UA65446A - Method for providing stability of mine workings in heaving rocks - Google Patents

Abstract

Method for providing stability of mine workings in heaving rocks, in which one forms in the base of the working a rock structure comprising of the lower damper and the upper bearing layers; that for in the base of the working blast-holes are drilled, with fan arrangement, and after explosion of camouflet charges one drills in destroyed rocks in the base of the working additional blast-holes with smaller depth in comparison to the main blast-holes through which after that polymer foam-forming solution is pumped in till beginning of formation of continuous layer at distance corresponding to the depth of additional blast-holes, with leaving a damper rock layer; then to the additions blast-holes one pumps in fastening solution.

Description

Description of the invention

The invention relates to the field of mine construction, in particular, to methods of combating the swelling of rocks.

The well-known "Method of combating swelling of bottom rocks in mining workings", which includes drilling discharge wells in the bottom of workings, camouflaged placement of explosive charges in them, injection of a film-forming solution into the wells, after which the wells are filled with water. (Author's certificate Мо1571263 (51)5 Е21013/02, Bulletin of Discovery, Inventions, 1990, Мо221. 70 Disadvantage - the method is suitable only for low-lying rocks.

The closest is the "Method of preventing the swelling of rocks in mining workings", which includes drilling a series of holes in the bottom of the workings, planting camouflage charges in them, injecting a binding solution. (Author's certificate Mo1481420 (51)4 E21013/02, Bulletin of Discovery, Inventions, 1989, Mo19).

The disadvantage is that it is impossible to ensure sufficient stability of the sole of the product in water-saturated rocks. 19 The invention is based on the task of improving the method of ensuring the stability of mining workings in heaving rocks, in which, through the possibility of forming a new rock structure in the sole of the workings, an increase in the bearing capacity of the sole of heaving rocks is ensured, regardless of the nature of the rocks, and at the expense of this , increasing the stability of products, reducing the cost of mineral extraction, improving sanitary conditions.

The problem is solved by the fact that in the known method of ensuring the stability of mining workings in swelling rocks, which includes drilling a number of holes in the bottom of the workings, planting camouflage charges in them, injecting a binding solution, according to the invention, a rock structure is formed in the bottom of the workings, which consists of from the lower damping and upper bearing layers, for which fan-oriented holes are drilled in the bottom of the work, and after planting camouflage charges, additional holes of a smaller depth than the main holes are drilled through the destroyed rocks in the bottom of the work, through which the polymer film-forming solution is then pumped to the formation of a continuous layer at a distance corresponding to the depth of additional holes, leaving a damping layer of destroyed rocks, and then a binding solution is injected into the additional holes.

In fig. the diagram of the rock structure in accordance with the claimed method is given, where 1 - arch fastening; 2 - additional holes; C - upper supporting layer; 4 - a continuous layer of fast-setting polymer solution; 5 - lower damping layer. "AND

The method is implemented as follows.

At the beginning, holes are drilled in the bottom of the workings, with an approximate depth of 2.6 to 3.1 m, located with a fan, using the drilling rig of this mine. Next, the holes are charged with an explosive substance (BP), which is allowed for these conditions according to the PB. A camouflage landing is carried out. After airing the product and bringing it to a safe state, the rock is cleaned with the help of loaders. Next, permanent attachment 1 (flexible arch with SVP) is installed. After that, additional cords 2 are drilled in the bottom of the workings on destroyed rocks, with a depth of 1.0 to 2.0m, oriented with a fan, using a drilling rig. Next, additional holes are equipped with conductors with packer devices and through them, a quick-setting polymer solution is injected, which is able to penetrate within 0.35...0.45 m, until the formation of C 50 continuous layer 4, leaving a damping layer 5 of destroyed rocks. The solid layer 4 is the boundary between the damping layer 5 and the load-bearing layers. After the formation of a continuous polymer layer 4, the poor is pumped into the holes

From" cement mortar to ensure penetration between the holes 2. This is how the upper bearing layer 3 is formed.

This new three-layer rock structure can provide the necessary stability, regardless of the nature of rock formation, including water-saturated ones. The bearing layer provides sufficient rigidity. A continuous polymer layer prevents the penetration of water into the product. The damping layer ensures stable operation of the entire structure under conditions of alternating stresses in the swelling rocks. 1 g"

Claims (1)

The formula for the invention of iz 50 The method of ensuring the stability of mining workings in swelling rocks, which includes drilling a number of holes in the bottom of the workings, planting camouflage charges in them, injecting a binding solution, which is distinguished by the fact that they form a rock structure in the bottom of the workings, which consists of a lower damper and an upper bearing layers, for which holes oriented with a fan are drilled in the sole of the product, and after 22 planting of camouflage charges, additional holes with a shallower depth than the main holes are drilled through the destroyed rocks in the bottom of the workings, through which the polymer film-forming solution is then pumped until the formation of a solid layer begins at a distance corresponding to the depth of the additional holes, leaving a damping layer of rocks, and then a binding solution is pumped into additional holes. 60 b5