JP2003176698A - Construction method for repairing tunnel structure, and tunnel structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To restore watertightness of a tunnel structure by discharging a repairing material from a repairing-material injection pipe, when the tunnel structure causes water leakage. <P>SOLUTION: In the repair of the tunnel structure 1 which is equipped with shotcrete 3 and lining concrete 4 and 6, the prepared repair-material injection pipe 2, which has a repairing-material discharge part 2e to be ruptured by pressure of injection of the repairing material, is pre-embedded in at least one of the inside of the shotcrete 3, the inside of the lining concrete 4 and 6, and a place between the shotcrete 3 and the lining concrete 4 and 6; the tunnel structure 1 is constructed; when a less watertight place 12 appears in the tunnel structure 1, the repairing material is injected into the injection pipe 2; the discharge part 2e is ruptured; the repairing material is discharged from the injection pipe 2; and the place 12 is repaired. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a repairing method for tunnel structures such as roads and railways, and more particularly to a repairing method for restoring the watertightness of tunnel structures.

[0002]

2. Description of the Related Art The tunnel structure shown in FIGS. 6 and 7 is known. FIG. 6 is a sectional view of the tunnel structure 31. FIG. 7 is a partially enlarged view of FIG.

Such a tunnel structure is constructed as follows. After excavating the ground 32, the sprayed concrete 33 is sprayed onto the surface of the ground 32 at an early stage. Then, the waterproof sheet 33 is attached, and the arch concrete 34, the side wall concrete 35, and the invert concrete 36 are placed,
The tunnel structure 31 is constructed.

[0004] In the tunnel structure 31, the groundwater from the natural ground is collected by the transverse water collection pipe 37, which is shielded by the waterproof sheet 33 and laid under the invert concrete 36, and the longitudinal water collection pipe 38, and drained to the outside of the tunnel. .

As described above, conventionally, the sprayed concrete 33, the arch concrete 64, and the side wall concrete 35 are used.
By interposing the waterproof sheet 33 between them, it is possible to prevent water such as groundwater from leaking to the surface of the tunnel lining.

In recent tunnel structures, the lining thickness of the lining concrete that constitutes arch concrete and side wall concrete is increasing due to the increase in the size of the tunnel cross section. A waterproofing method to be provided is also known.

[0007]

Since the waterproof sheet and the water blocking plate have low rigidity, the stress applied to the sprayed concrete is not directly transmitted to the lining concrete. Therefore, the shotcrete having a small thickness is cracked and cannot withstand the earth pressure.

In such a case, the earth pressure cannot be supported by the shotcrete, and only the lining concrete bears the earth pressure.

As described above, in the waterproof method using a waterproof sheet or the like between the sprayed concrete and the lining concrete,
In particular, in a tunnel structure with a large lining thickness in recent years, the amount of concrete used and the amount of excavated ground increase, which is uneconomical.

The object of the present invention is not only to provide an economical tunnel structure that can reduce the thickness of lining concrete, but also to release the repair material from the repair material injection pipe when the tunnel structure leaks water. , To restore the watertightness of the tunnel structure.

[0011]

According to the present invention, a repair material injection pipe is prepared for repairing a tunnel structure including shotcrete and lining concrete, and the repair material injection pipe is adjusted by the injection pressure of the repair material. A repair material discharge part that breaks is provided, and the repair material injection pipe is embedded in advance in at least one place in the sprayed concrete, in the lining concrete, and between the sprayed concrete and the lining concrete, and a tunnel is formed. When constructing a structure, when a part with poor watertightness occurs in the tunnel structure, inject a repair material into the repair material injection pipe, break the repair material discharge part, and remove the repair material from the repair material injection pipe. The present invention relates to a repairing method for a tunnel structure, which is characterized by discharging and repairing the portion having poor watertightness.

The present invention also provides a tunnel structure comprising shotcrete and lining concrete, the tunnel structure including a repair material injection pipe, wherein the repair material injection pipe is in the shotcrete, The repair material injection pipe is embedded in at least one place in the lining concrete and between the sprayed concrete and the lining concrete, and the repair material injection pipe has a repair material discharge portion that is broken by the injection pressure of the repair material. , When a portion with poor watertightness occurs in the tunnel structure, by injecting a repair material into the repair material injection pipe, the repair material discharge portion is broken, and the repair material discharge portion releases the repair material. The present invention relates to a tunnel structure characterized by repairing a portion having poor water tightness.

According to the present invention, a repair material injection pipe that breaks due to the injection pressure of the repair material is embedded in the concrete of the tunnel structure in advance, so that even if the tunnel structure leaks water, the leaked portion can be efficiently stopped. It is based on the knowledge.

In order to construct an economical tunnel structure, the present inventor omits the waterproof sheet between the shotcrete and the lining concrete, and uses the shotcrete as a structure to thin the lining concrete. Thought.

Further, the present inventor has studied in detail a construction method for repairing a leaked portion as a repair measure when a portion having poor watertightness occurs in such a tunnel structure.

As a result, the inventor of the present invention has previously embedded a repair material injection pipe in at least one place in the shotcrete of the tunnel structure, in the lining concrete and between the shotcrete and the lining concrete, and injecting such repair material. The present invention has been found out that by discharging the repair material from the pipe, it is possible to efficiently repair a portion of the tunnel structure having poor water tightness.

The repair material injection pipe according to the present invention is embedded in the concrete of the tunnel structure in advance, and the defective portion of the tunnel structure, in particular, the portion having poor water tightness or the water leakage portion is discharged from the repair material injection pipe. It is to be repaired with repair materials.

In the present invention, the lining concrete means a concrete layer provided on the shotcrete, and includes arch concrete, side wall concrete and the like.

Further, in the present invention, the location where the watertightness of the tunnel structure is inferior means a defect location which occurs after the construction of the tunnel structure, for example, a gap formed in a jointing portion of lining concrete, a junker, a crack or the like. Refers to the crack. Water such as groundwater and rainfall will leak out to such locations with poor water tightness.

According to the present invention, if the repair material injection pipe is embedded in the concrete of the tunnel structure in advance without using the waterproof sheet, the concrete of the tunnel structure will have a part with poor watertightness such as junkers or cracks. When a water leak occurs, the leak material can be efficiently stopped by discharging the repair material from the repair material injection pipe.

[0021]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described. (1) Tunnel Structure In the present invention, the tunnel structure includes shotcrete, lining concrete, and a repair material injection pipe.

The repair material injection pipe according to the present invention is embedded in advance in at least one place in the shotcrete, in the lined concrete and between the shotcrete and the lined concrete.

In the present invention, the shotcrete and lining concrete can be formed by splicing a plurality of concretes. For example, the lining concrete can be formed by splicing arch concrete or sidewall concrete.

In the case of such a tunnel structure, the repair material injection pipe according to the present invention can be embedded in a joint between a plurality of concretes.

In the present invention, the tunnel structure is
Even if a part with poor watertightness is generated, the repairing material is discharged from the repairing material injection pipe to repair a part with poor watertightness, for example, a leaked part and stop the water.

The tunnel structure repairing method and tunnel structure of the present invention can be applied to various tunnel structures. Examples of such tunnel structures include various tunnel structures such as roads and railways. Further, in such a tunnel structure, the size of the cross section, the material, the installation site, etc. are not particularly limited.

(2) Repair Material Injection Pipe The repair material injection pipe according to the present invention has a repair material discharge portion. The repair material discharging portion is a portion that is broken by injection of the repair material and the repair material is discharged. Such a repair material discharge part is capable of stably discharging a wide variety of repair materials and is extremely useful.

The repair material injection pipe according to the present invention is preferably one that allows the repair material to be easily injected over the entire length of the water leakage site at a relatively low pressure regardless of its viscosity or the like.

The repair material injection pipe has a tunnel structure.
When a water-tight part such as a jumper or a crack is formed and a water leak occurs, the repair material can be discharged to the part to efficiently repair the part, and the water can be stopped.

The repair material discharge part according to the present invention is preferably such that the repair material permeates the entire defective portion of the concrete of the tunnel structure.

In the present invention, a cutout portion can be provided as the repair material discharging portion. After the repair material injection pipe is embedded in the tunnel structure, the repair material is discharged from the cutout portion by the injection pressure of the repair material. Further, in the present invention, the repair material injection pipe may be provided with fine holes as a repair material discharge portion in advance.

The repair material discharge section is provided with a repair material injection pipe,
A concrete inflow prevention member such as a valve or a protective cover may be provided so that the cutout portions, the microscopic holes, and the like are not blocked by the concrete when embedded in concrete having a tunnel structure, such as lining concrete.

The concrete inflow preventing member is broken by the injection pressure of the repair material after the repair material injection pipe is embedded in the tunnel structure. If the concrete inflow prevention member breaks, the cutouts, fine holes, etc. are exposed from the breakage, and the repair material is discharged from the cutouts.

In the present invention, the repair material discharge portion may be a weak point portion. Such a weak point is a part which is first broken by the injection pressure of the repair material.

In the repair material injection pipe according to the present invention, it is possible to control the discharge direction of the repair material by arranging the repair material discharge portions such as the notches, the fine holes, and the weak points, so that the repair material can be injected more effectively. It will be possible.

The weak point portion according to the present invention can be formed by forming a thin portion on the side surface or a part of the length direction of the repair material injection pipe. Further, such a weak point portion can be formed by substituting a side surface or a part of the length direction of the repair material injection pipe with a material that is more easily broken than other portions.

In the present invention, a plurality of such weak points can be provided. When the repair material injection pipe is embedded between the shotcrete and the arch concrete, not only can the repair material be injected into the gap between the shot concrete and the arch concrete, but also the repair material should be injected into the dry shrinkage cracks that occur later. You can

In such a repair material injection pipe, the repair material is not discharged through the holes provided in advance, but by breaking the portion of the repair material injection pipe that will discharge the repair material, Release repair material for the first time.

In the present invention, the repair material injection pipe can control the discharge of the repair material by the injection pressure of the repair material. The injection pressure of the repair material causes the repair material injection pipe to break and the repair material to be discharged to the outside of the repair material injection pipe.

The repair material injection pipe according to the present invention can be used in various shapes such as a hose and a tube. The repair material injection pipe is not particularly limited in material and the like, and may have such strength and structure that it can be embedded in the lining concrete in advance and can inject and release the repair material.

(2-1) Injection Pipe Main Body The repair material injection pipe according to the present invention may include an injection pipe main body and a protective material around the injection pipe main body. As the injection pipe main body, the above-mentioned repair material injection pipe having a notch or a weak point can be used as it is.

In the present invention, the injection pipe main body is not particularly limited and can have various shapes, and can be produced by using various raw materials of rubber material and elastomer material.

The injection tube body of the present invention can be manufactured by the method described below. When a rubber-based polymer is used, a commonly used extruder or blade machine is used. Pre-molded solid rubber and sponge rubber at the same time, and made them UHF (Ultra High Frequency Vulcanizati
on) Vulcanization tank, HAV (Hot Air Vulcanization) vulcanization tank, PCM (P
article Curing Medium) Vulcanizing tank, LCM (Liquid Curing Me)
A generally used vulcanizing tank such as a vulcanizing tank may be used alone or in combination of two or more kinds to heat and cure the rubber portion to mold the rubber portion.

(2-2) Protective Material The protective material according to the present invention is arranged around the injection pipe body. Such a protective material can prevent damage to the injection pipe main body when the injection pipe main body is embedded in at least one place of the sprayed concrete, the lining concrete and the space between the sprayed concrete and the lining concrete.

Further, such a protective material can prevent lining concrete or the like from entering the inside of the injection pipe body. The protective material may cover the periphery of the injection pipe body.

The protective material for covering the injection pipe body may have a cutout portion. This cutout is
It will be the discharge part of the repair material. Further, such a protective material can have a thin weak point portion which is broken only by the injection pressure of the repair material. The weak point portion of the protective material can be provided at a position facing the cutout portion of the injection tube main body.

Regarding the material of the protective material according to the present invention,
There is no particular limitation. Examples of the material of the protective material include urethane rubber, chloroprene rubber, ethylene propylene rubber, styrene butadiene rubber, butadiene rubber, acrylonitrile butadiene rubber, epichlorohydrin rubber, acrylic rubber, fluororubber, silicone rubber and natural rubber. From a group consisting of a cross-linked rubber elastomer based on a selected single substance or a mixture of two or more kinds, and a thermoplastic elastomer such as polyethylene, polypropylene, polyvinyl chloride, urethane, styrene butadiene, and styrene isoprene. You can choose.

In the present invention, the protective material can be formed of an elastic body. When the injection pipe main body expands due to the injection pressure of the repair material, such a protective material contracts to allow the expansion of the injection pipe main body and enable the efficient release of the repair material.

For example, a protective material made of sponge rubber is
It is compressed by the injection pressure of the repair material, enabling efficient injection of the repair material.

In the protective material according to the present invention, the weak points can be formed of a material which is easily broken by the injection pressure of the repair material. The protective material may be made of sponge rubber, for example.

In the present invention, in order to make the weak points of the protective material easily broken by the injection pressure of the repair material, an injection pipe main body made of a solid elastomer can be used. The solid elastomer can be manufactured by using various rubber materials and raw materials of elastomer materials.

For example, such a solid elastomer is
At least one of natural rubber and synthetic rubber can be used, and these rubbers can be manufactured alone or in a mixture of two or more kinds.

As the synthetic rubber, styrene butadiene rubber, ethylene propylene rubber, chloroprene rubber, acrylonitrile butadiene rubber, butadiene rubber, epichlorohydrin rubber, acrylic rubber, fluorine rubber, silicone rubber, or an elastomer other than the above rubbers can be used. it can. These rubbers can be used alone or in combination of two or more.

Examples of the elastomer include polymers such as polyethylene, polypropylene, ethylene vinyl acetate, polyester, polyvinyl chloride, polyurethane, styrene butadiene block polymer and styrene isoprene block polymer.

The protective material according to the present invention may be made of a material which is impermeable to concrete used for lining concrete and the like, but permeable to repair material, for example, sponge rubber.

In such a repair material injection pipe, the repair material released from the cutout portion of the injection pipe main body or released by breaking the weak point portion of the injection pipe main body permeates the sponge which is the protective material by the pressure. Then, the repair material is discharged all around the repair material injection pipe.

The repair material discharged from the protective material reaches not only a relatively large gap such as a jumper, but also a minute gap such as a concrete splice portion or a crack. Moreover, such a repair material can evenly penetrate into the water leakage site at a low pressure, and can efficiently repair tunnel structure concrete such as lining concrete.

In the present invention, both the protective material and the injection pipe body are
There is no particular material limitation. Preferably, the protective material made of sponge rubber and the injection pipe main body made of solid elastomer are preferably selected from those having good compatibility, such as polymer polarity and polymer compatibility, which can sufficiently maintain their adhesiveness.

In the present invention, it is desirable that the sponge rubber as a protective material has an apparent specific gravity of 0.15 to 0.8.
If the apparent specific gravity is less than 0.15, the physical strength of the protective material is weak, and the material is excessively compressed and deformed by the pressure during concrete pouring, and the weak points of the protective material are less likely to break when the repair material is injected. On the other hand, when the apparent specific gravity exceeds 0.8, it becomes difficult to compress and deform due to the injection pressure, and the weak points of the protective material are hard to break.

According to the present invention, the hardness of the injection pipe main body and the hardness of the protective material can be adjusted so that the cutout portion of the injection pipe main body or the weak point of the protective material can be easily broken by the injection pressure of the repair material. .

For this purpose, it is preferable that the surface hardness of the injection pipe body (JIS-A type surface altimeter hardness).
Is 40 to 98. If the surface hardness is less than 40, the strength of the injection pipe main body may not be sufficient, and if the repair material enters the hollow part and internal pressure is applied to the pipe, the entire injection pipe main body will be greatly deformed even at low pressure or low stress. Therefore, the weak points of the protective material cannot be broken efficiently. On the other hand, when the surface hardness exceeds 98, the flexibility of the injection pipe main body becomes poor, the followability to a curved portion or the like is deteriorated, and the workability is significantly deteriorated.

(3) Repair Material In the present invention, various repair materials can be used as the repair material to be put into the repair material injection pipe. As such a repair material, a water stop material having high water tightness can be used.

A resin that cures at room temperature is used as the water blocking material. Examples of the resin that cures at room temperature include a two-component reactive polyurethane composed of a liquid A containing a polyol as a main component and a liquid B containing an isocyanate as a main component.

Examples of the polyol include ethylene glycol, propylene glycol, trimethylolprohan, glycerin, triethanolamine, diglycerin, etc., alone or in a mixture, and further alkylene oxide such as ethylene oxide or propylene oxide is added thereto. Examples include polymerized polyols, polyester polyols, polycarbonate polyols, polybutadiene polyols, and the like.

Examples of the isocyanate include polymethylene polyphenyl polyisocyanate, diphenylmethane diisocyanate, tolylene diisocyanate, xylylene diisocyanate, nylmethane diisocyanate, tolylene diisocyanate, xylylene diisocyanate, isophorone diisocyanate, hexamethylene diisocyanate, hydrogenated diphenylmethane diisocyanate. And the like, alone or in a mixture.

Further, in the present invention, a urethane prepolymer having an isocyanate group at a terminal can be used by previously reacting an isocyanate with a polyol.

In such a two-component reactive polyurethane, water or a low-boiling vaporizer is used as a foaming agent, if necessary, and other catalysts, flame retardants, foam-forming agents used in the production of known polyurethanes. Agents and the like can be used.

Further, in the present invention, as the repair material,
(Meth) acrylic acid salt and / or (meth) acrylic acid ester can be used.

Examples of the (meth) acrylic acid salt include:
Examples thereof include metal salts of (meth) acrylic acid, alkali metal salts, alkaline earth metal salts and amine salts.

Examples of the (meth) acrylic acid ester include ester compounds of (meth) acrylic acid and lower or higher alcohols, ester compounds of (meth) acrylic acid and polyoxyalkylene mono- or polyols, and the like.

The (meth) acrylic acid salt and / or (meth) acrylic acid ester according to the present invention can be used as an aqueous solution as usual. Moreover, in order to react these, a known polymerization catalyst, for example, a redox catalyst can be used.

In the repair material according to the present invention, in order to further increase the strength and further improve the water resistance, a polymerizable substance such as styrene is added to the (meth) acrylic acid salt and / or the (meth) acrylic acid ester. It is also possible to use them together or to mix an emulsion of a polymer obtained by previously polymerizing these.

In the present invention, the injection pressure of the repair material is not particularly limited. If an excessive injection pressure is applied to the arch concrete portion, the tunnel structure may be damaged. Therefore, the injection pressure is preferably ² to 5 kgf / cm ² (196.1).
33 to 490.3325 kPa, 1 kgf / cm ² 9
It is converted to 8.0665 kPa, and the same applies hereinafter).

The present invention will be described in detail below with reference to the drawings. FIG. 1 is a cross-sectional view showing an example tunnel structure according to the present invention. FIG. 2 is a cross-sectional view of an example repair material injection tube according to the present invention.

FIG. 3 is a view showing a state in which the repair material is injected.
It is a cross-sectional view of the repair material injection tube of. FIG. 4 is a perspective view of the repair material injection tube of FIG. 2 shown in a state where it is fastened with a fixing jig. FIG. 5 is a cross-sectional view of another repair material injection tube according to the present invention.

In the tunnel structure 1 of the example according to the present invention, the repair material injection tube 2 is arranged as shown in FIG. The repair material injection tube 2 has a structure shown in detail in FIG.

The repair material injection tube 2 is embedded in the construction joint 5 of the sprayed concrete 3 and the arch concrete 4 and the joint 7 of the arch concrete 4 and the side wall concrete 6.

In the tunnel structure 1, when a defective portion such as a crack 8 occurs at the joint 7 between the arch concrete 4 and the arch concrete 4 and the side wall concrete 6, the repair material injection tube 2 is repaired as shown in FIG. The defective portion is repaired by injecting the material 9 and releasing the repair material 9.

The order of constructing the tunnel structure and then repairing the tunnel structure will be described with reference to FIGS.
The sprayed concrete 3 is sprayed on the surface of the excavated natural ground 10. After that, before placing the arch concrete 4, the repair material injection pipes 2 are arranged at regular intervals in the tunnel longitudinal direction on the sprayed concrete 3 of the arch portion.

As shown in FIG. 4, the repair material injection tube 2 can be embedded in the arch concrete 4 by previously fixing it with the fastener 11 and the concrete screw 12.

After placing the arch concrete 4, as shown in FIG.
As shown in FIG. 4, the repair material injection tube 2 is connected to the side wall concrete 6 below the arch concrete 4 and the connecting surface 4 is in contact therewith.
Place in a. At this time, similarly to the above, as shown in FIG. 4, the repair material injection tube 2 is fixed with the fastener 11 and the concrete screw 12, and the side wall concrete 6 is poured.

The repair material injection tube 2 has a length of 5 to 10 m.
Each has its own inlet and outlet, at least 50c
m is overlapped.

After the construction of the lining concretes 4 and 6 is completed, if water leaks from the splicing section, the repair material 8 can be injected to stop the leaked portion. Also, when contraction cracks etc. occur in the arch concrete 4 and water leakage occurs,
Similarly, the repair material 9 can be injected to stop the cracks.

When repairing a crack with the repair material injection tube 2, the repair material 5 is injected from the repair material injection tube 2 closest to the crack.

More specifically, the structure of the repair material injection tube 2 has a hollow portion 2a as shown in FIG. 2, and a compression protection made of sponge rubber around the injection tube main body 2b made of solid elastomer. The material 2c is arranged.
The injection pipe main body 2b has a cutout portion 2d, and the protective material 2c is provided at a position facing the cutout portion 2d at a thin portion 2
have e.

A water stop plate 13 is arranged on the outside of the repair material injection tube 2 for the purpose of a grout stopper so that the repair material 9 uniformly penetrates into the joint 7 between the arch concrete 4 and the side wall concrete.

When the repair material injection tube 2 is arranged at the joint portion, as shown in FIG. 2, the repair material 9 is provided on the joint surface 4a side.
Since it is desirable to form the layer of, the thin portion 2e of the protective material 2b is provided at least at one location on the side of the tapping surface 4a.

The repair material injection tube 2 has a maximum of 0.5 kgf / cm ² (4) when it is embedded in concrete.
It is designed to shrink by about 10% under the stress of 9.03325 kPa).

In the repair material injection tube 2, the repair material 9 is injected into the hollow portion 2a. When the injection pressure of the repair material 9 is increased,
Due to the internal pressure, the injection pipe body 2b is protected by a soft outer protective material 2
Expand while compressing c.

When the injection pressure of the repair material 9 is further increased, FIG.
As shown in FIG. 5, the thin portion 2e is broken, and the repair material 9 flows out to the outside of the repair material injection tube 2 to the connecting surface 4a side.

Subsequently, the injection pressure of the repair material 9 is set to a maximum of 20k.
Raising to gf / cm ² (1.963133 MPa),
The protective material 2c is compressed to about 70% and forms a layer of the repair material 9 between the repair material injection tube 2 and the joint surface 4a.

The repair material injection tube 2 is not preliminarily provided with fine holes, and even if it is left as it is, the hollow portion 2a will not be filled with concrete at the time of pouring, and the hollow portion 2a will not be blocked. .

Further, in the repair material injection tube 2, the repair material 9 such as a water blocking material is not discharged through the fine holes provided in advance, but the thin portion 2 provided in the repair material injection tube 2
The repair material 9 can be released only by breaking e.

In the repair material injection tube 2, the release of the repair material 9 is controlled by the injection pressure of the repair material 9, and a layer of the repair material 9 is formed over the entire length of the outside of the repair material injection tube 2 to form a fine layer. The repair material 9 can be stably permeated into the gap between the striking surfaces 4a.

In the repair material injection tube 22 shown in FIG. 5, a plurality of cutout portions 22c are provided in the injection tube main body 22b, and a plurality of thin portions 22e are provided in the protective material 22d.

The repair material injection tube 22 is fixed to the shotcrete 3 and is embedded in the arch concrete 4 to efficiently release the repair material, and the cracks 13 and cracks generated in the gaps in the joint 5 and the arch concrete 4 are released. The defective part of can be efficiently repaired and water can be stopped.

Specifically, the repair material injection tube 22 is composed of an injection tube main body 22a made of solid elastomer and having a relatively high hardness, and a protective material 22d made of sponge rubber and having a relatively low hardness.

Therefore, while the cutout portion 22c of the injection pipe main body 22b is not easily deformed, the thin portion 22e of the protective material 22d is easily deformed. In this type of repair material injection pipe, the injection pressure of the repair material is concentrated on the thin portion of the protective material, and the weak points can be effectively broken.

Further, in this type of repair material injection pipe, the released repair material can form a layer of the repair material over the entire length around the repair material injection pipe. Therefore, with this type of repair material injection pipe, the injection pressure of the repair material can be stabilized at a relatively low pressure, and the repair material can be directly penetrated into the cracks or through the gap between the sprayed concrete and arch concrete. The repair material can penetrate into the crack.

[0100]

According to the present invention, if the repair material injection pipe is embedded in the concrete of the tunnel structure in advance without using a waterproof sheet, the concrete of the tunnel structure will be inferior in watertightness such as junkers or cracks. When a water leak occurs and water leakage occurs, the repair material can be discharged from the repair material injection pipe to efficiently stop the water at the leak location.

[Brief description of drawings]

FIG. 1 is a cross-sectional view showing an example of a tunnel structure according to the present invention.

FIG. 2 is a cross-sectional view of an example repair material injection tube according to the present invention.

3 is a cross-sectional view of the repair material injection tube of FIG. 2 with a repair material injected.

FIG. 4 is a perspective view of the repair material injection tube of FIG. 2 fixed with a fixing jig.

FIG. 5 is a cross-sectional view of another repair material injection tube according to the present invention.

FIG. 6 is a cross-sectional view of a conventional tunnel structure.

7 is a partially enlarged view of FIG.

[Explanation of symbols]

1,31 tunnel structure 2 Repair material injection tube 2a, 22a hollow part 2b, 22b Injection tube body 2c, 22c protective material 2d, 22d Notch 2e, 22e Thin part 3,33 Shotcrete 4,34 Arch concrete 4a Joint surface 5,7th joint 6,35 Sidewall concrete 9 Repair materials 10,32 natural ground 11 fasteners 12 concrete screws 13 Water stop plate 33 tarpaulin 36 Inverted concrete 37 Transverse water collection pipe 38 Vertical direction water collection pipe

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Fumio Kadota             Hayakawago, 5351 Minamioka, Minooshima-cho, Fukuyama City, Hiroshima Prefecture             Mu Co., Ltd. (72) Inventor Shuichi Suzuki             Hayakawago, 5351 Minamioka, Minooshima-cho, Fukuyama City, Hiroshima Prefecture             Mu Co., Ltd. F-term (reference) 2D055 AA01 AA02 BA05 CA02 KB09                       KB11 LA02 LA16

Claims (4)

[Claims] 1. A repair material injection pipe is prepared for repairing a tunnel structure including sprayed concrete and lining concrete, and the repair material injection pipe has a repair material discharge portion which is broken by injection pressure of the repair material. The repair material injection pipe is embedded in the sprayed concrete, the lining concrete, and at least one place between the sprayed concrete and the lining concrete in advance to construct a tunnel structure. When a location with poor watertightness occurs, the repairing material is injected into the repairing material injection pipe, the repairing material discharge part is broken, and the repairing material is discharged from the repairing material injection pipe, resulting in poor watertightness. A repair method for a tunnel structure, which is characterized by repairing parts. 2. The repair method for a tunnel structure according to claim 1, wherein the repair material injection pipe is embedded between the sprayed concrete and the lining concrete. 3. A plurality of the repair material injection pipes are embedded in the tunnel structure, and the repair material is injected into the repair material injection pipe near the location where the watertightness is inferior or the location where the watertightness is inferior. The method for repairing a tunnel structure according to claim 1 or 2, wherein: 4. A tunnel structure comprising shotcrete and lining concrete, wherein the tunnel structure comprises a repair material injection pipe, and the repair material injection pipe is in the shotcrete and the lining concrete. Embedded in at least one place inside and between the sprayed concrete and the lining concrete,
The repair material injection pipe has a repair material discharge portion that is broken by the injection pressure of the repair material, and when a portion with poor water tightness occurs in the tunnel structure, the repair material is injected into the repair material injection pipe. As a result, the repair material discharge portion is broken, the repair material is discharged from the repair material discharge portion, and the portion having poor water tightness is repaired.