JPH04161699A - Execution of coating tunnel with concrete tunnel - Google Patents

Abstract

PURPOSE:To improve water-tightness by laying a plastic sheet formed in the dotty manner with a plurality of bottomed basin-like projections on a primary coating surface and placing concrete thereon to fit the projections of the sheet to the primary coating surface. CONSTITUTION:A plastic sheet 11 is provided in the dotty manner with a plurality of bottomed basin-like projections 2. A gap between the sides 21 of the projection 2 is formed thinner than the thickness of the sheet 11 and the depth of the bottom 22 is formed thicker than the gap and thinner than the sheet 11. The next sheet 11 is laid on the primary coating 3 for a tunnel and secondary coating concrete 4 is placed thereon to fit discrepancies 30 or the like between the primary coating surfaces 3, so that the water-tightness and adhesive property of the coating can be improved.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a method for constructing a concrete lining for tunnels, and in particular to a segment applied as a primary lining to an excavated surface of a tunnel, or to an E CL (E xjruded concrete lining).
A hollow convex part that protrudes toward the Suita construction side is formed on the primary lining concrete applied to the tunnel excavation surface using the direct cast concrete lining method (also known as the cast-in-place concrete lining method or the cast-in-place concrete lining method). This paper relates to a concrete lining construction method for tunnels in which the concrete is lined with the interposition of a large number of scattered plastic sheets.

When lining the lining surface of the tunnel with concrete using a large number of hollow convex plastic sheets (hereinafter, this type of concrete lining method is used as a hollow convex sheet lined type concrete lining). ) is advantageous because it allows the tunnel to be lined with concrete with a drainage space reliably formed at the back.

On the other hand, since the convex part of the sheet is hollow or has a cup-shaped cross section, it is rigid in shape, so if the primary lining surface of the tunnel is not the same surface with no steps at the lining joint, there will be no overlap with the next layer surface. The hollow convex portion of the stepped portion of the sheet is in a state floating above the primary lining surface. - When the hollow convex part of the sheet rises above the surface of the next layer, the concrete filled in the hollow by the concrete pump is not crimped to the primary lining surface with the hollow convex part interposed, and the concrete lining is Sufficient strength and water tightness required for the next lining cannot be secured. Furthermore, as is well known to those skilled in the art, it is extremely difficult to construct the tunnels on the same level without any differences in level.

Conventional technology Conventionally, in the hollow convex sheet lining type concrete lining method, concrete is poured onto each hollow convex portion of the sheet under pouring by a concrete pump, and under the intervening
No method has been developed for filling the hollow convex portion so that it is crimped onto the next layer construction surface, and the actual situation is that the usefulness of this type of construction method is not fully utilized.

Incidentally, as a hollow convex sheet lining type concrete lining method, the method of the invention of Japanese Patent Publication No. 61-54919 has already been proposed. There is no mention of modifying the part so that it fits well and touches the level difference in the primary lining surface.

That is, in this conventional proposal, during pouring by a concrete pump, concrete is pressed onto the next layer construction surface for each hollow convex part of the sheet with the interposition of the hollow convex part.
There is no guarantee that the space within the convex portion will be filled.

Problems to be Solved by the Invention The problems to be solved by the invention are the aforementioned problems of the prior art.

That is, an object of the present invention is to fully utilize the usefulness of the hollow convex sheet lining type concrete lining method by placing concrete on each hollow convex portion of a sheet by placing concrete with a concrete pump, and applying concrete to each hollow convex portion of the sheet through the intervening hollow convex portion. The purpose is to fill the inner space of the convex portion in a manner that fits well even on a primary lining surface with a step.

Means for Solving the Problems In order to achieve the above-mentioned objects, the present invention provides the following as a target for constructing a hollow convex groove lining type concrete lining.
It is specified as a segment as a primary lining applied to the tunnel excavation surface, or as a primary lining concrete applied by the ECL method, and as a plastic sheet with hollow convex parts protruding in large numbers and scattered on a predetermined side. , it is characterized by a combination of a specific configuration in which the rising portion of the hollow convex portion is thinner than the non-convex portion, and the top plate of the convex portion is thicker than the rising portion of the convex portion and thinner than the non-convex portion.

By adopting this configuration, when the above-mentioned plastic sheet with hollow parts is placed on the above-mentioned and next-layer construction surfaces of the tunnel and concrete is poured, the non-convex parts of the sheet and the rising part of the convex part that is thinner than the top plate of the convex part are covered with concrete. The top plate of the convex part, which is thinner than the non-convex part but thicker than the rising part of the convex part, functions like a spring due to the load from the pouring of the concrete, and adapts well to the level difference in the next layer surface and the cross-sectional shape of the tunnel, that is, the radius. Let me press it against this.

Thus, by pouring with a concrete pump, concrete is poured into each hollow convex part of the sheet under the intervening hollow convex part.
The interior space of the convex portion is filled in a manner that fits well even on the primary lining surface with steps. Therefore, in the hollow convex sheet lining type concrete lining method, the adhesion of the secondary lining concrete to the surface of the next layer is improved, and the water tightness is improved.

Since the method of the present invention achieves the above-mentioned results, it is particularly suitable for constructing concrete linings for tunnels that require higher water tightness than mountain tunnels, such as deep tunnels such as submarine tunnels, and high water pressure tunnels.

EXAMPLES Reference will now be made to the accompanying drawings showing example embodiments of the invention.
The present invention will be explained.

In the figure, reference numeral (1) is the plastic sheet used in the present invention, and the plastic sheet (1) has many hollow convex portions (2) that protrude toward one side and are formed in a scattered manner. (2) The thickness of the rising part (21) is the non-convex part (1
1) It is thinner and the convex top plate (22) is thinner than the convex rising part (2).
1) is thicker than the non-convex portion (11) and thinner than the non-convex portion (11).

The above-mentioned plastic sheet (1) with hollow convex portions (2) is attached to the excavated surface of the tunnel, for example, to segments assembled at the invert section, or to the primary lining (3) made of primary lining concrete constructed by the ECLT method. Part (2)
The concrete (4) is placed on the -Suita construction (3) side with the sheet (1) interposed, and the concrete (4) is poured onto the -Suita construction (3) using a concrete pump.

Then, due to the load from concrete pouring, sheet (1)
The rising part (21) of each hollow convex part (2), the non-convex part (1
1) and the convex top plate (22), the convex rising portion (21) functions like a spring, and the convex top plate (22) functions as a spring.
22) is pressed toward the tunnel ground side, that is, the -Suita construction (3) side.

Therefore, the top plate (22) of each hollow convex portion (2) of the sheet (1)
) fits well with the step (30) on the -Suita construction (3) surface and with the radius of the cross-sectional shape of the tunnel, -
It is crimped onto the Suita construction (3) surface.

In this way, by placing the concrete with a concrete pump, the concrete is applied to each hollow convex part (2) of the sheet (1), and it is well adapted to the primary lining surface with a step, with the help of the hollow convex part (2). In this manner, the inner cavity (2a) of the convex portion can be filled.

Although the above-described embodiments are concrete lining for the inverted part of the tunnel, the method of the present invention is not limited to this, and may also include concrete lining for the arch and side parts. Of course, in the case of concrete lining of the arch and side parts,
It goes without saying that results similar to those described above can be obtained.

Effects of the Invention As described above, according to the present invention, even if there is a level difference in the next layer construction surface, concrete is poured onto each hollow convex part of the sheet by pouring with a concrete pump, and the - The interior space of the convex portion is filled in a manner that blends well with the surface of the next layer. Therefore, in the hollow convex sheet lining type concrete lining method, the adhesion of the secondary lining concrete to the next layer construction surface is improved,
Water tightness is improved.

[Brief explanation of the drawing]

Figure 1 is a perspective view showing an example of a plastic sheet used in the construction method of the present invention, Figure 2 is an enlarged cross-sectional view of a hollow convex portion of the sheet in Figure 1, and Figure 3 is a cross-section showing an example of the construction method of the present invention. FIG. 4 is a sectional view showing a stepped portion of the primary lining surface. (1)...Plastic sheet (2)...Hollow convex part (2a)...Inner convex part (3)...-Suita Engineering (4)...Concrete (11)...Non Convex portion (21)...Rising portion of convex portion (22)...Top plate of convex portion (and above) Fig. 1 Fig. 2 Fig. 3 Fig. 4 Fig. 4

Claims (2)

[Claims] (1) A construction method in which a segment is applied as a primary lining to the excavated surface of a tunnel, and then a number of hollow convex portions protruding toward the segment are interposed with plastic sheets, which are scattered therein, and then covered with concrete. The plastic sheet is characterized in that the raised portions of the hollow convex portions are thinner than the non-convex portions, and the top plate of the convex portions is thicker than the raised portions of the convex portions and thinner than the non-convex portions. Concrete lining construction method for tunnels. (2) The primary lining concrete is applied to the excavated surface of the tunnel using the ECL method, and is lined with concrete under the interposition of plastic sheets, which are dotted with many hollow protrusions that protrude toward the concrete side. The method is characterized in that the plastic sheet is such that the raised portions of the hollow convex portions are thinner than the non-convex portions, and the top plate of the convex portions is thicker than the raised portions of the convex portions and thinner than the non-convex portions. Concrete lining construction method for tunnels.