SU1155757A1 - Method of mining mineral deposits - Google Patents

Abstract

WAYS OF DEVELOPMENT reduction of production costs in the development of ore bodies of complex configuration, located in unstable rocks, In this way, mineral extraction is carried out by drilling the rebels, overlapping each other’s wells to the height of the straight section of the ore body and forming a compensation space for the drilling of the upper substage, said drilling output lagging behind the cleaning hole in the adjacent floor (L) blasting of rock mass from the formed compensation space and its transfer to the drilled wells, while the technological space for transferring the broken ore to the haul g is free. horizon of ate ate formed on at least one of the wells drilled in substage. ate

Description

The invention relates to the mining industry and can be used in the excavation of very thin steeply dipping ore bodies with a capacity of up to 0.6 m.

There is a method of underground mining of mineral deposits drilling machines ll.

The disadvantage of the existing development method is that it is used to excavate only powerful ore bodies lying on the bedrock.

Drilled space is put in a forced way only from the brown drift or left between the borehole pillars, which are attributed to losses, reaching 40-50%.

The closest in technical essence and dostigaeyumu result is a method paspaiSoTKH mineral deposits comprising performing drilling sublevel workings recess mineral substage with advanced perfecting underlying substages, bypass otb toy ore overlying substage via free technological space nizhelezhasche; th substage on haulage horizon and tab development 2.

The disadvantage of this method is the relatively high costs of mining in the development of ore bodies of complex configuration, occurring in unstable rocks, which are very labor-intensive for mining.

The purpose of the invention is to reduce the cost of production in the development of ore bodies of complex configurations occurring in unstable rocks.

The goal is achieved by the fact that, according to the method of mining of mineral deposits,) carrying out drilling augmentation programs, excavation of the Useful by substages with advanced development of the underlying subsystems, bypassing the broken ore through the free technological space of the substage, you will need to use the standard for the substage, and you will not need to use the same template to get the same substage, you will be able to use the subsurfing substage, using the below-mentioned substage, you will be able to get to the bottom of the substage, using the substeplase of the substage, you will be able to use the subsurfing substage, using the subsurfing substage, you will need to use the substeplable pattern for the subsurface substage using the subsurface substage. the excavation of minerals is carried out by drilling in Osstvdich, overlapping each other’s wells

the height of the rectilinear section of the ore body and form a compensation space for the upper substage, said drilling output is lagged behind the refining, excavation in the underlying substage with breaking the rock mass into the formed compensation space and passing it to the drilled wells, while the free technological space for The bypass of broken ore into the haulage horizon is formed in at least one of the wells drilled in the sub-floor.

FIG. Figure 1 shows a vertical projection of a section of the ore body and a diagram of the extraction of the mineral by the rise of wells in the first sub-floor; FIG. 2 shows the development of the refining operations in the second sub-floor; FIG. 3 shows section A-A in FIG. 2 (across the ore body); in fig. 4 is a fragment of the section of the subsurface Shtrek, section BB in FIG. 3

. A section of the ore body was prepared by a haul mill 1, a ventilation duct 2, an uprising 3. The cleaning works begin with a haulage drift 1 from the riser 3. The lining of the haulage drift is disassembled at the drilling site, the drilling machine 4 drills the ore body 5. The drill spike from the well enters the trolley. Drilling of minerals is carried out at a height equal to the linear portion of the ore body. Then, from the rising 3, for the next substep of the excavation, the drilling drift 6 is passed. The roof of the drilling drift 6 is aligned with the upper boundary of the bottom holes of the wells 5, and the rock 7 from the bottom of the drilling drift 6 is beaten by gravity post into the Shchernye wells 5 of the underlying area. Excess rock from the borehole can be spent on a well-developed drilling drift or on a horizon.

For bypassing the drilled mass from above; plots on the haulage drift 1 ed wells 8 along the length of the block lay out.

During the mining process, the proposed development method allows for leaving non-metallic sections and block pillars. The use of the method allows to reduce the laboriousness of the transportation of the mountain

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the masses during the penetration of the subsurface ore bodies, for example, the drilling drift, simultaneously with the pro- steeply falling fluorite veins, can be stowed with an extraction capacity of less than G m in an unstable space. The proposed rocks, which at the present time will allow the excavation of 5 to be off-balance.

Claims (1)

METHOD FOR DEVELOPING ^Urban: BIRTH MINERAL comprising performing drilling sublevel workings cleanup recess mineral substage with advanced perfecting underlying substages, bypass chipped - _; ores of the overlying sub-floor through the free technological space of the underlying sub-floor to the haul-off horizon and laying of the mined-out space, characterized in that, in order to reduce mining costs when developing ore bodies of complex configuration occurring in unstable rocks, the mining excavation is performed by drilling uprising, overlapping each other other wells to the height of the rectilinear section of the ore body and form a compensation space for the drilling of the upper sub-floor, the decree These drilling holes pass behind the clean-up excavation in the underlying sub-floor with breaking the rock mass to the formed compensation space and transferring it to the drilled wells, while the free technological space for transferring the broken ore to the recoil horizon is formed in at least one of the drilled in the sub-floor of the wells. (19) . about η L 55757> 1155757 2