RU1813836C - Buried penstock - Google Patents

Abstract

Usage: in the designs of pressurized underground pipelines of hydroelectric power stations, PSPPs and others. Summary of the invention: the pipelines contain --- ------- made of separate links welded with an intermittent seam, steel lining 1 and reinforced concrete lining 2 with reinforcement sections 3 mesh placed in lining 2 in several layers. The longitudinal edges of sections 3 are installed with an overlap between them. The pressure of the water inside the conduit is transmitted through the leaky cladding 1 and lining 2 to the rock 4. In the lining 2 in the mating zones of sections 3 of the reinforcing mesh, cracks of small length and opening width are formed, which ensures the stability of the lining 1 with an empty conduit and hydrostatic pressure from the side breed 4. 1 ill.

Description

The invention relates to the field of construction, in particular to the construction of underground pressure structures, hydraulic tunnels, a water supply path to turbines of a hydroelectric power station, a hydroelectric power station.

The purpose of the invention is to increase reliability and simplify design and installation.

An underground pressure pipe is shown in the drawing, where its cross section is given, where 1 is a steel cladding, the links are welded with an intermittent seam, 2 is a reinforced concrete lining, 3 is a reinforcing mesh made in the form of separate volume sections, the longitudinal and transverse edges of which are installed with a lap between them, A is a rock mass conjugated with reinforced concrete lining 2.

An underground pressure pipe is constructed as follows.

Sinking in rock mass 4 is carried out, for example, using a special combine. Next, the tubular links of the steel lining 1 are mounted in place with welding them together with an intermittent seam. Installation is made in place of previously manufactured individual volumetric sections of the reinforcing mesh 3 with a bypass between their longitudinal and transverse edges. After the installation of the reinforcing mesh 3 is completed, the reinforced concrete lining 2 is concreted with the help of special concrete pumps. After the reinforced concrete lining 2 has been set with the specified strength by concrete, the space between the reinforced concrete lining 2 and the rock mass 4 is cemented, thereby ensuring reliable interfacing between the reinforced concrete lining 2 and the rock mass 4. After the reinforced concrete lining 2 reaches the design strength, the structure can be put into operation operation.

The construction works as follows.

Under the action of pressure in the flowing part of the underground pressure water conduit, it is transmitted through the steel lining 1 and the adjacent reinforced concrete lining 2 with disperse reinforcement in the form of separate volume sections 3 to the rock mass 4, which is interfaced with the reinforced concrete lining by cementation. Cracks arise in the structural elements of the water conduit from the action of concrete. Due to the dispersed placement of the reinforcement in the form of separate volume sections 3 in the reinforced concrete lining 2, there is a distributed crack formation with a limited length and opening width in the reinforced concrete lining 2. As a result of such a crack formation in the concrete of the lining 2, water filtration is less intense both when filled and when empty water conduits. The steel lining 1, mounted on the inner flowing part of the reinforced concrete lining 2, provides high hydraulic performance, i.e., it reduces the roughness of the flowing part of the water conduit and, accordingly, reduces losses

pressure. The steel cladding 1, the link of which is welded with an intermittent seam, guarantees the stability of the cladding when emptying the water conduit, as groundwater seeps into the water conduit almost unhindered through the contact sections of the steel cladding 1, which are not welded. Accordingly, the action of pressure externally on the steel lining 1 is excluded.

Thus, the claimed pressure head underground structure, which transfers the full load to the rock mass, ensures the normal operation of the structure by maintaining hydraulic

indicators, limiting the filtration of water in and out, and the stability of the metal lining when emptying the structure. All this is achieved with rather simple measures, namely

concrete lining with structural dispersed reinforcement and the manufacture of leaky cladding, sections of which are welded together by an intermittent seam.

The proposed construction of a pressure structure in comparison with the prototype is constructed in simplified ways and is more reliable in operation. In addition to the considerations

it should be noted that the construction in question is feasible for large pipelines, while the prototype cannot be used for these pipelines because of the corrugated metal lining, which is practically impossible with large dimensions.

Claims (1)

The claims An underground pressure water conduit, including a steel cladding made of separate tubular units connected by welding, and a reinforced concrete lining with a perimeter located around it reinforcing mesh, characterized in that. in order to increase the reliability in operation and simplify the design and installation, the reinforcing mesh around the lining perimeter is made in the form of separate sections, placed several layers in thickness 51813836 6 lining, the longitudinal edges of which of the steel lining parts are made with an overlap with each other, and welding with an intermittent seam.