JP2013244704A - Moisture-permeable waterproof sheet with water cutoff property, and method of manufacturing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a moisture-permeable waterproof sheet with a water cutoff property that is inexpensive and can provide a sufficient water cutoff property, and to provide a method of manufacturing the same.SOLUTION: A resin layer 12 composed of a super absorbent polymer (SAP) and hot-melt powder (HM) is formed between sheet-like PP nonwoven fabric 11 and a moisture-permeable waterproof film 13, which is embossed, consequently the moisture-permeable waterproof sheet with a water cutoff property has a structure in which the resin layer 12 including the SAP is sectioned in a grating shape etc., and independent areas are consecutively embossed.

Description

  The present invention relates to a water-resistant moisture-permeable waterproof sheet and a method for producing the same, and more particularly to a water-resistant moisture-permeable waterproof sheet having a water-resistant, moisture-permeable and waterproof property and a method for producing the same.

  While durability of a detached house is demanded, a ventilation layer method using a moisture permeable waterproof sheet is becoming mainstream as a means of preventing condensation in the wall. The moisture-permeable waterproof sheet used in this ventilation layer method is composed of, for example, a non-woven fabric made of high-density polyethylene, and has waterproof properties that prevent rainwater from entering and moisture-permeable properties that allow indoor water vapor to escape outdoors to prevent condensation. It is a provided sheet. However, moisture such as rainwater may enter the moisture permeable waterproof sheet through a nail hole or the like generated when the moisture permeable waterproof sheet is fixed to a wall body or a roof plate material by a tucker or a nail.

  For this reason, a moisture-permeable waterproof sheet that has a water-stopping property such that the nail hole is closed by itself so as to prevent moisture such as rainwater from entering through the nail hole has been proposed (see, for example, Patent Documents 1 and 2). . Patent Document 1 discloses a nonwoven fabric by flash spinning using a polyolefin resin (for example, “Tyvek” (registered trademark) manufactured by Asahi DuPont Flashspun Products Co., Ltd.), or microporous polyethylene, polypropylene, vinyl. A water-permeable and moisture-permeable waterproof sheet comprising a moisture-permeable waterproof sheet with water-proof properties, and a non-slip treatment on the surface, using a synthetic resin film of at least one thermoplastic elastomer selected from alcohol and polyurethane. Is disclosed.

  In Patent Document 2, a first nonwoven fabric and a resin layer made of a foamable resin are laminated on the upper surface of the moisture-permeable waterproof film, and a swelling layer and a second nonwoven fabric are laminated on the lower surface of the moisture-permeable waterproof film. A water permeable and moisture permeable waterproof sheet having the above structure is disclosed. According to this waterproof and moisture-permeable waterproof sheet, the swelling layer around the nail hole by the nail used for fixing absorbs the water that has penetrated through the nail hole and swells, so that the gap around the nail (nail hole) ) To prevent water from entering.

JP 2004-52473 A JP 2010-43496 A

  However, the water-proof moisture-permeable waterproof sheet described in Patent Document 1 obtains water-stopping properties with a thermoplastic elastomer synthetic resin film or the like, but it is difficult to obtain a sufficient water-stopping effect in terms of performance. It has been broken. Moreover, since the desired waterproofing moisture-permeable waterproof sheet is finally manufactured by carrying out anti-slip processing on the surface of the moisture-permeable waterproof sheet, there are many manufacturing processes and the price of the waterproofing moisture-permeable waterproof sheet is high. There is also a problem.

  In addition, the water-permeable and moisture-permeable waterproof sheet described in Patent Document 2 has a structure in which a highly water-absorbing polymer is used as a swelling agent used in the swelling layer and is fixed to the second nonwoven fabric with a binder. The polymer is fixed to the second nonwoven fabric by applying a coating method, a gravure roll method or the like. For this reason, the water-resistant moisture-permeable waterproof sheet described in Patent Document 2 has many manufacturing processes until the end of production, takes time to move to the next manufacturing process after the end of each manufacturing process, is inefficient, There is a problem that the moisture-permeable waterproof sheet becomes expensive. Also, it is said that there is a problem that it is difficult to obtain a sufficient water stop effect in terms of performance.

  This invention is made | formed in view of the above point, and it aims at providing the water-proof moisture-permeable waterproof sheet which is cheap, and can obtain sufficient water-stopping, and its manufacturing method.

  In order to achieve the above object, in the water-resistant moisture-permeable waterproof sheet of the first invention, a resin layer made of a superabsorbent polymer and a hot-melt resin is formed between the sheet-like nonwoven fabric and the moisture-permeable waterproof layer. In addition, a plurality of grid-like embossments are continuously formed by embossing on either the nonwoven fabric or the moisture-permeable waterproof layer.

  In order to achieve the above object, the water-resistant moisture-permeable waterproof sheet of the second invention is laminated in the order of a moisture-permeable waterproof layer, a hot melt resin layer, a superabsorbent polymer layer, and a sheet-like nonwoven fabric. Further, a plurality of lattice-shaped embosses such as a lattice shape are continuously formed by embossing on one of the moisture permeable waterproof layer and the nonwoven fabric.

  In order to achieve the above object, the water-proof moisture-permeable waterproof sheet of the third invention has a structure in which a resin layer is sandwiched between a moisture-permeable waterproof layer and a sheet-like nonwoven fabric, The layer is formed by spraying on the first resin layer made of a hot-melt resin formed in a loop shape or a lattice shape on the surface of either the moisture permeable waterproof layer or the nonwoven fabric, and the first resin layer. And a second resin layer made of a hot water-absorbing polymer and a hot melt resin.

  Moreover, in order to achieve said objective, the manufacturing method of the water-proof moisture-permeable waterproof sheet of 4th invention spread | disperses a superabsorbent polymer and hot-melt powder on the surface of a sheet-like nonwoven fabric or a moisture-permeable waterproof layer, respectively. A resin layer to form a resin layer, a non-woven fabric and a moisture permeable waterproof layer sandwiched between the resin layers and heat-sealed, and a non-woven fabric and moisture permeable waterproof layer of the sheet subjected to the sand laminate process And an embossing step of continuously forming a plurality of partitioned embosses such as a lattice shape.

  In order to achieve the above object, a method for producing a water-proof moisture-permeable waterproof sheet according to a fifth aspect of the present invention comprises applying a hot melt powder to a surface of a sheet-like nonwoven fabric or moisture-permeable waterproof layer to form a hot-melt resin. A coating process for forming a layer, a spraying process for spraying a superabsorbent polymer on the hot melt resin layer applied by the coating process to form a superabsorbent polymer layer, and a nonwoven fabric and a moisture permeable waterproof layer. Sand laminate process in which a hot melt resin layer and a superabsorbent polymer layer are sandwiched between the layers and a non-woven fabric or moisture permeable waterproof layer of the sheet that has undergone the sand laminate process, And an embossing step for continuously forming the partitioned embossing.

  Furthermore, in order to achieve the above object, the method for producing a water-proof moisture-permeable waterproof sheet of the sixth invention is characterized in that liquid hot melt powder is looped or latticed on the surface of a sheet-like nonwoven fabric or moisture-permeable waterproof layer. Highly water-absorbing on the surface on which the first resin layer is formed by the coating step of forming a first layer made of a loop-shaped or lattice-shaped hot melt resin and the coating step of the nonwoven fabric or moisture-permeable waterproof layer From the first resin layer and the second resin layer, a spraying step of spraying a polymer and a hot melt powder of powder to form a second resin layer, and a nonwoven fabric and a moisture permeable waterproof layer between them And a sand laminating step of heat-sealing with the resin layer interposed therebetween.

  According to the present invention, the superabsorbent polymer is partitioned into a plurality of lattices and the like, so that the water stoppage can be improved. Further, according to the present invention, the manufacturing efficiency and the product yield can be improved and the product cost can be reduced as compared with the prior art.

It is a schematic sectional drawing of 1st Embodiment of the water-proof moisture-permeable waterproof sheet of this invention. It is a flowchart explaining the manufacturing method of 1st Embodiment of the water-proof moisture-permeable waterproof sheet of this invention. It is a schematic block diagram of the manufacturing apparatus used with the manufacturing method of the 1st Embodiment of this invention. It is typical sectional drawing of the sheet | seat in each part of FIG. It is a figure which shows each pattern of the embossing by embossing. It is typical sectional drawing of the modification of the water-proof moisture-permeable waterproof sheet of this invention. It is a schematic sectional drawing of 2nd Embodiment of the water-proof moisture-permeable waterproof sheet of this invention. It is a flowchart explaining the manufacturing method of 2nd Embodiment of the water-proof moisture-permeable waterproof sheet of this invention. It is a schematic sectional drawing of 3rd Embodiment of the water-proof moisture-permeable waterproof sheet of this invention. It is a top view explaining the principal part of FIG. It is a flowchart explaining the manufacturing method of 3rd Embodiment of the water-proof moisture-permeable waterproof sheet of this invention.

  Next, embodiments of the present invention will be described with reference to the drawings.

(First embodiment)
FIG. 1 shows a schematic cross-sectional view of a first embodiment of a water-resistant moisture-permeable waterproof sheet according to the present invention. As shown in the figure, the water-proof moisture-permeable waterproof sheet 10 of the present embodiment includes a super absorbent polymer (SAP) and a water-permeable waterproof film 13 between a polypropylene (PP) nonwoven fabric 11 and a moisture-permeable waterproof film 13. This is a structure in which a resin layer 12 of hot melt powder (hereinafter also referred to as HM) is sand-laminated and the surface of the moisture permeable waterproof film 13 is embossed. Therefore, the surface of the moisture permeable waterproof film 13 has a recess 14 formed by embossing.

Here, the ratio of SAP and HM constituting the resin layer 12 is 6: 4 to 3: 7, and the application amount is, for example, 40 to 80 g / m ² . Further, the emboss is partitioned into a lattice shape.

  Next, the manufacturing method of the water-resistant moisture-permeable waterproof sheet 10 of this Embodiment is demonstrated with FIGS. FIG. 2 is a flowchart for explaining the manufacturing method of the first embodiment of the water-proof moisture-permeable waterproof sheet according to the present invention. FIG. 3 is a schematic configuration diagram of a manufacturing apparatus used in the manufacturing method of the present embodiment. 4 is a schematic cross-sectional view of the sheet in each part of FIG.

First, SAP and hot melt powder (HM) are sprayed on the PP nonwoven fabric 11 (step S1). In this step S1, the sheet-like PP nonwoven fabric 11 is unwound from the unwinder and supplied onto the belt conveyor 21 of FIG. As this PP nonwoven fabric 11, for example, a polypropylene spunbond bonbon (40 g / m ² ) manufactured by Shinwa Co., Ltd. is used. On the surface of the PP nonwoven fabric 11 moving together with the belt conveyor 21, SAP (for example, Sun Fresh ST-500D manufactured by Sanyo Chemical Co., Ltd.) is sprayed at a rate of 20 g / m ² from a spreader 22 called a sinter. Similarly, hot melt powder (HM) is sprayed at a rate of 30 g / m ² from a spreader 23 called a sinter. As a result, as shown in the cross-sectional view of FIG. 4A, a resin layer 12 made of SAP and hot melt resin is formed on the surface of the PP nonwoven fabric 11. The application order of SAP and HM may be opposite to that shown in FIG. 3, or both may be mixed and applied. In addition, a superabsorbent polymer manufactured by Sumitomo Seika Co., Ltd. or Nippon Shokubai Co., Ltd. is also preferably used for SAP.

Subsequently, the sheet shown in the sectional view of FIG. 4A is moved to the belt conveyor 24 of FIG. 3, and the moisture permeable waterproof film 13 unwound from the unwinder is coated thereon (step S2). As the moisture permeable waterproof film 13, for example, “POLAM PH-50” (moisture permeability: 5300 g / m ² · 24 h) manufactured by Tokuyama Corporation is used. And it heat-seal | fuses with the hot roll press machine 25a and 25b from both the surface and the back surface of the sheet | seat which moves on the belt conveyor 24 in the state which laminated | stacked the moisture-permeable waterproof film 13, and the resin layer 12 and PP nonwoven fabric 11 and moisture-permeable Sand lamination is performed between the waterproof film 13 and the waterproof film 13. As a result, as shown in the cross-sectional view of FIG. 4B, a sheet in which the PP nonwoven fabric 11, the SAP and HM resin layers 12, and the moisture permeable waterproof film 13 are laminated is formed.

  Then, embossing is performed on the surface of the sheet (step S3). In step S3, the laminated sheet of the cross section of FIG. 4B after sand laminating processing, which subsequently moves on the belt conveyor 24, moves while being pressed between the embossing roll 26 and the flat roll 27 disposed opposite to each other, Embossing is performed on the surface of the laminated sheet, and the waterproof and moisture-permeable waterproof sheet 10 shown in the sectional view of FIG. 4C (this is the same as the sectional view of FIG. 1) is manufactured. As shown in the cross-sectional views of FIG. 4C and FIG. 1, the waterproof and moisture-permeable waterproof sheet 10 is not formed by the embossing so that the thickness of the SAP and HM resin layers 12 is constant and continuous. The SAP and HM resin layers 12 are partitioned into a lattice shape or the like so that embossing in independent areas is continuous. The water-proof moisture-permeable waterproof sheet 10 after this embossing is wound up by a winder.

Since the embossing by the above embossing is for improving the water-stopping property, the embossing pattern must have a continuous embossing based on a lattice shape. The size of each emboss, that is, the size of the lattice is preferably 1 cm ² or less, but is preferably about 5 mm × 5 mm. The SAP of the resin layer 12 has a water stop effect while being surrounded by the emboss. If this embossing is not provided, the SAP will supply water continuously and the water stop effect will not appear. Accordingly, the embossing plays an important role, and this embossing provides a high-performance water-stopping property as will be described later.

  The embossed pattern may be any pattern as long as the edges of the crocodile skin or rhombus pattern are continuous (partitioned in a lattice shape or the like) as shown in FIGS. 5 (A) to (D). Good.

  In the present embodiment, as shown in FIG. 3, the PP nonwoven fabric 11 is manufactured to the water-proof moisture-permeable waterproof sheet 10 through a series of steps (only one manufacturing step) that is temporally continuous. Compared to conventional waterproof and moisture-permeable waterproof sheets manufactured by multiple manufacturing processes intermittently, manufacturing time is shortened, and as a result, manufacturing efficiency and product yield are improved, and product cost is lower than before. Can do.

  In the above description, the moisture-permeable waterproof film 13 is embossed, but the embossing may be basically performed on either the PP nonwoven fabric 11 or the moisture-permeable waterproof film 13. Therefore, the PP nonwoven fabric 11 may be embossed. FIG. 6 shows a schematic cross-sectional view of the water-proof moisture-permeable waterproof sheet 10 ′ in this case. In the case of manufacturing the water-proof and moisture-permeable waterproof sheet 10 ′, the moisture-permeable and waterproof film 13 may be supplied to the belt conveyor 21 of FIG. 3 and the PP nonwoven fabric 11 may be supplied to the belt conveyor 24.

  It should be noted that the embossing is preferably performed by embossing the PP nonwoven fabric side on the back side in order to smoothly finish the moisture permeable waterproof film side used as the front side, considering the adhesion of the overlapped portion of the sheet with the waterproof tape ( The same applies to the second embodiment described later).

(Second Embodiment)
Next, a second embodiment of the present invention will be described. FIG. 7: shows the schematic sectional drawing of 2nd Embodiment of the water-proof moisture-permeable waterproof sheet which becomes this invention. As shown in the figure, in the water-resistant moisture-permeable waterproof sheet 30 of the present embodiment, a hot-melt resin 32 is melt blown coated on the surface of a moisture-permeable waterproof film 31, and a superabsorbent polymer (SAP) 33 is further formed thereon. Is embossed after the PP non-woven fabric 34 is bonded. A recess 35 is formed on the surface by embossing. The hot melt resin 32 is a resin layer formed by applying a liquid hot melt powder. The HM constituting the resin layer 12 together with the SAP is used for spraying to form a resin layer. These are hot melt powders, and there is no change in using hot melt powders.

  Next, the manufacturing method of the water-resistant moisture-permeable waterproof sheet 30 of this Embodiment is demonstrated with the flowchart of FIG. In addition, the water-proof moisture-permeable waterproof sheet 30 of this Embodiment can be manufactured with the manufacturing apparatus similar to FIG.

First, a hot melt resin is melt blown applied to the moisture permeable waterproof film 31 (step S11). In this step S11, the surface of, for example, “Poram PH-50” (moisture permeability: 5300 g / m ² · 24h) of Tokuyama Corporation used as the moisture permeable waterproof film 31 is heated and melted, for example, EVA, polyethylene ( The hot melt resin 32 is formed by applying hot melt powder made of PE) or a mixture thereof in a mist form (so-called melt blown application) at about 10 to 15 g / m ² .

Subsequently, as a SAP 33, for example, Sun Fresh ST-500D manufactured by Sanyo Chemical Co., Ltd. is sprayed at a rate of 20 g / m ^{2 on} the surface of the hot-melt resin 32 on the moisture permeable waterproof film 31 (step S12). Subsequently, for example, a polypropylene spunbond bonbon (40 g / m ² ) manufactured by Shinwa Co., Ltd. is bonded to the surface of the SAP 33 as the PP nonwoven fabric 34 (step S13). That is, a sand lamination process is performed in which the moisture-permeable waterproof film 31 and the PP nonwoven fabric 34 are heat-sealed by sandwiching a layer made of the hot melt resin 32 and a layer made of the SAP 33 between them.

  And finally, the embossing for improving water-stop performance is performed on the surface of the sheet obtained in step S12 (step S14). Thereby, the water-resistant moisture-permeable waterproof sheet 30 of the cross section shown in FIG. 7 is manufactured. The embossing in step S14 is performed by the embossing roll 26 and the flat roll 27 arranged opposite to each other as shown in FIG. 3, and the embossing pattern is a crocodile skin or rhombus as shown in FIGS. Edges such as patterns are continuous (partitioned in a lattice shape or the like). In this embodiment as well, embossing may be performed on the PP nonwoven fabric side, contrary to FIG.

  Next, it will be described that the waterstop is improved by embossing. If the SAP leaks from the tucker or the nail hole, the water is held until the SAP swells and the water stop effect is not achieved immediately. However, the SAP in the water permeable and moisture permeable waterproof sheet 10, 10 ′ or 30 of each embodiment is partitioned into a lattice shape or the like by embossing performed on the moisture permeable waterproof film or PP nonwoven fabric and has independent areas. Since it is formed so as to be continuous, the independent areas of the SAP absorb and swell the water that has entered the space, respectively, and water-stopping is expressed.

  In this embodiment, since the water-proof moisture-permeable waterproof sheet 30 is manufactured through a series of processes (only one manufacturing process) that is temporally continuous in the same manner as in the first embodiment, Compared to conventional waterproof and moisture-permeable waterproof sheets manufactured by multiple manufacturing processes intermittently, manufacturing time is shortened, and as a result, manufacturing efficiency and product yield are improved, and product cost is lower than before. Can do.

(Third embodiment)
Next, a third embodiment of the present invention will be described. FIG. 9: shows schematic sectional drawing of 3rd Embodiment of the water-proof moisture-permeable waterproof sheet which becomes this invention. As shown in the figure, the water-proof moisture-permeable waterproof sheet 40 of the present embodiment is such that the hot-melt resin is looped or latticed on the surface of the moisture-permeable waterproof film 41 as shown in the plan view of FIG. Then, SAP and HM are each dispersed as shown in the plan view of FIG. 10B to form the resin layer 42. Then, a PP nonwoven fabric 43 is formed on the surface of the resin layer 42. Unlike the above water-proof moisture-permeable waterproof sheets 10, 10 ′, and 30, the water-proof and moisture-permeable waterproof sheet 40 of the present embodiment is not embossed.

  Next, the manufacturing method of the water-resistant moisture-permeable waterproof sheet 40 of this Embodiment is demonstrated with the flowchart of FIG.

First, a hot melt resin is melt blown applied to the moisture permeable waterproof film 41 (step S21). In this step S21, the surface of, for example, “Poram PH-50” (moisture permeability: 5300 g / m ² · 24h) of Tokuyama Corporation used as the moisture permeable waterproof film 41 is heated and melted, for example, EVA, polyethylene ( PE) system or a hot-melt powder to about 10 to 15 g / m ² comprising a mixed system or the like thereof, FIG. 10 (a plan view looped applied as shown in the a) (melt blown coating) to loop The hot melt resin is formed. In addition, you may form hot-melt resin in a grid | lattice form.

Thereby, although the hot-melt resin is applied to the surface of the moisture-permeable waterproof film 41, the surface portion to which the hot-melt resin is not applied remains because it is applied in a loop shape or a lattice shape. Then, SAP (for example, Sun Fresh ST-500D manufactured by Sanyo Chemical Co., Ltd.) is sprayed at a rate of 20 g / m ^{2 on} the surface of the moisture permeable waterproof film 41 to which the hot melt resin is applied in a loop shape or a lattice shape. Subsequently, hot melt powder (HM) is sprayed at a rate of 30 g / m ² (step S22). As a result, as shown in the plan view of FIG. 10B, the entire surface of the moisture permeable waterproof film 41 is covered with the hot-melt resin, SAP, and HM to form the resin layer 42.

Finally, for example, a polypropylene spunbond bonbon (40 g / m ² ) manufactured by Shinwa Co., Ltd. is bonded to the surface of the resin layer 42 as the PP nonwoven fabric 43 (step S23). In other words, the resin layer 42 made of hot melt resin, SAP, and hot melt powder (HM) is sandwiched between the moisture permeable waterproof film 41 and the PP non-woven fabric 43, and sand lamination is performed by heat fusion. Thereby, the water-proof moisture-permeable waterproof sheet 40 which is not embossed shown in sectional drawing of FIG. 9 is manufactured.

  The hot melt resin may be applied to either the moisture permeable waterproof film 41 or the PP nonwoven fabric 43 to be sanded, but it is desirable to use a base material on the side where the tucker or nails are driven. Further, the application order of SAP and HM may be opposite to the above, or both may be mixed and applied.

  In the water-resistant moisture-permeable waterproof sheet 40 of the present embodiment, SAP is dispersed on a hot melt resin formed in a loop shape or a lattice shape by application, so that the SAP is independent of the loop or lattice of the hot melt resin. In this way, as in the case of embossing, each of the SAP independent areas absorbs the water that has entered the space and swells to express water-stopping. .

  Moreover, since this embodiment also manufactures the water-proof moisture-permeable waterproof sheet 40 through a series of processes (only one manufacturing process) continuous in time, it is manufactured by a plurality of manufacturing processes intermittent in time. Compared with the conventional water-proof moisture-permeable waterproof sheet, the manufacturing time is shortened. As a result, the manufacturing efficiency and the product yield are improved, and the product cost can be made lower than before.

  Next, the waterproof test results of the water-proof moisture-permeable waterproof sheets 10, 30, and 40 of the above embodiments and the comparative sheet will be described.

The comparative sheet is an unembossed sheet shown in the cross-sectional view of FIG. That is, the above comparative sheet is made of 20 g / m ^{2 of} SAP (SunFresh ST-500D manufactured by Sanyo Chemical Co., Ltd.) on the surface of PP nonwoven fabric 11 of polypropylene spunbond bonbon (40 g / m ² ) manufactured by Shinwa Co., Ltd. Then, hot melt powder (HM) was sprayed at 30 g / m ² to form a resin layer 12, and “Poram PH-50” (moisture permeability: 5300 g / m) manufactured by Tokuyama Corporation as a moisture permeable waterproof film 13. ² · 24h), and is a sand laminated sheet in which the resin layer 12 is formed between the PP nonwoven fabric 11 and the moisture permeable waterproof film 13.

  The above-mentioned water stop test is a test for leakage after standing for 24 hours at a water head pressure of 150 mm. Table 1 shows the results of the water stop test.

In Table 1, the moisture permeability is a measured value of a value after leaving for 24 hours at 40 ° C. × 90% RH (based on JIS A 6111 2004). The moisture permeability of “POLAM PH-50” used as a moisture-permeable waterproof film is 5300 (0.108 m ² · s · Pa / μg). In Table 1, “*” is a moisture resistance value (m ² · s · Pa / μg), and JIS A 6111 2004 of the moisture permeable waterproof sheet A (0.19 or less) and the moisture permeable waterproof sheet B (0.13 or less). It conforms to the moisture permeation resistance value specified in.

  In Table 1, the water-stopping performance of the water-proof moisture-permeable waterproof sheets 10, 30, and 40 of each embodiment is superior to that of the comparative sheet as indicated by ◯, and is highly evaluated compared to the comparative sheet. It was confirmed that was obtained.

  In the present invention, a non-woven fabric (for example, “Tyvek” (registered trademark)) having moisture permeability and waterproofness may be used instead of the moisture permeable waterproof films 13, 31, 41 in each of the above embodiments. it can. Therefore, in this invention, it has a moisture-permeable waterproof layer which consists of a moisture-permeable waterproof film or the nonwoven fabric provided with moisture permeability and waterproofness. Note that the PP nonwoven fabrics 11, 34, and 43 are nonwoven fabrics that are not waterproof.

  Further, the present invention is not limited to the above-described embodiments and modifications. For example, non-woven fabrics and moisture-permeable waterproof films are commercially available products such as polyolefin-based and polyester-based ones that have required performance. It is possible to arbitrarily select from. Moreover, as a nonwoven fabric, the thing of the core sheath structure of PET / PE or PP / PE can also be used. In addition, as the nonwoven fabric or the moisture permeable waterproof film, a film having heat shielding properties, a closed cell foam having heat insulation properties, or the like can be used.

  Furthermore, in each of the above-described embodiments and modifications, the optimum varieties can be arbitrarily selected according to the purpose for the water supply amount, the size, the application amount, and the like of the SAP particles.

  The water-proof moisture-permeable waterproof sheet of the present invention can be used as it is as a housing wall or roofing material as it is, or can be used even if it is integrated with a ventilation layer material (corrugated structure or the like). As a result, it is expected to be used in the field of building materials such as housing siding and roof base materials, and agricultural greenhouses. SAP powder was used to provide water-repellent waterproofing sheet, but other properties such as zeolite and diatomaceous earth can be used instead of SAP to provide functions such as humidity control and deodorization. A moisture permeable waterproof sheet is obtained.

10, 10 ', 30, 40 Water-repellent moisture permeable waterproof sheet 11, 34, 43 Polypropylene (PP) nonwoven fabric 12 Resin layers 13, 31, 41 of super absorbent polymer (SAP) and hot melt powder (HM) Films 14, 35 Recesses 21, 24 Belt conveyors 22, 23 Spreader (sinter)
25a, 25b Hot roll press machine 26 Emboss roll 27 Flat roll 32 Hot melt resin 33 High water absorption polymer (SAP)
42 Resin layer of hot melt resin, super absorbent polymer (SAP) and hot melt powder (HM)

In order to achieve the above object, the water-resistant moisture-permeable waterproof sheet according to the first invention is either a superabsorbent polymer or a hot-melt resin dispersed between the sheet-like nonwoven fabric and the moisture-permeable waterproof layer on the other side. resin layer is formed, and, for the either the nonwoven and moisture permeable waterproof layer emboss processing is given, not formed resin layer in a region provided with a plurality of embossing by embossing, a plurality of The resin layer is partitioned by embossing and formed so that independent areas are continuous .

To achieve the above object, the water-blocking moisture permeable waterproof sheet of the second invention is a sand laminated structure sandwiching the resin layer between the moisture-permeable waterproof layer and the sheet-like nonwoven fabric, it said The resin layer is sequentially formed on the first resin layer formed by applying melt-blown hot melt powder in a loop shape or a lattice shape on one surface of the moisture permeable waterproof layer or the nonwoven fabric, and the first resin layer. A second resin comprising a superabsorbent polymer and a hot melt resin formed on both the loop-shaped or lattice-shaped hot melt powder application portion and the portion where no application portion exists on the surface of the first resin layer Characterized by consisting of layers

In order to achieve the above object, the water-resistant moisture-permeable waterproof sheet of the third invention has a structure in which a resin layer is sandwiched between a moisture-permeable waterproof layer and a sheet-like nonwoven fabric, and is laminated. The resin layer includes a first resin layer made of a hot-melt resin formed by applying melt-blown hot melt powder in a loop shape or a lattice shape on one surface of the moisture-permeable waterproof layer and the nonwoven fabric, and the moisture-permeable waterproof layer Alternatively , the second is formed by sequentially spraying a superabsorbent polymer and hot melt powder on both the loop-shaped or lattice-shaped first resin layer forming portion and the first resin layer non-forming portion of the surface of the nonwoven fabric . It is characterized by comprising a resin layer.

Moreover, in order to achieve said objective, the manufacturing method of the water-proof moisture-permeable waterproof sheet of 4th invention is the surface of a sheet-like nonwoven fabric or moisture-permeable waterproof layer on the surface of a sheet-like nonwoven fabric or moisture-permeable waterproof layer. In addition, one of the superabsorbent polymer and the hot melt powder is sprinkled on the other to form a resin layer in which the superabsorbent polymer layer and the hot melt resin layer are laminated, and a nonwoven fabric and a moisture permeable waterproof layer. The resin layer is divided into independent areas without forming the resin layer on either the sand laminating process in which the resin layer is sandwiched between the layers and the non-woven fabric or moisture permeable waterproof layer of the sheet that has undergone the sand laminating process. And an embossing step of continuously forming a plurality of embosses.

In order to achieve the above object, a method for producing a water-proof moisture-permeable waterproof sheet according to a fifth aspect of the present invention comprises applying a hot melt powder to a surface of a sheet-like nonwoven fabric or moisture-permeable waterproof layer to form a hot-melt resin. A coating process for forming a layer, a spraying process for spraying a superabsorbent polymer on the hot melt resin layer applied by the coating process to form a superabsorbent polymer layer, and a nonwoven fabric and a moisture permeable waterproof layer. subjecting the sand laminating step of thermally fusing across the hot-melt resin layer and the superabsorbent polymer layer, the embossing for on either sand sheet that has passed through the laminating process of the nonwoven fabric and moisture permeable waterproof layer between, The superabsorbent polymer layer and the hot melt resin layer are not formed in the region where a plurality of embosses are provided by embossing, and the superabsorbent polymer layer and Ttomeruto resin layer is characterized by comprising a embossed forming as independent areas are partitioned are consecutive.

Furthermore, in order to achieve the above object, the method for producing a water-proof moisture-permeable waterproof sheet of the sixth invention is characterized in that liquid hot melt powder is looped or latticed on the surface of a sheet-like nonwoven fabric or moisture-permeable waterproof layer. A coating step of forming a first layer made of a loop-shaped or lattice-shaped hot melt resin by applying a melt blown, and a loop-shaped or lattice-shaped first layer formed by the coating step of the surface of the moisture permeable waterproof layer or the nonwoven fabric. A spraying step of sequentially spraying a superabsorbent polymer and hot melt powder on both the resin layer forming part and the first resin layer non-forming part to form a second resin layer; a nonwoven fabric and a moisture permeable waterproof layer And a sand laminating step in which the resin layer in which the first resin layer and the second resin layer are laminated is sandwiched between them.

In order to achieve the above object, the water-resistant moisture-permeable waterproof sheet according to the first invention is either a superabsorbent polymer or a hot-melt resin dispersed between the sheet-like nonwoven fabric and the moisture-permeable waterproof layer on the other side. and a laminated structure where a resin layer is formed, against either of the nonwoven fabric and moisture permeable waterproof layer, and embossing is performed in order to form embossed to partitioning with separate areas of the resin layer, The first area where the resin layer does not exist between the nonwoven fabric and the moisture-permeable waterproof layer and the second area where the resin layer exists between the nonwoven fabric and the moisture-permeable waterproof layer are alternately formed. To do.

In order to achieve the above object, the water-resistant moisture-permeable waterproof sheet of the second invention is a laminate in which a moisture-permeable waterproof layer , a hot melt resin layer, a superabsorbent polymer layer, and a sheet-like nonwoven fabric are laminated in this order. One of the moisture permeable waterproof layer and the nonwoven fabric of the structure is embossed to form an embossed area in which the superabsorbent polymer layer and the hot melt resin layer are partitioned to form independent areas. The first area where the superabsorbent polymer layer and the hot melt resin layer do not exist between the moisture waterproof layer and the nonwoven fabric, and the first area where the superabsorbent polymer layer and the hot melt resin layer exist between the moisture permeable waterproof layer and the nonwoven fabric. The two areas are alternately formed .

In order to achieve the above object, the water-resistant moisture-permeable waterproof sheet of the third invention has a structure in which a resin layer is sandwiched between a moisture-permeable waterproof layer and a sheet-like nonwoven fabric, and is laminated. The resin layer is a first hot melt resin formed by applying a hot melt powder on the surface of one of the moisture permeable waterproof layer and the nonwoven fabric and applying a melt blown in a loop shape or a lattice shape with a part of the surface exposed . of the resin layer, the first covering the front surface of the moisture-permeable waterproof layer or nonwoven fabric loop-like or lattice-like and the resin layer forming portion, of the moisture-permeable waterproof layer or nonwoven is not covered by the first resin layer It is characterized by comprising a second resin layer formed by sequentially spraying a superabsorbent polymer and hot melt powder on both the surface exposed portion .

In order to achieve the above object, the method for producing a water-permeable moisture-permeable waterproof sheet according to the fourth aspect of the present invention provides one of a superabsorbent polymer and a hot melt powder on the surface of a sheet-like nonwoven fabric or moisture-permeable waterproof layer. A sanding process for forming a resin layer in which a superabsorbent polymer layer and a hot-melt resin layer are laminated by spraying on the other side, and a heat-sealing sandwich sandwiching a resin layer between the nonwoven fabric and the moisture-permeable waterproof layer and laminating step, for one either sand sheet that has passed through the laminating process of the nonwoven fabric and moisture permeable waterproof layer, a resin layer and a embossing process of forming a plurality of embossments to separate areas compartmentalized, nonwovens and Toru 1st area where the resin layer does not exist between the moisture waterproof layers and the 2nd area where the resin layer exists between the nonwoven fabric and the moisture permeable waterproof layer are alternately formed. Breathable waterproof Characterized in that to produce the over bets.

In order to achieve the above object, a method for producing a water-proof moisture-permeable waterproof sheet according to a fifth aspect of the present invention comprises applying a hot melt powder to a surface of a sheet-like nonwoven fabric or moisture-permeable waterproof layer to form a hot-melt resin. A coating process for forming a layer, a spraying process for spraying a superabsorbent polymer on the hot melt resin layer applied by the coating process to form a superabsorbent polymer layer, and a nonwoven fabric and a moisture permeable waterproof layer. hot melt and sand lamination step of heat fusing across the resin layer and the superabsorbent polymer layer, relative to either the nonwoven fabric and moisture permeable waterproof layer of the sheet that has passed through the sand lamination process, the superabsorbent polymer between the and a embossed step of the layer and the hot melt resin layer to form a plurality of embossments to separate the area is partitioned, the superabsorbent polymer layer between the moisture-permeable waterproof layer and nonwoven and 2nd invention by which the 1st area where a tmelt resin layer does not exist, and the 2nd area where a superabsorbent polymer layer and a hot-melt resin layer exist between a moisture-permeable waterproof layer and a nonwoven fabric are formed alternately It is characterized by producing a water-proof moisture-permeable waterproof sheet .

Furthermore, in order to achieve the above object, the method for producing a water-proof moisture-permeable waterproof sheet of the sixth invention is characterized in that a liquid hot melt powder is applied to the surface of the sheet-like nonwoven fabric or moisture-permeable waterproof layer, and a part of the surface is applied. a coating step of exposed allowed to form a first resin layer having a loop-shaped loop or a grid pattern meltblown applied to looped or lattice-like hot melt resin, which is formed by a coating process, moisture-permeable waterproof layer or a first resin layer forming portion covering the front surface of the nonwoven loop-like or lattice-like, highly absorbent to both the surface exposed portion of the moisture-permeable waterproof layer or nonwoven is not covered by the first resin layer A first resin layer and a second resin layer are laminated between a spraying step of sequentially spraying a polymer and hot melt powder to form a second resin layer, and a nonwoven fabric and a moisture permeable waterproof layer. Heat-sealed with the resin layer sandwiched between them And a de lamination process, characterized in that the production of water-blocking moisture permeable waterproof sheet of the third invention.

Furthermore, in order to achieve the above object, the method for producing a water-proof moisture-permeable waterproof sheet of the sixth invention is characterized in that a liquid hot melt powder is applied to the surface of the sheet-like nonwoven fabric or moisture-permeable waterproof layer, and a part of the surface is applied. a coating step of forming a first resin layer exposed thereby to consist loop-like or lattice-like in meltblown applied to looped or lattice-like hot melt resin, which is formed by a coating process, moisture-permeable waterproof layer or A superabsorbent polymer and a hot water are formed on both the first resin layer forming portion that covers the surface of the nonwoven fabric in a loop shape or a lattice shape, and the moisture permeable waterproof layer or the surface exposed portion of the nonwoven fabric that is not covered by the first resin layer. Resin in which a first resin layer and a second resin layer are laminated between a spraying step of sequentially spraying melt powder to form a second resin layer, and a nonwoven fabric and a moisture permeable waterproof layer. Sandrami that is heat-sealed across layers And a over preparative step, characterized in that the production of water-blocking moisture permeable waterproof sheet of the third invention.

Claims (6)

  A resin layer made of a superabsorbent polymer and a hot-melt resin is formed between the sheet-like nonwoven fabric and the moisture-permeable waterproof layer, and a plurality of the nonwoven fabric and the moisture-permeable waterproof layer are embossed on one of the nonwoven fabric and the moisture-permeable waterproof layer. A water-proof, moisture-permeable waterproof sheet, characterized in that partitioning embossments such as a lattice shape are continuously formed.   A moisture permeable waterproof layer, a hot melt resin layer, a superabsorbent polymer layer, and a sheet-like nonwoven fabric are laminated in this order, and either one of the moisture permeable waterproof layer and the nonwoven fabric is embossed to form a plurality of lattices, etc. A water-permeable and moisture-permeable waterproof sheet, wherein the compartmentalized embossing is continuously formed. It is a structure laminated by sandwiching a resin layer between a moisture permeable waterproof layer and a sheet-like nonwoven fabric,
The resin layer includes a first resin layer made of a hot melt resin formed in a loop shape or a lattice shape on one surface of the moisture permeable waterproof layer and the nonwoven fabric, and the first resin layer. A water-permeable, moisture-permeable and waterproof sheet comprising a superabsorbent polymer and a second resin layer each formed of a hot melt resin. A spraying step of spraying a superabsorbent polymer and hot melt powder on the surface of the sheet-like nonwoven fabric or moisture permeable waterproof layer to form a resin layer,
A sand laminating step in which the nonwoven fabric and the moisture permeable waterproof layer are heat-sealed by sandwiching the resin layer between them;
An embossing step of continuously forming a plurality of grid-like embossed sections on either the nonwoven fabric or the moisture permeable waterproof layer of the sheet that has undergone the sand laminating step, and A method for producing a water permeable moisture permeable waterproof sheet, comprising producing a water permeable moisture permeable waterproof sheet. An application step of forming a hot melt resin layer by applying liquid hot melt powder on the surface of the sheet-like nonwoven fabric or moisture permeable waterproof layer;
A spraying step of spraying a superabsorbent polymer on the hot melt resin layer applied by the coating step to form a superabsorbent polymer layer;
A sand laminating step of thermally fusing the non-woven fabric and the moisture permeable waterproof layer with the hot melt resin layer and the superabsorbent polymer layer sandwiched therebetween,
An embossing step of continuously forming a plurality of grid-like embossed sections on either the nonwoven fabric or the moisture permeable waterproof layer of the sheet that has undergone the sand laminating step, and A method for producing a water permeable moisture permeable waterproof sheet, comprising producing a water permeable moisture permeable waterproof sheet. An application step of applying a liquid hot melt powder in the form of a loop or lattice to the surface of a sheet-like nonwoven fabric or moisture permeable waterproof layer to form a first layer made of a loop or lattice hot melt resin;
Scattering that forms a second resin layer by spraying a superabsorbent polymer and a hot melt powder of powder on the surface of the nonwoven fabric or the moisture-permeable waterproof layer on which the first resin layer is formed. Process,
A sand laminating step of heat-sealing the nonwoven fabric and the moisture-permeable waterproof layer with a resin layer composed of the first resin layer and the second resin layer interposed therebetween, A method for producing a water-permeable and moisture-permeable waterproof sheet, characterized in that the water-permeable and moisture-permeable waterproof sheet described above is produced.