SU1642009A1 - Method of controlling stability of parent rock in stopes - Google Patents

Abstract

This invention relates to the development of thin coal seams in deep mines. The goal is to increase the productivity of the clearing slab due to the trouble-free operation of the mechanized complex as a result of preventing the soil heaving when it moves away from the mounting chamber in the initial period of the clearing face when developing thin coal seams in deep mines. In the developed space between the immediate and main roofs, a peeling gap is formed by working the clearing bottom of the installation chamber for a distance of 0.5-0.7 and the magnitude of the critical span of soil stability. From the contouring excavation section of the workings in the rear embedding of the main roof plate above the gap formed, the well is drilled half the distance to the maximum of the reference pressure and blown up at the specified amount of waste from the installation chamber. The immediate roof collapses. After that, the pressure on the soil is reduced by unloading the main roof by collapsing it into the worked-out space by further clearing the removal of the installation chamber. 2 Il. (Ls

Description

The invention relates to the mining industry and is intended to control the stability of the soil in deep mine workings to prevent dangerous heaving in the initial period of working faces when the mechanized complexes leave the installation chambers, mainly on thin coal seams.

The purpose of the invention is to improve the performance of the clearing slab due to the trouble-free operation of the mechanized complex as a result of preventing soil heaving when it moves away from the mounting chamber in the initial period of the clearing face when developing thin coal seams in deep mines.

FIG. Figure 1 shows the scheme and parameters for the location of long wells in a complex-mechanized bottomhole to prevent soil heaving in the initial period of operation of the clearing face when the assembly chamber leaves; in fig. 2 shows section A-A in FIG. one.

The method is carried out as follows.

After the installation of the complex in the installation chamber along the clearing bottom of the adjacent workings 1, long wells 2 are drilled in the strong rocks of the main roof in the rear termination of the main roof slab. Wells

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drill to half the maximum of the reference pressure.

In order to ensure the collapse of the main roof with a small amount of waste from the installation chamber and the lack of bending of the roof plate during this period, it is necessary to create conditions for obtaining the maximum effect of the explosion of the wells. This can only be done if it forms an open surface in the rear termination. In this case, when an explosion explodes on this surface in the direction of the line of least resistance, under the influence of a longitudinal wave reflection from it, cracks and spalling tensions drastically weaken, together with radial cracks, the cross section of the roof plate. The formation of an open surface in the rear embedding of the main roof slab is formed by moving the cleaning hole away from the installation chamber to a distance of 0.5-0.7 times the magnitude of its critical stability span. In the same period, the soil rocks are squeezed out intensively from under the layer and the layer is lowered along with the rocks of the immediate roof. This leads to the formation of a gap 3 delaminations between the immediate and main roofs.

The blasting of wells, which are drilled over the peeling gap, is carried out with the amount of complex waste from the installation chamber at a distance of 0.5-0.7 times the critical span of soil stability. The immediate roof collapses.

After blasting wells in the main roof by further movement of the complex, and consequently, increasing the width of the clearing generation under the influence of the weight of the overlying roof rocks,

a section of the main roof block along a weakened section with its subsequent destruction along the front aedelka. By collapsing the slab os.8g “oh well into the worked out, unload the front and rear supports n / 4 if-- reduce the pressure on the soil, which, by reducing, the value of its stand.

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Claims (1)

Invention Formula The method of controlling the resistance of the host rocks in the clearing workings, including drilling and blasting wells in the rear termination of the main roof slab of excavation site excavation and. the collapse of the rocks of the immediate and main roof into the open space, characterized in that, in order to increase the productivity zabb due to the trouble-free operation of the mechanized complex as a result of preventing soil heaving when it moves away from the assembly chamber in the initial period of operation of the clearing face at the development of thin coal seams in deep mines, they form a peeling gap in the developed space between the direct and main roofs a distance of 0.5-0.7 is the magnitude of the critical span of soil stability; the wells are drilled halfway up to this gap to the maximum of the reference pressure and exploded at the specified amount of the clearing hole from the installation chamber, after which the pressure on the soil is reduced by unloading the main roof collapse it into the goaf by further clearing the clearing flank from the installation chamber. H N a / g - & Jj 0.5-0.1 IHP Figure 1 Schi 2