RU1819997C - Method for mineral bed mining by stopes - Google Patents

Abstract

The invention relates to mining and can be applied in the development of mineral deposits. The goal is to increase the stability of panel and excavation drifts with a more complete compilation of empty rocks in the worked out space. SUMMARY OF THE INVENTION: by a method of mining a mineral seam by sunset including the excavation of the excavation drift with the blasting of gangue, conducting an access in the excavation column into which the mines are stored, and the formation of a panel pillar at the boundary of the extraction column with the panel drift, single visits are carried out simultaneously with the excavation of the excavation drift, the panel "pillar is carried out by conducting the first single approach, and each subsequent single approach is carried out immediately after filling the previous single entry undermined during the excavation of the excavation about the drift by the rocks. Using the proposed method, it is possible to additionally support the roof of the massif from collapse, as well as to place a large number of waste rock in the worked out space. Positive effect: reduced occupation of fertile land from stockpiling of waste. 3 ill.

Description

The invention relates to mining, in particular, to an underground mining method for mining mineral deposits.

The purpose of the invention is to increase the stability of panel and excavation drifts due to more complete abandonment of empty rocks in the worked out space. ... The method is carried out as follows (see Fig. 1, 2iZ).

From the preparatory drift 1 begin to pass the excavation drift 2, which is located mainly in the middle of the excavation column, scheduled for mining (Fig. 1). Mining drift 2 passes

formation 3 with rock support 4, representing in this particular case the soil of ore formation 3 (Fig. 2). The excavation drift 2 is carried out using the combine 5. In this case, the ore mass mined in the excavation drift 2 is delivered via the drift conveyor 6 to the preparatory drift 1, where it is loaded onto the panel conveyor 7 and then transported to the mine surface via a conveyor scheme. As the bottom-hole drift 2 is moved, a support 8 is installed in it, having, for example, a closed circular shape and made of special profiles (Fig. 2). After driving the excavation drift 2 to

00

oh ch

Xi

the boundaries of the panel pillar 9, designed to protect the preparatory drift

I, form the first single cleaning approach 10, which is carried out from the recessing drift 2 at a distance from the preparatory drift 1, equal to the width of the panel pillar 9. A single cleaning approach 10 is carried out in the same way as the excavation drift 2 is carried out using a combine 5, in this case, a single entry 10 through the ore bed 3 passes. The ore mass beaten in a single entry 10 is delivered via a downhole conveyor

II, then the bis is loaded onto the drift conveyor by means of a panel conveyor 7 and discharged to the surface. As the single entry 10 is moved, fixing frames 12 are installed in it, having, for example, an arched shape and made of special profiles (Fig. 3). After a single treatment run 10 to the boundary of the extraction column, the combine 5 is distilled into the bottom of the extraction drift 2 and the drift continues. In this case, ore formation 3 and gangue 4 are broken separately. The ore mined in the excavation drift 2 via the drift conveyor 6 is sent to the panel conveyor 7, and the empty rock 4 torn off in the excavation drift 2 is delivered via the drift conveyor 6 to a previously passed single treatment run 10, where, using known means, for example, using mechanical the cutter delivered to the empty rock 4 is reloaded onto the downhole conveyor 11 left in the entry 10 and the thrower 13 is thrown into the dead end of the single entry 10. As the single entry 10 is filled with the 4 breed, cr Holding frames 12, while removing the mounting frames 12 in the entry 10 is performed simultaneously with the installation of the support 8 in the excavation drift 2. Thus, the extraction of the drift 2 continues until it is filled with an empty rock 4 single entry 10. After complete filling in a single entry 10 with gangue 4 obtained from the support of the excavation drift 2, proceed to the formation of the following

single entry 14. For this, the harvester 5 transfers from the bottom of the excavation drift at the mouth of the single entry 14, sections of the face conveyor 11, dismantled in

a single runner 10, move and mount in a single runner 14, and for its fastening using previously removed mounting frames 12. After a single run 14 continue driving

excavation drift 2 with the movement of waste rock into the entry 14. To carry out the excavation drift 2 in this way to its entire design length to the boundary of the excavation column, the remaining between single

by sunset, the mineral reserves are worked out in a retreating order by bilateral treatment approaches with collapse of the overlying rocks. At the same time, the repayment rate and, consequently, the stability of the excavation drift 2 are increased due to the fact that part of the reserves of the excavation column have already been worked out by previously completed single penetrations, which are laid in waste rocks.

The application of this technical solution provides the possibility of complete abandonment in the worked-out space of waste rocks, tearing during the excavation drift.

The formulas are

A method of working out a mineral layer with fillings, including sinking a drift drift with sintering of gangue, depositing drill holes in a mining column, storing blasted rocks in them and forming a panel pillar at the boundary of the mining column with a panel drift, characterized in that, in order to increase the stability of the panel

and excavation drifts with more complete abandonment of empty rocks in the worked out space, simultaneously with the excavation of the excavation drift, single entries are made, with the formation of a panel

the pillar is carried out by the first single approach, and each subsequent single approach is carried out immediately after filling the previous single approach with rocks undermining during the excavation of the drift drift.

WTZZZZZZLJ & z

.FF 2..7

HELL

Figure 2.

6-6

Фзг.З.