SU1435694A1 - Lining of vault of underground structure - Google Patents

Abstract

This invention relates to the construction of underground structures. The purpose of the invention is to reduce the cost of lining and increase operational reliability by redistributing loads. Lining of the vault. Bricks a concrete layer 1 reinforced with rods and fastened with anchors, embedded in the roof of the excavation of an underground structure. In the concrete layer 1 is made of longitudinal expansion joints 5, which cut the lining into separate strips. The seams 5 intersect the reinforcing bars forming the two groups. The rods 6 of the same group are made of steel with high plastic properties. These rods are homogeneous in the concrete layer 1 at their both ends. The rods 7 are discretely located between the rods 6 of the first group and are made of high strength steel. One ends of the rods 7 are monolithic in the concrete of one strip of layer 1, and the other ends are placed in sleeves 8, embedded in the concrete of the adjacent strip of layer 1 of the lining. Between the ends of the rods 7 and the sleeve 8, cavities 9 are formed, the length of which is equal to or greater than the width of the expansion joint 5. 3 Il.

Description

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The invention relates to the construction of underground structures located in rock massifs exposed to horizontal compressive tectonic forces.

The purpose of the invention is to reduce the cost of doing the lining and increase its operational reliability by redistributing the loads.

FIG. 1 shows the vault, cross section; in fig. 2 — node I in FIG. one; in fig. 3 shows section A-A in FIG. 2

The lining of the vault includes a reinforced concrete layer 1, fastened with anchors 2, embedded in the roof 3 of the excavation 4 of the underground structure. In reinforced concrete layer 1, longitudinal expansion joints 5 are made, which cut the lining into separate strips. The seams 5 intersect the reinforcing bars forming the two groups. The rods 6 of the same group are made of steel with high plastic properties. These rods are not monolithic in the concrete of the layer with their both ends; The rods 7 are discretely located between the rods 6 of the first group, made of high strength steel and one end are monolithic in the concrete of one strip of layer 1, and the other end are placed in sleeves 8, for example, from polyethylene pipes embedded in the concrete of the adjacent strip of lining 1 . Between the ends of the rods 7 and the sleeves 8, cavities 9 are formed, the length of which is equal to or greater than the width of the expansion joint 5. The underground structure is located in the rock mass 10, which experiences horizontal tectonic compressive stresses.

The dimensions of all elements of the lining of the desalination 10 in natural conditions, as well as the elastic forces formed during excavation of the excavation 4 below the roof, reinforced concrete layer 1, being securely fastened with anchors 2 to the roof 3 of the excavation 4, will be compressed together with the rock mass 10. Due to the presence deformation shvov 5 in the lining layer 1 the concrete of the lining will move away from the compressive forces, and 10 rods 6, rigidly homogeneous with both ends in the concrete, will take this load. When the maximum voltage is reached in these rods, which will be equal to the yield strength of the material, the system will assume an equilibrium state. The rods 7, embedded with one end into the concrete, and the other into the coupling 8, do not prevent the compression of the roof, but perceive transverse forces together with the rods 6, and give the structure a unified system.

Claims (1)

Invention Formula The lining of the vault of the underground structure, which includes a reinforced concrete layer with reinforcing bars, fastened with anchors, embedded in the roof of the excavation, characterized in that. in order to reduce costs and increase operational reliability by redistributing loads, the reinforced concrete layer is made of strips separated by longitudinal expansion joints that intersect reinforcing bars forming the two groups, the rods of one group are monolithic in concrete with their both ends, and the rods of the other group are located discretely between the rods mi of the first group and one end of the monolithic 25 thirty they are calculated or based on the research in concrete of one lining strip, and the connections on models, for example, from the equivalent end are placed in couplings, embedded materials. In concrete in the adjacent strip of lining, trimming works as follows. than between these ends of rods and couplings Under the action of horizontal tectonias, cavities are formed with a length equal to the width chesic forces operating in the rocky May-expansion joint. 0 10, in natural conditions, as well as elastic forces formed during excavation of excavation 4 below the arched part, reinforced concrete layer 1, being securely fastened by anchors 2 to roof 3 of excavation 4, will be crimped together with rock mass 10. Due to the presence of deformation grooves 5 in the lining layer 1 concrete lining will move away from the compressive forces, and this load will be perceived by 0 rods 6 rigidly homogeneous with both ends in the concrete. When the maximum voltage is reached in these rods, which will be equal to the yield strength of the material, the system will assume an equilibrium state. The rods 7, embedded with one end into the concrete, and the other into the coupling 8, do not prevent the compression of the roof, but perceive transverse forces together with the rods 6, and give the structure a unified system. Invention Formula The lining of the vault of the underground structure, which includes a reinforced concrete layer with reinforcing bars, fastened with anchors, embedded in the roof of the excavation, characterized in that. in order to reduce costs and increase operational reliability by redistributing loads, the reinforced concrete layer is made of strips separated by longitudinal expansion joints that intersect reinforcing bars forming the two groups, the rods of one group are monolithic in concrete with their both ends, and the rods of the other group are located discretely between the rods mi of the first group and one end of the monolith .one / five - / fPu2.2