SU768996A1 - Method of protecting working in stratified rock area - Google Patents

Description

one

The invention relates to mining and to be used to increase the STABILITY of drifts of the main direction of the main inclined workings that are traversed in a stratified mountain range.

There are known methods for increasing the stability of workings carried out in a layered rock massif, for example, by anchoring the roof.

The increase in stability in this method is achieved by strengthening the rock mass with the help of special anchors. The drawbacks of the method are the concentration of stresses in the rocks around the anchors and the creation of additional difficulties for the anchors to reclaim the workings.

There is also a known method of protecting workings in a layered mountain range, which includes drilling holes and injecting a hardening solution 2 into them.

The disadvantage of this method is the high cost of the method, due to the erection of a continuous roll or insulating surface. The injection of the solution into 2 stages significantly complicates the process of carrying out generation.

The aim of the present invention is to reduce the holding time of production and ce time.

The goal is achieved by the fact that

the bottomhole is drilled to a depth of at least half the width of the spurammn, which b) ft t is perpendicular to the rock layer, and the distance between 5 cords along the length of the mine is taken to be equal to its width, then at a distance of 1.5-2.0 of the largest cross section production from the bottom to the dies, they are injected with a reinforcing solution of prn with constant pressure until it stops flowing into the delamination cavity.

FIG. Figure 1 shows a cross-section of a mine for injecting a solution through boreholes; in fig. 2 is a longitudinal section of the excavation in the drilling section of the cords and injecting a hardening solution into them.

During the period of the drilling of the tunneling hole, 1 drill of holes 2 in the roof and the soil is made perpendicular to the plane-bedding - the bedding of rocks. The depth of the cords 2 is equal to not less than half the width of the excavation, and the distance between adjacent shpurura along the length of the excavation is equal to the width b of the excavated. A condor 3 is installed in the mouth of the cords 2 to inject the solution. At a distance equal to 1.5-2.0 of the largest cross-sectional output from the bottom 1 to the cords 4, to the conductors 3 of the cords 4 are connected, they are forced into the reinforcement solution.

the cavity of the bundle 5 at a constant pressure until the penetration of the hardening solution into the hole.

When the solution is injected into the hole at a distance / from the sinking of reinforcement, the solution fills up the cavities that have formed. At this distance from the rock within the layers eh, e are not unloaded, therefore hardening, the mortar holds the destroyed layers of rock into monolithic toli, and the yu and forms a powerful solid rock slab capable of withstanding high rock pressure in the roof and soil. This achieves a positive effect on the protection of workings in a stratified mountain range.

The use of this method in the construction of workings in a layered mountain massif provides in comparison with the existing methods the following advantages:

the implementation time of the method is reduced by 2-4 times and the manufacturability of its implementation is improved by performing injection of the solution in one stage;

The cost of penetration is reduced by 3-4 times due to the elimination of the use of insulating surfaces or solid supports.

Claims (2)

1.Simevsky V.N., “Stangov lining, M. Nedra, 1965, 31-34. 2. Zaslavsky Yu. 3. and others. “Fastening capital workings at great depths, Donetsk, Donbass, 1971, p. 120 (prototype).