JP2002172739A - Moisture permeable waterproof sheet and wall structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a moisture permeable waterproof sheet which can be utilized for simply forming a wall structure, which can adjust humidity in an outer wall structure corresponding to the difference between indoor and outdoor humidities, in spite of a circumferential temperature change to prevent the generation of dew condensation in the outer wall structure. SOLUTION: An unperforated resin film of which the moisture permeation resistance value measured based on JIS-A-6930 is 2-20 m2/h/mmHg/g and the thickness is 10-50 μm is laminated to a reinforcing material sheet of which the moisture permeation resistance value measured based on JIS-A-6930 is preferably 0 m2/h/mmHg/g and extremely lower than that of the unperforated resin film.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to
And a composite sheet having both mechanical strength. The present invention relates to a wall structure using the moisture-permeable waterproof sheet as a moisture-proof layer.

[0002]

2. Description of the Related Art A wall structure of a house or the like is basically formed of a pillar, an inner wall provided inside the pillar, and an outer wall structure provided outside the pillar, and the outer wall structure is provided outside the pillar. It is basically formed of a house wrap material provided and an outer wall material provided outside the house wrap material and having an outer wall finishing layer on the outermost side.

Such an outer wall structure prevents water from leaking from the outer wall material to the inside of the inner wall, and in particular, moisture generated indoors, which is a phenomenon that occurs in winter in a cold region, passes through the inner wall, and the outer wall structure The structure is designed to prevent the phenomenon of dew condensation due to the influence of cold outside air that enters the interior and to prevent the dew condensation phenomenon in the wall structure that occurs in the summer in a hot and humid area.

[0004] Specifically, a moisture-proof and waterproof sheet having a high moisture-permeation resistance value, for example, a thickness of 50 to 200 µm, JIS-A-
The moisture permeability resistance value based on 6930 is 170 m ² / h / mmH
g / g or more (Class A) or 300 m ² / h / mmHg
/ G (B class) polyethylene sheet or the like is adhered to the inner wall side of the outer wall structure to prevent moisture from penetrating the room at all.

[0005] Further, between the house wrap material and the outer wall material,
By forming a ventilation layer having a width of usually about 18 mm, 1) insulates the outside air from the inner wall, 2) allows air (including moisture generated from the room) to flow, and 3) allows the inside of the inner wall to leak water. An outer wall structure that can prevent intrusion into the building is also used. Specifically, it is widely practiced to form a ventilation layer by attaching an outer wall material through a plurality of rows of body edges formed at appropriate intervals in the lateral direction formed using a bar on the outer surface of the house wrap material. (For example, Shokai 6
3-53412). In addition, the actual opening 63-53
No. 412 and Japanese Utility Model Publication No. 6-27400,
A house wrap material in which a net material is attached to the surface of a breathable waterproof sheet is described. 60-60270
No. 9 discloses a wall sheet in which a hot-melt resin layer having ventilation holes formed on the surface of a gas-permeable wall sheet is formed.

[0006]

However, the conventional outer wall structure using a moisture-proof and waterproof sheet having a high moisture-permeation resistance value as a moisture-proof layer is still in a hot-humid place in a hot and humid region from the rainy season to the summer in a high-temperature and high-humidity environment. There is a problem that condensation occurs.

Further, in the conventional outer wall structure having a ventilation layer, in order to provide a predetermined space between the outer wall material and the house wrap material, a projection member corresponding to the space is separately provided on the house wrap material. Therefore, there is a problem that workability is poor.

Therefore, there is a strong demand for an outer wall structure that can achieve the required functions efficiently and effectively with simple construction.

An object of the present invention is to prevent the occurrence of dew condensation in a wall structure by adjusting the humidity in the wall structure in accordance with the difference in humidity between the room and the outdoors, regardless of a change in ambient temperature. An object of the present invention is to provide a moisture-permeable waterproof sheet that can be used to form a wall structure that can be formed by simple construction.

[0010]

In order to solve such problems, the present inventor has proposed a non-porous resin film having a low moisture permeation resistance value and a moisture permeation resistance value which is far greater than that of the non-porous resin film. By laminating a reinforcing material sheet with low moisture permeability resistance and excellent mechanical strength, the water vapor pressure in the wall structure is changed from indoor to outdoor so that the humidity difference between indoor and outdoor gradually balances out. It is possible to provide a moisture-permeable waterproof sheet that can be gradually lowered to form a humidity gradient, and by using such a moisture-permeable waterproof sheet, it is possible to prevent the occurrence of dew condensation regardless of a change in ambient temperature. In addition, it has been found that a wall structure that can be easily constructed can be formed.

That is, the moisture-permeable waterproof sheet of the present invention comprises:
The moisture resistance measured in accordance with JIS-A-6930 is ² to 20 m ² / h / mmHg / g, and the thickness is 15 to 20 m ² / h / mmHg / g.
A moisture-permeable waterproof sheet formed by laminating a nonporous resin film having a thickness of 30 μm and a reinforcing material sheet having a moisture-permeable resistance lower than the moisture-permeable resistance of the nonporous resin film. JIS-Z-0208 (correction method), characterized in that the moisture permeability measured under the conditions of 40 ° C. and 90% RH is 100 to 200 g / m ³ · 24 hr.

Another form of the moisture-permeable waterproof sheet is J
The moisture permeation resistance value measured based on IS-A-6930 is 2
２０20 m ² / h / mmHg / g and a thickness of 15 to 3
A non-porous resin film of 0 μm and JIS-A-693
The moisture permeability resistance measured on the basis of 0 is substantially 0 m ² / h
/ MmHg / g and a reinforcing material sheet.

Further, another form of the moisture-permeable waterproof sheet is as follows.
In any of the above moisture-permeable and waterproof sheets, the non-porous resin film is a polyethylene film or a polyvinyl alcohol film.

Still another aspect of the moisture-permeable waterproof sheet according to any one of the above-mentioned moisture-permeable waterproof sheets is that the reinforcing sheet is a spunbonded nonwoven fabric made of a thermoplastic resin filament.

A wall structure according to another embodiment of the present invention includes:
A wall structure including a moisture-proof layer between the inner wall material and the outer wall material, wherein the moisture-proof layer is a moisture-permeable waterproof sheet according to any one of the above, in which a non-porous resin film is arranged to face the inner wall material. There is a feature.

Still another form of the wall structure is characterized in that, in the above-described wall structure, the outer wall material includes a heat insulating material, and the reinforcing material sheet is disposed in contact with the heat insulating material.

[0017]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The resin film used for the moisture-permeable waterproof sheet of the present invention has both waterproof and air-permeable properties, and has a moisture-permeability resistance of ² to 20 m ² measured in accordance with JIS-A-6930. / H / mmHg / g and a non-porous resin film having a thickness of 15 to 30 μm.

If the moisture permeability resistance of the film is out of the above range, an appropriate humidity gradient cannot be formed in the wall structure. Within the range of the moisture permeability resistance value specified by the present invention, a humidity gradient is formed in the wall structure in consideration of the specific structure of the wall structure, the moisture permeability resistance value and the thickness of the reinforcing material sheet to be combined, and the like. A film having an appropriate moisture permeation resistance value is selected so as to be able to perform the treatment.
m ² / h / mmHg / g.

The thickness of the film is 10 to 50 μm, preferably 15 to 30 μm. 10μ thick
When it is thinner than m, the uniformity and strength are insufficient when used for the outer wall structure, and the film is likely to be broken. On the other hand, if it exceeds 50 μm, the moisture permeability of a sheet obtained by laminating the reinforcing material sheets is impaired, and it is not preferable in terms of workability and cost.

The water resistance of the film is determined according to JIS-L1092.
Is preferably 300 mmH ₂ O or more, more preferably 500 mmH ₂ O or more.

The resin constituting the film is a thermoplastic resin, and specific examples thereof include a polyolefin resin, a polyvinyl alcohol resin, a polystyrene resin, a polyamide resin, a polyester resin, and a polyurethane resin. Can be. It is manufactured by forming a film from such a thermoplastic resin by a known film forming technique and then stretching the film. Examples of commercially available films include Boblon (trade name) manufactured by Nippon Synthetic Chemical Industry Co., Ltd., but are not limited thereto.

The reinforcing material sheet used in the moisture-permeable waterproof sheet of the present invention is a sheet excellent in mechanical strength without impairing the air permeability and waterproof property of the non-porous resin film,
Furthermore, the moisture permeability resistance value measured based on JIS-A-6930 is lower than that of the non-porous resin film. If the moisture permeation resistance value is not lower than the moisture permeation resistance value of the non-porous resin film, a humidity gradient cannot be formed in the wall structure. The reinforcing material sheet has a moisture permeability resistance value of the non-porous resin film within the above range, and a moisture permeability of the obtained moisture permeable waterproof sheet,
When measured under the conditions of 40 ° C. and 90% RH according to JIS-Z-0208 (modified method), 100 to 20
0 g / m ³ · 24 hr. The moisture permeability resistance value of the reinforcing material sheet is preferably as low as possible, and most preferably substantially 0 m ² / h / mmHg / g.

Specific examples include nonwoven fabrics, synthetic fiber papers, woven fabrics, and resin-impregnated fibrous bodies such as resin-impregnated woven fabrics, knitted fabrics and nonwoven fabrics having a moisture permeability resistance satisfying the above requirements.

As the non-woven fabric, paper is made using short fibers,
Synthetic fibers such as polyester, polyolefin, polyvinyl alcohol, polyamide, polyacrylonitrile, etc., rayon,
Any of dry nonwoven fabrics and spun-bonded nonwoven fabrics manufactured from staples composed of chemical fibers such as acetate and natural fibers such as cotton and hemp can be used in the present invention. The dry nonwoven fabric is a nonwoven fabric formed by forming a web from staples and bonding the formed web by resin bonding, needle punching, stitch bonding, thermal bonding, or spunlace method. Directly spun nonwoven fabric is a nonwoven fabric formed by stretching or flashing a filament or film extruded by a direct spinning method for forming a staple and simultaneously forming a nonwoven fabric.Specific methods include a spunbond method and a flash method. And a melt blow method. The basis weight of the nonwoven fabric affects the strength as a material for the outer wall. If the basis weight is insufficient, the fabric is easily broken, while if the basis weight is too large, the thickness increases and the workability deteriorates. Therefore, 20
Preferably 100 g / m ^2, more preferably 45~90g / m ^2.

As the spun-lace nonwoven fabric, for example, polyester short fibers are used, and the fibers are entangled with a high-pressure water stream to be mechanically bonded. Spunlace nonwoven fabric having excellent flexibility and characteristics is disclosed in Japanese Patent Publication No. 3-7366.
No. 5 publication.

As spunbonded nonwoven fabrics, for example, they are bonded by self-adhesion using polypropylene filaments, and have high tensile strength, tear strength and air permeability. Spongpond nonwoven fabric with inferior characteristics
No. 42175. As the reinforcing sheet used in the present invention, a spunbonded nonwoven fabric is preferable, and a spunbonded nonwoven fabric made of polypropylene is more preferable in consideration of problems of recyclability, chemical stability, and disposal. Examples of commercially available spunbonded nonwoven fabrics include “Zaban (registered trademark)” and “Tyvek (registered trademark)” manufactured by E.I. Dupont de Nemours and Company, but are not limited thereto. Not something.

As the flash spun nonwoven fabric, for example,
Using a fiber-forming polymer polyolefin and a solvent that gasifies at the time of spinning, the polymer is stretched and solidified while stretching to combine high-strength, tough, high-water-pressure, transparent Flash spun nonwoven fabrics having wetness and air permeability are disclosed in JP-B-40-28125, JP-B-41-6215, and JP-B-42-195.
No. 20 and JP-B-43-21112.

As a specific example of the melt-blown spun nonwoven fabric, a hydrophobic polymer composition is melted by using a usual melt-blow spinning apparatus, a fixed amount of the molten polymer is discharged from a die, and the molten polymer is subjected to a high-pressure gas flow. Average fiber diameter about 0.1-5.
This is a melt-blown ultrafine fiber nonwoven fabric produced by spinning and conveying a 0 μm ultrafine fiber stream and collecting the fiber stream in a collector. The weight of the nonwoven fabric, when used in a single non-woven fabric is the average weight 30 to 500 g / ^{m 2,} when used in lamination with other highly air-permeable sheet is the average weight 15~200g / ^{m 2.} The obtained nonwoven fabric is calendered on at least one side, subjected to treatment such as pressing or hot pressing, densified or partially fused, and if necessary, a treatment agent for increasing water resistance is applied, and a high water-resistant nonwoven fabric sheet is applied. And In the present invention, the synthetic fiber paper used as the moisture-permeable waterproof sheet has a diameter of 0.1 to
A sheet material made of 5.0 mm ultra-short fibers or pulp-like material and synthetic fibers, and manufactured by hot-press calendering after papermaking. Further, in the synthetic fiber paper, such a sheet material may be provided with a water repellent and a resin agent for improving waterproofness, an ultraviolet absorber and a light stabilizer for improving weather resistance, an antioxidant for improving durability, and a surface. Also included are those obtained by applying a chemical such as a protective agent or a resin, and sheet materials manufactured by adding such additives to components constituting the sheet material.

In the present invention, examples of the resin-impregnated fiber used as the moisture-permeable waterproof sheet include Japanese Patent Publication No.
No. 47955 discloses a moisture-permeable and waterproof coated fabric, and Japanese Patent Publication No. 5-85672 discloses a breathable waterproof non-woven fabric obtained by coating a non-woven fabric with a thermoplastic resin containing a filler, calendering after film formation. It has been disclosed.

The non-porous resin film and the reinforcing material sheet are joined by a known method that does not impair the moisture permeability resistance determined by the combination of the two, to form a moisture-permeable waterproof sheet. General methods of joining include sewing, dot bonding, whole surface bonding, ultrasonic bonding, heat fusion and the like. Furthermore, an extrusion line lamination method, a spray method, an extrusion porous coating method, a hot melt agent powder dispersing and heat fixing method of a hot melt agent can also be used. A preferred joining method is a spray method of dot-adhering a hot melt agent.

The resin film and the reinforcing material sheet are laminated on the reinforcing material sheet by directly applying a thermoplastic resin such as, for example, polyurethane, polyester, or polyamide by a known method, so as to have a moisture-permeability and waterproof property. A sheet may be formed.

The thickness of the moisture-permeable waterproof sheet of the present invention is preferably 150 to 400 μm. If it is thinner than 150 μm, it tends to be broken.

The moisture permeability of the moisture permeable waterproof sheet of the present invention is J
According to IS-Z-0208 (modified method), 40 ° C and 9
The moisture permeability measured under the condition of 0% RH is 100 to 200.
g / m ² · 24 hr. Outside of this range, when used as a moisture barrier for the wall structure, it is not possible to form a humidity gradient from indoors to outdoors, and therefore, it is necessary to lower the water vapor pressure so that the humidity gradually equilibrates. No longer possible, especially in the sultry summer months, when condensation forms in the wall structure.

When the moisture-permeable waterproof sheet of the present invention is used for an outer wall structure, the sheet is not directly exposed to rain, so the water resistance is not particularly limited. When used, water resistance test JIS L-109
Water resistance measured by the 2A method (low water pressure method) is 2000
mmH ₂ O is required.

The moisture-permeable waterproof sheet of the present invention needs to have appropriate strength according to the purpose of use. When used for the outer wall structure, it is preferred that the needle holding strength measured by JIS-A-6930 is 2.5 / 1.9 Kgf. Furthermore, after alkali immersion, JIS
It is also preferable that the holding ratio of the strength measured according to -A-6930 with respect to the initial holding strength of the tortuosity needle is 80% or more.

A wall structure according to another embodiment of the present invention includes the above-mentioned moisture-permeable waterproof sheet as a moisture-proof layer between the inner wall material and the outer wall material. In the moisture-permeable waterproof sheet, the non-porous resin film is arranged to face the inner wall material. Preferably, the outer wall material comprises thermal insulation and the stiffener sheet of the moisture permeable waterproof sheet is placed in contact with the thermal insulation.

The preferred wall structure is as follows. Pillar,
Fill the wall space formed by the gate pillars with heat insulating material such as glass wool, and place the moisture permeable waterproof sheet so that the non-porous resin film is in contact with the back surface of the interior material when attaching the interior material to the inner surface side Then, arrange the reinforcing material sheet of the moisture permeable waterproof sheet so as to be in contact with the heat insulating material, and on the surface of the heat insulating material,
A wall structure is formed by sequentially applying windproof paper and a mortar base material, further attaching a lath net, and then applying mortar. As a method of integrally fixing the wall structure, tacking or bonding is generally adopted. In addition, the heat permeable waterproof sheet having a size larger than the heat insulating material is previously arranged on the heat insulating material as described above, and when the heat insulating material is filled in the wall space described above, the sheet overlaps at its end. Then, a method of fixing to the wall structure by a method such as a tucker may be used. As the mortar base material, any known material can be used as long as it does not absorb water, has a high adhesive strength with mortar, has excellent needle hole sealing properties, and can enhance the waterproofness of the entire outer wall structure. A thing may be used. Also, the area around the window opening is a place where rainwater can easily enter, such as when there is a mistake in applying the waterproof tape, and therefore, a known commercially available 3 is used.
It is preferable to completely prevent water leakage by using a three-dimensional waterproof sheet.

The moisture permeable waterproof sheet of the present invention forms a humidity gradient between the inside and the outside having different temperatures and humidity separated by this, and the humidity gradually balances from a high humidity side to a low humidity side. To lower the water vapor pressure. Therefore, the moisture-permeable waterproof sheet of the present invention can be used not only for the wall structure but also for a structure requiring such a function, for example, a roof structure.

[0039]

EXAMPLES The present invention will be described more specifically with reference to the following examples, but the present invention is not limited to these examples.

The methods for measuring the physical properties of the non-porous resin film, reinforcing material sheet, and moisture-permeable waterproof sheet used in the following examples are as follows. A. Water resistance JIS L-1092 4.1.1. Method A (low water pressure method)
Was measured by B. Moisture permeability Measurement conditions 40 ° C, 90 according to JIS Z-0281 method
Measured under% RH. C. Moisture permeability resistance Measured according to JIS A-6930 method. D. Crush needle holding strength Measured according to JIS A-6930 method. E. FIG. Strength after alkali immersion Measured according to JIS A-6930 method.

(Examples 1 and 2) A polyvinyl alcohol film (15 μm thick) manufactured by Nippon Synthetic Chemical Industry Co., Ltd. having a moisture permeability of 100 to 200 g / m ² · 24 hr was used as a nonporous resin film, and a reinforcing material sheet was used. Using a polypropylene spunbond non-woven fabric “Zaburn (registered trademark)” (weighing 45 g / m ² ) manufactured by DuPont, and using a polyurethane-based hot melt agent by dot-like adhesion (solid content adhesion amount 5 to 10 g / m ² ). To produce a laminate (moisture-permeable waterproof sheet). The basis weight of the obtained composite sheet was 84 g / m ² , and had both flexibility and toughness. Further, the moisture permeability resistance value is 10 m ² / h / mm.
Hg / g, and the moisture permeability is 127.5 g / m ² / 24h
r, and the water pressure resistance was 2000 mmH ₂ O or more.
Table 1 shows the physical properties of the moisture-permeable waterproof sheet.

The moisture-permeable waterproof sheet thus obtained was used as a moisture-proof layer, and was sequentially combined with the interior material shown in Table 2, a 100 mm-thick glass wool heat insulating material, windproof paper, and an exterior material to form a width of about 25 mm. Was formed between the windproof paper and the exterior material to form a wall structure.

The wall structure thus formed was used in a wooden house constructed in Tsuchiura City, Ibaraki Prefecture during the period from July 1998 to March 2000, and as a result of observing the occurrence of summer-type condensation and winter-type condensation, No condensation occurred at all.

(Examples 3 and 4) A composite sheet was produced in the same manner as in Example 1. Using the obtained composite sheet as a moisture-proof layer, a wall structure without a ventilation layer was formed by sequentially combining the interior material shown in Table 3, a glass wool heat insulating material having a thickness of 100 mm, windproof paper, and an exterior material.

As a result of observing the occurrence of summer-type dew condensation and winter-type dew condensation using the formed wall structure in the same manner as in Example 1,
No condensation occurred at all.

(Comparative Examples 1 to 3)
Except for using the polyethylene film is a moisture permeability 9.4g / m ² / 24hr was formed an outer wall structure having air layer in the same manner as in Example 1.

As a result of observing the occurrence of summer-type dew condensation and winter-type dew condensation in the same manner as in Example 1 using the formed wall structure,
Both summer and winter condensation were observed.

(Comparative Examples 4 to 6) 15 μm as a moisture-proof layer,
Except for using a polyethylene film having a moisture permeability 9.4g / m ² / 24hr, to form a wall structure which does not likewise have a ventilation layer as in Example 3.

As a result of observing the occurrence of summer-type dew condensation and winter-type dew condensation using the formed wall structure in the same manner as in Example 1,
Both summer and winter condensation were observed.

[0050]

[Table 1]

[0051]

[Table 2]

[0052]

[Table 3]

The symbols or trade names described in the table and their manufacturers are as follows. PV-100: Glass wool made by Mug Co., Ltd., trade name: Mug Silver Polycut Tyvek: Trade name, DuPont flash spun nonwoven fabric “Tyvek (registered trademark)” Centuri board: Trade name, Mitsui Wood Industry Co., Ltd. hard wood chips Cement board Nichiha board: trade name, hard fiber board made of Nichiha dielite: trade name, volcanic glassy laminated board made by Daiken Kogyo

[0054]

The moisture permeable waterproof sheet according to the present invention forms a humidity gradient between the inside and the outside having different temperature and humidity, and the humidity gradually increases from the high humidity side to the low humidity side. The water vapor pressure can be reduced so as to balance the pressure. Therefore, by providing a moisture-proof layer made of this moisture-permeable and waterproof sheet between the inner wall material and the outer wall material, a wall structure that does not cause dew condensation regardless of the construction method and local climate and provides easy construction is provided. can do.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Ken Nishimura 4-8-14 Nihonbashi Honcho, Chuo-ku, Tokyo Magnai Co., Ltd. (72) Inventor Norihiko Kamata 8-11 Tenjincho, Muroran-shi, Hokkaido F-term (reference 2E001 DA01 DB04 FA03 GA03 GA06 GA23 GA24 GA27 GA28 HD11 HF11 JC06 JC07 JC08 4F100 AK01A AK04A AK21A AT00B BA02 BA10A BA10B BA26B DG15B GB07 JA20A JD04 JD04A JD04B JD05 YY00 YY00A

Claims (6)

[Claims] 1. A nonporous resin film having a moisture permeation resistance value of ² to 20 m ² / h / mmHg / g and a thickness of 10 to 50 μm measured according to JIS-A-6930,
A moisture-permeable waterproof sheet formed by laminating a reinforcing material sheet having a moisture-permeation resistance value lower than the moisture-permeation resistance value of the non-porous resin film.
A moisture-permeable waterproof sheet characterized by having a moisture permeability measured at 40 ° C. and 90% RH of 100 to 200 g / m ³ · 24 hr. 2. A nonporous resin film having a moisture permeation resistance of ² to 20 m ² / h / mmHg / g and a thickness of 10 to 50 μm, as measured according to JIS-A-6930,
A moisture-permeable waterproof sheet characterized by being laminated with a reinforcing material sheet having a moisture-permeable resistance value of substantially 0 m ² / h / mmHg / g measured based on JIS-A-6930. 3. The moisture-permeable waterproof sheet according to claim 1, wherein the non-porous resin film is a polyethylene film or a polyvinyl alcohol film. 4. The moisture-permeable waterproof sheet according to claim 1, wherein the reinforcing material sheet is a spunbonded nonwoven fabric made of thermoplastic resin filaments. 5. A wall structure having a moisture-proof layer between an inner wall material and an outer wall material, wherein the moisture-proof layer has the non-porous resin film disposed opposite the inner wall material. A wall structure, characterized by being the moisture-permeable waterproof sheet according to any one of the above. 6. The wall structure according to claim 5, wherein the outer wall material includes a heat insulating material, and the reinforcing material sheet is disposed in contact with the heat insulating material.