SU945438A1 - Method of excavating pillars in gently-dipping seams - Google Patents

Description

one

The invention relates to mining and can be used in the excavation of columnar and strip pillars of mineral resources left in the spent space.

There is a method of excavation pillars, including the driving of field, transport workings on a number of pillars, drilling workings and craters for each pillar, drilling of targets, blasting wells and release of ore to transport production l.

The disadvantage of this method is the limited area of its application, only on gentle ore deposits with the excavation of only columnar pillars.

The closest technical solution to the invention is a method of excavation of the pillars, including the carrying out of field transport workings, drilling workings, the formation of outlet funnels for each pillar and

heaps of rock from excavation of field workings on the soil of the previous chamber on the border with the entire workout, drilling of pillars, blasting wells, release of ore into transport production and plowing of pillars on the uprising deposits in open chambers A disadvantage of the known method is a significant amount of preparatory work.

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The purpose of the invention is to reduce the preparatory work.

The goal is achieved in that, according to the method, the drilling in each pillar passes before the connection with the underlying chamber above its soil, through which the rock is formed, and the outlet funnel is formed from the drilling excavation of the underlying chamber on

20 to the border of the rear pillar under the rock and release through it the blasted rocks of the crater and pile, then after the blasting of wells in the rear of the pillar in

to the extent of its natural destruction, the ore is released to the transport production of the underlying chamber, and the ore is excavated from the pillar base after the complete ore output has been repulsed due to the natural destruction of the pillar.

Figure 1 shows the plan of the waste unit with the location of the extracted rows of pillars and transport workings; figure 2-4 - notch one of the pillars; Fig. 5, the removal of ore from the base of the pillar in the gentle fall conditions of the deposit.

In order to implement the method, the field transport make 1 passes to the strike of the deposit under each row of pillars 2. From each recovered pillar 3, the drilling work 4 runs across the stretch to the coupling 5 with the underlying chamber 6 above its soil 7.

Through the drilling development and coupling, S in chamber 6 on its soil 7 forms a pile of 8 rocks from the field workings. Then, in the recovered pillar, 3 of the borehole 9 is at a different 10, and from the drill working under the pillar 11, it is drilled in the direction of the lower part of the base 12 of the recovered pillar under the rock of the borehole 13 in the contour of the funnel 14. The boreholes of the crater explode and release part blasted rock from vorenka and pile, as a result of which they form a slope 15 at an angle of repose of the rock and a receiving funnel 1b.

Then, in the pillar 3, the wells 9 are blown up in the axle 10, their solidity is violated and thereby ensure the natural destruction of the ore at a predetermined speed, which is released to transport output 1 from the funnel 16. Ore 17 is released until the pillar stock is completely extracted. We take the first row of pillars 11 transport and drilling workings are only for clearance funnel, and the excavation of a number of pillars lead in the direction of the uprising deposits.

This order of mining is ensured in order to use the drilling production successively for two operations, first to drill the rear column in which it is completed, and then to discharge ore from the rear panel of the high / low chamber, which significantly reduces the amount of preparatory work.

In order to extract the 18 ore reserves 19 and 20 remaining in the soil from the drilling development, which was drilled on this pillar in other wells, additional wells 21 are drilled and blown up after the ore has completely been released due to natural pillar destruction. Moreover, the load on the wells 21 and the layout

The charges in them are selected depending on the size of the remaining Ore reserves.

The use of the invention will reduce the cost of mining ore

5 due to a decrease in preparatory work.

Claims (2)

1. Karazhanov DD and others. The method of excavation support pillars. Technologists of the development of solid mineral deposits. Almaty, 5 issue 13, 1977, p.70-74. 2. USSR author's certificate number 754070, cl. E 21- C 41/06, 1980 (prototype). eleven (Rig, 3 FIG L