparation of the launch horizons. S.S.S.

Claims (1)

METHOD FOR CONSTRUCTION OF A SHAFT, including opening the prepared upper horizons with one of the centrally doubled trunks, opening the lower horizons with another trunk and outputting the rock from each trunk penetrating the adjacent trunk, characterized in that, in order to reduce the construction time, a capital structure is constructed within the upper horizons the ore pass in the near-barrel part of the first trunk with one discharge chamber in its lower part, and then open the ore pass in the near-barrel part of the second trunk within the lower ones x horizontal>