RU2021518C1 - Method for erection of wall of underground structure - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: method includes driving of closed working over contour of wall of underground structure at its roof. One wall of working from inner side of structure is made square to floor, and the other, on the side of rock mass 5 at angle relative to horizontal plane. Working is divided by vertical forms 6 which are installed at distance equalling thickness of wall of underground structure measured from point of intersection of working inclined wall with its roof. Then, space behind forms is filled with cementing mortar 7. After its hardening, using the same procedure, underlying working is driven and filled with cementing mortar. Underlying working has roof width and side walls inclination equalling those of overlying working. EFFECT: higher efficiency. 4 dwg

Description

 The invention relates to the mining industry and can be used for the construction of underground structures in unstable enclosing rocks.

 Known methods of erecting the walls of underground structures in unstable host rocks by forming a mined-out space, installing formwork and filling the formwork space with a monolithic solution (1).

 A disadvantage of the known methods is that the erection of the walls in such conditions is possible only from the sole of the underground structure with the support of the overlying layers of the monolithic solution on the underlying layers. This complicates mining operations, as It requires a significant period of time for hardening the monolithic solution, on which a subsequent overlying layer is formed to prevent deformations and wall violations.

 The closest technical solution in essence is the method of erecting the wall of an underground structure by forming a mined-out space, installing formwork and filling the formwork space with a monolithic solution (2).

 The disadvantage of this method is that during the construction of underground structures in unstable rocks, special formwork structures are required that protect against massive rock collapse with a large part-time area. In addition, in those conditions, it is difficult to use concrete casting in the construction of a structure from the earth's surface to a depth. In the traditional method, only upward walling technology is possible.

 The aim of the invention is to improve the conditions of mining during the construction of underground structures in unstable rocks.

 This goal is achieved in that the method of erecting a wall of an underground structure includes the formation of an open mined space and filling it with a monolithic solution. A closed excavation passes along the contour of the wall of the underground structure near its roof, one wall of which is formed perpendicular to the sole on the inside of the structure and the other from the rock mass at an angle with respect to the horizontal plane. A vertical formwork is installed in the excavation, at a distance equal to the wall thickness of the underground structure, determined from the point of intersection of the inclined wall of the excavation with its roof, then the formwork space is filled with a monolithic solution, and after its hardening, the monolithic solution of the underlying mine is drilled and filled, the roof width of which the slope of the side walls is equal to the upstream development.

 In FIG. 1 shows the excavation of the worked-out space along the contour of the wall of an underground structure, at its roof; in FIG. 2 - filling production with monolithic solution; in FIG. 3 - sinking of the underlying excavation along the contour of the wall; in FIG. 4 - vertical projection of an underground structure.

 The construction of the wall of the underground structure is as follows.

 At the earth's surface or under the cover of a roof 1 of an underground structure, a closed working 2, connected to the recoil working 3, passes along the contour of its wall. When excavating 2, one of its walls from the side of the rock core 4 structures is formed perpendicular to the sole, and the other wall from the side of the rock mass 5 are formed at an angle with respect to the horizontal plane. After driving the mine 2, the formwork 6 is installed in it. The formwork 6 is installed based on the required wall thickness of the structure, which is determined from the point of intersection of the inclined wall of the mine with its roof. After installing the formwork 6, the monolithic solution 7 is injected into the formwork space 7. After the monolithic solution is set under the formed concrete layer, the underlying workout 8 is drilled, in which the formwork is installed in the same way and the monolithic solution is fed into the formwork space. Simultaneously with the sinking of the underlying mine, a rock core 4 is excavated. Moreover, the presence of an air gap between the core 4 and the wall of the structure being constructed provides a reduction in seismic effects on the solidified monolithic solution when using explosive breaking. The successive formation of an open mined-out space and filling it with a monolithic solution in a descending order mining operations are carried out to the bottom of the underground structure 8.

 Implementation of the proposed method will allow the erection of walls during the construction of underground structures in unstable, fractured rocks. At the same time, unlike similar solutions, when constructing underground structures with a roof at the surface, there is no need to use precast concrete.

 The implementation of the claimed method will also allow for the construction of walls during the construction of an underground structure at any depth and a wide range of physical and mechanical properties of rocks.

Claims (1)

 METHOD FOR ESTABLISHING A WALL OF UNDERGROUND STRUCTURE, including the formation of an open mined space and filling it with a monolithic solution, characterized in that, in order to improve the mining conditions during the construction of underground structures in unstable rocks, a closed mine passes along the contour of the wall of the underground structure near its roof one wall of which is perpendicular to the sole from the inside of the structure, and the other from the rock mass at an angle with respect to the horizontal planes, while the vertical formwork is installed in the excavation at a distance equal to the wall thickness of the underground structure, determined from the point of intersection of the inclined wall of the excavation with its roof, then the formwork space is filled with a monolithic solution, and after its hardening, excavation and filling with the monolithic solution of the underlying mine are carried out similarly, the width of the roof of which and the slope of the side walls is equal to the upstream excavation.

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