SU1469137A1 - Roof control method - Google Patents

Abstract

The invention relates to the mining industry. The purpose of the invention is to increase the efficiency of roof management due to the directional formation of weakened zones in it. Three preparatory wells (HS) are drilled from the preparatory stages in front of the clearing slab into the roof of the reservoir in areas outside the zone of influence of the reference pressure. The spread between adjacent areas is assumed to be equal to the pitch of the roof collapse. The drilling of the horizontal well is carried out in a plane parallel to the seam face. In the HS, camouflage explosive charges are exploded until the approach of the clearing slab, leaving an intact safety block of rocks above the reservoir. Then the wells are sealed and injected into the extreme HS air, and in the central HS water. This forms a weakened moisture-producing zone between the extreme HSs in a plane parallel to the cleansing face. The ratio of air pressure to water pressure is assumed to be 1: (10-50). 4 il. i (o

Description

The invention relates to the mining industry and is intended to control hard-to-collapse roofs when mining coal seams.

The purpose of the invention is to increase the efficiency of roof management due to the directional formation of weakened zones in it.

FIG. 1 shows the layout of wells drilled from preparatory workings; in fig. 2 shows section A-A in FIG. one; in fig. 3 and 4 are diagrams for the formation of weakened zones in the vicinity of a group of wells.

The method is carried out as follows.

From the preparatory workings ahead of the clearing hole, the wells are drilled into the roof of the reservoir at an angle of 55-85 to the axis of the preparatory workings in areas outside the zone of influence of the reference pressure, with the distance between the sections being equal to the pitch of the roof. At each site, three groups of wells are drilled: extreme 1 and central 2 in a plane parallel to the face. The number of wells in the group is taken depending on the power of the hard-to-collapse roof 3, and the angle of inclination of the wells

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choose, based on the geometrical construction of the position of the well, taking into account the thickness of the main roof of the protective layer above the reservoir, taken at least 5 m.

After the wells are charged with explosives, they are camouflaged prior to the approach of the clearing. After the explosion, explosives form a cavity 4, a crushing zone 5 and a fracture zone 6. The wells are positioned so that after the formation of a zone of fracture between them, an undisturbed zone is formed up to 2 m.

Then the wells are sealed and injected into the extreme 1 and central 2 groups of air and water wells at a ratio of air pressure to water pressure 1: (10-50). In this case, between the extreme groups of 2 wells, a weakened water-saturated zone 7 is formed in a plane parallel to the working face, along which the fracture of the hard-to-collapse roof occurs.

Control of moisture saturation is carried out, for example, the appearance of water in a control well drilled

additionally in the rock above the hard-to-get roof.

Claims (1)

Invention Formula The method of controlling the roof, including drilling a group of wells into the roof of the reservoir in a plane parallel to the clearing face in areas outside the zone of influence of the reference pressure with a distance between the sections equal to the step of roof collapse, charging wells with explosives, camouflet a group of wells before the approach of the clearing slab, leaving an intact safety block of rocks above the reservoir, and the formation of water-saturated zones by injecting water in the well after exploding explosives, characterized in that and the efficiency of roof control due to the directional formation of weakened zones in it, three groups of wells are drilled at each end of the chamber, and the moisture saturation of the zone is formed in a plane parallel to the bottom hole, injecting water into the central group of wells and air into the extreme groups of wells at the pressure ratio air to water pressure 1: (10-50). s g BUT. ZS fae. one Vi lw  :. cho / fv. ..v - / v / 010/0  j-m, / k /////// / l I7 / / / / / / / / l I / / / / / / t  :; ; :: ;; /: -:: .-- / X- / I Phage.2 v / 010/0 / K W ZDD Phage.Z