JPH0375005B2 - - Google Patents

Description

[Detailed description of the invention] Industrial applications The present invention relates to a tunnel lining method.

Conventional technology In the conventional tunnel lining method, fiber concrete is used as the lining concrete placed in the space between the tunnel hole and the formwork.
Fiber concrete is made by dispersing various types of short fibers (fibers) into concrete, and is known to be effective in improving tensile strength, bending strength, cracking resistance, elongation ability, toughness, etc. There is.

By the way, various types of fibers are used in this fiber concrete, but the properties of fiber concrete vary significantly depending on the material and type, and the higher the longitudinal elastic modulus and strength, the more effective it is at restraining cracks. Steel fibers are often used because they have a large effect on improving various properties.

Problems to be Solved by the Invention However, with such steel fiber concrete, there is a problem in that when the steel fibers are exposed on the surface of the concrete lining after hardening, they corrode and cause deterioration of the concrete lining. .

Therefore, the purpose of this invention is to solve the problems of the conventional tunnel lining method as described above, to prevent the steel fibers in the lining concrete used in this method from corroding, and to improve the lining concrete. An object of the present invention is to provide a tunnel lining construction method that can prevent deterioration of tunnel lining.

Means for Solving the Problems In order to achieve the above-mentioned objects, the present invention provides a sheet that is non-porous and corrosion resistant on the concrete casting side of the formwork and has a large number of protrusions on the surface. The back surface of the sheet is releasably adhered with a plurality of dots of adhesive, such a formwork is installed inside the tunnel hole, and steel fiber concrete is poured into the space between the inner wall of the tunnel hole and the sheet. The method is characterized in that after the sheet is attached to the concrete by curing and curing, the formwork is peeled off from the sheet and demolded.

Embodiment In the embodiment of the present invention shown in the drawings, reference numeral 1 denotes a formwork, and the formwork 1 is provided with impermeability and corrosion resistance on the concrete pouring surface side before the lining method is performed. The back surface of a sheet 2 having a large number of protrusions 3 on its surface is releasably adhered with a plurality of dotted adhesives 4, and such a formwork 1 is inserted into a tunnel hole excavated in a ground 5. A large number of steel fiber concrete 8 are placed adjacent to each other with a space formed between them and the inner wall thereof, and steel fiber concrete 8 is placed in this space.
The formwork 1 is wrapped around the numerous protrusions 3 of the sheet 2 and hardened by being embedded in the surface of the sheet 2. After the sheet 2 has adhered to the steel fiber concrete 8 in this way, the formwork 1 is Peel it off and demold it. This sheet 2 is preferably a soft polyvinyl chloride sheet, for example.

When constructing the above-mentioned lining method, the formwork 1 is assembled in a ring shape inside the tail part 6 of the shielding machine, as shown in FIGS. Along with this, the wife frame ring 7
Steel fiber concrete 8 is supplied to the space between the formwork 1 and the inner wall of the tunnel hole from a supply port (not shown) provided in the tunnel hole, and is poured. Note that 9 indicates a gasket and 10 indicates a pressure jack.

The surface of the lining concrete made of steel fiber concrete 8 formed in this way is covered with a non-porous and corrosion-resistant sheet and does not come into contact with air, so the surface of the steel fiber concrete 8 The steel will not corrode and deteriorate the lining concrete.

Effects of the Invention The present invention is as described above, and has non-porous and corrosion resistant properties on the concrete casting side of the formwork, and a plurality of dotted adhesives on the back side of a sheet having a large number of protrusions on the surface. The formwork is installed in the tunnel hole, and steel fiber concrete is poured into the space between the inner wall of the tunnel hole and the sheet and hardened. After adhering to the concrete, the formwork is peeled off from the sheet and demolded, so that the surface of the completed lining concrete is covered with a sheet that is non-porous and corrosion-resistant. Since it does not come into contact with air, the steel in steel fiber concrete will not corrode and deteriorate the lining concrete.
When constructing such concrete lining,
Since the sheet is removably adhered to the concrete pouring side of the formwork using multiple dots of adhesive,
The sheet and formwork can be handled as one unit, so there is no need to handle them separately, which not only simplifies the work of assembling the formwork, but also makes it easier to separate the formwork from the sheet after construction is complete. Furthermore, since there are many protrusions on the surface of the sheet, the sheet firmly adheres to the steel fiber concrete.
This has the effect that the sheet will not peel off from the steel fiber concrete during and after demolding the formwork.

[Brief explanation of drawings]

Fig. 1 is a slope view of the formwork used to carry out the present invention, Fig. 2 is a longitudinal sectional front view of a portion of a tunnel showing the state of placing steel fiber concrete in this invention, and Fig. 3 is a It is a longitudinal side view same as the above. 1...Formwork, 2...Sheet, 3...Protrusion, 4...
...Adhesive, 8...Steel fiber concrete.

Claims (1)

[Claims] 1. The back side of a sheet that is non-porous and corrosion resistant and has many protrusions on the surface is releasably adhered to the concrete pouring side of the formwork using a plurality of dots of adhesive. A formwork is installed in the tunnel hole, and steel fiber concrete is poured into the space between the inner wall of the tunnel hole and the sheet, and the sheet is attached to the concrete by hardening, and then the formwork is attached to the concrete. A tunnel lining method that is characterized by peeling off the sheet and removing the mold.