SU1559152A1 - Method of mining minerals in side-adjoining zone of open mine - Google Patents

Abstract

The invention relates to mining and is intended to develop safety pillars between underground and open pit mines. The goal is to reduce the cost of mining minerals in the near-bed array and to increase the safety of work due to the partial controlled collapse of the pit wall. After setting the BC to the limit position, the internal dump is crushed by the crushed rock. After the BC has been loaded, the ore body is divided into blocks by sinking of preparatory and haul openings and their processing is carried out alternately along the BC, having carried out continuous processing of the blocks with collapse. Simultaneously with the processing of the blocks, additional crushing of the roof rocks above this block is performed, and each block is worked out in a receding order from the BC to the depth of the array. For this, the roof is drilled on the grid with explosive wells to the side slope. The crushed rocks of the roof and internal dump, moving under the composite weight, fill the developed space. At the same time, filling of overburden into the internal dump is carried out. 2 hp f-ly, 3 ill.

Description

The invention relates to mining, and more specifically to the technology of joint processing of mineral deposits, and can be used in the development of safety pillars between underground and open pit mines, as well as in the processing of reserves of ores remaining in the near-surface array by underground mining.

The purpose of the invention is to reduce the cost of mining in

near-surface array and increase of safety of work due to partial controlled collapse of the pit wall

Figure 1 shows a diagram of the development of a safety sensor in an underground way in the near-surface zone of the quarry; figure 2 - section aa in Fig, 1; on Fig - section bb in figure 1.

The method is carried out as follows.

1HE

After setting up the pit I side, the deoblendi rock is poured into the limiting position with an internal heap or buttress 2 against the 3 side bend, the height of the inner heap or buttress 2 should be greater than the roof of the ore body A, and the width of the sole should ensure overall stability of the bead 1 when replacing the native the bodies of 5 crushed rocks, from which the body of the internal dump or counterforce 2 was poured out. After the loading of the board of pit 1, preparatory workings of b are effected on the top of the ore body 4, for example, when The outgoing openings 8 through the outlets 7. Thus, by dividing the ore body 5 into blocks 9, blocks 9 are carried out alternately along the side of the pit 1E from one end 10 of the ore body to the other, and each block 9 is worked out in the outgoing order from the side of the pit 1 into the massif 11 For this purpose, from the development workings 6, the blast holes 12 are drilled through the ore body 5 and the roof 13 and their simultaneous blasting, with the roof

3 are drilled by explosive wells on a distributed grid and on planes 14, normal to slope 3 Borg pit 1 “The angle between the horizon and planes 14, normal to slope 3 of pit 1, should not be less than the angle of internal friction of the heap or counterforce0 the release of ore to the haulage production 8, for example, when ore is released through the outlet 7, the crushed roofs of the roof 13 and the internal dump or buttress 2, moving under its own weight, fill up the space developed. overburden rocks before giving to the internal dump or counterfos 2 of the initial parameters

Claims (1)

Invention Formula 1 o A method of mining in the near-surface zone of a quarry, which includes loading of the pit’s side in the ultimate position with internal dump rocks, underground mining of blocks from the pit’s side to the depth of the massif, and filling the open space, in order to reduce the cost of mining mineral resources from onboard array and increase safety of work due to partial. controlled pit breakdown blocks are worked out successively along the pit board, carried out continuous processing of blocks with collapse simultaneously with the blocks development, additionally crushing the roof rocks above this block, the roof is drilled on the grid by explosive wells oriented along the normal to the slope, and the blocks are tested t after receipt of the Board, 2, Method 1, characterized in that the crushing of the roof rocks is carried out using a dispersed blast hole grid, 3, Method of pop, 1, characterized in that as the space developed is filled up, overburden rocks are dumped into the internal dump Ai 6 6 I  //////////// Л // LU / LA s sssss W ///////// A I-.r.l “f“ .T | 1 A-A   "L 7121 P FIG. 2 5-5