SU1073367A1 - Shallow-depth pressure-head tunnel - Google Patents

Abstract

1. PRESSURE TUNNEL shallow, preferably in rock, provided with a lining carrier connected to a rock omonolichennymi rods of hard material arranged in nadtunnelnoy roof rock mass, characterized in that with the aim of reducing materials consumption, the tunnel is provided with a supporting reinforced concrete slab mounted on the surface of the earth above the tunnel, which is connected with the rods, homogeneous with the rock. 2. The pressure tunnel according to claim 1, characterized in that the supporting) iron-reinforced plate is provided with walling and filled with soil. (L SO CODA OD

Description

FIELD OF THE INVENTION The invention relates to hydraulic engineering, in particular to hydroelectric power plants, which have in their composition pressure tunnels of shallow foundation.

Known pressure tuinel, located in the rock massif and provided with a carrier lining 1.

A disadvantage of the known tunnel is that its lining is not able to perceive the internal pressure of the water in the tunnel when it is shallowly laid.

Also known is a shallow laying tunnel, mainly in rocks, provided with a carrier lining, connected to rods of high-strength material, homogeneous with the rock, located in the supra-tunnel roof of the rock mass 2.

A disadvantage of the known tunnel is that, with a shallow depth of the supertunnial stratum of the rock, its weight is not enough to perceive the internal pressure of the water, therefore, the lining has to be made massive and reinforced.

The purpose of the invention is to reduce material consumption.

The goal is achieved by the fact that the tunnel is equipped with a supporting reinforced concrete slab mounted on the surface of the earth above the tunnel, which is connected with rods that are homogeneous with the rock.

In addition, the supporting reinforced concrete slab can be provided with enclosing walls and buried with soil.

The drawing schematically shows the proposed tunnel, a cross-section.

Tunnel 1 includes a carrier lining 2, which is connected to the rods 3, homogeneous with rock 4 and located in the supra-tunnel roof of the rock massif. Rods / 3 are connected to the bearing reinforced concrete slab 5, located on the surface 6 of the rock massif opposite tunnel 1.

On the supporting plate 5, enclosing walls 7 are made, forming a box, which is covered with soil 8. The size of the tunnel elements is determined in each particular case by calculation or on the basis of research.

The device works as follows.

When tunneling a tunnel 1, part of the internal pressure of the water is perceived by the lining 2, and part of the pressure is transmitted through the lining by the thrust rods 3, and through them to the rock 4 and the supporting plate 5. Thus, the system of the lining 1 - rock 4 simultaneously turns on the operation of the tunnel damming that ensures its high carrying capacity. If the carrier plate 5 is loaded with soil 8, the performance of the system increases.

Thus, the proposed tunnel allows to reduce the cost of its implementation by reducing the costly underground work (by reducing the material consumption of lining 2) by replacing them with more generous open work to make the carrier plate 5 and fill the grout 8.

Claims (2)

1. HEADLINE TUNNEL OF A FINE LAYING, mainly in rock formations, equipped with a bearing lining connected to monolithic rods of high strength material located in the overtunnel roof of a rock mass, characterized in that in order to reduce material consumption, the tunnel is equipped with a bearing reinforced concrete slab, installed on the surface of the earth above the tunnel, which is connected with monolithic rods. 2. Pressure tunnel along π. 1, characterized in that the supporting reinforced concrete slab is provided with enclosing walls and filled with soil. I