JP2009179942A - Seepage control sheet - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a seepage control sheet with secure imperviousness to water, which can be easily laid on a slope face. <P>SOLUTION: This seepage control sheet 1 is constituted by superposing two inside continuous-fiber nonwoven fabrics 20 which are seamed together in the state of sandwiching a dispersedly-arranged superabsorbent resin 11 in between, a resin layer 30 which is made of a thermoplastic resin material and used for covering an outside surface of the inside continuous-fiber nonwoven fabric 20, and an outside continuous-fiber nonwoven fabrics 40 for covering an outside surface of the resin layer 30. The two inside continuous-fiber nonwoven fabrics 20 (20a and 20b) are seamed together by a needle punch: the resin layer 30 is bonded to the outer surface of the inside continuous-fiber nonwoven fabric 20 by heat seal; and the outside continuous-fiber nonwoven fabrics 40 is bonded to the outer surface of the resin layer 30 by heat seal. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a water-impervious water-proof sheet used in civil engineering work, for example.

Conventionally, for example, many water shielding sheets that form a waterproof layer covering the surface of a final disposal site for waste have been proposed (see Patent Document 1). The water-impervious sheet described in Patent Document 1 has a configuration in which a sheet-like base material sandwiching a dispersed powdery superabsorbent resin is covered with a resin layer. By laying this water-impervious sheet, it is possible to prevent the penetration of harmful substances dissolved in sewage and rainwater from the waste into the ground.
Further, even when the sheet-like base material is torn, the water-absorbing performance is ensured because the highly water-absorbent resin sandwiched between the sheet-like base materials absorbs water and expands.

Japanese Patent Laid-Open No. 9-52323

However, since the above-mentioned water shielding sheet is assumed to be laid on a substantially horizontal surface, when laying on the slope of a pond or river, the water shielding sheet is slid by the resin layer on the surface of the water shielding sheet. The construction performance and the slope stability of the slope after construction were not satisfactory.
It is an object of the present invention to provide a water shielding sheet that has a reliable water shielding property and can be easily laid on a slope.

  The present invention includes two inner fibrous sheet bodies sandwiched and sewn with dispersed superabsorbent resin, a resin sheet covering the outer surface of the inner fibrous sheet body, and an outer surface of the resin sheet. It is a water shielding sheet constituted by laminating an outer fibrous sheet body to be laminated.

  The superabsorbent resin may be a natural superabsorbent resin such as cellulose / acrylonitrile polymer or starch / acrylonitrile polymer, acrylic acid / vinyl alcohol copolymer, sodium acrylate polymer, acrylic acid / acrylamide copolymer. It includes a synthetic superabsorbent resin such as a polymer, a modified polyethylene oxide or an isobutylene / maleic anhydride copolymer.

  The fibrous sheet body that constitutes the inner fibrous sheet body and the outer fibrous sheet body includes a sheet-like material composed of a nonwoven fabric, a woven fabric, a knitted fabric or the like, and the inner fibrous sheet body and the outer fibrous sheet body. It comprises comprising a sheet | seat body with the same or different kind of fibrous sheet body.

  The resin sheet includes a thermoplastic resin such as polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC), etc., and an outer surface of an inner fibrous sheet formed by lamination, coating, or application. Including a coating layer for coating.

  Thereby, the water-proof sheet | seat which has reliable water-proofing can be comprised. Specifically, since the outer surface of the inner fibrous sheet is covered with a resin sheet, a water-impervious sheet having a water-impervious and durable property can be formed. In addition, since the highly water-absorbing resin dispersed and arranged between the two stitched inner fibrous sheet bodies is sandwiched, even if the inner fibrous sheet body covered with the resin sheet is torn, the highly water-absorbing resin is absorbed. Since the water-soluble resin absorbs water and expands, water shielding performance can be ensured.

  Furthermore, since the outer surface of the resin sheet is covered with an outer fibrous sheet body, the water shielding performance of the water shielding sheet is improved and the frictional force between the construction surface on which the water shielding sheet is laid is improved. Therefore, for example, even when the water shielding sheet of the present invention is laid on the slope, the construction of the water shielding sheet and the protection of the slope on the water shielding sheet are achieved without the water shielding sheet sliding on the slope. While improving the workability in member construction, slope stability of the slope after slope protection construction can be improved.

As an aspect of the present invention, the inner fibrous sheet body and the outer fibrous sheet body can be composed of a long fiber nonwoven fabric.
The long fiber nonwoven fabric includes a polyester long fiber nonwoven fabric.

  Thereby, compared with the case where the said inner side fibrous sheet body and the said outer side fibrous sheet body are comprised with a short fiber woven fabric, the thickness of a water shielding sheet can be formed thinly. Therefore, handling of the water-impervious sheet is facilitated, and the workability in the construction of the water-impervious sheet can be improved.

  Further, as an aspect of the present invention, the resin sheet is made of a thermoplastic resin material, the two inner fibrous sheet bodies are stitched with a needle punch, and the resin sheet is bonded to the inner fibrous layer by heat fusion. While adhering to the outer surface of a sheet body, the said outer fibrous sheet body can be adhere | attached on the outer surface of a resin sheet by heat sealing | fusion.

  Thereby, the water-proof sheet | seat which can ensure a lamination state reliably can be comprised. Specifically, in order to sew two inner fibrous sheet bodies sandwiched with dispersed superabsorbent resins with a needle punch, the two inner fibrous sheet bodies are sandwiched with the superabsorbent resin sandwiched inside. It can be securely sutured. In particular, when the inner fibrous sheet is composed of a long-fiber non-woven fabric, the number of fibers drawn out to the counterpart inner fibrous sheet increases, and the stitching strength can be increased because the fibers can be sewn with long fibers. it can.

  In addition, since the resin sheet is composed of a thermoplastic resin material, the resin sheet is easily and reliably bonded to the outer surface of the inner fibrous sheet body by thermal fusion, and the outer fibrous sheet body is heated. It can be bonded to the outer surface of the resin sheet by fusing.

  In addition, since the outer surface of the inner fibrous sheet body is covered with a resin sheet, the inner fibrous sheet body is drawn out near the surface of the inner fibrous sheet body, particularly when the inner fibrous sheet body is composed of a long-fiber nonwoven fabric. The long fibers can be fixed with a resin sheet made of a thermoplastic resin material, and the stitching strength by the needle punch can be further improved.

  Further, as an aspect of the present invention, the basis weight of the inner surface fibrous sheet body on the surface side of the two inner fibrous sheet bodies is equal to or less than the basis weight of the bottom inner fibrous sheet body on the bottom side. In addition, the basis weight of the outer fibrous sheet body can be configured to be equal to or less than the basis weight of the surface inner fibrous sheet body.

  Since it comprised by said structure, the thickness and weight of a water-impervious sheet, and also a cost increase can be suppressed, and a water-impervious sheet with high workability can be comprised, ensuring water impermeability and durability.

  Further, the present invention is a slope protection construction method in which the above-described water shielding sheet is laid on a slope and a slope protection member is formed on the surface side of the water shielding sheet laid on the slope. .

  As a result, the slope protection construction method that improves the workability in laying the water shielding sheet and constructing the slope protection member on the water shielding sheet and improving the slope stability of the slope after the slope protection construction is achieved. Can be realized.

  In addition, since the water shielding sheet can ensure reliable water shielding, there is no need to create a bladed earth layer that spreads the bladed earth as a waterproof layer on the ground surface, thus reducing the plating soil layer creation process. Therefore, the construction period can be shortened in the slope protection work.

As an aspect of the present invention, the slope protection member can be configured by filling a curable filler in a cloth form material laid on the surface side of the water-proof sheet.
The cloth mold material is a mold material in which a permeable woven fabric is formed in a bag shape and a curable filler is injected into the bag-shaped portion.
The curable filler includes curable materials such as mortar and cement milk.

  Thus, the slope protection member can be formed by laying the cloth formwork material and injecting a curable filler such as mortar into the laid cloth formwork material. Therefore, the slope protection member can be easily formed as compared with the case where the slope protection member is laid by a secondary product such as a tension block that requires height adjustment and laying of empty kneaded mortar.

Moreover, as an aspect of the present invention, a nonwoven fabric layer can be provided on the side surface of the water shielding sheet of the cloth form frame member laid on the surface side of the water shielding sheet.
Thereby, the frictional force which arises on the cloth form frame laid on the surface of the water-impervious sheet laid on the slope and the opposing surface of the water-impervious sheet can be increased. Therefore, it is possible to improve the workability of the laying construction of the cloth formwork and to improve the slope stability of the slope after the slope protection construction without sliding the surface of the water shielding sheet where the cloth formwork is inclined. .

  Further, the present invention is a cloth form material that is a flexible sheet and forms a filling space that allows filling of a curable filler therein, and is dispersed at least on the bottom surface on the laying side in the laying state. An inner fibrous sheet body that sandwiches the placed superabsorbent resin, a resin sheet that covers the bottom surface of the inner fibrous sheet body, and an outer fibrous sheet body that covers the bottom surface of the resin sheet are laminated. It is characterized by having a water shielding layer.

  Thereby, the cloth-made frame material provided with the water-impervious layer having a certain water-proof property on the bottom surface can be configured. Therefore, the slope protection member can be formed by laying the cloth form material of the present invention and injecting a curable filler such as mortar into the laid cloth form material.

  In addition, since the water-insulating layer ensures reliable water-blocking, it is not necessary to create a bladed earth layer that spreads the bladed earth as a waterproof layer on the natural ground surface, thus reducing the plating soil layer creation process. The construction period can be shortened in the slope protection work.

  Specifically, since the bottom surface of the inner fibrous sheet body is covered with a resin sheet, a water-impervious and durable water-impervious layer is formed. In addition, since the highly water-absorbing resin dispersed and arranged between the bottom surface of the cloth formwork material and the inner fibrous sheet body is sandwiched, even if the water shielding layer is torn, the highly water-absorbing resin absorbs water. In this way, the water can be inflated to ensure the water shielding performance.

  In addition, since the bottom surface of the resin sheet is covered with the outer fibrous sheet body, it is possible to ensure friction with the construction surface on which the cloth formwork material is laid. Therefore, for example, even when the cloth mold material of the present invention is laid on the slope, the workability of laying the cloth mold material is improved without the cloth mold material sliding on the law surface. The slope stability of the slope after the slope protection construction can be improved.

As an aspect of this invention, the said fibrous sheet body can be comprised with a long-fiber nonwoven fabric, and the said resin sheet can be comprised with a thermoplastic resin material.
Thereby, compared with the case where the said inner side fiber sheet body and the said outer side fiber sheet body are comprised with a short fiber woven fabric, the thickness of a water shielding layer can be formed thinly. Therefore, handling of the cloth formwork material becomes easy, and the workability in the laying construction of the cloth formwork material can be improved.

  In addition, since the resin sheet is composed of a thermoplastic resin material, the resin sheet is easily and reliably bonded to the outer surface of the inner fibrous sheet body by thermal fusion, and the outer fibrous sheet body is heated. It can be bonded to the outer surface of the resin sheet by fusing.

  According to the present invention, it is possible to provide a water shielding sheet that has a reliable water shielding property and can be easily laid on a slope.

Hereinafter, an embodiment of the present invention will be described.
The water shielding sheet 1 will be described together with FIG. 1 showing a perspective view for explaining the configuration of the water shielding sheet 1 and FIG. 2 showing a longitudinal sectional view of the water shielding sheet 1.

The water-impervious sheet 1 is a water-impervious sheet for forming a waterproof layer in a civil engineering structure or the like, and is formed in a long shape with an appropriate width.
The water-impervious sheet 1 includes a superabsorbent resin layer 10 in which a powdery superabsorbent resin 11 is dispersedly arranged from the inside in the thickness direction, and the superabsorbent resin layer 10 sandwiched between and covered inside. Two inner long fiber nonwoven fabrics 20, a resin layer 30 that coats the outer surface of the inner long fiber nonwoven fabric 20 with a thermoplastic resin, and an outer long fiber nonwoven fabric 40 that covers the outside of the resin layer 30. The layers are stacked in this order from the inside.

The superabsorbent resin layer 10 is configured by dispersing and arranging acrylic superabsorbent polymer 11 having a particle size distribution of 150 to 650 μm in an amount of 300 g / m ² . However, the present invention is not limited to this. For example, natural superabsorbent resins such as cellulose / acrylonitrile polymer, starch / acrylonitrile polymer, modified polyethylene oxide, synthetic system such as isobutylene / maleic anhydride copolymer, etc. In addition, when used in wet soil, a synthetic superabsorbent resin is more preferable. Also, distributed content is not limited to the amount of 300 g / ^{m 2,} only to be distributed in an amount of 200-500 g / ^{m 2.}

The inner long fiber nonwoven fabric 20 is made of a polyester long fiber nonwoven fabric. Specifically, the inner surface long-fiber non-woven fabric 20a covering the upper surface side of the superabsorbent resin layer 10 is composed of a polyester long-fiber non-woven fabric with a basis weight of 100 g / m ² and the bottom surface covering the bottom surface side of the super-absorbent resin layer 10. The inner long fiber nonwoven fabric 20b is composed of a polyester long fiber nonwoven fabric having a basis weight of 200 g / m ² . And the surface inner side long fiber nonwoven fabric 20a and the bottom surface inner side long fiber nonwoven fabric 20b are stitched | sutured by the needle punch of the density of 80 pieces / cm < ² >.

In addition, the surface inner side long fiber nonwoven fabric 20a and the bottom inner long fiber nonwoven fabric 20b are not limited to the said fabric weight, The polyester long fiber nonwoven fabric of the range of the fabric weight of 100-300 g / m < ² > should just be used.

The resin layer 30 is composed of a heat-fusible polyethylene sheet having a thickness of 80 to 100 μm and 50 g / m ² , and thermocompression-bonding rolls on both surfaces of the inner long fiber nonwoven fabric 20 (20a, 20b) stitched by a needle punch. It is a film formed by being pressed.

Since the resin layer 30 is formed by pressing a heat-fusible polyethylene sheet with a thermocompression-bonding roll, the inner long-fiber non-woven fabric on one side that has reached the vicinity of the surface of the inner-side non-woven fabric 20 on the other side by needle punching. 20 suture fibers are fixed, and the stitching strength by needle punching between the inner long fiber nonwoven fabrics 20 is improved.
The resin layer 30 is not limited to the above specific gravity, and a heat-sealable polyethylene sheet having a specific gravity in the range of ^{20 to} 150 g / m ² may be used.

The outer long fiber nonwoven fabric 40 is composed of a polyester long fiber nonwoven fabric having a basis weight of 50 g / m ² . The resin layer 30 and the outer long fiber nonwoven fabric 40 are thermally fused by pressing the outer long fiber nonwoven fabric 40 against the resin layer 30 heat-sealed to the outer surface of the inner long fiber nonwoven fabric 20 with a thermocompression-bonding roll. I wear it.
In addition, the outer long fiber nonwoven fabric 40 is not limited to the said fabric weight, The polyester long fiber nonwoven fabric of the range of the fabric weight of 50-300 g / m < ² > should just be used.

  The water-impervious sheet 1 configured in this manner can have a reliable water-impervious property. Specifically, since the outer surface of the inner long-fiber nonwoven fabric 20 is covered with the resin layer 30, the water-impervious sheet 1 having water-proof and durable properties is formed. In addition, since the superabsorbent resin layer 10 composed of the superabsorbent resin 11 dispersed and arranged between the two stitched inner long fiber nonwoven fabrics 20 is sandwiched and included inside, it is temporarily covered with the resin layer 30. Even when the inner long fiber nonwoven fabric 20 is torn, the highly water-absorbent resin 11 absorbs water and expands, so that the water shielding performance can be ensured.

  Moreover, since the inner long fiber nonwoven fabric 20 and the outer long fiber nonwoven fabric 40 are made of a polyester long fiber nonwoven fabric, compared to the case where the inner long fiber nonwoven fabric 20 and the outer long fiber nonwoven fabric 40 are made of a short fiber woven fabric, The thickness of the water shielding sheet 1 can be reduced. Therefore, handling of the water-impervious sheet 1 is facilitated, and workability in laying the water-impervious sheet 1 can be improved.

  Further, the resin layer 30 is made of a thermoplastic resin material, and the two inner long fiber nonwoven fabrics 20 (20a, 20b) are stitched with a needle punch, and the resin layer 30 is thermally fused to the outside of the inner long fiber nonwoven fabric 20. While adhering to the surface, since the outer long non-woven fabric 40 is adhered to the outer surface of the resin layer 30 by thermal fusion, an integrated laminated state can be maintained.

  Specifically, since the two inner long fiber nonwoven fabrics 20 sandwiching the superabsorbent resin layer 10 composed of the dispersed superabsorbent resin 11 are stitched with a needle punch, the superabsorbent polymer is surely dispersed and arranged inside. The two inner long fiber nonwoven fabrics 20 can be stitched in a state where the resin 11 is sandwiched. Further, since the inner long fiber nonwoven fabric 20 is composed of a polyester long fiber nonwoven fabric, the number of fibers drawn to the inner long fiber nonwoven fabric 20 on the other side is increased, and further, stitching with a long fiber is possible, so that the stitching strength by needle punching Can be enhanced.

  Moreover, since the inner long fiber nonwoven fabric 20 is comprised with the polyester long fiber nonwoven fabric while coat | covering the outer surface of the inner long fiber nonwoven fabric 20 with the resin layer 30, the polyester length pulled out to the surface vicinity of the inner long fiber nonwoven fabric 20 The fibers can be fixed with the resin layer 30 made of a thermoplastic resin material, and the stitching strength by the needle punch can be further improved.

Moreover, while comprising the bottom inner long fiber nonwoven fabric 20b used as the bottom side among the two inner long fiber nonwoven fabrics 20 with the polyester continuous fiber nonwoven fabric of 200g / m < ² >, the surface inner long fiber nonwoven fabric 20a used as the surface side is comprised. The polyester continuous fiber non-woven fabric having a basis weight of 100 g / m ² and the outside long fiber nonwoven fabric 40 is made of a polyester long fiber nonwoven fabric having a basis weight of 50 g / m ^2. The thickness and weight of the water sheet 1 and further increase in cost can be suppressed, and a water shielding sheet with high workability can be configured.

In addition, since the usage-amount of the highly water-absorbent resin 11 was comprised by the quantity of the range of 200-500 g / m < ² >, while being able to ensure sufficient water shielding effect, economical efficiency can be ensured. Specifically, if the amount of the superabsorbent resin 11 used is 200 g / m ² or less, a sufficient water shielding effect cannot be obtained, and if it is 500 g / m ² or more, it becomes uneconomical.

  Further, since the entire surface of the inner long nonwoven fabric 20 is stitched with a needle punch, it is possible to prevent the superabsorbent resin 11 from being extruded due to the swelling pressure when the superabsorbent resin 11 absorbs water and swells. More specifically, since it can act on the torn portion of the inner long-fiber nonwoven fabric 20 without losing the swelling pressure of the highly water-absorbent resin 11, reliable water shielding performance can be obtained.

  Further, since the surface of the inner long fiber nonwoven fabric 20 is covered with the resin layer 30 and the outer surface thereof is covered with the outer long fiber nonwoven fabric 40, the swollen superabsorbent resin 11 is narrow between the inner long fiber nonwoven fabrics 20. It can be confined in the region, and the water shielding ability by the high-density superabsorbent resin layer 10 can be obtained. In addition, since the inner long fiber nonwoven fabric 20, the resin layer 30 and the outer long fiber nonwoven fabric 40 form a three-layer structure, moisture penetration can be prevented, and water other than tearing, for example, moisture contained in natural ground It is possible to prevent the highly water-absorbent resin 11 from absorbing water and becoming swollen.

Next, the slope protection method using the water-impervious sheet 1 configured as described above will be described with reference to FIG.
As shown in FIG. 3 (a), the slope protection method using the water shielding sheet 1 lays the water shielding sheet 1 on the natural ground slope surface 111 of the original natural ground 110, and The ground improvement layer 120 is formed on 111a, the embankment layer 130 is formed on the surface portion of the water-impervious sheet 1 other than the hail portion 111a, and the stretch block 141 is spread on the slope surface of the embankment layer 130 on the basin 100 side. The surface protection member 140 is formed.

  Thereby, since the water of the basin 100 can prevent the water impervious sheet 1 from infiltrating into the natural ground 110, the pond 100 can be constructed because the slope is protected by the durable slope protection member 140.

  In addition, in the conventional slope protection method shown in FIG. 3 (b), bentonite called bladed earth is fastened to the ground slope 111 in order to prevent the water in the reservoir 100 from entering the ground 110. Although the impermeable layer 150 formed by solidification was created, by using the impermeable sheet 1, the water of the reservoir 100 can be immersed in the natural ground 110 without creating the impermeable layer 150 by the blade metal soil. Can be prevented. Therefore, it is possible to shorten the construction time for constructing the water shielding layer 150 and the work period in the slope protection work, and to reduce the amount of cut on the surface of the ground 110 corresponding to the layer thickness of the water shielding layer 150. High slope protection work can be realized.

Moreover, since the water-impervious sheet 1 having the above-described configuration is used, even if the water-impervious sheet 1 is torn, the water-impervious performance can be ensured by the swelling pressure of the highly water-absorbent resin 11 that has absorbed water. Since the frictional force between the surface of the ground 110 and the embankment on the surface side and the outer long fiber nonwoven fabric 40 of the water shielding sheet 1 increases, the construction work and the water shielding sheet of the water shielding sheet 1 are performed. Workability is improved in the banking construction on one surface.
Furthermore, the slope stability of the slope after the slope protection construction can be improved by the increased frictional force on the surface of the natural ground 110 and the boundary surface between the embankment and the water shielding sheet 1.

  In the slope protection method using the water-impervious sheet 1, a cloth form frame 220 is laid on the surface of the water-impervious sheet 1, as shown in FIG. The slope protection member 200 may be formed by filling mortar 210 therein. FIG. 4 shows an explanatory view of the slope protection method using the water shielding sheet 1 and the cloth form 220.

  The cloth formwork 220 is a formwork material in which a woven fabric 221 having water permeability is formed in a bag shape, and a mortar 210 that is a curable filler is injected into a bag-like portion from an injection port (not shown). As shown in the enlarged view of the part a, a nonwoven fabric layer 222 is provided on the bottom surface of the cloth mold 220. The nonwoven fabric layer 222 is composed of a polyester long fiber nonwoven fabric bonded to the woven fabric 221 on the bottom surface side of the fabric mold 220 by heat sealing.

  The slope protection method using the water-impervious sheet 1 and the cloth formwork 220 is similar to the slope protection method using the water-impervious sheet 1 to the natural ground slope 111 formed from the original natural ground 110. The impermeable sheet 1 is laid, and the cloth form frame 220 is laid on the surface of the impermeable sheet 1. Then, the slope protection member 200 can be formed by injecting the mortar 210 from the inlet provided in the cloth mold 220 and curing the mortar 210. Note that the ground improvement layer 120 may be formed on the butt portion 111a.

  As a result, the slope protection member 200 having water impermeability can be easily formed. Specifically, as compared with the case where the slope protection member 140 is formed by spreading the tension block 141, it is possible to save time and effort such as leveling of the empty kneading mortar that also functions as height adjustment for spreading the tension block 141. Therefore, it is possible to reduce the construction effort and the construction period for constructing the slope protection member 200.

  Further, since the non-woven fabric layer 222 composed of the polyester long-fiber non-woven fabric is provided on the woven fabric 221 on the bottom surface side of the cloth mold frame 220, the frictional force generated between the surface of the water shielding sheet 1 and the bottom surface of the cloth mold frame 220. And the workability in the laying work of the cloth form 220 can be further improved. Furthermore, the slope stability of the slope after the slope protection construction can be further improved by the increased frictional force between the surface of the water shielding sheet 1 and the bottom surface of the cloth mold 220.

  Further, as shown in FIG. 5, a slope protection member may be formed using a water-impervious cloth mold 300 integrally formed with the water-impervious sheet 1 and the cloth mold 220. FIG. 5 shows an explanatory view of the water-proof cloth mold 300 by a longitudinal sectional view.

  The water-impervious cloth mold 300 is a mold material in which a permeable woven cloth 301 is formed in a bag shape, and a mortar 210 that is a curable filler is injected into the bag-like portion from an injection port (not shown). As shown in the enlarged view of part b in FIG. 5, a water shielding layer 310 is provided on the bottom surface side of the woven fabric 301.

  The water-impervious layer 310 includes a superabsorbent resin layer 311 formed of a powdery superabsorbent resin dispersedly disposed on the bottom surface of the woven fabric 301 on the bottom surface side of the water-impervious fabric mold 300, and a woven fabric 301 on the bottom surface side. An inner long fiber nonwoven fabric 312 that is sandwiched between and coated with a superabsorbent resin layer 311 inside, a resin layer 313 that coats the outer surface of the inner long fiber nonwoven fabric 312 with a thermoplastic resin, and the resin layer The outer long fiber nonwoven fabric 314 covering the outer side of 313 is laminated in this order.

The superabsorbent resin layer 311 is arranged and arranged in a dispersion amount of a particle size distribution of 150 to 650 μm and 300 g / m ² , similar to the acrylic superabsorbent polymer 11 of the water shielding sheet 1. Yes.
The inner long fiber nonwoven fabric 312 is composed of a polyester long fiber nonwoven fabric having a basis weight of 200 g / m ² as in the case of the bottom inner long fiber nonwoven fabric 20b of the water shielding sheet 1, and is 80 / cm with respect to the woven fabric 301 on the bottom surface side. It is sewn with ² needle punches.

The resin layer 313 is composed of a heat-fusible polyethylene sheet having a thickness of 80 to 100 μm and 50 g / m ² , similar to the resin layer 30 of the water-impervious sheet 1, and the inner long fiber nonwoven fabric 312 is pressed by a thermocompression-bonding roll. It is a film formed on the surface of Since this heat-fusible polyethylene sheet is pressed by a thermocompression-bonding roll, the suture fibers of the woven fabric 301 that reach the vicinity of the surface of the inner long fiber nonwoven fabric 312 are fixed by needle punching, and the woven fabric 301 and the inner long length are fixed. The stitching strength by needle punching with the fiber nonwoven fabric 312 is improved.

The outer long-fiber non-woven fabric 314 is a polyester long-fiber non-woven fabric having a weight per unit area of 50 g / m ² similar to that of the outer long-fiber non-woven fabric 40 of the water shielding sheet 1 and is heat-sealed to the surface of the inner long-fiber non-woven fabric 312. The layer 313 is pressed by a thermocompression-bonding roll and is heat-sealed to the resin layer 313.

  By using the water-impervious cloth formwork 300 configured in this way for the slope protection work, the same effect can be obtained as compared with the slope protection work method using the water shielding sheet 1 and the cloth formwork 220. In addition, by laying the water-impervious cloth formwork 300, the two laying steps of the water-impervious sheet 1 and the cloth formwork 220 in the slope protection method using the water-impervious sheet 1 and the cloth formwork 220 are combined into one process. Can do. Therefore, it is possible to reduce the construction effort and construction period for constructing the slope protection member 200.

In correspondence between the configuration of the present invention and the above-described embodiment,
The inner fibrous sheet body of this invention corresponds to the inner long fiber nonwoven fabric 20, 312;
Similarly,
The bottom inner fibrous sheet corresponds to the bottom inner long fiber nonwoven fabric 20b,
The surface inner fibrous sheet corresponds to the surface inner long fiber nonwoven fabric 20a,
The resin sheet corresponds to the resin layers 30 and 313,
The outer fibrous sheet body corresponds to the outer long fiber nonwoven fabric 40, 314,
The slope corresponds to the natural slope 111,
The cloth formwork material corresponds to the cloth formwork 220 or the watertight cloth formwork 300,
The curable filler corresponds to mortar 210,
The present invention is not limited only to the configuration of the above-described embodiment, and many embodiments can be obtained.

The perspective view explaining the structure of a water shielding sheet. The longitudinal cross-sectional view of a water-impervious sheet. Explanatory drawing about slope protection of a pond. Explanatory drawing about the slope protection construction method using a water-impervious sheet and a cloth formwork. The longitudinal cross-sectional view of the water-proof cloth formwork.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Water impervious sheet 10, 311 ... High water absorption resin layer 11 ... High water absorption resin 20, 312 ... Inner long fiber nonwoven fabric 20a ... Surface inner side long fiber nonwoven fabric 20b ... Bottom inner side long fiber nonwoven fabric 30, 313 ... Resin layer 40, 314 ... Outer long fiber nonwoven fabric 111 ... Natural mountain slope 140, 200 ... Slope protective member 210 ... Mortar 220 ... Fabric formwork 222 ... Nonwoven fabric layer 300 ... Water shielding cloth formwork 310 ... Water shielding layer

Claims (9)

Two inner fibrous sheet bodies sandwiched between the superabsorbent resin dispersedly arranged and stitched;
A resin sheet that covers the outer surface of the inner fibrous sheet;
A water shielding sheet constituted by laminating an outer fibrous sheet covering the outer surface of the resin sheet. The water-impervious sheet according to claim 1, wherein the inner fibrous sheet body and the outer fibrous sheet body are made of a long-fiber nonwoven fabric. The resin sheet is composed of a thermoplastic resin material,
The two inner fibrous sheet bodies are sutured with a needle punch,
While adhering the resin sheet to the outer surface of the inner fibrous sheet body by thermal fusion,
The water shielding sheet according to claim 1 or 2, wherein the outer fibrous sheet body is bonded to the outer surface of the resin sheet by heat sealing. The basis weight of the surface inner fibrous sheet body on the surface side of the two inner fibrous sheet bodies is configured to be equal to or less than the basis weight of the bottom inner fibrous sheet body on the bottom side,
The water shielding sheet according to claim 1, 2 or 3, wherein the basis weight of the outer fibrous sheet is less than or equal to the basis weight of the surface inner fibrous sheet. Laying the water shielding sheet according to any one of claims 1 to 4 on a slope,
A slope protection method for creating a slope protection member on the surface side of the water shielding sheet laid on the slope. The slope protection member,
The slope protection method according to claim 5, wherein a cloth mold material laid on the surface side of the water shielding sheet is filled with a curable filler. The slope protection method according to claim 6, wherein a nonwoven fabric layer is provided on a side surface of the water shielding sheet of the cloth form frame member laid on the surface side of the water shielding sheet. A cloth form material that forms a filling space that allows filling of a curable filler inside with a flexible sheet,
At least on the bottom side that is the laying side in the laying state,
Constructed by laminating an inner fibrous sheet that sandwiches the dispersed superabsorbent resin, a resin sheet that covers the bottom of the inner fibrous sheet, and an outer fibrous sheet that covers the bottom of the resin sheet Fabric formwork with a water-impervious layer. The fibrous sheet body is composed of a long-fiber nonwoven fabric,
The cloth mold material according to claim 8, wherein the resin sheet is made of a thermoplastic resin material.

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