SU1413188A1 - Method of constructing tunnel lining in anisotropic rock - Google Patents

Abstract

The invention relates to the construction of hydraulic structures. The purpose of the invention is to increase the efficiency of the lining by increasing the pre-stress of the rock tunnel in the direction of the maximum value of the rock strain modulus. The method for performing the lining of tunnel 1 in the anise of otropnoy rock 2 involves concreting the base layer 3, drilling the grouting wells 4 around the tunnel 1 and injecting cement slurry into the wells. Cement wells 4 are drilled with a variable pitch along tunnel I, with wells with a minimum pitch being drilled in the direction of maximum sign-. The deformation modulus of the rock (ELGOCHSS) 3, the boundary section of which the wells are combined with interlayer fractures of the rock, and the wells with the maximum step are drilled in the direction of the minimum value of the modulus of rock deformation (Е „„ ..), the combination of W H wells 4 with interlayer fractures 14 is found the wedge-shaped opening of these cracks and the formation of wedges in them from the pressed solution, i.e. creates a prestress. 3 il. with s

Description

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The invention relates to the construction of hydraulic structures, and more specifically to methods for implementing areas of pressure and free-flow tunnels of hydroelectric power plants and PSPs built in anisotropic rocks, and can be used in the construction of underground oil and gas storage facilities.

I The aim of the invention is to improve the efficiency of the lining. 3 by increasing the prestress of the rock around the tunnel in the direction of maximum modulus of rock deformation.

FIG. shows a tunnel, cross-section; Fig. 2 shows a grid of cement wells on a sweep of the tunnel, a section along the sub Kij in Fig. 3 is the distribution curve M Zduley of rock deformation along the rows on the grid in Fig. 2.

I Lining a tunnel 5 j built in a H3OTponHoJ4 rock 2, - includes supporting layer 3 and cementing wells 4. Breed 2 has anisotropy axes in the directions of maximum 4 and minimum of deformation moduli. A scan of the tunnel of FIG. 2 shows the distribution of wells 4 in rows 5–12, p | along the 13 axis of the 1 HJa tunnel 18 m long.

In rows 6 and 10, wells 4 are drilled; direction E fm a, „and

by fractures 14 of rock 1; In this case, in the boundaries of the boundary sections 15 (FIG. 3, where Sj is assumed to be constant, the well 4 is shifted in the transverse direction until it coincides with the crack plane 14. For this, the carrier layer 3 is concrete with an indication of drilling sites in it,

In rows 8 and 12, wells 4 are drilled in direction C with a max-dal step hell, y, and, in rows 5.7, wells 4 are drilled at an acute angle to the layering of rock 2 with step a — srednigmead a, "" And a.Engue are injected into wells 4 of the cement slurry1prokzvod by known technology - with preliminary zymivyv from the cracks of the rock natural filler grout clay, etc.) and at a pressure of injection of 2 times the internal exp. J. with a minimum of matching with the interlayer-1i

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Low water pressure in the tunnel.

The load in the rock from the pressure of the cement slurry in wells 4 along the various steps taken to locate them along the length of the tunnel forms the deformed state of rock 2 around the tunnel that occurs when the tunnel is loaded with internal water pressure, i.e. in the direction of EI, where the internal pressure in the tunnel itself closes the water filtration paths from the tunnel, wells 4 are located less frequently, and in the direction of the main water filtration path E, -, wells 4 are located more often. Thus, due to the marked location of the wells, their concentration in the E direction is achieved, which contributes to the breaking of the rock in this direction and its plugging in the broken state. At the same time, the alignment of wells 4 with interlayer cracks 14 causes a wedge-shaped opening of these cracks and the formation of wedges in them from the pressed-in solution, which causes the rocks to be normalized to the layers, i.e. creates a prestress.

Claims (1)

Invention Formula The method for performing tunnel lining in anisotropic rock, including concreting the base layer, drilling cement holes in the well, around the tunnel and forcing cement slurry in them, in order to increase the efficiency of the lining operation by increasing the prestress of the rock around the tunnel in the direction of the maximum modulus of rock deformation, the grouting wells are drilled with a variable pitch along the tunnel, with the wells with the minimum pitch being drilled in the direction of the maximum modulus rock deformation (boundary portion which combine well with interlayer cracked rock, and wells with maximum pitch drilled in the direction of the minimum value modulation rock deformation (). 0 five 0 0 to / t  .l f3 it t (ri. $. 5