RU2021517C1 - Method for erection of wall of underground structure - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: method includes driving of workings over contour of wall of underground structure at its floor 1 and roof 2. From the workings, vertical holes are drilled and rock mass is caved in zone for formation of raise 4. Caved rock mass is withdrawn, and at the level of lower end of raise, remaining rock mass is cemented with mortar 6 without filler, and raise 4 is filled with cementing mortar and filler. EFFECT: higher efficiency. 3 dwg

Description

 The invention relates to the mining industry and can be used for the construction of underground deep-laid structures.

 Known methods of building the walls of underground structures of deep laying by forming a mined-out space, fixing it and layer-by-layer erection with a monolithic solution in contact with the enclosing rocks of the enclosing wall (1).

 The disadvantage of these methods is that when the wall is erected, a greater amount of work is required to fix the worked out space and to carry out measures to maintain in a stable state the formed outcrops of the enclosing rocks.

 The closest in essence technical solution, selected as a prototype, is a method of erecting the walls of an underground structure, accommodating the formation of a mined space and layer-by-layer erection of a wall of an underground structure with a monolithic solution (2).

 The disadvantage of this method is that the construction of the walls is carried out along the contour of the underground structure in tiers, which requires a large amount of tunneling work in the formation of underground workings, limiting the height of the tier of the wall being erected and reduces labor productivity.

 The aim of the invention is to reduce the volume of tunneling due to the exclusion of sinking intermediate workings and the use of lining to maintain the worked out space.

 This goal is achieved in that the method of erecting the walls of an underground structure includes the formation of an open mined space in the contours of the walls of the underground structure and filling it with a monolithic solution. The mine workings are drilled along the contour of the wall of the underground structure at the sole and roof, from which vertical wells are drilled and the massif collapses in the zone for the uprising to form, then the collapsed rock mass is removed from it, leaving the collapse at the level of its lower mouth. A monolithic solution is fed into the worked out space of the uprising without filling and saturate with it the rock mass collapse, and after hardening the solution, the uprising monolithic solution with the filler is filled and at the same time form a new uprising.

 In FIG. 1 shows the drilling of vertical wells between the workings at the roof and sole of an underground structure; in FIG. 2 - saturation of the collapse of the rock mass in the lower mouth of the uprising monolithic solution; in FIG. 3 - filling the worked-out space of the uprising with monolithic solution and drilling adjacent vertical wells.

 The method of erecting the walls of an underground structure is implemented as follows.

 Excavations 1, 2 pass along the contour of the underground structure at its sole and roof. Depending on the equipment used, vertical wells 3 are drilled from the lower 1 or upper 2 excavations, while, when determining the parameters of drilling and blasting operations, the array must be taken into account when the wells collapse 3 to be destroyed only in the contours of the walls of the underground structure.

 When determining the volumes of the collapsed massif, it is taken into account that after the rock mass is released, the outcrops of the formed uprising must be stable for a given period of time. Under these conditions, the optimal way is either sectional breaking of the array, or breaking into the formed axial cavity used as a compensation space. After the collapse of the massif, the broken rock mass is discharged into the lower mine, from where it is transported to the rolling horizon. The release of the rock mass is carried out until the collapse of the rock mass reaches the level of the lower mouth of the formed uprising 4.

 After the cessation of the collapsed rock mass is discontinued, the concrete conduit 5 is lowered into the uprising, through which a monolithic solution 6 is supplied without filler. The monolithic solution 6 without filler saturates the collapsed rock mass 7 - sets. After the solution has set, the monolithic solution with the filler is fed into the uprising 4 to the level of the bottom of the output 2 located at the roof of the underground structure. In the process of filling uprising workings 4, vertical wells are adjacent to it and vertical wells are drilled, and after normative hardening of the monolithic solution by blasting the wells, they form a new uprising. Drilling and blasting operations are carried out in the described sequence until the walls of the underground structure are completely erected.

 Studies have shown that the erection of the walls of an underground structure by the formation of uprising workings and their subsequent filling with a monolithic solution allows increasing labor productivity, since mining can be carried out simultaneously in several places.

 Due to the fact that in the process of mining, the fastening of the worked out space is not applied and the workings for each layer of monolithic solution are not carried out, as the wall height increases, the cost of mining for the construction of an underground structure decreases.

Claims (1)

 METHOD FOR ESTABLISHING A WALL OF UNDERGROUND STRUCTURE, including the formation of an open mined space in the contours of the walls of an underground structure and filling it with a homogeneous filling solution, characterized in that, in order to reduce the volume of tunneling work by eliminating the passage of intermediate workings and using the lining to maintain the mined space along the wall contour underground structures at the soles and roofs undergo workings, from which vertical wells are drilled and collapse the massif in the zone for forming formation of the generatrix, then the collapsed rock mass is removed from it, leaving its collapse at the level of its lower mouth, while in the worked-out space of the uprising a homogenizing solution without filler is fed and the rock mass is saturated with it, and after hardening the solution, the uprising homonizing solution with the filler is filled and at the same time form a new rebellion.

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