RU2445459C1 - Method for underground development of high-ore deposits - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: weakening a spring of natural balance at both sides of the block and damaging a key stone is done simultaneously by exploding rows of parallel wells drilled at the borders with interchamber sight pillars and along the axial line of the stope, in sections length of which is equal to the thickness of the damaged layer. Weakening of the spring at both sides of the block and damaging of the key stone is done by sectional explosion of clusters of parallel adjacent wells: linear ones at borders with interchamber sight pillars and bulk ones along the axial line of the block. The spring at both sides of the block is weakened ahead of erection of artificial interchamber sight pillars.

EFFECT: improved efficiency and safety of production works.

3 cl, 4 dwg

Description

The invention relates to the field of mining, and in particular to underground mining of ore deposits.

There is a method of underground mining of powerful ore deposits with maintaining the developed space by pillars of ore and block forced collapse [1]. The disadvantage of this method is the high labor and material consumption of the process of explosive breaking of ore, as well as increased loss of ore at the stage of repayment of pillars.

The closest in technical essence and the achieved result is a method of underground mining of ore deposits with block self-collapse of ore [2]. The disadvantage of this method is the complexity and danger of work on sinking of the mine workings of the heel of the arch of self-collapse, as well as the almost complete absence of the ability to control the process of self-collapse, both within the boundaries of the excavation block and beyond.

The aim of the invention is to create a safe environment for the initiation of the self-collapse process in the block, as well as the creation of capabilities to control the processes of self-collapse and ore fragmentation.

This goal is achieved by the fact that in order to increase the efficiency and safety of mining operations, reduce the oversize yield and increase the controllability of the self-collapse process, the heel of the arch of natural balance on both sides of the block is weakened and the castle is destroyed by simultaneously blowing up rows of parallel wells drilled along the boundaries with inter-chamber pillars and along the centerline of the treatment unit, in sections whose length is equal to the thickness of the collapsed layer.

If it is necessary to increase the indicators of completeness of the use of the balance reserves, the heel of the arch is weakened on both sides of the block by the advanced construction of artificial interchamber pillars.

If it is necessary to increase the efficiency of the use of explosion energy, the heel of the arch is weakened on both sides of the block and the castle lock is destroyed by sectional blasting of beams of parallel-parallel wells: linear - along the boundaries with interchamber pillars and volumetric - along the axial line of the block.

The invention is illustrated by drawings, where figure 1 shows a General diagram of a treatment unit at the stage of completion of its preparation and cutting. Figure 2 shows the General arrangement of blast holes and the sequence of blasting sections. Figure 3 shows the scheme of work when using beams of parallel-parallel wells. Figure 4 shows the scheme of work with the advanced construction of artificial inter-chamber pillars.

The method of underground mining of powerful ore deposits contains a mined block 1, between chamber pillars - ore 2 or artificial 3, working out the bottoms of block 4, drilling workings 5, fan wells 6, the set of natural equilibrium 7, the heel of the vault 8, the lock of the vault 9, the collapsed layer 10 , parallel boreholes 11 along the boundary 12 with ore inter-chamber pillars and along the axial line 13 of the treatment unit 1, blasting sections 14, linear 15 and volumetric 16 bundles of parallel-parallel wells, broken ore mass 17.

The method is implemented as follows. In the prepared treatment block 1, between the ore interchamber pillars 2 pass the workings of the bottom 4 and the drilling workings 5. From the workings of the bottom 4 of the treatment block 1 are drilled and blow fan holes 6 and form a set of natural equilibrium 7 (Fig. 1). At the same time, parallel boreholes 11 are drilled from drilling mines 5 along the border 12 with ore inter-chamber pillars 2 and along the center line 13 of the treatment unit 1. Then, by simultaneously blasting sections 14, the length of which is equal to the thickness of the collapsed layer 10, weaken the heel 8 of the set of natural equilibrium 7 from both sides of the treatment unit 1 and thereby initiate the self-collapse process in the collapsed layer 10. The ore mass 17 beaten off in this way is discharged from the treatment unit 1 through the workings of its bottom 4. After that, the cycle of work is repeated for the next brusciano layer 10 (Figure 2). The efficiency and economy of drilling and blasting can be significantly increased if the weakening of the heel 8 of the arch of natural equilibrium 7 and the destruction of its castle 9 is carried out by drilling linear beams of parallel-contiguous wells 15 along the boundary 12 with ore interchamber pillars 2 and volumetric beams 16 of parallel-parallel wells along the axial line 13 of the treatment unit 1 and subsequent simultaneous blasting by sections 14, the length of which is equal to the thickness of the collapsed layer 10. Obtained as a result of self-sampling thus initiated the destruction of the collapsed layer 10 beaten ore mass 17 is released from the treatment unit 1 through the development of its bottom 4. After that, the cycle of work is repeated for the next collapsed layer 10 (figure 3). If it is necessary to increase the indicators of completeness of using the balance reserves, the heel 8 of the arch of natural balance 7 of the arch is weakened on both sides of the treatment unit 1 by artificial artificial inter-chamber pillars 3 being erected using one of the known methods (for example, horizontal layers with a bookmark), and the collapse of the collapsed layer 10 is initiated only by drilling from drilling workings 5 parallel wells 11 along the axial line 13 of the treatment unit 1 and blasting them with sections 14, the length of which is equal to the thickness of the collapse th layer 10. Obtained as a result of the self-collapse of the collapsed layer 10 thus obtained, the beaten ore mass 17 is discharged from the treatment unit 1 through the working out of its bottom 4. After that, the cycle of work is repeated for the next collapsed layer 10 (Fig. 4).

Information sources

1. Agoshkov M.I., Borisov S.S., Boyarsky V.A. Development of ore and non-metallic deposits. - M .: Nedra, 1970 .-- 456 p. (Fig. 176 p. 277).

2. Kuzmin EV, Uzbekova A.R. Ore self-collapse in underground mining. - M.: Publishing House of Moscow State University, 2006. - 283 p. (Fig. 1.5 p. 25) (prototype).

Claims (3)

1. The method of underground mining of powerful ore bodies, including the preparation and cutting of treatment blocks, a treatment ditch with self-collapsing minerals and the release of ore from blocks, characterized in that, in order to increase the efficiency and safety of mining operations, reduce the yield of oversize and increase manageability the process of self-collapse, weakening of the heel of the arch of natural equilibrium on both sides of the block and the destruction of the castle arch are carried out simultaneously by blasting rows of parallel wells drilled along the boundaries between ukamernymi and entirely along the axial line cleaning block sections of a length equal to the thickness of the layer collapses. 2. The method according to claim 1, characterized in that the weakening of the heel of the arch of natural balance on both sides of the block and the destruction of the lock of the arch is performed by sectional blasting of beams of parallel-parallel wells, linear along the boundaries with inter-chamber pillars and voluminous along the axial line of the block. 3. The method according to claims 1 and 2, characterized in that the weakening of the heel of the arch of natural equilibrium on both sides of the block is carried out by pre-emptive erection of artificial interchamber pillars.

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