SU737632A1 - Method of driving a passage through fallen rock at rescue operations - Google Patents

Description

(54) METHOD FOR CARRYING OUT THE PASSAGE IN THE MOUNTAIN PASSAGE AT MINING-RESEARCH WORK

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 The invention relates to the mining industry and can be used when making walkways for rescuing miners cut off the rock mass from going to the surface in emergency situations when the entrance under the vault arch is impossible for any kind of work due to the danger of repeated self-destruction. There is a known method of making passages for rescuing miners, who have cut off the rock mass from the entrances to the surface, by sinking by-pass excavation along the rear sight 1.

The disadvantage of this method is the very long turnaround time, especially in hard rock formations, and the greater complexity of these works.

There is a known method of conducting a passage in the rock mass during the mine-rescue operations, including the release of rock from the roof of the wall, creating a blockage in the passage in the form of a shield (tensioner) serving as a roof support for the passage. After laying the scythe, the breed is cleaned and crepeed. If necessary (at the arches of collapse of large sizes) bonfires are laid between the overlap and the roof of the dump. 2.

The disadvantage of this method is that it is very laborious at high blockages and is not safe for mine rescuers during the work on the passage fastening.

The aim of the invention is to create safe working conditions for mine rescuers and to increase the speed of passage.

This is achieved by the fact that before

10 of the passage, open voids in the area of the dam are fenced off with overlapping, and the space between the overlap and the roof of the fall is fixed by filling it with quick-hardening in air with foamy material, and then the rock mass is removed along the passage and secured in a known manner, moreover as overlap use fencing mesh or metal mat, and in order to increase the bearing capacity of the 20 fixed space by overlapping and falling out of the roof at the arches of the collapse of large sizes In before filling the space between the overlap and the roof of the blade with a fast-acting foam material, spatial reinforcement is installed in the latter, which is connected to the fencing mesh or mat.

FIG. Figure 1 shows a schematic diagram of a method for making a passage in a block of rock mass during mountain rescue operations using a mesh to block the void of a collapsed space; in fig. 2 is a schematic diagram of a method for making a passage in a block of rock mass during mountain rescue operations using a metal mat laid on a collapsed rock mass, a vertical section.

The method is carried out as follows.

Before starting the passage through the blockage of the collapsed rock mass 1, the open void is fenced off with net 2. Then the fenced void is filled with foamy material 3 hardening in air, for which a foam generator and the hose is guided through the nozzle to fill the void. If possible, the entire volume of the void is filled with foam material, which hardens after 2-5 seconds after laying, forming a porous mass with a bulk weight of 10-70 kg / m, capable of withstanding pressures up to 10 O / m In view of 6oj) bmovi foam generators (2-10 M , / min) it takes little time to fill even large voids. The laid foam material repeats the outline of the void. The greater strength of the hardening foam material and the density of its installation completely eliminates the repeated self-rubbing of the roof. Then, the removal of the rock mass along the route of the passage by known methods and its fastening are performed. Due to the fact that the collapsed void is securely fastened, the passage fastening is simplified, which significantly reduces the time for this operation.

If, when the passage is made, new voids are opened, they are also fenced off with a net and filled with hardening foam material. In those cases when conditions are allowed, a metal or wood mat 4 is placed on the collapsed rock mass (see Fig. 2). The void above the mat is filled with a hardening foam material as described above. After the void is filled with hardening foam material, mountain mass is removed along the passageway and fixed using a mat to support the roof.

When it is necessary to fix a void of large sizes, spatial armature is mounted in it, connecting it with the enclosing net or mat. This makes it possible to significantly increase the carrying capacity of the hardening foam material and to ensure the safe operation of the mine rescuers.

The advantage of this method is that its use significantly reduces the time of mine-rescue work on the withdrawal of miners from the dam of the rock mass and creates safer working conditions for the mine rescuers.

Claims (3)

1. A method of conducting a passage in the rock mass during the mine-rescue operations, including the release of rock from the arch of the embolition, creating a blockage in the passage in the form of a shield (knurser) serving as a roof support lining, cleaning the collapsed rock and fixing the space between the ceiling and the fallen roof, characterized in that, in order to create safe working conditions for the mine rescuers and increase the speed of the passage, before the beginning of the passage, open voids in the area of the dam are fenced off, and the fastening The space between the overlap and the roof of the dump is carried out by filling it with a fast-acting foam in air, and then removing the rock mass along the passageway and fixing it in a known manner .. 2. The pass according to claim 1, characterized in that the quality of the overlap is using fencing or metal mat. 3. Method according to paragraphs. 1 and 2. characterized in that, in order to increase the carrying capacity of the fixed space between the overlap and the roof of the fall, when the arches of collapse are large, before filling the space between the overlap and the roof of the fall, the foam reinforcement is installed in the latter in air, which is connected to fencing mesh or mat. Sources of information taken into account in the examination 1. Khodat V.V. Mine Rescue. “Ugletekhizdat, 1951, p. 125 2. Kravchenko, VI and others. Liquidation of accidents in coal mines. M., “Nedra, 1967, p. 227 (prototype).