SU1677312A1 - Method for tunneling twin workings - Google Patents

Abstract

The invention relates to the mining industry and is intended to carry out workings when mining thin coal seams. The purpose of the invention is to increase the efficiency of mining by reducing the number of downhole equipment and increasing safety during rock breaking in mines. Combine coal mining in a short clearing of the bottom face is carried out and conveyor and vent workings are formed on flanges with undermining of the roof and soil of the formation. Conveyor production is formed ahead of the clearing face. The clearing face was fastened with a mechanized roof, and the tunnel holes - with a fixed roof. The rock from the demolition fraction is crushed by the crushing and backfill installation in the ventilation openings and by the pneumatic method is transported along the openings that pass through the inlet to the ventilation openings and cleaning face. Store stock in developed space. At the same time, the rock is placed in the zone of formation of the ventilation openings and extinguishes the output of it in the attachment parts, following the advancement of the ventilation openings. During the formation of ventilation workings, simultaneously with the saping of rocks, the coal of the rock 3 of mud is pledged in the excavation zone. (Ls

Description

The invention relates to the mining industry and can be used in the mining of coal mines, in the balance reserves of which there are thin flat layers.

The purpose of the invention is to increase the efficiency of mining by reducing the number of downhole equipment and increasing safety during rock breaking in mines.

Figure 1 shows the general scheme of penetration; Fig. 2 illustrates the formation zone of the ventilation drift; on fig.Z - section aa in figure 2.

The proposed method involves the penetration of the advanced short treatment plant.

the bottom 1 of the conveyor drift 2 and the formation of a ventilation drift 3 behind the short clearing face, which are fastened with a fixed support. In the clean-up bottom, the coal is excavated by a combine. The rock from the demolition in the roof and the soil, repulsed in the conveyor drift 2 by means of the sinking combine 4, is transported via a conveyor belt 5, then along a conveyor belt 6 laid in development-7, and along a conveyor conveyor 8 laid in the ventilation drift 3 before crushing and stowing installation 9.

The rock from the demolition in the roof and the soil, repulsed with the help of the tunnel miner 10, is transported along a belt cone vi

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Weieru 11 also in the crushing and backfill installation 9, Additional rock from external sources (penetration of crosscuts, chambers) is transported using a belt conveyor 12.

After crushing to a size of 1/3 of the pipe diameter, the backfill material is transported by pneumatic method through the pneumo-laying pipe 13 to the cleared area of the clearing hole 1, fixed with a mechanized support. Pneumozakladochny pipeline is laid on the ventilation drift 3, specially passed adjacent development-undercut 14 and in the clearing bottom under the protection of the rear console mechanized hydraulic lining 15. The stowing array erected along the entire length of the cleaning face from the wall of the conveyor drift 2 to undercut-notch 14 including the formation zone of the ventilation drift 3. When a lagging ventilation drift 3 is formed, the rock layer laid instead of coal is taken out simultaneously with the roof and soil rock. At the same time, dumps of large blocks of rock from the roof do not occur.

As the cleaning and flanking tunnels move, generation and slug 14 are laid with parts of the backfill material, using the crushing and depository installation 9 and the air-laying pipeline 13.

Claims (1)

Invention Formula The method of penetration of paired workings, including combine coal excavation in a short clearing face, the formation of conveyor and ventilation flanking workings with undermining of the roof and soil of the reservoir, fixing the clearing face with a mechanized roof support, and heading the bottom faces with a fixed support, crushing the rock with a crushing and filling installation and pneumatic stacking into the worked-out area of the sewage slug, about tl and h. a y i and so that, in order to increase the efficiency of mining by reducing the number of bottomhole equipment and increasing safety in rock excavation in the workings, conveyor development is formed ahead of the clearing face, the rock from the demolition is transported along the excavation to the ventilation hole, and the clearing face, and in the construction of a subsurface mass in developed the clearing intake space is also placed in the zone of formation of the ventilation output and extinguish the generation-suppression in parts following the movement of the ventilation hole. abotki, and the formation of vent generation simultaneously with ripping rock carried out recess inherent in coal rock excavation zone. 12 8 L w you / Y R / # ten , 1 "I five 13 -. . . V / .Л;. /five  / J X /. four:; € V:;.: -: i :: - v //////// u /// //// /; //// ;; // u; fig.Z 00 Ј // / //// / S / S / //// // ////