SU1490288A1 - Method of supporting and safeguarding mine workings in shock-hazardous deposits - Google Patents

Abstract

The invention relates to the mining industry and can be used in the operation of mine workings in mines and mines that are hazardous to rock bursts. The method involves drilling wells along the contour of generation and cutting initiating germinal cracks in them. With the help of packers sequentially seal areas of the wells. Then, a fluid is injected into the wells, to which a proppant is previously added, which is sand. The fluid pressure produces an oriented fracture, unloading the marginal layer by creating an artificial fracture zone. Then, the discharge slots are cut to the zone of artificial fracture, which is filled with a compliant material. Rows of parallel intersecting cracks create an energy absorbing screen around the production. After cutting the gaps, the areas of the marginal layer of rock are separated from the main body and unloaded. The presence of a proppant in the cracks reduces the effort to move the separated areas relative to the main body, and the ductile material in the discharge gaps prevents the walls from breaking down. 1 il.

Description

The invention relates to the mining industry and can be used in the conduct and operation of mine workings in mines and mines that are hazardous to rock bumps.

The purpose of the invention is to boil up the efficiency of the method.

The drawing shows the development with the layout of wells of a series of parallel fractures and relief gaps, a transverse section.

The method is implemented as follows.

 From the production of 1 drill hole 2. In each well 2, a known device for cutting cracks, starting from the bottom of the wells, form 3-5 initiating cracks 3 at a distance of 0.3-0.5 m apart from each other.

With the help of packers (conventionally not shown), wells are successively isolated. The fluid is supplied to the well along with a proppant. Then, fluid 4, to which a proppant is previously added, is injected into wells 2.

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which use sand. (200-250 kg of sand for 1).

 The fluid pressure is applied to an oriented hydraulic fracture, unloading the primary contour layer 5 by creating an artificial fracture zone.

As a result of the rock formations of the rocks, around the opening 1 and 1, a series of intersecting parallel cracks 6 intersecting with each other are created. The closure of the requirement of 6 is prevented by the proppant pumped into them,

Rows of parallel intersecting treacin 6 create around the production of an energy absorbing screen, in which the energy of a rock bump is lost when the shock wave passes fracture cracks and is absorbed by the layers of rock between the cracks due to their deformation and destruction.

Then, in the roof of the excavation 1 and its sides, unloading slots 7 are cut to the soil near the soil, for example, to the nearest fracture fracture 6 of the artificial fracture zone.

Slots 7 are filled with compliant material 8.

After the discharge gaps 7, the areas of the boundary layer of rocks 5 are separated from the main body and under the influence of rock pressure and zones of high stresses created by forcing the splitting agent under pressure into the cracks 6, are displaced inside the mine.

Thus, the marginal layer of rocks 5 turns out to be open.

The presence of a proppant in the cracks reduces the efforts to move sections 5 relative to the main body, and the ductile material 8 in the discharge gaps prevents the destruction of the walls of the latter.

The method provides unloading of near-surface sections of rocks, prevents their deformations, which allows to bypass without the erection of permanent lining and increases the safety of mining operations.

Claims (1)

Invention Formula A method of securing and guarding mine workings in impact-hazardous fields, including drilling wells along a production contour, forming embryonic cracks inside each well, sealing them, pumping them into hydraulic wells and targeting an hydraulic fracture to unload the marginal layer by creating an artificial fracture zone, characterized by in order to increase the efficiency of the mine workings, a proppant is injected into the injection fluid and the injection is carried out before the boundary bearing layer is separated. Monolithic rocks from the main body, then cut the radial discharge gaps to the zone of artificial fracture to form self-sticking rock blocks, while the discharge gaps are filled with a compliant material.