JP5052692B1 - Ventilation / waterproof sheet and wall construction method using the same - Google Patents

Abstract

An object of the present invention is to shorten the work time for wall construction and to secure a stable ventilation structure.
A breathable / waterproof sheet is a wall breathable / waterproof sheet and has a structure in which a liner portion and a vent structure portion are laminated. The liner portion 13 is made of a moisture permeable waterproof sheet 11. The moisture-permeable waterproof sheet 11 is made of a high-density polyethylene nonwoven fabric (for example, Tyvek (registered trademark)). On the surface of the moisture permeable waterproof sheet 11, a polyethylene resin is produced as an adhesive layer 12 having a constant width. The ventilation structure 14 is a nonwoven fabric having a structure in which the cross section is corrugated into a corrugated shape. Since the nonwoven fabric which comprises the ventilation | gas_flowing structure part 14 needs sufficient intensity | strength which is not crushed at the time of siding material construction at the time of wall construction, a highly rigid polypropylene nonwoven fabric (for example, Zavern (trademark)) is used. A ventilation layer is formed in a space between the corrugated valley portion of the ventilation structure portion 14 and the moisture permeable waterproof sheet 11 to obtain air permeability.
[Selection] Figure 1

Description

  The present invention relates to a breathable / waterproof sheet and a wall construction method using the same, and more particularly, a breathable / waterproof sheet having both breathability and waterproofness, and a wall for building an outer wall, a roof, or the like of a building using the same. Concerning construction method.

  In order to obtain a highly durable house according to the Housing Quality Assurance Law, it is recommended to provide a ventilation layer between the base material of the building frame and exterior materials such as outer walls and roofs. As a wall construction method for providing this air-permeable layer, for example, a moisture-permeable waterproof sheet is pasted on a plywood fixed to the outer surface of the housing, a vertical trunk edge is disposed thereon, and an air circulation body is further fixed thereon. And the method of attaching a metal siding material as exterior materials, such as an outer wall and a roof, on it is known (for example, refer to patent documents 1). Here, the ventilation layer is formed between the moisture permeable / waterproof sheet and the air circulation body by the vertical trunk edge, and the air circulation body has a structure having a void such as a honeycomb structure on one side, so that the ventilation layer is efficiently used. Can be functional.

  In addition, the wall construction construction method called siding finish which does not provide said air circulation body is also generally known (for example, refer patent document 2). Moreover, as said moisture-permeable waterproof sheet, the moisture-permeable waterproof sheet described in patent document 3, for example can be used.

  In addition, as a method of constructing a roof with air permeability, a flat heat insulating material is laid on the roof base, a plurality of piers are attached to ensure a ventilation layer on the roof, and plywood is further mounted on the piers. There is also a wall construction method in which a roofing material is laid sequentially on the support plate. Alternatively, the roof may be constructed by the above method after a moisture-proof material is laid on the roof base. In this wall construction method, an air flow is generated through the ventilation layer and exhausted to the outside via the roof ridge, thereby exhausting heat and enhancing the heat insulation effect.

  Here, in this specification, “wall construction” includes not only construction of a wall structure of an outer wall of a building but also construction of a roof structure similar to the wall structure.

JP 2002-276046 A Special table 2007-518007 gazette JP 2002-172739 A

  However, in the above-described conventional wall construction method, the step of attaching a moisture permeable waterproof sheet to the plywood and the step of disposing the vertical trunk edge on the plywood are performed separately. Since the steps for laying the pier and the support plate for constructing the ventilation layer are performed separately, there are many work processes, it takes time to construct the exterior, and there is a possibility that a stable ventilation structure may not be obtained.

  The present invention has been made in view of the above points, and it is an object of the present invention to provide a ventilating / waterproof sheet that can shorten the work time for building a wall and secure a stable ventilation structure, and a wall building method using the same. To do.

In order to achieve the above object, the breathable / waterproof sheet of the first invention is a sheet-like base comprising a sheet-like water-absorbing material that swells by absorbing water and a polypropylene nonwoven fabric formed on the surface of the water-absorbing material. A liner part having at least a nonwoven fabric and a sheet-like cover nonwoven fabric formed on the back surface of the water-absorbing material, and a corrugated cross-section is formed into a corrugated shape, and one of a corrugated valley portion and a crest portion This portion is made of a polypropylene non-woven fabric bonded to a cover non-woven fabric, and is laminated with a ventilation structure portion having a space formed between the liner portion and a ventilation layer as a ventilation layer.

  Here, the water-absorbing material has a configuration in which a water-absorbing polymer and hot melt powder are mixed, and the cover nonwoven fabric may be a nonwoven fabric having a core-sheath structure in which the core component is polypropylene and the sheath component is polyethylene.

In order to achieve the above object, the wall construction method of the present invention includes a liner having a sheet having moisture permeability and waterproofness, and a plurality of adhesive layers formed at regular intervals on the surface of the sheet, A space formed between the liner and a section made of a polypropylene nonwoven fabric with a corrugated cross section that has a corrugated cross section and one of the corrugated trough and crest being bonded to the adhesive layer. Is a wall construction method using a breathable / waterproof sheet with a structure in which a ventilation structure having a ventilation layer is laminated , with a predetermined interval so that the liner part is on the indoor side and the ventilation structure part is on the outdoor side A first step of stacking a ventilation / waterproof sheet on the pillars of the wall constructed in step 1 or nail, and then stacking in a predetermined direction along the surface of the wall on which another ventilation / waterproof sheet is constructed; Multiple ventilation / prevention through the first step Characterized in that the breathable structure side of sexual sheet and a second step of fixing the outer package studs through the vent, waterproof sheets.

In order to achieve the above object, the wall construction method of the present invention is a wall construction method using the ventilation / waterproof sheet of the first invention, wherein the liner portion is on the outdoor side, and the ventilation structure portion is a room. A first step of fixing a ventilation / waterproof sheet on the roof base so as to be inside, and then stacking another ventilation / waterproof sheet along the gradient direction of the roof, and a plurality of steps that have undergone the first step And a second step of constructing a roofing material on the breathable / waterproof sheet.

  According to the present invention, the wall construction work time can be shortened and a stable ventilation structure can be secured.

It is a block diagram of the principal part of 1st Embodiment of the ventilation / waterproof sheet | seat of this invention. It is the top view and sectional drawing of the principal part of 1st Embodiment of the ventilation / waterproof sheet | seat of this invention. It is a flowchart explaining the wall construction construction method of 1st Embodiment of the ventilation / waterproof sheet | seat of this invention. It is a figure which shows an example of the wall structure constructed | assembled by one Embodiment of the wall construction method of the ventilation / waterproof sheet | seat of this invention. It is sectional drawing of 2nd Embodiment of ventilation / waterproof sheet | seat of this invention, and sectional drawing of the principal part. It is a perspective view which shows an example of an oblique trunk edge.

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

(First embodiment)
FIG. 1 is a configuration diagram of a main part of a first embodiment of a breathable / waterproof sheet according to the present invention, and FIG. 2 is a main part of a first embodiment of a breathable / waterproof sheet according to the present invention. The top view and sectional drawing of are shown. In both drawings, the same components are denoted by the same reference numerals.

  As shown in the perspective view of FIG. 1 (B), the ventilation / waterproof sheet 10 of the present embodiment is a wall ventilation / waterproof sheet, and has a structure in which a liner portion 13 and a ventilation structure portion 14 are laminated. It is. 1 and 2 simply and schematically show the structure and cross-sectional shape for convenience of illustration. For example, although the cross-sectional shape of the ventilation structure portion 14 is simply illustrated as a triangular wave shape in FIGS. 1B and 2B, in practice, a substantially sinusoidal wave shape in which the apex of the triangular portion is rounded. Shape. The same applies to the cross-sectional shape of the ventilation structure 22 shown in FIG.

  As shown in the plan view of FIG. 1A, the liner portion 13 is composed of a moisture-permeable waterproof sheet 11 having a plurality of adhesive layers 12 formed on the surface at regular intervals. The moisture-permeable waterproof sheet 11 is a sheet having both moisture-permeable and waterproof functions. For example, a highly permeable sheet such as “Tyvek” (registered trademark) manufactured by EI DuPont de Nemours & Co. It consists of a density polyethylene nonwoven fabric. On the surface of the moisture permeable waterproof sheet 11, a plurality of polyethylene (PE) resin adhesive layers 12 with a pitch of 2 mm, for example, in a longitudinal direction perpendicular to the width direction so as not to impair the function of the moisture permeable waterproof sheet 11, Made by muscle lamination. For example, the adhesive layer 12 has a width of 1 mm and a thickness of 0.04 mm. The total thickness of the moisture permeable waterproof sheet 11 including the adhesive layer 12 varies, for example, about 0.33 mm. Further, as shown in the plan view of FIG. 1A, the moisture permeable waterproof sheet 11 functions as a ventilation layer portion 11a where the adhesive layer 12 is not formed.

  As an adhesion method that does not impair the function of moisture permeability and waterproofness, dot adhesion by polyurethane or polyolefin hot melt may be used in addition to the above method.

As shown in the perspective view of FIG. 1B, the ventilation structure 14 is a non-woven fabric having a structure in which the cross section is corrugated into a corrugated shape with a single-stage corrugator to secure a ventilation layer. Since the nonwoven fabric constituting the ventilation structure portion 14 is required to have sufficient strength so as not to be crushed during construction of a siding material at the time of wall construction, a polypropylene (PP) nonwoven fabric having high rigidity (for example, E.I. Dupont De Nemours & Company “Zaburn” (registered trademark)) is used. When “Zaburn” (registered trademark) is used as the ventilation structure 14, one having a unit area weight of 150 to 240 g / m ² can be used, but one having a unit area weight of 150 to 200 g / m ² is preferably used.

  The breathable / waterproof sheet 10 of the present embodiment has a structure in which a ventilation structure portion 14 is bonded to an adhesive layer 12 of a moisture permeable waterproof sheet 11. Here, the adhesive layer 12 is bonded so that the longitudinal direction (that is, the width direction of the moisture permeable waterproof sheet 11) and the corrugated direction of the corrugated shape of the ventilation structure portion 14 are the same direction. Thereby, a ventilation layer is formed in the space between the corrugated valley portion of the ventilation structure portion 14 and the ventilation layer portion 11a of the moisture-permeable waterproof sheet 11, and air permeability is obtained.

  The breathable / waterproof sheet 10 of the present embodiment as a product to be shipped is a moisture permeable waterproof sheet having a width of 1000 mm, as shown in the plan view of FIG. 2A and the sectional view of FIG. 11 is a sheet having a length of 20 m, in which a ventilation structure portion 10 having a height of 10 mm is processed in a portion having a width of 900 mm, and the remaining 100 mm portion is an overlapped white portion 11b in which the ventilation structure portion 14 is not processed. The overlapping white portion 11b is a portion that is used by connecting and pasting together a plurality of breathable / waterproof sheets 10 that are sequentially stacked in the direction orthogonal to the longitudinal direction.

  According to the breathable / waterproof sheet 10 of the present embodiment, the moisture permeable waterproof and breathable structure in which the liner portion 13 made of the moisture permeable waterproof sheet 11 and the ventilation structure portion 14 constituting the ventilation layer are integrated. It is the structure which has the property. The ventilation structure portion 14 constitutes the above-described ventilation layer and also has a function as a spacer between the siding material and the studs when the wall is constructed.

In addition, although the raw material of the contact bonding layer 12 is fundamentally polyethylene, it is not limited to this. Further, the liner portion 13 is not necessarily a moisture-permeable waterproof sheet such as Tyvek (registered trademark), and other materials having both moisture permeability and waterproof properties, such as a polyvinyl alcohol film, a plastic film (for example, Japan) “Boblon” (registered trademark) manufactured by Synthetic Chemical Industry Co., Ltd. may also be used. Further, as the moisture permeable waterproof sheet 11, a moisture permeable waterproof sheet deposited with aluminum in order to impart heat insulation, for example, “Tyvek Silver” (manufactured by DuPont Co., Ltd.) or the like is preferably used.

  Next, the wall construction method of the first embodiment of the breathable / waterproof sheet of the present invention will be described with reference to the flowchart of FIG.

  First, after applying a fiber-based heat insulating material (cellulose, glass wool, rock wool, etc.), the liner portion 13 of the ventilation / waterproof sheet 10 of the present embodiment is on the indoor side, and the ventilation structure portion 14 is on the outdoor side. As described above, a tacker or a nail is secured to a stud that is constructed at a predetermined interval (for example, a 455 mm pitch) (step S1).

  Subsequently, the breathable / waterproof sheet 10 is attached in order from the bottom to the top of the wall (step S2). At this time, the overlapping white portion 11b of the ventilation / waterproof sheet 10 is formed so that the corrugated peaks and valleys of the ventilation structure portion 14 of the two ventilation / waterproof sheets 10 bonded together in the vertical direction are aligned. Next, the next breathable / waterproof sheet 10 is pasted. Further, the horizontal overlapping white portion 11b peels the moisture-permeable waterproof sheet 11 and the ventilation structure portion 14 from each other by an appropriate length (for example, 150 mm), and inserts the next ventilation / waterproof sheet 10 therebetween.

  In this way, after the ventilation / waterproof sheet 10 is constructed, an exterior material such as a siding material is disposed on the ventilation structure 14 side of the ventilation / waterproof sheet 10, and the studs are interposed with the ventilation / waterproof sheet 10 interposed therebetween. It is constructed with nails or mounting hardware (step S3).

  As described above, according to the breathable / waterproof sheet 10 of the present embodiment, the moisture permeable waterproof structure in which the liner portion 13 made of the moisture permeable waterproof sheet 11 and the ventilation structure portion 14 constituting the ventilation layer are integrated. Since the breathable / waterproof sheet 10 having a structure having both waterproofness and breathability is used, the step of attaching the conventional moisture permeable waterproof sheet to the plywood just by attaching the breathable / waterproof sheet 10, and the top thereof Since the step of disposing the trunk edge for constituting the ventilation layer can be performed, the working time can be shortened compared to the conventional case, and a stable ventilation structure can be secured.

According to the ventilation performance test of the ventilation / waterproof sheet 10 of the present embodiment by the Building Materials Testing Center, a large ventilation rate of 4.77 [(m ³ / h) Pa ^{1 / n} ] was obtained. . This ventilation performance test was conducted by using a test piece in which a breathable / waterproof sheet 10 was fixed to a plywood plate having a width of 455 mm, a height of 1000 mm, a thickness of 10 mm and a thickness of 12 mm, and a test chamber having a temperature of 23.0 ° C. and a pressure of 1012 hPa. Then, the pressure difference before and after the test body was changed stepwise, the ventilation rate at that time was measured, and the ventilation rate was calculated from the ventilation rate. The air flow rate Q (unit m ³ / h) at an air density of 1 atm is the 1 / nth power of the air permeability α and the pressure difference ΔP (unit Pa) before and after the specimen (n is a clearance characteristic value, usually 1 to The air permeability α was calculated from the equation obtained by multiplying 2).

  In the conventional wall structure, the waterproof / moisture permeable sheet may be pushed out to the ventilation layer due to the expansion of the heat insulating material, thereby narrowing or closing the ventilation layer. When the ventilation layer becomes narrow, internal condensation easily occurs at that portion, and the role of the ventilation layer is reduced. In order to prevent this, a construction method is known in which an oblique body edge as shown by 41 in FIG. 6 is inserted at an appropriate interval and the heat insulating material 43 is pressed to secure a ventilation layer. In order to reduce the heat insulation performance when the number of intermediate pillars 42 of the longitudinal edge of the body edge is increased, the oblique body edge 41 as shown in FIG. 6 is used instead of the longitudinal body edge. In addition, there is a method of inserting a plate for securing a spacer or a known ventilation spacer (for example, a ventilation spacer manufactured by Joto Techno Co., Ltd.) having a large number of small holes formed on the side surface.

  However, according to the ventilating / waterproof sheet 10 of the present embodiment, the ventilation structure portion 14 has sufficient strength without having the slanted trunk edge 41, a plate for securing the spacer, and a ventilation spacer. Therefore, the ventilation structure 14 is hardly pressed by the heat insulating material to be expanded, and the air-permeable layer is hardly narrowed. Expansion can be suppressed and a ventilation layer can be secured.

  FIG. 4 shows an example of a wall structure constructed by an embodiment of a wall construction method for a breathable / waterproof sheet of the present invention. In the figure, the same components as those in FIGS. 1 and 2 are denoted by the same reference numerals. In FIG. 4, a moisture-proof sheet or humidity-conditioning sheet 32 is stuck on the outdoor side with respect to the interior material 31 on the indoor side of the wall, and further, studs 33 are constructed at predetermined intervals. Cellulosic fibers 34, which are fiber-based heat insulating materials, are filled between the intermediate columns 33.

  Then, the breathable / waterproof sheet 10 is tucked or nailed to the studs 33 so that the liner portion 13 is on the indoor side, the ventilation structure portion 14 is on the outdoor side, and the cellulose fiber 34 is covered. Yes. A siding material 35 is attached to the ventilation structure 14.

  In this wall structure, water vapor from the room is discharged through the interior material 31, the humidity control sheet 32, the cellulose fiber 34, the moisture permeable waterproof sheet 11 of the ventilation / waterproof sheet 10, and the ventilation layer of the ventilation structure 14.

(Second Embodiment)
Next, a second embodiment of the present invention will be described. FIG. 5A is a cross-sectional view of the main part of the second embodiment of the breathable / waterproof sheet according to the present invention, and FIG. 5B is a cross-sectional view of an example of the cover nonwoven fabric in FIG. Indicates.

  The ventilation / waterproof sheet 20 of the present embodiment is a roof ventilation / waterproof sheet, and, as schematically shown in the cross-sectional view of FIG. 5A, a liner portion having both a waterproof function and an anti-slip function. 21 and a ventilation structure 22 having a ventilation function are laminated.

  As schematically shown in FIG. 5A, the liner portion 21 has a superabsorbent polymer (Superabsorbent polymer) on the back surface of a sheet-like base nonwoven fabric 25 having a surface coated with a polypropylene (PP) film 26 having a thickness of about 30 μm. Polymer: SAP) and a hot melt powder mix product, which is a sand-laminated structure in which a water-absorbing material 24, which is a mixed product, is dispersed and bonded to the sheet-like cover nonwoven fabric 23. Since a roofing material such as a tile is provided on the liner portion 21, the PP film 26 on the surface of the liner portion 21 has anti-slip properties in order to prevent the operator from sliding down during the construction of the roof (at the time of wall construction). Yes.

As the base nonwoven fabric 25, for example, a polypropylene nonwoven fabric such as “Zaburn” (registered trademark) is used. As the “Zaburn” (registered trademark) used for the base nonwoven fabric 25, for example, one having a unit area weight of 30 to 100 g / m ² can be used.

  The cover nonwoven fabric 23 is a core-sheath nonwoven fabric, for example, as schematically shown in the cross-sectional view of FIG. 5B, the cross-section of the cover nonwoven fabric 23 is filled with polypropylene (PP) 232 having a hollow cross section. This is a structure made of polyethylene (PE) 231 in the form of a tube. That is, the cover nonwoven fabric 23 is a composite nonwoven fabric having a core-sheath structure in which the core component is PP232 and the sheath component is PE231, for example, “Hybon” (registered trademark) manufactured by Shinwa Co., Ltd. can be used. However, the cover nonwoven fabric 23 is not limited to a nonwoven fabric having a core-sheath structure. If a polypropylene nonwoven fabric is used as the cover nonwoven fabric 23, it is necessary to perform hot melt processing (for example, polyethylene or EVA) for corrugating.

The ventilation structure portion 22 is a polypropylene nonwoven fabric such as “Zaburn” (registered trademark) described above, which is laminated on the liner portion 21 by corrugation. The ventilation structure 22 is a polypropylene nonwoven fabric that is laminated on the cover nonwoven fabric 23 side and then processed into a corrugated cross section by corrugation, and the height between the corrugated peak portion and the trough portion. Is, for example, about 10 mm. “Zaburn” (registered trademark) used as the ventilation structure portion 22 can have a unit area weight of 150 to 240 g / m ² , but preferably has a unit area weight of 150 to 200 g / m ² .

  When the cover nonwoven fabric 23 is a core-sheath structure nonwoven fabric, the sheath component polyethylene having a core-sheath structure has a low melting point, and therefore contributes to corrugation of the ventilation layer structure 22 as an adhesive layer. Even if the layer is not processed, one of the corrugated crest and trough portions of the ventilation structure 22 is bonded to the cover nonwoven fabric 23.

  The breathable / waterproof sheet 20 of the present embodiment as a product to be shipped is formed with a white portion overlapped with the base nonwoven fabric 25 and the PP film 26 in the same manner as the breathable / waterproof sheet 10. The base nonwoven fabric 25 and the PP film 26 have a width of, for example, 1000 mm, and the cover nonwoven fabric 23 has a width of, for example, 900 mm.

  At the time of roof construction (at the time of wall construction) using the ventilation / waterproof sheet 20 of the present embodiment, a starter of 100 mm is first constructed on the eaves of the roof base with a tucker or the like. Subsequently, after positioning the front end surface of the ventilation / waterproof sheet 20 on the ventilation surface of the starter, in the overlapping white portion attached to the liner portion 21 of the ventilation / waterproof sheet 20 in the gradient direction of the roof on the roof base, The ventilation structure 22 side of another adjacent breathable / waterproof sheet 20 is put on from the top, and in the same manner, it is constructed by the armor method in order from the bottom. A roof is constructed by constructing a tile or a roof material on each liner portion 21 of the plurality of ventilation / waterproof sheets 20 thus constructed.

  The ventilation / waterproof sheet 20 of the present embodiment has an integrated structure of a liner portion 21 having both a waterproof function and a slip prevention function and a ventilation structure portion 22 constituting a ventilation layer. Since the process for forming the ventilation layer and the process for laying the moisture-proofing agent can be performed at the same time by simply attaching the adhesive sheet 20 to the roof base of the eaves, the work time can be shortened compared to the conventional method, and the stable roof structure Can be built.

The present invention is not limited to the above-described embodiment. For example, the water-absorbing material 24 shown in FIG. 5 has a waterproof property that swells by absorbing water so as to have a self-repairing function of nail holes and staples ( Therefore, inorganic bentonite and the like can be used in the same manner in addition to the water-absorbing polymer. In addition to the non-woven fabric, paperboard or the like can be used as the material used for the ventilation structure portion 22. Further, instead of the PP film 26, a film provided with heat shielding properties with aluminum foil or the like may be used. Furthermore, the PP film 26 is not necessarily required.

DESCRIPTION OF SYMBOLS 10, 20 Breathable / waterproof sheet 11 Moisture permeable waterproof sheet 11a Breathable layer part 11b Overlay white part 12 Adhesive layer 13, 21 Liner part 14, 22 Breathing structure part 23 Cover nonwoven fabric 24 Water absorbent material 25 Base nonwoven fabric 26 PP film 231 Sheath component Polyethylene 232 Polypropylene 31 of core component Interior material 32 Moisture-proof sheet or humidity-control sheet 33 Spacer 34 Cellose fiber 35 Siding material

Claims (4)

A sheet-like water-absorbing material that swells by absorbing water, a sheet-like base nonwoven fabric made of a polypropylene nonwoven fabric formed on the surface of the water-absorbing material, and a sheet-like cover nonwoven fabric formed on the back surface of the water-absorbing material. A liner part having at least ;
The corrugated cross section is formed into a corrugated shape, and one of the corrugated valley portion and the crest portion is made of a polypropylene nonwoven fabric bonded to the cover nonwoven fabric, and is formed between the liner portion. A breathable / waterproof sheet, characterized by being laminated with a ventilation structure having a ventilated space as a defined layer. The water absorbing material has a configuration in which a water absorbing polymer and hot melt powder are mixed,
The cover nonwoven fabric in the core component is polypropylene, breathable, waterproof sheet according to claim 1, wherein the sheath component is characterized in that it is a non-woven fabric of core-sheath structure is polyethylene. A liner portion having a sheet having moisture permeability and waterproofness, and a plurality of adhesive layers formed at regular intervals on the surface of the sheet;
The corrugated cross section is formed into a corrugated shape, and one of the corrugated valley portion and the mountain portion is made of a polypropylene nonwoven fabric bonded to the adhesive layer, and is formed between the liner portion. A ventilation structure using the space formed as a ventilation layer;
Is a wall construction method using a breathable / waterproof sheet with a laminated structure ,
After the liner / waterproof sheet is tacked or nailed to the pillars of the wall constructed at predetermined intervals so that the liner part is on the indoor side and the ventilation structure part is on the outdoor side, another ventilation / A first step of stacking in a predetermined direction along the surface of the wall on which the waterproof sheet is constructed;
And a second step of fixing an exterior material to the stud through the ventilation / waterproof sheet from the side of the ventilation structure portion of the plurality of the ventilation / waterproof sheets subjected to the first step. Construction method. A wall construction method using the breathable / waterproof sheet according to claim 1 ,
After fixing the ventilation / waterproof sheet on the roof base so that the liner portion is on the outdoor side and the ventilation structure portion is on the indoor side, another ventilation / waterproof sheet is placed along the gradient direction of the roof. The first step to be repeated,
And a second step of constructing a roof material on the plurality of ventilated and waterproof sheets that have undergone the first step.