JP2526932C - - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waterproof sheet which can be effectively used to discharge spring water to the outside without any trouble in civil engineering works such as tunnel works. Conventional technology and problems to be solved by the invention Conventionally, as seen in the NATM method, a waterproof sheet is interposed between the primary lining concrete and the secondary lining concrete of the tunnel, and from the primary lining concrete side. Of the spring water (spring from underground into the tunnel) is prevented from leaking to the secondary lining concrete side.
As shown in the figure, a sheet in which a water-permeable sheet b having a buffering property such as a nonwoven fabric is bonded to a water-impermeable base sheet a is known (Japanese Utility Model Laid-Open No. 59-69295). In this waterproof sheet, the water permeable sheet b is arranged on the primary lining concrete side so that spring water from the primary lining concrete side flows down into the water permeable sheet b. When used in a tunnel for a long time in places with
Sediment contained in the spring water accumulates in the water-permeable sheet b and blocks the spring passage,
There is a problem that the water permeability and the waterproof performance are deteriorated, so that it cannot be used permanently for a long period of time. The present invention has been made to improve the above circumstances, hardly clogging with earth and sand, even when used in tunnels and the like where a large amount of sediment and a large amount of spring water is generated,
It is an object of the present invention to provide a waterproof sheet that effectively exhibits its function over a long period of time. Means for Solving the Problems In order to achieve the above object, the present invention provides a waterproof sheet in which a water-permeable sheet is laminated on one surface of a water-impermeable sheet, wherein the water-permeable sheet has a large number of linear bodies crossing each other. At the same time, these linear bodies have undulating irregularities bonded to each other at at least a part of each intersection, and the size of the mesh is 0.1 to 20 mm and the height is 1
That a sheet-like mesh body is ~30mm is interposed between the second nonwoven of the first nonwoven fabric and the fiber density 0.07~0.15g / cm ³ fiber density 0.01 to 0.05 g / cm ³ Wherein the water-permeable sheet is laminated on the water-impermeable sheet such that the second nonwoven fabric is on the water-impermeable sheet side. Here, as the sheet-like net constituting the water-permeable sheet, the thickness of the linear body is 0.5 to 3 mm, and the mesh size of the sheet-like net is 0.1 to 20 mm, The sheet-like net having a height of 1 to 30 mm is used. The mesh size in the present invention indicates the maximum distance between two adjacent linear bodies.
Since two adjacent linear bodies form a plane or a three-dimensional space, the distance is perpendicular to an arbitrary point of one linear body and a tangent to the point, and a plane including the point and another line It refers to the linear distance from the point where the object intersects. In the waterproof sheet of the present invention, the water-permeable sheet has the above-mentioned sheet-like mesh interposed between the first non-woven cloth having a low fiber density and the second non-woven cloth having a high fiber density. The body constitutes the headrace. Therefore, when the waterproof sheet of the present invention is used, for example, to guide and discharge spring water from a tunnel, spring water from the ground side passes through the first nonwoven fabric of the water-permeable sheet to form a water channel formed by a sheet-like mesh. Flows and is discharged outside. Here, in the case of the waterproof sheet of the present invention, even if spring water contains a considerable amount of earth and sand, the first nonwoven fabric has a low fiber density, so that clogging by the earth and sand does not easily occur and the first nonwoven fabric has Most of the earth and sand flowing into the sheet-like mesh from the sheet is discharged from the water channel formed by the sheet-like mesh together with the spring water, so that the water-permeable sheet is unlikely to be clogged. That is, in the present invention, since the headrace channel is formed of the above-mentioned special sheet-like net having relatively large mesh-like undulations, the spring water from the primary lining concrete passing through the first non-woven fabric is used. Flows down through the reticulated body (the voids of the reticulated body) and is discharged to the outside. At this time, even if a large amount of sediment is contained in the spring water, the first nonwoven fabric and the sheet-shaped reticulated body are separated by the sediment. The clogging hardly occurs, and the water supply passage is reliably secured, so that the spring water is always reliably guided to the outside and the sediment is discharged together with the spring water. Therefore, even when used for a long time, excellent running water performance is exhibited, and permanent use is enabled. In addition, since the sediment in the spring water is discharged through the headrace, the earth and sand hardly penetrate into the second nonwoven fabric having a high fiber density. Even if flow and clogging occur, as described above, the spring discharge function has a coarse fiber density, and the first is difficult to cause clogging.
There is no problem because it is secured by the nonwoven fabric and the headrace made of sheet-like mesh,
The second nonwoven fabric effectively exerts a function as a cushioning material from a ground pressure on the impermeable sheet and a protrusion. Hereinafter, embodiments of the present invention will be described with reference to the drawings. Embodiment 1 FIG. 1 shows a waterproof sheet according to an embodiment of the present invention. This waterproof sheet is obtained by laminating a water-permeable sheet B on one side of a water-impermeable sheet A. In the water-permeable sheet B, reference numerals 1 and 2 denote a first nonwoven fabric and a second nonwoven fabric made of a fibrous web, respectively, and 3 denotes a sheet-like mesh having undulating irregularities interposed between the first and second nonwoven fabrics 1 and 2. A void portion of the mesh body 3 is configured as a water conduit 4. The water-permeable sheet B includes first and second sheets on both sides of the mesh body 3.
Nonwoven fabrics 1 and 2 are formed by laminating them and integrating them by an appropriate means such as an adhesive or a needle punch method. Here, as the water-impermeable sheet A, a synthetic resin sheet such as polyvinyl chloride, polyethylene, polypropylene, an ethylene-vinyl acetate copolymer, an ethylene-acrylic copolymer, or the like is preferable. It is preferable to set it to 3 to 6 mm. As the first and second nonwoven fabrics 1 and 2 constituting the water-permeable sheet B, a nonwoven fabric made of a synthetic resin such as polyethylene, polypropylene, or polyester is preferably used. Here, the first nonwoven fabric as the fiber density of 0.01 to 0.05 g / cm ^3, as the second nonwoven fiber density using those 0.07~0.15g / cm ^3. As shown in FIGS. 2 and 3, the sheet-like reticulated body 3 is made of a thin synthetic resin wire such as polyamide, polyester, or polyolefin such as polyethylene or polypropylene, or a metal wire coated with a synthetic resin such as polyvinyl chloride. , Or a large number of linear bodies 5 such as metal wires, intersecting each other, changing the direction irregularly in the horizontal direction and the thickness direction and extending from one to the other. 6 is formed in a net-like sheet having undulating irregularities 7 adhered to each other at least in part, and has a shape retention property and rigidity for maintaining such a shape. In this case, the thickness of the linear body 5 constituting the sheet-like net-like body 3 is 0.5 to 3 mm.
It is preferable that the size of the mesh 8 of the sheet-like net 3 is 0.1 to 2
It is preferably 0 mm, particularly preferably 1 to 10 mm. Further, it is preferable that the height h of the sheet-like mesh body 3, that is, the interval between the top of the highest undulation on the upper side and the top of the highest undulation on the bottom is 1 to 30 mm, particularly 2 to 10 mm. . In addition, the first and second nonwoven fabrics 1 and 2 and the reticulated body 3 may be completely bonded to each other,
In order to improve the workability and handleability of the waterproof sheet, both may be partially joined with an adhesive or the like to be integrated. Further, the thickness of the water-permeable sheet B is preferably 5 to 20 mm in a state where the first and second nonwoven fabrics 1 and 2 and the mesh body 3 are combined and integrated. Further, in laminating the water-permeable sheet B such that the second nonwoven fabric 2 is on the side of the water-impermeable sheet A, the water-impermeable sheet A and the water-permeable sheet B may be completely bonded. In order to improve the workability and handleability of the above, both may be partially joined with an adhesive or the like to be integrated. When the above-mentioned waterproof sheet is used for inducing and discharging the spring water in the tunnel, the first nonwoven fabric 1 is disposed toward the ground side, whereby the spring sheet from the tunnel ground side is provided. Water flows into the first nonwoven fabric 1 having a coarse fiber density, flows through the first nonwoven fabric 1, flows into the headrace channel 4, and is discharged. In this case, the spring water contains a considerable amount of mud and soil. However, since the first nonwoven fabric 1 into which the spring water flows has a coarse fiber density, clogging with mud and earth and sand is unlikely to occur, and the mesh 3 forming the water conduit 4 has a large number. The linear bodies intersect each other and extend randomly from one side to the other in the horizontal and irregular directions, and these many continuous linear bodies adhere to each other at least partially at each intersection. A sheet with a relatively large mesh with undulating irregularities Therefore, Dodoro, without causing clogging due to sediment, in which can be discharged Dodoro, the sediment with spring water. Therefore, most of the mud and earth and sand pass through the first nonwoven fabric 1 and are discharged from the headrace channel 4, so that a good spring water discharge effect is maintained for a long period of time. Can also be reliably discharged. Further, in this case, the second nonwoven fabric 2 has a high fiber density, and the spring water accompanied with the mud flows into the second nonwoven fabric 2 so that the clogging is caused by the mud, the earth and sand. However, since the second nonwoven fabric 2 is not disposed on the ground side but on the water-impermeable sheet A side, the discharge of spring water accompanied with mud and soil is prevented by the first nonwoven fabric 1 and the water conduit 4. Therefore, the buffer function of the water-impermeable sheet A by the second nonwoven fabric 2 is effectively exhibited. Further, in this case, since the mesh 3 has good shape retention and rigidity, the mesh does not shrink due to the pressure applied by the placement of the secondary lining concrete and the mesh is not reduced. Ensure water permeability. Therefore, this waterproof sheet can exhibit excellent water permeability over a long period of time. In the present invention, a water channel may be formed by laminating a plurality of sheet-like nets. In addition, other configurations may be variously changed without departing from the spirit of the present invention. Effect of the Invention The waterproof sheet of the present invention hardly causes clogging even if it is disposed at a place where spring water with a lot of sediment is discharged, exhibits a good drainage function over a long period of time and exhibits an excellent buffer function I do. Therefore, the waterproof sheet of the present invention can be suitably used for discharging spring water in a tunnel with a lot of earth and sand, and has an excellent cushioning effect on concrete walls mixed with steel fibers used in tunnel construction. It is shown.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view showing an embodiment of the present invention, FIG. 2 is an enlarged plan view of a mesh used in the embodiment, FIG. 3 is an enlarged side view of the mesh, FIG. FIG. 4 is a sectional view of a conventional waterproof sheet. A: water-impermeable sheet, B: water-permeable sheet, 1 ... first nonwoven fabric, 2
..Second nonwoven fabric, 3 ... sheet-like net, 4 ... headrace, 5 ... linear,
6 ... intersection, 7 ... undulating irregularities

Claims (1)

[Claims] 1. In a waterproof sheet in which a water-permeable sheet is laminated on one side of a water-impermeable sheet, the water-permeable sheet has a large number of linear bodies crossing each other, and these linear bodies mutually cross at least a part of each intersection. A sheet-like mesh having undulating irregularities and a mesh size of 0.1 to 20 mm and a height of 1 to 30 mm has a fiber density of 0.01 to 0.05 g / cm ^3. First nonwoven fabric and fiber density 0.07 ~
0.15 g / cm ³ interposed between the second nonwoven fabric and the water-permeable sheet, and the second nonwoven fabric was laminated on the water-impermeable sheet such that the second nonwoven fabric was on the water-impermeable sheet side. Features a waterproof sheet.