SU1314081A1 - Lining for vault of underground structure - Google Patents

Abstract

The invention relates to the construction of underground structures of a large cross section such as machine rooms of HPPs and PSPs located in rocky arrays exposed to lateral tectonic stresses. The goal is to increase the reliability of the lining operation under conditions of significant lateral stresses of the rock massif. The lining includes a reinforced concrete arch, made in the form of adjacent longitudinal strips (PS) 1 reinforced with reinforcement 2. The arch is sealed with anchors embedded in the ground 4, and PS 1 are separated from each other by deformation seams 3, filled with monolithic, with solution 6. Through the seams 3, the steel directions are drawn, and the rods 7. One ends of the 8 rods 7 are embedded in the concrete of PS 1 and are arranged in a checkerboard pattern. The other ends 9 are placed in the casing 10 of antifriction material, which is monopolized in the concrete of the adjacent PS 1. As the excavation proceeds under the influence of lateral tectonic forces, the outflow contour moves and PS 1 compresses within its width limited by the distance between the seams 3 The lining of the vault operates in a ductile mode. The presence of anchors, fastened with reinforcement 2, ensures the work of the arch as a spatial structure. To prevent ingress of water into the structures under the chambers 3, splitting plates 12 are attached to PS 1 12. 3 3. n. Ft., 3 sg. I WITH with Nj O 00 12 fie.Z

Description

The invention relates to the construction of underground structures of a large cross section such as the machine rooms of HPPs and PSPPs located in rocky arrays exposed to lateral tectonic stresses.

The aim of the invention is to increase the reliability of the lining operation under the conditions of significant lateral stresses of the rock mass.

FIG. 1 shows the lining of the arch, a cross-section; in fig. 2 — node I in FIG. 1, detail of an expansion joint after the erection; in fig. 3 - the same, the detail of the expansion joint after the completion of construction.

The lining of the vault includes a reinforced concrete vault made in the form of longitudinal strips 1 reinforced with reinforcement 2, which are separated from each other by expansion joints 3 and fastened to the ground 4 by anchors 5, for example, inserted. The joints 3 are filled with monolithic mortar 6. Pass through the joints, steel rods 7, in which one end 8 is immersed in the concrete of strip 1 of the roof, and the other end 9 is placed in a casing of antifriction material, for example, from a polyethylene pipe, embedded in concrete adjacent lanes 1 set. Cases can be made of steel pipes and covered inside with a layer of lubricant. The free ends of the tubular covers 10 are plugged with plugs 11, for example, wooden ones.

The ends 8 of the steel rods 7 should be monolithic in strips 1 of the arch in a checkerboard pattern.

Under the seams 3 to the strips 1 of the vault attached fenders compensators 12, made, for example, in the form of corrugations of tin.

The dimensions of the structural elements of the roof are determined by calculation or on a model of equivalent materials, taking into account the specific geometrical dimensions of the structure, the characteristics of the soil massif and the phasing of the construction of the structure.

Carry the lining of the roof as follows.

After penetrating the underwater mine workings, the anchors 5 are installed in the ground 4 in the roof of the excavation, the reinforcement 2 of the strips 1 of the roof is fastened to them, the covers 10 and the steel rods 7 are fixed to the reinforcement. Concretes the vault strip. After the concrete has set the strength, the formwork is removed and attached to the strips 1 under the seams 3, our fir-tree compensators, for example, with the help of dowels (Fig. 2).

Then the lower runes are excavated and the lining is erected (not shown).

The lining of the vault works in the following way.

As the soil is excavated from the excavation under the action of lateral tectonic forces, the contour of the excavation occurs, including in the arched part. Due to the presence in the arch of the expansion joints, the strip 1 of the arch is compressed within its width limited by

standing between the seams 3. At the same time, the compressive stresses in the lining of the roof do not exceed the values of the calculated resistance of concrete. At this time, the lining of the vault operates in a ductile mode.

The presence in the roof of the anchors 5, fastened with reinforcement 2 strips 1 of the arch, ensures the work of the arch as a spatial structure. Steel rods 7 are guides as the walls of the expansion joints 3 approach each other, and also perceive the transverse forces arising in

0 vault at its deformation. Splash compensators 12 exclude ingress of seepage water into the structure.

After the construction of the construction facility is completed, the deformation of the production contour is terminated; a new equilibrium stress state is formed around the excavation in the ground.

In the expansion joints 3, a monolithic solution 6 is injected, after hardening of which the lining of the roof begins to work in a hard mode.

Claims (4)

1. The lining of the vault of the underground structure, including reinforced concrete vault, fastened with anchors, embedded in the ground, 5, in order to increase the reliability of the lining operation in conditions of significant lateral stresses in the rock mass, the reinforced concrete roof is made of longitudinal strips separated from each other. There are joints with expansion joints filled with a monolithic mortar, and rods are passed through the seams, one end of which is monolithic in the concrete of the roof of the vault, and the other is placed in a casing of antifriction material that is embedded in the concrete of the adjacent roof of the roof. 2. The lining of the vault of claim 1, characterized in that the monolithic ends of the rods are located in the strips of the vault in a checkerboard pattern. 3. Lining of the arch of PP. 1 and 2, characterized in that the covers are made of polyethylene pipes. 4. Lining of the arch of PP. 1-3, characterized in that the expansion joints are hermetically attached to the reinforced concrete strips under the expansion joints. phage. 7 J 7 X / HU L / X / / Y X phage. 2