JP2018091011A - Air vent/water cut-off device for tunnel and tunnel construction method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air vent/water cut-off device which can easily suck out the air between waterproof sheets and back-filling materials of a tunnel, and which can simply and reliably do cut-off of water.SOLUTION: Waterproof sheets 5 are stretched along a primary lining 3 of a tunnel 1. An air vent member 11 of an air vent/water cut-off device 10 is provided on impermeable sheet materials 5a of the waterproof sheet 5. A space between the impermeable sheet materials 5a and the air vent member 11 is liquid-tightly sealed by sealing means 30. An air vent passage 12a penetrating the impermeable sheet material 5a is formed in the air vent member 11. By placing a secondary lining 6, the air between the impermeable sheet material 5a and a water permeable sheet material 5b is discharged from the air vent passage 12a. Thereafter, a closing member 20 is attached to the air vent member 11, and the air vent passage 12a is liquid-tightly closed.SELECTED DRAWING: Figure 6

Description

  The present invention relates to a tunnel air vent / water stop device and a tunnel construction method, and in particular, a waterproof sheet is stretched along the inner periphery of the primary lining, and a backfill material is provided between the primary lining and the waterproof sheet. The present invention relates to an air bleed / water stop device suitable for a so-called back smooth tunnel lining method to be filled, and a tunnel construction method using the device.

  As a general mountain tunnel construction method, there is a NATM (New Austrian tunneling Method) method (see Patent Document 1). The construction method is performed according to the following procedure. First, a natural ground is excavated and a primary lining is provided on the excavated surface. A waterproof sheet is attached to the inner periphery of the primary lining. After that, a secondary lining is placed.

  The waterproof sheet has a laminated structure of a water-impermeable sheet material such as an EVA sheet and a water-permeable sheet material such as a nonwoven fabric. A permeable sheet material is directed to the primary lining. Impervious sheet material is directed to the secondary lining. The impermeable sheet material prevents spring water from the natural ground from flowing into the secondary lining side.

  Patent Document 2 discloses a so-called “back smooth tunnel lining method” as an improved tunnel method. In this method, a waterproof sheet is put on a tunnel-shaped formwork after the primary lining work. Then, a back-filling material such as mortar is filled between the primary lining and the waterproof sheet. A part of the backfill material is impregnated into a water-permeable sheet material made of nonwoven fabric of a waterproof sheet and solidifies. Thereby, the backfill material and the waterproof sheet are fixed. After that, a secondary lining is placed. According to the construction method, the joint surface between the backfill material and the waterproof sheet can be smoothed. Thereby, even if the waterproof sheet is pressed against the backfill material by the pressure at the time of placing the secondary lining, it can be prevented from being broken.

  On the other hand, air is easily trapped between the water-permeable sheet material impregnated with the backfill material and the water-impermeable sheet material. In particular, the water-permeable sheet material is easily confined between the palm joint and the water-permeable sheet material. In this state, when the secondary lining is driven from the bottom side of the tunnel toward the top, the air layer on the tunnel bottom side is crushed and the air there is pushed up. For this reason, a large air pocket is formed between the water-impermeable sheet material and the water-permeable sheet material at the top of the tunnel.

  Conventionally, as a countermeasure, a small window near the top of the secondary lining casting formwork (centre) is opened, a body is inserted, a hole is formed in the water-impermeable sheet material, and the accumulated air is removed. Thereafter, the hole is closed with a sheet piece made of the same material as the water-impermeable sheet material. The periphery of the sheet piece is heated and melted with hot air or the like to join the impermeable sheet material.

Japanese Patent Laid-Open No. 01-111999 Japanese Patent No. 4108460

It is not easy to remove the air reservoir in a narrow work space at the top of the tunnel and close the hole with a sheet piece. In particular, the hole closing operation is complicated and construction failure tends to occur. If there is a construction failure, there is a risk of spring water leaking from the defective part to the secondary lining side.
In view of such circumstances, the present invention can easily remove the air between the water-permeable sheet material impregnated with the backfill material and the water-impermeable sheet material during tunnel construction by the back smooth tunnel lining method or the like. An object of the present invention is to provide an air vent / water stop device and method capable of reliably stopping water.

In order to solve the above problems, the device of the present invention is a primary sheet in a waterproof sheet that is stretched along the inner periphery of a primary lining of a tunnel and filled with a backfill material between the primary lining and the primary lining. An air vent / water stop device that vents air from between the permeable sheet material on the lining side and the impermeable sheet material on the secondary lining side, and stops water,
An air vent member that penetrates the water-impermeable sheet material and has an air vent member provided in the water-impermeable sheet material;
Sealing means for liquid-tightly sealing between the water-impermeable sheet material and the air vent member; a closing member that can be attached to the air vent member so as to liquid-tightly seal the air vent path;
It is provided with.

  By providing the air vent / water stop device in the impermeable sheet material, the air between the impermeable sheet material and the water permeable sheet material can be extracted through the air vent path at the time of placing the secondary lining. Thereafter, the closing member is attached to the air vent member to close the air vent path. Thereby, it is possible to prevent the spring water from leaking to the secondary lining side through the air vent path.

The air vent member has a cylindrical shape in which a thread portion is formed on the peripheral surface,
It is preferable that the closing member is a lid that is screwed onto the screw portion from the secondary lining side.
The lid can be easily mounted by screwing it into the cylinder portion from the secondary lining side, and the air vent path can be easily stopped.

A hole is formed in the water-impermeable sheet material,
The air vent member is passed through the hole portion, and the inner space of the cylindrical portion constituting the air vent path, and a pair of annular members protruding from the outer peripheral portion of the cylindrical portion and facing the axial direction of the cylindrical portion It is preferable that a peripheral edge portion of the hole portion in the water-impermeable sheet material is sandwiched between the pair of flanges.
The air vent member can be firmly attached to the water-impermeable sheet material by locking the flange to the peripheral edge of the hole of the water-impermeable sheet material.

Preferably, the sealing means includes an annular rubber seal member or a hot melt material provided between one of the pair of flanges and a peripheral edge portion of the hole portion in the water-impermeable sheet material.
Thereby, it can seal between the peripheral part of the hole part of a water-impermeable sheet material, and a cylinder part.

The water-impermeable sheet material has a water-impermeable sheet main body in which a mounting hole portion having a diameter larger than that of the air vent member is formed. A portion is closed in a liquid-tight manner, the air release member is provided in the closing sheet material, and the space between the closing sheet material and the air release member is liquid-tightly sealed by the sealing means. preferable.
According to this structure, the air vent / water stop device can be easily retrofitted to a waterproof sheet that has been manufactured or carried into a tunnel construction site. For example, an attachment hole is formed in the water-impermeable sheet body at a tunnel construction site or the like. The air vent member is provided with a closing sheet material. The mounting hole is liquid-tightly closed by this closing sheet material. Thereby, the air vent member can be easily installed on the waterproof sheet even at a tunnel construction site or the like.

The tunnel construction method according to the present invention provides a waterproof sheet including a water-impermeable sheet material provided with an air vent member having an air vent path, and a water-permeable sheet material laminated on the water-impermeable sheet material. The sheet material is directed to the opposite side of the primary lining of the tunnel, and the water-permeable sheet material is directed to the primary lining, and the waterproof sheet is stretched along the inner periphery of the primary lining,
Backfilling material is filled between the primary lining and the waterproof sheet,
With the air vent path open, a secondary lining is placed on the inner peripheral side of the waterproof sheet,
A closing member is attached to the air vent member to close the air vent path in a liquid-tight manner at the final stage of the secondary lining placement process.
According to the construction method, by providing an air vent member on the water-impermeable sheet material, the air between the water-impermeable sheet material and the water-permeable sheet material can be extracted through the air vent path when placing the secondary lining. it can. Then, by attaching the closing member to the air vent member at the final stage of the secondary lining placing process, the air vent member can be embedded in the secondary lining in a state where the air vent path is closed. Thereby, it is possible to prevent the spring water from leaking to the secondary lining side through the air vent path.

  ADVANTAGE OF THE INVENTION According to this invention, the air between the water-permeable sheet material which the backfill material in the waterproof sheet impregnated and the water-impermeable sheet material can be easily extracted at the time of construction of a tunnel. Thereafter, water can be reliably stopped.

Fig.1 (a) is front sectional drawing which shows the tunnel provided with the air vent and water stop apparatus which concerns on 1st Embodiment of this invention in the state just before the final stage of the placement process of a secondary lining. FIG.1 (b) is front sectional drawing which shows the said tunnel in the state after the completion of placement of secondary lining. FIG. 2 is a sectional view of the air vent / water stop device. FIG. 3 is a perspective view showing a plurality of waterproof sheet impervious sheet materials attached with the air vent / water stop device in a state of being stretched on the tunnel. FIG. 4 is a side cross-sectional view showing the top of the tunnel and the vicinity of the seam of the waterproof sheet in a state of a backfilling material filling step. FIG. 5 is a side sectional view taken along line VV in FIG. FIG. 6 is a side cross-sectional view showing the top portion of the tunnel and the vicinity of the joint of the waterproof sheet in the final stage of the secondary lining placement process. FIG. 7 shows a second embodiment of the present invention, and FIG. 7 (a) is an exploded sectional view corresponding to the state before the air vent / water stop device is attached to the water-impermeable sheet body. FIG. 4B is a cross-sectional view of the air vent / water stop device attached to the water-impermeable sheet body. FIG. 8 is a cross-sectional view showing a state in which the air vent / water stop device of the second embodiment is subjected to a sealing test.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
<First Embodiment>
As shown in FIG. 1 (b), a natural ground 2 is excavated to form a tunnel 1. The tunnel 1 includes a primary lining 3, a backfill material 4, a waterproof sheet 5, and a secondary lining 6. The sprayed concrete of the primary lining 3 is sprayed on the natural mountain inner wall 2a. A waterproof sheet 5 is stretched along the primary lining 3, and a back-filling material 4 such as mortar is filled between the primary lining 3 and the waterproof sheet 5. Further, the secondary lining 6 is constructed, so that the waterproof sheet 5 is sandwiched between the backfill material 4 and the secondary lining 6.

  As shown in FIG. 6, the waterproof sheet 5 has a laminated sheet structure of a water-impermeable sheet material 5a and a water-permeable sheet material 5b. The water-impermeable sheet material 5a is directed to the secondary lining 6 side (lower side in the figure), and the water-permeable sheet material 5b is directed to the backfilling material 4 side and thus to the primary lining 3 side (upper side in the figure). ing.

  The impervious sheet material 5 a has high water impermeability and has a waterproof function for preventing spring water from the natural ground 2 from flowing into the tunnel 1. Examples of the material of the water-impermeable sheet material 5a include thermoplastic resins such as ethylene / vinyl acetate copolymer resin (EVA), polyolefin resin, and polyvinyl chloride resin. Examples of the polyolefin resin include polyethylene (PE) and polypropylene (PP). Preferably, the material of the water-impermeable sheet material 5a is EVA.

The water-permeable sheet material 5b is laminated on the back surface (the surface facing the primary lining 3 side, the upper surface in FIG. 6) of the water-impermeable sheet material 5a. The water permeable sheet material 5b is composed of a nonwoven fabric or the like. Examples of the material of the nonwoven fabric include chemical fibers such as polyester, polypropylene, and polyethylene. A part of the backfill material 4 is impregnated in the water-permeable sheet material 5b. The water permeable sheet material 5b has a fixing function with the backfill material 4, a drainage function, a buffer function, and the like.
The water-impermeable sheet material 5a and the water-permeable sheet material 5b are heat-sealed. In addition, the joining means of the water-impermeable sheet material 5a and the water-permeable sheet material 5b is not limited to heat fusion, and an adhesive may be used.
At both ends in the width direction of the waterproof sheet 5, the water-impermeable sheet material 5a and the water-permeable sheet material 5b are not joined and can be separated from each other.

As shown in FIG. 3, the waterproof sheet 5 is stretched in an arc shape so that the longitudinal direction is along the circumferential direction of the tunnel 1. The width direction of the waterproof sheet 5 is directed to the axial direction of the tunnel 1. The width dimension of one waterproof sheet 5 is about 6 meters, for example. A plurality of waterproof sheets 5 are added in the axial direction of the tunnel 1. A seam 5j is formed between adjacent waterproof sheets 5.
In addition, illustration of the water-permeable sheet material 5b is abbreviate | omitted in FIG.

  As shown in FIG. 4, at the joint 5j, the water-impermeable sheet materials 5a of the adjacent waterproof sheets 5 are joined to each other by gluing. And as shown in FIG. 5, the said palm attachment is bend | folded toward the one waterproof sheet 5, and is joined to this one waterproof sheet 5 by welding. Thereby, the casting thickness of the secondary lining 6 is ensured. A weld joint 5h is formed at the joint 5j.

  As shown in FIG. 3, the central portion in the longitudinal direction of each waterproof sheet 5 is located at the top of the tunnel 1. In addition, a hole 5c is formed in the water-impermeable sheet material 5a near the joint 5j at the longitudinal center of each waterproof sheet 5 (the top of the tunnel 1). The inner diameter of the hole 5c is about several centimeters.

  As shown in FIG. 2, an air vent / water stop device 10 is attached to the hole 5c. The air vent / water stop device 10 includes an air vent member 11, a lid 20 (a closing member), and a sealing means 30.

  Examples of the material of the air vent member 11 include thermoplastic resins such as ethylene / vinyl acetate copolymer resin (EVA), polyolefin resin, and polyvinyl chloride resin. Examples of the polyolefin resin include polyethylene (PE) and polypropylene (PP). Preferably, the air vent member 11 is made of a material that is difficult to be dissolved even when it comes into contact with a hot melt molten resin at about 100 ° C. to 150 ° C., more preferably EVA.

As shown in FIG. 2, the air vent member 11 integrally includes a cylindrical portion 12 and flanges 13 and 14. The cylindrical portion 12 includes a cylindrical cylindrical mouth portion 12e and a cylindrical base portion 12d. The axis of the cylindrical portion 12 is directed in the thickness direction of the waterproof sheet 5. The tube opening portion 12e is directed to the secondary lining 6 side (lower side in FIG. 2), and the tube base portion 12d is directed to the primary lining 3 side (upper side in FIG. 2). The internal space of the cylinder part 12 constitutes the air vent path 12a. Both ends of the air vent path 12a are opened. The air vent path 12a penetrates the impermeable sheet material 5a from the primary lining 3 side to the secondary lining 6 side.
The shape of the cylindrical portion 12 is not limited to a cylindrical shape, and may be a rectangular cylindrical shape, a conical cylindrical shape, a pyramidal cylindrical shape or the like as long as it has an air vent path 12a.

The outer diameter of the tube opening 12e is about several centimeters. A male screw 12b (screw portion) is formed on the outer peripheral surface of the tube opening portion 12e. The lid 20 is detachably attached to the tube opening 12e. The lid 20 integrally includes a circular lid plate portion 21 and a cylindrical lid peripheral side portion 22. A female screw 22b on the inner periphery of the lid peripheral side portion 22 is screwed to the male screw 12b. The lid plate portion 21 allows the opening of the end portion of the cylindrical portion 12 on the secondary lining 6 side to be liquid-tightly closed.
The material of the lid 20 may be the same as or different from the material of the air vent member 11. Preferably, the lid 20 is made of EVA resin.

  The cylinder base 12d is expanded toward the primary lining 3 side. A pair of flanges 13 and 14 are formed on the outer periphery of the cylinder base 12d. The flanges 13 and 14 protrude outward in the radial direction of the cylinder base 12 d and have an annular shape over the entire circumference of the cylinder 12. The pair of flanges 13 and 14 are opposed to each other in the axial direction of the cylindrical portion 12. The first flange 13 at the end of the tube base 12d has a larger diameter than the second flange 1 on the tube port 12e side. And the outer diameter of these flanges 13 and 14 is larger than the inner diameter of the hole 5c of the waterproof sheet 5. More preferably, the inner diameter of the first flange 13 is larger than the inner diameter of the hole 5 c of the waterproof sheet 5.

  As shown in FIG. 2, the cylinder base 12d penetrates the hole 5c. A peripheral edge 5d of the hole 5c in the water-impermeable sheet material 5a is sandwiched between the pair of flanges 13 and 14. The hole periphery 5d is pressed against the first flange 13 and is in close contact with the outer peripheral surface of the cylinder base 12d.

  The sealing means 30 seals the space between the hole 5c and the cylinder base 12d in a liquid-tight manner. As a result, the space between the water-impermeable sheet material 5a and the air vent member 11 is sealed in a liquid-tight manner. The sealing means 30 includes a rubber seal member 31 and a hot melt material 32.

  The rubber seal member 31 has an annular shape surrounding the cylinder base 12d. Preferably, the rubber seal member 31 is configured by an O-ring. Examples of the material of the rubber seal member 31 include fluororubber, silicone rubber, synthetic rubber, urethane rubber, lubricating rubber, butyl rubber, toffletane, acrylic rubber, styrene rubber, natural rubber, chloroprene rubber, nitrile rubber, and super rubber. Preferably, the material of the rubber seal member 31 should be hard to dissolve even when contacted with a hot melt molten resin at about 100 ° C. to 150 ° C., and more preferably fluororubber in view of heat resistance and elongation.

  The rubber seal member 31 is fitted on the outer periphery of the cylindrical base portion 12d between the hole peripheral portion 5d of the water-impermeable sheet material 5a and the second flange 14. The inner diameter of the rubber seal member 31 is smaller than the outer diameter of the first flange 13 and further smaller than the outer diameter of the second flange 14. The number of rubber seal members 31 is not limited to one, and may be plural (about two to five). The hole peripheral edge 5d of the waterproof sheet 5 is strongly pressed against the first flange 13 by one or a plurality of rubber seal members 31.

A hot melt material 32 is annularly provided on the entire outer periphery of the rubber seal member 31. The hot melt material 32 wraps around the surface of the second flange 14 on the secondary lining 6 side from the hole peripheral portion 5d of the water-impermeable sheet material 5a through the outer periphery of the rubber seal member 31. The hot melt material 32, together with the rubber seal member 31, not only liquid-tightly seals between the water-impermeable sheet material 5a and the air vent member 11, but also joins the water-impermeable sheet material 5a, the rubber seal member 31 and the air vent member 11 to each other. ing.
The original shape of the hot melt material 32 is, for example, a stick shape. A stick-like hot melt material 32 is attached to the hot melt gun. The hot melt material 32 is melted by a hot melt gun and supplied to the outer periphery of the rubber seal member 31.

  The material of the hot melt material 32 may be any material as long as it has thermoplasticity, can exhibit required sealing properties, and can be firmly adhered to the water-impermeable sheet material 5 a and the air vent member 11. Examples of the material of the hot melt material 32 include waxes in addition to thermoplastic resins such as ethylene vinyl acetate copolymer (EVA), polyvinyl chloride (PVC), polypropylene (PP), and low density polyethylene (LDPE). . In consideration of melt applicability, the hot melt material 32 is preferably an EVA hot melt resin. The composition of the EVA hot melt resin preferably includes 10 wt% to 80 wt% of EVA having a vinyl acetate content of 10 wt% to 80 wt%. When the EVA having a vinyl acetate content of 10 wt% or less has a composition of 10 wt% or less, the adhesion between the water-impermeable sheet material 5 a and the air vent member 11 is not sufficient. When the EVA having a vinyl acetate content of 80 wt% or more has a composition of 80 wt% or more, it is not easy to form into a hot melt gun stick shape. More preferably, the composition of the EVA hot melt resin for the hot melt material 32 is a composition containing 30 wt% to 70 wt% of EVA having a vinyl acetate content of 10 wt% to 50 wt%.

The construction method of the tunnel 1 will be described focusing on the air vent / water stop method by the air vent / water stop device 10.
Before carrying into the tunnel 1 in the waterproof sheet 5, a hole 5c is formed in advance, and an air vent / water stop device 10 is attached thereto. Preferably, the air vent / water stop device 10 is attached at the stage of manufacturing the waterproof sheet 5 at the factory. By doing so, the poor construction of the sealing means 30 can be avoided, and the space between the air vent member 11 and the water-impermeable sheet material 5a can be reliably sealed.
Preferably, the location of the water-impermeable sheet material 5a and the air vent / water stop device 10 in the waterproof sheet 5 is a central portion in the longitudinal direction of the waterproof sheet 5 and a portion near one end in the width direction.

The primary lining 3 is constructed by spraying sprayed concrete onto the natural mountain inner wall 2a while excavating the natural mountain 2 (see FIG. 1 (a)). In addition, a rock bolt (not shown) is driven in the natural ground 2.
As shown in FIGS. 3 and 4, when the excavation of the natural ground 2 and the construction of the primary lining 3 have progressed by the excavation span corresponding to the width dimension (for example, about 6 meters) of one waterproof sheet 5, the excavation will be performed. A semi-cylindrical backfill mold 7 is installed along the inner peripheral wall of the primary lining 3 of the span (left side in FIG. 4). A sheet of waterproof sheet 5 is stretched around the outer peripheral surface of the backfill mold 7. The water-impermeable sheet material 5 a of the waterproof sheet 5 is applied to the outer peripheral surface of the backfill mold 7, and the water-permeable sheet material 5 b is directed to the primary lining 3.

  The opposite end portions of the impermeable sheet material 5a in the digging span (left side in FIG. 4) and the impermeable sheet material 5a in the digging span immediately before (right side in FIG. 4) are joined together by gluing. 5j is formed. An air vent / water stop device 10 is disposed near the joint 5j at the top of the tunnel 1.

Next, a backfill material 4 such as mortar is filled in the gap between the waterproof sheet 5 and the primary lining 3 in the digging span (left side in FIG. 4). The backfill material 4 is continuous with the backfill material 4 of the digging span just before (right side in FIG. 4) (see FIG. 5). A part of the backfill material 4 is impregnated in the water-permeable sheet material 5b. An air layer 9 is easily formed between the water-permeable sheet material 5b impregnated with the backfill material 4 and the water-impermeable sheet material 5a. In particular, an air layer 9 is inevitably formed between the seam 5j of the water-impermeable sheet material 5a and the water-permeable sheet material 5b.
At the top of the tunnel 1, the air vent path 12 a of the air vent / water stop device 10 communicates with the air layer 9. At this stage, the lid 20 (FIG. 2) is removed. Therefore, the air layer 9 communicates with the space in the tunnel via the air vent path 12a.
After filling the backfill material 4, the backfill form 7 is removed or transferred forward (to the left in FIG. 4).
Subsequently, as shown in FIG. 5, the joint 5 j is brought down to the one waterproof sheet 5 and welded to and joined to the one waterproof sheet 5.

As shown in FIG. 1 (a) and FIG. 5, after the above steps are executed for one or more excavation spans, a semi-cylindrical secondary lining formwork 8 is installed in the one or plural excavation spans. To do.
Then, the secondary lining 6 is driven from the tunnel bottom side to the top between the secondary lining mold 8 and the waterproof sheet 5.
By this secondary lining 6, the air layer 9 is sequentially crushed from the tunnel bottom side. The air of the crushed part rises between the water-permeable sheet material 5b and the water-impermeable sheet material 5a. It rises mainly between the seam 5j of the water-impermeable sheet material 5a and the water-permeable sheet material 5b. And it escapes from the air vent path 12a to the space in the tunnel.
Thereby, it is possible to prevent air from accumulating between the water-permeable sheet material 5b and the water-impermeable sheet material 5a at the top of the tunnel 1, and to prevent the water-impermeable sheet material 5a at the top of the tunnel 1 from expanding.

The air vent path 12a is kept open until the end of the secondary lining driving process.
As shown in FIG. 6, at the end of the secondary lining placement process, the placement height of the secondary lining 6 reaches near the top of the tunnel 1. At this time, the air vent member 11 is closed. That is, the lid body 20 is screwed into the cylindrical portion 12 by opening a small window near the top of the secondary lining formwork 8 and inserting the body. Thereby, the air vent path 12a can be easily sealed. No complicated work such as heating and melting is required.
Thereafter, the secondary lining 6 is driven to the top of the tunnel 1. Thereby, as shown in FIG. 1 (b), the portion on the secondary lining 6 side from the water-impermeable sheet material 5 a in the air vent / water stop device 10 is buried in the secondary lining 6. Thereafter, the secondary lining form 8 is removed or transferred forward in the excavation.
In this way, the tunnel 1 is constructed.
According to the tunnel 1, the air vent path 12 a is liquid-tightly sealed with the lid 20, and the space between the water-impermeable sheet material 5 a and the air vent member 11 is liquid-tightly sealed with the sealing means 30. The spring water from the natural ground 2 leaks to the secondary lining 6 side through the air vent path 12a, or leaks to the secondary lining 6 side through between the air vent / water stop device 10 and the peripheral portion of the hole 5c. Can be prevented.

Next, another embodiment of the present invention will be described. In the following embodiments, the same reference numerals are given to the drawings for the same configurations as those already described, and the description thereof is omitted.
Second Embodiment
7 and 8 show a second embodiment of the present invention. As shown in FIG. 7, the air vent / water stop device 10B of the present embodiment is a retrofit type. That is, the air vent / water stop device 10 </ b> B can be retrofitted to the waterproof sheet 5 that has been manufactured and has been transported to the construction site of the tunnel 1.
Specifically, as shown in FIG. 7A, the air vent / water stop device 10 </ b> B includes an air vent member 11 and a closing sheet material 51. The material of the blocking sheet material 51 is a water-impermeable resin, and is preferably made of the same material (EVA or the like) as the water-impermeable sheet material 5a.

The closing sheet material 51 has a circular shape, for example. The diameter of the closing sheet material 51 is, for example, about several tens of cm to 15 cm. Note that the shape of the closing sheet material 51 is not limited to a circle, and may be a polygon such as a square or a triangle or an ellipse, and various other shapes can be applied.
A hole 51 c is formed in the central portion of the closing sheet material 51. The air vent member 11 is attached to the hole 51c. The mounting structure of the air vent member 11 is the same as that of the first embodiment. The cylinder portion 12 and thus the air vent path 12 a penetrates the closing sheet material 51. Between the pair of flanges 13, 14, the peripheral edge of the hole 51 c in the closing sheet material 51 is sandwiched. The space between the closing sheet material 51 and the air vent member 11 is liquid-tightly sealed by the rubber seal member 31 and the hot melt material 32 of the sealing means 30.

  An adhesive layer 53 is provided on the back surface (the surface facing the primary lining 3 side, the top surface in FIG. 7A) of the closing sheet material 51. The adhesive layer 53 is made of, for example, butyl rubber or the like.

  As shown in FIG. 7 (b), in the state where the air vent / water stop device 10B is attached to the waterproof sheet 5, the blocking sheet material 51 is integrated with the water-impermeable sheet material 5a so that the water-impermeable sheet material 5a is integrated. Part of it. In other words, the water-impermeable sheet material 5 a includes a water-impermeable sheet main body 50 (a portion other than the block sheet material 51) and a block sheet material 51 separate from the water-impermeable sheet main body 50.

  The installation work of the retrofitting air vent / water stop device 10B may be performed, for example, at the construction site of the tunnel 1 before the waterproof sheet 5 is installed in the backfill form 7 (see FIG. 4). After installation in the backfilling mold 7, it may be performed through a small window near the top of the tunnel of the backfilling mold 7.

Details of the attaching operation are as follows, for example.
As shown in FIG. 7A, the attachment hole 5 g is formed in the water-impermeable sheet body 50. The mounting hole 5g is, for example, circular. The inner diameter of the mounting hole 5 g is sufficiently larger than the air vent member 11 and smaller than the outer diameter of the closing sheet material 51. The shape of the mounting hole 5g is not limited to a circle, and may be a polygon such as a rectangle or a triangle, or may be an ellipse, and various other shapes can be applied. As will be described later, it suffices that the entire attachment hole 5g is closed by the closing sheet material 51, and the shape of the attachment hole 5g may be different from the shape of the closing sheet material 51.

Next, as shown in FIG. 7 (b), the retrofitting air vent / water stop device 10B is placed over the mounting hole 5g from the secondary lining 6 side (the lower side in FIG. 7 (b)). The entire circumference of the outer periphery of the blocking sheet material 51 is applied to the peripheral edge of the mounting hole 5g in the water-impermeable sheet body 50.
And the adhesion layer 53 is adhere | attached on the part which faces the attachment hole part 5g in the water-permeable sheet material 5b. Thereby, the position shift of the retrofitting air vent / water stop device 10B can be prevented. Even when the retrofitting air vent / water stop device 10B is installed downward at the top of the tunnel, the device 10B can be prevented from falling.

Next, the outer peripheral portion of the closing sheet material 51 is thermally welded to the peripheral portion of the attachment hole portion 5g with hot air or the like. Thereby, the attachment hole 5g can be liquid-tightly closed by the closing sheet material 51. Between the closing sheet material 51 and the water-impermeable sheet main body 50, a welding joint 50h is formed.
By adhering the adhesive layer 53 to the water-permeable sheet material 5b, it is not necessary to hold the closing sheet material 51 by hand, and it can be easily welded.
In this manner, the retrofitted air vent / water stop device 10B can be easily attached to the impermeable sheet material 5a already carried in the field.

As shown in FIG. 8, preferably, after the retrofitting air vent / water stop device 10B is attached, its sealing performance is inspected.
The inspection sealing inspection machine 60 includes an inspection container 61, a suction pump 62, and a pressure gauge 63. The cuvette 61 has a cylindrical shape with one end (the upper end in FIG. 8) opened. The inner diameter of the cuvette 61 is larger than the outer diameter of the closing sheet material 51, and is about several 17 cm to 20 cm, for example. A sealing member 64 made of an O-ring is provided at the opening 61 e at the one end of the cuvette 61. A suction pump 62 and a pressure gauge 63 are connected to the cuvette 61.

The inspection container 61 is placed on the retrofitted air vent / water stop device 10B attached to the impermeable sheet material 5a. At this time, the entire retrofitted air vent / water stop device 10B is placed inside the inspection container 61. The opening 61e and the sealing member 64 are pressed against the water-impermeable sheet body 50 around the retrofitting air vent / water stop device 10B to seal the inside of the cuvette 61.
Subsequently, the inside of the cuvette 61 is decompressed by sucking and exhausting the air inside the cuvette 61 by the suction pump 62. In addition, the internal pressure of the cuvette 61 is measured by the pressure gauge 63.
If the sealing state between the retrofitted air vent / water stop device 10B and the impermeable sheet main body 50 is good, the internal pressure of the cuvette 61 reaches a predetermined degree of vacuum. On the other hand, if the sealing state is defective, air on the back side (primary lining 3 side) of the impermeable sheet material 5a enters the inspection container 61 through the defective portion. Does not reach the predetermined degree of vacuum. Therefore, the quality of the sealed state between the retrofitted air vent / water stop device 10B and the water-impermeable sheet main body 50 can be determined based on whether or not the measured value of the pressure gauge 63 has reached the predetermined degree of vacuum.
When it is determined to be defective, the thermal welding between the retrofitted air vent / water stop device 10B and the impermeable sheet main body 50 is performed again.
Thereby, it is possible to avoid placing the secondary lining 6 while the sealing state between the retrofitting air vent / water stop device 10B and the impermeable sheet main body 50 remains defective. As a result, the waterproofness of the waterproof sheet 5 can be secured.

The present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention.
For example, as long as the sealing means 30 can ensure the liquid-tightness between the water-impermeable sheet material 5 a and the air vent member 11, the sealing means 30 may be composed only of the rubber seal member 31 or only the hot melt material 32. It may be.
The closing member (lid body) of the cylinder part 12 may be a plug inserted into the cylinder part 12. A female screw portion may be formed on the inner peripheral surface of the cylindrical portion 12, and a male screw portion may be formed on the outer peripheral surface of the plug body.

  The present invention can be applied to tunnel construction by, for example, a back smooth tunnel lining method.

DESCRIPTION OF SYMBOLS 1 Tunnel 3 Primary lining 4 Backfill material 5 Waterproof sheet 5a Water-impermeable sheet material 5b Water-permeable sheet material 5c Hole part 5d Hole part peripheral part 5g Mounting hole part 5j Seam 6 Secondary lining 9 Air layer 10 Air venting / water stop device 10B Retrofitted air vent / water stop device 11 Air vent member 12a Air vent path 13 First flange 14 Second flange 20 Lid (blocking member)
30 Sealing means 31 Rubber seal member 32 Hot melt material 50 Impervious sheet main body 51 Closure sheet material 51c Hole

Claims (6)

In the waterproof sheet that is stretched along the inner periphery of the primary lining of the tunnel and is filled with a backfill material between the primary lining and the permeable sheet material on the primary lining side and the secondary lining side An air vent / water shut-off device that vents air from between the impervious sheet material and stops water,
An air vent member that penetrates the water-impermeable sheet material and has an air vent member provided in the water-impermeable sheet material;
Sealing means for liquid-tightly sealing between the water-impermeable sheet material and the air vent member; a closing member that can be attached to the air vent member so as to liquid-tightly seal the air vent path;
An air vent / water stop device for tunnels, characterized by comprising: The air vent member has a cylindrical shape in which a thread portion is formed on the peripheral surface,
2. The air vent / water stop device according to claim 1, wherein the closing member is a lid body screwed into the screw portion from a secondary lining side. A hole is formed in the water-impermeable sheet material,
The air vent member is passed through the hole portion, and the inner space of the cylindrical portion constituting the air vent path, and a pair of annular members protruding from the outer peripheral portion of the cylindrical portion and facing the axial direction of the cylindrical portion The air vent / water stop device according to claim 1, further comprising a flange, wherein a peripheral portion of the hole portion in the impermeable sheet material is sandwiched between the pair of flanges.   The sealing means includes an annular rubber seal member or a hot melt material provided between one of the pair of flanges and a peripheral edge portion of the hole portion in the water-impermeable sheet material. 3. The air vent / water stop device according to 3.   The water-impermeable sheet material has a water-impermeable sheet main body in which a mounting hole portion having a diameter larger than that of the air vent member is formed, and the mounting holes are separated from the water-impermeable sheet main body and formed by a water-impermeable blocking material. A portion is closed in a liquid-tight manner, the air release member is provided in the closing sheet material, and a space between the closing sheet material and the air release member is liquid-tightly sealed by the sealing means. The air vent / water stop device according to any one of claims 1 to 4, wherein Preparing a waterproof sheet including an impermeable sheet material provided with an air vent member having an air vent path and a water permeable sheet material laminated on the impermeable sheet material; Is directed to the opposite side, and the water-permeable sheet material is directed to the primary lining, and the waterproof sheet is stretched along the inner periphery of the primary lining,
Backfilling material is filled between the primary lining and the waterproof sheet,
With the air vent path open, a secondary lining is placed on the inner peripheral side of the waterproof sheet,
A tunnel construction method characterized in that a closing member is attached to the air vent member to close the air vent path in a liquid-tight manner at the final stage of the secondary lining placement process.

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