JP6580824B2 - Waterproof sheet and its construction method - Google Patents

Description

  The present invention provides a waterproof sheet suitable for construction of a tunnel, in particular, a curved portion of the tunnel, and a construction method thereof.

  Conventionally, when constructing a tunnel in a natural ground, a waterproof sheet is placed between the shotcrete and lining concrete of the tunnel, and spring water from the shotcrete side (spring water from the underground into the tunnel) Prevention of water leakage to the lining concrete side was performed. For example, Patent Document 1 describes a waterproof sheet for tunnel lining in which a water-impermeable sheet and a water-permeable mat are bonded along both side edges, and the adhesive strength of about half of the bonded surfaces is reduced. Has been. In Patent Document 1, when fixing the waterproof sheet for tunnel lining to the ground or the surface of shotcrete, it is impervious to fix the middle part of the sheet without making a hole in the surface of the sheet. A portion where the adhesive strength between the sheet and the water-permeable mat is weakened is provided.

  Recently, the back surface of the tunnel lining has a smooth finish on the back of the lining concrete, and the waterproof sheet is adhered to the entire surface by filling the gap between the unevenness of the shotcrete and the waterproof sheet installed on the formwork. The construction method is used. In this construction method, a rectangular waterproof sheet in which a water-impermeable sheet and a water-permeable mat are bonded together is used except for the side edges from the viewpoint that the lock bolt is fixed with a filler and the appearance of construction. However, when installing along the circumferential direction at the tunnel curve location, if the waterproof sheet is installed along the outer periphery of the curve, the waterproof sheet will bump around the inner periphery, and the waterproof sheet will be aligned with the outer periphery of the curve. When disposed, there is a problem that the waterproof sheet is insufficient at the outer peripheral portion.

  Patent Document 2 discloses a waterproof sheet stretched along a circumferential direction at a curved portion of a tunnel, wherein one end edge in the length direction is wider than the other end edge in the length direction, and at least the other end side in the length direction is A waterproof sheet including an impermeable sheet having a tapered shape is described. However, in the production of a waterproof sheet, it has been necessary to process a rectangular impermeable sheet into a trapezoidal shape or the like in advance according to the circumference of the tunnel and the length of the curve.

Japanese Utility Model Publication No. 3-36640 JP 2003-343198 A

  In order to solve the above-described conventional problems, the present invention provides a waterproof sheet that can be appropriately constructed along the circumferential direction of a curved portion of a tunnel, and a construction method thereof, particularly at the construction site of a back smooth tunnel lining method. To do.

  The present invention is a waterproof sheet including a nonwoven fabric and a water shielding sheet disposed on one surface of the nonwoven fabric, wherein the nonwoven fabric and the water shielding sheet are separated from each other at both side edges of the waterproof sheet. In other parts, the non-woven fabric and the water shielding sheet are bonded by surface bonding and point bonding, and the point bonding part is present in a part close to one or both side edges of the waterproof sheet. The present invention relates to a waterproof sheet.

  In the waterproof sheet, the maximum width of the point adhesion portion is preferably 12.5% to 30% of the entire width of the waterproof sheet, and the distance between adjacent adhesion points in the length direction is 200 mm to 500 mm. Preferably there is.

  In the present invention, the waterproof sheet is disposed along the circumferential direction of the tunnel so as to match the outer peripheral portion of the curved portion of the tunnel, and then the waterproof sheet is disposed on the inner peripheral portion of the curved portion of the tunnel. It is related with the construction method of the waterproof sheet characterized by making the said waterproof sheet match also the inner peripheral part of the curve location of a tunnel by discarding a part of point adhesion part of this.

  The present invention provides a waterproof sheet comprising a nonwoven fabric and a water shielding sheet disposed on one surface of the nonwoven fabric, wherein a surface-bonding portion and a point-bonding portion are provided, and the point-bonding portion is provided on one or both side edges of the waterproof sheet. By making it exist in the part close to the part, it can be properly constructed along the circumferential direction of the curve part of the tunnel without causing bumps in the inner peripheral part, especially at the construction site of the back smooth tunnel lining method A waterproof sheet and a construction method thereof are provided.

FIG. 1 is a schematic cross-sectional view of a waterproof sheet according to an embodiment of the present invention. FIG. 2 is a schematic explanatory view for explaining the arrangement of adhesion points in the point adhesion portion of the waterproof sheet of FIG. FIG. 3 is an explanatory view showing a construction example of the waterproof sheet at the curve portion of the tunnel.

  The waterproof sheet of the present invention is composed of a nonwoven fabric and a water shielding sheet disposed on one surface of the nonwoven fabric. In the both side edges of the waterproof sheet, the nonwoven fabric and the water shielding sheet are separated from each other to form a side edge free end, and the side edge free end allows the side edge free end of another waterproof sheet to Joined at the necessary place. The width of the side edge free end is preferably 5% to 20% of the entire width of the waterproof sheet, and more preferably 7% to 15%. The non-woven fabric and the water-proof sheet are bonded by surface bonding and point bonding at portions other than both side edge portions of the waterproof sheet, and the point bonding portion is close to one or both side edge portions of the waterproof sheet. It exists in the part to be. By providing a point adhesion part in the part close to the side edge (side edge free end), along the circumferential direction without bumping in the inner peripheral part and lacking in the outer peripheral part in the curved part of the tunnel It can be constructed properly.

  The nonwoven fabric and the water shielding sheet may be adhered via an adhesive, or may be adhered by thermal welding of components constituting the nonwoven fabric or the water shielding sheet. The nonwoven fabric and the water shielding sheet are preferably bonded via a hot melt adhesive. Or it is preferable to adhere | attach by the heat welding of the component which comprises the said nonwoven fabric or the said water shielding sheet. Alternatively, the non-woven fabric and the water shielding sheet are bonded to each other at the surface bonding portion by thermal welding of the components constituting the non-woven fabric or the water shielding sheet, and at the point bonding portion, a hot melt adhesive is used. It is preferable to be point-bonded. With these configurations, the organic solvent is not included, and the substance derived from the organic solvent does not volatilize from the waterproof sheet.

In the portion where the nonwoven fabric and the water shield sheets are spot gluing, the size of the point of attachment is preferably 1 cm ² 100 cm ^2. A nonwoven fabric and a water shielding sheet can be firmly adhere | attached as the magnitude | size of an adhesion point is 1 cm < ² > or more. In addition, when the size of the adhesion point is 100 cm ² or less, it is easy to cut off the point adhesion portion of the excess waterproof sheet at the curved portion of the tunnel. More preferably the size of the point of attachment is 5 cm ² to 50 cm ^2.

  In the waterproof sheet, the maximum width of the point-bonded portion is preferably 12.5% to 30%, more preferably 15% to 25% of the entire width of the waterproof sheet. While improving the appearance of the construction, workability at the curve of the tunnel is improved.

  In the waterproof sheet, the minimum distance between adjacent adhesion points in the width direction is preferably 100 mm to 300 mm, and more preferably 100 mm to 160 mm. The maximum distance between adjacent adhesion points in the width direction is preferably 100 mm to 800 mm, more preferably 100 mm to 500 mm. More preferably, it is 160 mm-300 mm. When the minimum distance and the maximum distance between adjacent adhesion points in the width direction are within the above range, the workability at the curved portion of the tunnel is improved while improving the appearance of the construction. In the present invention, the “distance between adhesion points” is the distance between the center points of the adhesion points. In the width direction, when a plurality of adhesion points are arranged at the same interval, the minimum distance between adjacent adhesion points and the maximum distance between adjacent adhesion points are the same.

  In the waterproof sheet, the distance between adjacent adhesion points in the length direction is preferably 200 mm to 500 mm, more preferably 250 mm to 350 mm. When the distance is in the length direction, the adhesive strength between the nonwoven fabric and the water-impervious sheet is increased and peeling is prevented.

The waterproof sheet preferably has a mass per unit area of 2 kg / m ² or less, and more preferably 1.5 kg / m ² or less. When the mass per unit area of the waterproof sheet is 2 kg / m ² or less, the waterproof sheet is light and construction is easy. Although not particularly limited, a preferable lower limit is 0.5 kg / m ² .

  The fibers constituting the nonwoven fabric are not particularly limited. For example, polyolefin resins such as polyethylene, polypropylene, and polybutene, polyester resins such as polyethylene terephthalate and polybutylene terephthalate, and synthetic resins such as polyamide resins such as nylon 6 and nylon 66 are used. Examples include fibers that are constructed. Especially, it is preferable that the fiber which comprises the said nonwoven fabric contains polyolefin resin from a viewpoint excellent in alkali resistance and a weather resistance. Moreover, tear strength can also be given to a waterproof sheet by using the nonwoven fabric which consists of an aramid fiber and carbon fiber.

Non-woven fabric is preferably the basis weight is ^{80g / m 2 ~500g / m 2} . When the basis weight of the nonwoven fabric is 80 g / m ² or more, the tensile strength is high and it is difficult to break. Further, if the basis weight of the nonwoven fabric is 500 g / m ² or less, it is not too heavy and construction is easy. More preferably the basis weight of the nonwoven fabric is ^{200g / m 2 ~400g / m 2} .

The nonwoven fabric preferably has a thickness of 0.5 mm to 20 mm. When the thickness of the nonwoven fabric is 0.5 mm or more, the effect of preventing the water shielding sheet from being damaged by the protrusions is higher. When the thickness of the nonwoven fabric is 20 mm or less, the nonwoven fabric is difficult to break or peel in the thickness direction. More preferably, the nonwoven fabric has a thickness of 1 mm to 10 mm, and more preferably 2 mm to 8 mm. In addition, the thickness of a nonwoven fabric is measured in the state which applied the load of 2.94 cN per cm < ² > according to JISL10968.5.

  The nonwoven fabric may be a long fiber nonwoven fabric such as a spunbond nonwoven fabric or a melt blown nonwoven fabric, or a short fiber nonwoven fabric such as a needle punch nonwoven fabric, a spunlace nonwoven fabric, or a thermal bond nonwoven fabric. Especially, from a cheap viewpoint, it is preferable that a nonwoven fabric is the nonwoven fabric which made the spun bond nonwoven fabric entangled by the needle punch process.

  Although the fiber which comprises the said nonwoven fabric is not specifically limited, Single fiber fineness may be 1 dtex-100 dtex. When fibers having a fineness of 1 dtex to 100 dtex are used, the tensile strength and tear strength of the nonwoven fabric can be increased.

  When the said nonwoven fabric is a short fiber nonwoven fabric, the fiber which comprises a nonwoven fabric is although it does not specifically limit, It is preferable that fiber length is 10 mm-200 mm. When the fiber length is 10 mm to 200 mm, the tensile strength and tear strength of the nonwoven fabric can be increased.

  The said nonwoven fabric may be comprised from 1 type of fiber, and the nonwoven fabric by which two or more fibers were mixed may be sufficient as it. Moreover, the said nonwoven fabric may be a single layer nonwoven fabric which consists of a 1 layer web, and may be a laminated nonwoven fabric by which 2 or more layers of webs are laminated | stacked. Furthermore, the nonwoven fabric may be composed of fibers made of a single component resin, or may be composed of composite fibers using two or more resins. The cross-sectional shape of the fiber is not particularly limited, and may be a round cross-section, such as a concentric circular shape, a wedge-shaped divided type, a slit-shaped divided type, a hollow shape, a triangular shape, a Y shape, a square shape, or the like. May be.

  The nonwoven fabric preferably has irregularities on the surface facing the water-impervious sheet. The height of the convex portion is preferably 0.5 mm to 10 mm, and more preferably 1 mm to 7 mm. When the surface facing the nonwoven fabric water-impervious sheet has an uneven portion, a space through which spring water passes increases between the nonwoven fabric and the water-impervious sheet, thereby improving drainage efficiency.

  The nonwoven fabric preferably has a tensile strength measured according to JIS L 1096 of 500 N / 5 cm or more, and more preferably 700 N / 5 cm or more. If the tensile strength is 500 N / 5 cm or more, the nonwoven fabric is difficult to break. The upper limit with preferable tensile strength is 3000 N / 5cm or less.

  The non-woven fabric has an elongation measured according to JIS L 1096 of preferably 20% or more, and more preferably 50% or more. When the elongation is 20% or more, it is easy to follow the elongation of the water shielding sheet, and it is easy to construct along the arc surface of the tunnel or the curved slope of the natural ground. A preferable upper limit of elongation is 500%.

  The nonwoven fabric preferably has a tear strength measured according to JIS L 1096 (single tank method) of 80 N or more, and more preferably 140 N or more. If the tear strength is 80 N or more, the nonwoven fabric is difficult to tear. The upper limit with preferable tear strength is 500 N or less.

  The water shielding sheet is not particularly limited as long as it is a sheet that does not transmit water. For example, it is preferable that the said water shielding sheet contains 20 mass%-80 mass% of ethylene-vinyl acetate copolymers, and contains 20 mass%-80 mass% of polyethylene with respect to the whole mass of a water shielding sheet. When the content of the ethylene-vinyl acetate copolymer in the water-impervious sheet is 20% by mass or more, the water-impervious sheet has good water shielding properties due to the resin characteristics of the ethylene-vinyl acetate copolymer. Furthermore, due to the resin characteristics of the ethylene-vinyl acetate copolymer, the water shielding sheet does not become hard even in a low temperature environment of, for example, 10 ° C. or less, and the followability to the construction surface is maintained. From the viewpoint of more prominently obtaining such effects, the water shielding sheet preferably contains 40% by mass or more of an ethylene-vinyl acetate copolymer. When the polyethylene content in the water-impervious sheet is 20% by mass or more, a water-impervious sheet excellent in adhesive strength with the nonwoven fabric can be obtained. The waterproof sheet firmly bonded to the nonwoven fabric has a high adhesive force between the nonwoven fabric and the waterproof sheet, and the nonwoven fabric and the waterproof sheet are not peeled off during or after the waterproof sheet is applied. From the viewpoint of more prominently obtaining such effects, the water shielding sheet preferably contains 40% by mass or more of polyethylene. Moreover, it is preferable that a water shielding sheet contains 60 mass% or less of polyethylene from a viewpoint which does not reduce the flexibility and tensile strength of a water shielding sheet.

  The ethylene-vinyl acetate copolymer preferably has a vinyl acetate content of 3 mol% to 50 mol%. When the vinyl acetate content in the ethylene-vinyl acetate copolymer is 3 mol% or more, a sheet having excellent flexibility can be obtained. Further, when the content of vinyl acetate is 50 mol% or less, even when the waterproof sheet is stored in an environment of 30 ° C. or higher, the water shielding sheets are less likely to stick together and be integrated (blocked). . From the viewpoint of obtaining such effects more remarkably, the vinyl acetate content is more preferably 5 mol% to 40 mol%, and still more preferably 10 mol% to 30 mol%.

  The polyethylene can be used by selecting one or more from the group consisting of high-density polyethylene, low-density polyethylene, and linear low-density polyethylene. When high density polyethylene is used, a water shielding sheet excellent in impact resistance can be obtained due to its resin characteristics. Moreover, when low density polyethylene is used, a water shielding sheet excellent in heat weldability can be obtained due to its resin characteristics. Especially, it is preferable that polyethylene is a linear low density polyethylene. The water shielding sheet containing linear low density polyethylene has particularly excellent tensile strength. If the water shielding sheet is excellent in tensile strength, the water shielding sheet is difficult to break.

The linear low density polyethylene is preferably a density of ^{0.86g / cm 3 ~0.93g / cm 3} . A linear low density polyethylene having such a density is low in price and excellent in processability.

  The polyethylene preferably has a melt flow rate at 230 ° C. of 1 g / 10 min to 10 g / 10 min. When the MFR of polyethylene is 1 g / 10 min or more, it is easy to produce a water shielding sheet. When the MFR of polyethylene is 10 g / 10 min or less, there is little possibility that the strength of the water shielding sheet is lowered. From the viewpoint of obtaining such effects more remarkably, the MFR of polyethylene is more preferably 1.5 g / 10 min to 7 g / 10 min.

  The water shielding sheet may contain other resin components in addition to the ethylene-vinyl acetate copolymer and polyethylene. The content of other resin components is preferably in the range of 30% by mass or less, more preferably in the range of 10% by mass or less, with respect to the total mass of the water shielding sheet. Other resins are not particularly limited, and for example, polyolefin resins such as polypropylene, polybutene, ethylene-propylene copolymer, and ethylene-vinyl alcohol copolymer can be used. Moreover, the water-impervious sheet may contain an antioxidant, a heat stabilizer, or the like in an amount of 10% by mass or less with respect to the entire mass of the water-impervious sheet as necessary.

  The water shielding sheet preferably has a thickness of 0.1 mm to 3 mm, and more preferably 0.3 mm to 2 mm. If the thickness of the water-impervious sheet is 0.1 mm to 3 mm, the waterproof sheet is excellent in handleability during construction. The thickness of the water shielding sheet is measured according to JIS K 6250 8.1 (A method).

Said water barrier sheet tensile strength at 20 ° C. as measured in accordance with JIS K 6773, is preferably 10 N / mm ² or more, more preferably 16N / mm ² or more. When the tensile strength is 10 N / mm ² or more, the water shielding sheet is hardly broken. The upper limit with preferable tensile strength is 100 N / mm < ² > or less.

  The water shielding sheet preferably has an elongation at 20 ° C. measured according to JIS K 6773 of 500% or more, and more preferably 600% or more. When the elongation is 500% or more, it becomes easy to construct the waterproof sheet along the arcuate surface of the tunnel or the curved slope of the natural ground. A preferable upper limit of elongation is 1000% or less.

  The water shielding sheet preferably has a tear strength measured according to JIS K 6301 of 400 N / cm or more, and more preferably 500 N / cm or more. When the tear strength is 400 N / cm or more, the water shielding sheet is difficult to tear. The upper limit with preferable tear strength is 2000 N / cm or less.

The waterproof sheet, the other surface of the nonwoven fabric, a plurality of continuous filaments of thickness is 0.1mm~10mm may be integrated sheet-like meshwork formed by irregularly cross. In addition, the other surface of a nonwoven fabric means the surface in which the water-proof sheet | seat is not adhere | attached in a nonwoven fabric.

  Next, a description will be given with reference to the drawings. FIG. 1 is a schematic cross-sectional view of a waterproof sheet according to an embodiment of the present invention. The waterproof sheet 10 according to this embodiment includes a nonwoven fabric 1 and a water shielding sheet 2 disposed on one surface of the nonwoven fabric 1, and the nonwoven fabric 1 and the water shielding sheet 2 are separated from each other at both side edges of the waterproof sheet 10. In other parts, the nonwoven fabric 1 and the water shielding sheet 2 are bonded by surface bonding 3 and point bonding 4. That is, the waterproof sheet 10 includes the non-bonding portions 21 a and 21 b, the surface bonding portion 22, and the point bonding portion 23 of the nonwoven fabric 1 and the water shielding sheet 2. The non-bonding portions 21a and 21b of the nonwoven fabric 1 and the water shielding sheet 2 are free ends.

  When constructing the waterproof sheet 10 at a curved portion of the tunnel, as shown in FIG. 3, the waterproof sheet 10 is disposed along the circumferential direction of the tunnel so as to match the outer peripheral portion 31 of the curved portion of the tunnel 30. At this time, the outer peripheral portion of the curved portion of the tunnel 30 is longer than the inner peripheral portion. Therefore, the waterproof sheet 10 is loosened in the inner peripheral portion of the curved portion of the tunnel 30, but has a point bonding portion 23. Since it is excellent in flexibility, it is easy to follow and arrange in the circumferential direction. Thereafter, a part of the point adhesion portion 23 is cut off at the inner peripheral portion 32 of the curved portion of the tunnel 30 so that the waterproof sheet 10 matches the inner peripheral portion 32 of the curved portion of the tunnel 30. Since the non-woven fabric and the water-permeable sheet are point-bonded at the point bonding portion 23 adjacent to the non-bonding portion (free end portion) 21b, the cutting work is easy to perform according to the circumferential length of the tunnel and the length of the curve.

  Examples will be described below. In addition, this invention is not limited by the following Example.

Example 1
Water shielding sheet: 75% by mass of ethylene-vinyl acetate copolymer (Mitsui / Dupont Polychemical Co., Ltd., trade name: EV260) with respect to the total mass of the water shielding sheet, linear low density polyethylene (Prime Polymer Co., Ltd.) Manufactured, trade name: SP2040) including 25% by mass, thickness 0.91 A water shielding sheet having a thickness of mm, a tensile strength of 20.5 N / mm ² , an elongation of 890%, and a tear strength of 510 N / cm was used. The tensile strength and elongation of the water shielding sheet were measured at 20 ° C. according to JIS K 6773. The tear strength of the water shielding sheet was measured at 20 ° C. according to JIS K 6301.
Non-woven fabric: A spunbonded non-woven fabric having a polypropylene fiber of 100% by mass, a basis weight of 350 g / m ² and a thickness of 3 mm was used.

  The waterproof sheet shown in FIG. 1 was obtained using the above-mentioned water-impervious sheet and nonwoven fabric. Specifically, after a hot melt adhesive made of an ethylene-vinyl acetate copolymer is adhered to a predetermined location on the water shielding sheet 2, the adhesive is adhered to one side of the surface. A hot melt adhesive composed of an adhesive ethylene-vinyl acetate copolymer was attached to the portion to be dotted. Next, the waterproof sheet 10 was obtained by bonding the nonwoven fabric 1 to the water shielding sheet 2 to which the adhesive was attached. At both side edges of the waterproof sheet 10, the nonwoven fabric 1 and the water shielding sheet 2 are separated from each other, and at other portions, the nonwoven fabric 1 and the water shielding sheet 2 are bonded by surface bonding 3 and point bonding 4. That is, the waterproof sheet 10 includes the non-bonded portions 21 a and 21 b, the surface bonded portion 22, and the point bonded portion 23 of the nonwoven fabric 1 and the water shielding sheet 2. In this example, the overall width of the nonwoven fabric 10 was 6000 mm, the width of the non-adhesive portion 21a was 250 mm, and the width of the non-adhesive portion 21b was 800 mm.

In FIG. 2, arrangement | positioning of the adhesion point in the point adhesion part 23 of the waterproof sheet 10 was shown. The overall width Wa of the point adhesion portion 23, that is, the distance between the adhesion point 101 and the adhesion point 108 was 1160 mm. The maximum width of the point adhesion portion was 19.3% of the entire width of the waterproof sheet. At point bonding portion 23, the distance L _a between the bonding spots 108 and 208 adjacent in the longitudinal direction was 250 mm. The distance W _1a between the adhesion points 101 and 102, the distance W _1b between the adhesion points 103 and 104, the distance W _1c between the adhesion points 105 and 106, and the adhesion point 107, which are the shortest distances between adjacent adhesion points in the width direction The distance W _1d between 108 was 100 mm. The distance W ₂ between adjacent adhesion points 102 and 103 in the width direction and the distance W ₃ between adhesion points 104 and 105 were both 300 mm. The distance W ₄ between the adhesion points 106 and 107 in the width direction was 160 mm.

(Comparative Example 1)
The same water shielding sheet and nonwoven fabric as in Example 1 were used. A hot melt adhesive made of an ethylene-vinyl acetate copolymer was adhered in a planar shape except for both side edges of the water shielding sheet. Next, the waterproof sheet of the comparative example 1 was obtained by bonding a nonwoven fabric to the water shielding sheet to which the adhesive was adhered.

  The waterproof sheet 10 obtained in Example 1 is arranged along the circumferential direction of the tunnel so as to match the outer peripheral portion 31 of the curved portion of the tunnel 30 as shown in FIG. 3 at the curved portion (R600) of the tunnel. Set up. At this time, since the outer peripheral portion is longer than the inner peripheral portion at the curved portion of the tunnel 30, the waterproof sheet 10 is loosened at the inner peripheral portion 32 of the curved portion of the tunnel 30. By having it, the waterproof sheet 10 had flexibility and was easy to arrange | position along the circumferential direction. Thereafter, the waterproof sheet 10 was matched with the inner peripheral portion 32 of the curved portion of the tunnel 30 by cutting off a part of the point adhesion portion 23 in the inner peripheral portion 32 of the curved portion of the tunnel 30. In the point adhesion part 23, since the nonwoven fabric 1 and the water shielding sheet 2 are not surface-bonded and there is a part where the nonwoven fabric 1 and the water shielding sheet 2 are separated, a part of the point adhesion part 23 is discarded. Workability was good.

  As shown in FIG. 3, the waterproof sheet obtained in Comparative Example 1 is aligned with the curved portion (R600) of the tunnel, as shown in FIG. When arranged along the direction, it was difficult to arrange along the circumferential direction because there was no point adhesion portion.

DESCRIPTION OF SYMBOLS 1 Nonwoven fabric 2 Water shielding sheet 3 Surface adhesion 4 Point adhesion 10 Waterproof sheet 21a and 21b Non-adhesion part 22 Surface adhesion part 23 Point adhesion part 30 Tunnel 31 The outer peripheral part 32 of the curve part of a tunnel 32 108, 201-208 Adhesive point

Claims (4)

A waterproof sheet comprising a nonwoven fabric and a water shielding sheet disposed on one surface of the nonwoven fabric,
At both side edges in the width direction of the waterproof sheet, the nonwoven fabric and the water shielding sheet are separated from each other, and at other portions, the nonwoven fabric and the water shielding sheet are bonded by surface bonding and point bonding. ,
The point adhesion portion is present in a portion adjacent to one or both side edges in the width direction of the waterproof sheet,
The waterproof sheet according to claim 1, wherein the maximum width of the point adhesion portion is 12.5% to 30% of the entire width of the waterproof sheet.   The waterproof sheet according to claim 1, wherein a minimum distance between adjacent adhesion points in the width direction in the point adhesion portion is 100 mm to 300 mm. The waterproof sheet according to claim 1 or 2, wherein a distance between adjacent adhesion points in the longitudinal direction in the point adhesion portion is 200 mm to 500 mm. The one end of the waterproof sheet according to any one of claims 1 to 3 is matched with the outer periphery of the curved portion of the tunnel , and the longitudinal direction of the waterproof sheet is the circumferential direction of the tunnel cross section . After disposing the waterproof sheet so as to extend along the inner peripheral part of the curved portion of the tunnel, by cutting off a part of the point adhesion portion at the other end in the longitudinal direction of the waterproof sheet , method of constructing a waterproof sheet which comprises bringing Itasa case the other end portion in the longitudinal direction on the inner peripheral portion of the curve portion of the tunnel.

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