JP2922894B1 - Roofing material - Google Patents

Abstract

An object of the present invention is to provide a waterproof sheet which can be effectively used for a roofing sheet, and which is excellent in moisture permeability, flexibility and weather resistance. Kind Code: A1 A moisture-permeable material formed on one or both surfaces of a porous fibrous sheet substrate by applying a composition obtained by adding water to a composition containing a polymer component, cement and, if necessary, an aggregate, and then kneading the composition. A waterproof sheet, preferably having a moisture permeability of at least 150 g / m ² · 24 h (JIS Z 0208-1976) and a water pressure resistance of at least 100 cm / cm ² (JIS
L 1092).

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to the waterproofing of various buildings, a sheet that can be used particularly effectively waterproof the roof of a house, moisture permeability, flexibility, roof characterized by a weather resistance
For underlaying materials.

[0002]

2. Description of the Related Art Conventionally, asphalt felt is mainly used as a waterproof sheet used under a roof tile or the like. However, although asphalt felt is excellent in waterproofness, it has poor moisture permeability, so that it cannot discharge moisture in a house or moisture contained in a roof slab. For this reason, moisture is trapped inside the house, causing dew condensation and mold,
There is a problem that not only is hygiene not good but also the house itself is adversely affected. Asphalt also has a major drawback in that it gradually ages and becomes brittle with the passage of time, and is liable to be immersed or cut off due to shrinkage and cracking.
In particular, since the temperature under the roof tiles and shingles may be as high as 70 ° C. or more in summer, asphalt felt is greatly damaged.

[0003] In addition, asphalt felt is usually heavy at 1 kg / m ² or more in the construction of the roof underlaying material, so that the load on the house is large and the burden of the worker who constructs the roof underlaying material is large, resulting in poor workability. There is.

A waterproof sheet using a urethane resin, an epoxy resin, a synthetic rubber or the like has been studied and developed.
These materials having an organic polymer as a main component have a disadvantage that they are weak in weather resistance, and furthermore, they have a problem of work hygiene and safety because they use a solvent or are heated and melted during production.

[0005] For this reason, at present, there is a demand for a waterproof sheet having characteristics such as moisture permeability, weather resistance, light weight and the like, which are useful as a roofing material, in addition to waterproofness.

[0006]

SUMMARY OF THE INVENTION The present invention relates to a roof composed of a moisture-permeable waterproof sheet having properties such as waterproofness, moisture permeability, weather resistance and light weight, which are useful as a roofing material.
It is intended to provide underlaying materials for use .

[0007]

SUMMARY OF THE INVENTION The inventor of the present invention has been studying the asphalt felt conventionally used as a roof underlaying material day and night in order to solve the above-mentioned problems. On one or both sides, poly
Sets containing specific proportions of
Narubutsu (hereinafter also referred to as coating composition or a coating composition)
It has been found that even when the sheet formed by applying is adjusted to a thickness of about 1 mm, the sheet exhibits sufficient waterproofness and has excellent moisture permeability. Furthermore, the weight of such a sheet is as light as about 70% or less of the conventional asphalt felt sheet, has higher flexibility, is excellent in weather resistance, and has extremely useful properties as a roofing material. I found it. The present invention has been developed based on such knowledge.

[0008] That is, the present invention is a roofing underlaying material shown in the following (1) to ( 6 ). (1) One side or both sides of the porous fibrous sheet substrate
Add water to the composition containing the limmer component, cement and aggregate
Permeable waterproof sheet formed by applying and kneading
A roofing material for a roof comprising:
The mixing ratio of the aggregate is 10 to 100 parts by weight of the cement.
60 parts by weight, with a thickness of 0.4 to 1.4 mm
And the sheet has a moisture permeability of at least 150 g / m
In ^{2 · 24h (JIS Z 0208-1976)} , and water pressure resistance is small
Is both ^{100cm / cm 2 · 24h (JIS} L 1092)
An underlaying material for a roof, characterized in that: (2) The mixing ratio of cement and polymer component is
0.2 to 4 parts by weight of the polymer component per 1 part by weight
Underlaying material for a roof according to (1). (3) a composition comprising a polymer component, cement and aggregate;
Contains resin emulsion as polymer component
The underlaying material for a roof according to (1) or (2). (4) The resin emulsion is an acrylic resin emulsion
(1) to (3) below the roof
Thatch. (5) If the porous fibrous sheet base material does not contain glass fibers
For roof according to any one of (1) to (4), which is a woven fabric
Underlaying material. (6) a composition comprising a polymer component, cement and aggregate;
(1) to (5), further containing carbon powder.
An underlaying material for a roof according to any one of the above.

[0009] Since the roofing underlaying material of the present invention has both high waterproofness and high moisture permeability, moisture generated in the interior of the house or moisture accumulated in the house due to rainfall can be passed through the underlaying material . It can be released into the atmosphere, without adversely affecting houses and providing a better living environment. Further, since the weight of the sheet can be reduced, it is possible to reduce the load on the house and the construction load of the construction worker.

[0010] The sheet-like roof underlaying material of the present invention comprises:
Since the sheet itself has high flexibility and a high elongation,
Cracks and cracks do not occur even when bent at 0 degrees or more. For this reason, it is possible to flexibly respond to the force of the external element .

[0011]

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a porous fibrous sheet base material having a polymer component , cement,
A sheet formed by coating a material obtained by kneading by adding water to a composition comprising aggregate in a specific ratio, light weight (thin
The present invention provides a moisture-permeable waterproof sheet having characteristics such as flexibility and weather resistance that are useful as a roofing material .

The polymer component used in the present invention may be any as long as it is miscible with cement and has elasticity, water resistance and moisture permeability. Preferably, it further has weather resistance. Polymer components that are miscible with cement include:
Although not limited, polymers of polyacrylic type, polyolefin type, urethane type, neoprene type, vinyl acetate type, styrene butadiene type and the like are included. As long as these polymer components have the above properties, their molecular weight, degree of polymerization, viscosity, etc. are not particularly limited, and these molecular weights, degree of polymerization, viscosity, etc. are appropriately selected and used so as to have the above properties. be able to. These may be used alone or in any combination of two or more. The form of the polymer component to be added to the cement is not particularly limited, and may be any of an aqueous polymer dispersion, a re-emulsifying powder resin, and a liquid polymer.

Preferred polymer components include those made of rubber or synthetic resin, which are preferably used in the form of a rubber emulsion (latex) or a resin emulsion. Preferably, it is a resin emulsion.

In general, a resin emulsion is one in which a synthetic resin hardly insoluble in water is uniformly dispersed in water as particles of a certain size with the aid of an emulsifier.

As described above, the resin emulsion used in the present invention has elasticity,
There is no particular limitation as long as it has water resistance and moisture permeability, and more preferably further has weather resistance. For example, the resin emulsion includes an acrylic emulsion, a vinyl acetate emulsion, a vinylidene chloride emulsion, a vinyl chloride emulsion, an SBR emulsion, an epoxy emulsion and the like. The molecular weight, the degree of polymerization and the like of the resin contained in these are not particularly limited as long as the polymer to be formed has the above-mentioned properties, and can be appropriately selected so as to form such a polymer.

The acrylic emulsion may be any one containing acrylic acid or an acrylic acid ester as a main component, and includes a copolymer with methyl methacrylate, an acrylic / styrene emulsion, an acrylic / vinyl acetate emulsion and the like. . Examples of the vinyl acetate emulsion include a vinyl acetate homopolymer emulsion, a versatic vinyl acetate (veova), a copolymer with ethylene, and the like. The vinylidene chloride-based emulsion includes a copolymer emulsion of vinylidene chloride and vinyl chloride. The vinyl chloride emulsion includes a copolymer emulsion of vinyl chloride and vinyl acetate.

The resin emulsion is preferably an acrylic emulsion. This includes suitable anionic acrylic emulsions. In addition, as such an acrylic emulsion,
For convenience, commercially available emulsions can also be used. For example, Licabond ES-73, Licabond ES-69
And the like, such as Likabond ES series (manufactured by Chuo Rika Kogyo Co., Ltd.).

These resin emulsions can be used alone or, if necessary, in combination of two or more kinds.

The viscosity, pH, nonvolatile content and the like of the resin emulsion are not particularly limited. 1500-3500cp
s, 2000-3000 cps or 2200-2800
Emulsion adjusted to have a viscosity in the range of cps (viscosity measurement conditions: BM type, using rotor # 2, 12
rpm / 25 ° C); pH 7-10 or pH 8-9
Emulsions in the H range; any emulsions containing non-volatiles in the content range of 30-70%, 30-60% or 50-60% by weight are included.

The type of cement used in the present invention is not particularly limited, and it does not matter whether it is Portland cement, blast furnace cement, silica cement, or fly ash cement. Preferably it is Portland cement. Further, the Portland cement includes any of ordinary cement, white cement, early-strength cement, ultra-high-strength cement, and moderately heat cement, regardless of the type, but preferably, ordinary Portland cement can be exemplified.

In the present invention, an aggregate is further compounded in addition to the polymer component and the cement . Here, the type of aggregate is not particularly limited, and commonly used aggregates can be widely used. Natural aggregates such as silica sand, cold water sand, river sand, etc .;
Examples include colored aggregates such as ceramic pieces and glass grains, and artificial aggregates including lightweight aggregates such as pearlite, vermiculite, and shirasu spheres. However, the present invention is not limited to these, and an aggregate equivalent having the same function as the aggregate can be used. These aggregates may be used alone or in any combination of two or more.

Granular aggregates are preferable in order to impart a non-slip effect to the waterproof sheet, improve the fixability to the roof, and enhance the safety and workability during construction. Such a material is usually 60 to 130 mesh, preferably 80 to 10 mesh.
A 0-mesh particulate aggregate can be exemplified. From the economic point of view, natural sand such as silica sand and cold water sand is mainly used.

The proportion of aggregate blended in cement is not particularly limited, aggregate 1 with respect to 100 parts by weight of cement
A ratio of 100 parts by weight, preferably 10 to 60 parts by weight, more preferably 20 to 40 parts by weight can be exemplified.

The coating composition used in the coating of the sheet substrate in the present invention, for example, adding the polymer component and aggregate resin emulsion or the like that described above in the cement, are mixed, water also was kneaded Can be prepared. The order of mixing the above components is not particularly limited.

Here, the compounding ratio of the cement and the polymer component is determined by applying the above coating composition to both sides or one side of the porous fibrous sheet substrate and curing the coating composition to a thickness of, for example, about 1 mm (preferably, 0.4 to 1.4 mm thick), at least a moisture permeability of 150 g / m ² · 2
There is no particular limitation as long as the ratio is 4 h (JIS Z 0208-1976) and the water pressure resistance satisfies the condition of at least 100 cm / cm ² (JIS L 1092). Of the present invention
The preferred moisture permeability of the roofing material is 150 g / m ^2.
· 24h and the (JIS Z 0208-1976) or more, more preferably 200 g / m ² · 24h or more, particularly 200
In the range of 350 g / m ² · 24 h, furthermore, 300 to 350
The range of g / m ² · 24h is preferably exemplified. In addition, straight
In the case of roof underlaying materials used without contact with the outside world ,
In practice, the water pressure resistance is at least 100 cm / cm ² (JIS L
1092) is sufficient.

The mixing ratio of the cement and the polymer component is such that when the prepared waterproof sheet is prepared, even if the sheet is bent to 90 ° or more, preferably 90 ° to 180 °, the surface layer, that is, the coating composition Coating layer (hereinafter referred to as
It is desirable that the cracks and cracks do not occur in the cement coating layer) and that the aggregate does not fall off.

As described above, the mixing ratio of the cement and the polymer component can be appropriately selected and adjusted according to the type of the cement and the polymer component so as to satisfy the above requirements. For example, the mixing ratio of, for example, a resin emulsion (nonvolatile content of 50 to 60% by weight) to 1 part by weight of cement is usually 0.2 to 4 parts by weight, preferably 0.4 to 3.5 parts by weight. ,
More preferably 0.5 to 2 parts by weight, even more preferably 0.5 to 2 parts by weight.
5 to 1.5 parts by weight.

The coating composition used in the present invention includes:
As long as the effects of the present invention are not impaired, other components may be added in addition to the above components, for example, bentonite, diatomaceous earth,
Inorganic fillers such as acid clay, kaolin, and isolite; thickeners and thickeners commonly used in architectural spraying materials and paints, such as aluminum stearate, methyl cellulose, polyvinyl alcohol, silicic acid, and sodium caseinate; ultramarine , Titanium dioxide, pigments such as ceramic pigments; and other additives such as calcium carbonate. In addition, an electromagnetic wave absorbing material can be blended .

[0029] Examples of the electromagnetic wave absorbing material include carbon powder and the like.
But not limited thereto. Such electromagnetic waves
The mixing ratio of the absorbent isRoofing materialFlexibility etc.
Is not particularly limited as long as the ratio does not impair the characteristics of the above. Ma
Although not limited, as an example, 100 parts by weight of cement
About 30 parts by weight of carbon powder to be mixed
be able to.

The coating composition used in the present invention can be prepared by kneading various components with water as described above. At this time, the cement reacts with water to form a cement hydrate, while the resin crosslinks with calcium and iron ions in the cement and also reacts with water to form an adhesive polymer. . The composition has high workability due to increased flowability in a kneaded state with water.

The composition having such an appropriate viscosity is as follows:
Next, it is applied to the porous fibrous sheet material and cured. As a result, the cement hydrate and the aggregate are firmly bonded via the polymer formed from the resin, the bending strength and the tensile strength are increased, and the waterproofness is improved. In addition, due to the action of the resin component, the adhesive force and the fixing force to the porous fibrous sheet material as the material to be applied are increased, and the wear resistance is increased.
Furthermore, weather resistance and heat resistance are greatly improved.

The porous fibrous sheet base material used in the present invention is one having its own flexibility, do not interfere polymer component, a breathable with cement coating layer is composed of cement及beauty aggregate It is not particularly limited as long as it is a thing. Preferably, in order to further increase the adhesive strength between the coating layer and the sheet substrate, and the adhesive strength between the coating layers disposed on both sides with the sheet substrate as the intermediate layer, the sheet substrate is made of a porous fibrous material. Things can be exemplified.

Examples of such a sheet substrate include porous woven fabrics, nonwoven fabrics, and knits obtained by using synthetic fibers such as glass fiber, polypropylene, acrylic, nylon, polyester, polyamide, and vinylon as constituent materials. Can be. The above materials may be used alone or in any combination of two or more. Examples of combining two or more materials include a fiber (FRP) in which unsaturated polyester resin is reinforced with glass fiber, a fiber in which polypropylene resin is reinforced with glass fiber, and a fiber in which epoxy resin is reinforced with glass fiber. it can. Preferably, it is a nonwoven fabric containing a glass fiber, more preferably a nonwoven fabric made of a fiber reinforced with a polypropylene resin by a glass fiber.

The basis weight (weight per unit area) of these sheet base materials is not particularly limited, but is usually from 10 to 100.
a g / m ^2, preferably 30 to 80 g / m ^2, more preferably 50 to 70 g / m ^2. If the fiber density is too low, the strength of the obtained waterproof sheet is insufficient in practice and is not preferable, and if the basis weight is large, the fiber density becomes too large and the uniform impregnation of the coating composition into the fiber pores, It cannot be expected, and the waterproofness of the obtained waterproof sheet becomes insufficient. In addition, there is a problem that a waterproof sheet obtained with an increase in basis weight becomes thick.

Although the thickness of the sheet substrate is not particularly limited,
Usually 0.1 to 0.5 mm, preferably 0.15 to 0.4
mm, more preferably 0.2 to 0.3 mm. Further, the sheet base material preferably has appropriate tensile strength, tensile elongation and tear strength. Such a tensile strength, tensile elongation and tear strength, under a roof to prepare
It can be selected as appropriate according to the use as a roofing material and the application object, and is not particularly limited.

The size and shape of the sheet base material can be appropriately selected according to the size of the roofing material to be prepared and its application object . For example it is possible to use the width 1mm approximately piece goods.

The underlaying material for a roof of the present invention is obtained by applying and impregnating a coating composition on one or both surfaces of the sheet base material to a thickness that prevents water from passing and ensures moisture permeability. Can be. From the viewpoint of weight reduction under a roofing material, the thickness of the coating as thin as possible, yet waterproof, breathable, satisfy the useful properties as a roof underlaying material such flexibility and the like are desirable.

[0038] The thickness of the roofing material as a final product is not particularly limited as long as it satisfies the above conditions.
Usually 0.4 to 1.4 mm, preferably 0.5 to 1.2 m
m, more preferably 0.5 to 1 mm, and still more preferably 0.5 to 0.7 mm. Further, the weight of the roofing material is preferably as low as 1 kg / m ² or less. For example, 0.9 kg / m ² or less, preferably 0.8 kg / m ² or less, more preferably 0.7 kg / m ² or less.
kg / m ² or less, for example, 0.4-0.8 kg /
m ² , and in some cases, 0.5 to 0.8 kg / m ² , preferably 0.6 to 0.75 kg / m ² .

In the case of a waterproof sheet having a coating layer on both sides of a sheet substrate, the thickness of one side is not particularly limited as long as the thickness of the finally obtained sheet is within the above range. However, it is preferable that both sides are adjusted to have a substantially uniform thickness.

The method of applying and impregnating the sheet composition with the coating composition is not particularly limited, and a roll coater, a spray,
A method using a flow coater or the like can be given.

According to a spraying method using compressed air as an example, for example, first, a coating composition prepared to an appropriate viscosity with an appropriate amount of water is sprayed on one surface of a porous fibrous sheet substrate. By this spraying, the coating composition forms a coating film on the surface of the sheet substrate, is impregnated into the interior of the sheet substrate through the fibers or through holes, and is integrated with the sheet substrate after a certain time. In this case, it is more useful for the present invention that the coating composition penetrates and impregnates between the fibers and the pores of the sheet substrate. In this case, the resin component contained in the composition firmly binds the cement and the aggregate, conjugates the fibers, integrates the coating film layer (coating layer) with the sheet substrate, and reliably prevents delamination. .

Next, the coating composition is sprayed on the opposite surface of the sheet substrate in the same manner and left for a certain time. This allows
Coating film formed from the coating composition (coating layer) is formed integrally with the intermediate layer of the sheet substrate with Sea invention
A roofing material for a roof is formed. Alternatively, the coating composition may be simultaneously sprayed from both sides of the sheet substrate and left to cure for a certain period of time to prepare the underlaying material for a roof of the present invention.

The method of drying and curing the coating composition applied to the sheet substrate is not particularly limited, but after applying the coating composition to the sheet substrate, the coating composition is shaded under a suitable humidity, or dried. A drying method under the same conditions can be mentioned. From the viewpoint of productivity, after applying the coating composition to the sheet substrate, it may be placed under high humidity conditions, and a process (dehumidification process) of removing moisture contained in the cement coating layer under such an environment may be employed. preferable. Thereafter, various steps such as a heating treatment, an air drying treatment, and a cooling treatment can be appropriately performed in combination. The dehumidification step may be performed while cooling, or may be performed at room temperature. As described above, the underlaying material for a roof of the present invention has higher flexibility and flexibility by applying the coating composition to the porous fibrous sheet substrate, and then dehumidifying and drying under high humidity. Sheet
It is prepared as a solid .

The roofing under a葺材 of the present invention, the cement coating layer (coating layer) (2) to the may be one having only one side of the porous fibrous sheet base (3), also double-sided They may have both (FIG. 2). Preferably those having a cement coating layer on both surfaces of the sheet substrate.
In this case, due to the aggregate contained in the composition, both surfaces thereof are formed with a large number of projections and are rough, thereby exhibiting a non-slip function. For this reason, the installer can perform underlaying or tiled work on the sheet extremely safely.

The underlaying material (1) for a roof of the present invention has a thickness of, for example, 0.5 to 1.2 mm, preferably 0.5 to 1 m.
m, a width of 1 m, and a length of 20 to 40 m can be provided in a rolled state (see FIG. 1).

As shown in FIGS. 3 and 4, for example, the sheet-like roof underlaying material (1) is obtained by driving a roof (6) with nails (6) on the roofing ground plate (4). Fixed to The ends of the sheets are preferably laid so that the sheets overlap each other. Note that the underlaying material for the roof can be fixed to the roofing material by arranging a pier on the sheet and nailing from the pier , and is not limited to the example in FIG.

[0047] When the coating layer of the roofing below for葺材 having only on one side of a sheet base material, previously denoted by the adhesive pre Me facilities cumene, can be attached, adhered to said surface, sticking In consideration of the work efficiency at the time of application and the handling of thin materials, a desired adhesive may be applied in advance to the surface of the sheet substrate opposite to the cement coating layer to provide an adhesive layer. The bonding portion of the bonding layer may be formed on one entire surface of the sheet substrate, or may be formed on a part thereof. In such a case, it is preferable that the adhesive layer is protected by a release layer such as a release film until the roofing material is used.

This is an example of the embodiment of the roofing material for a roof according to the present invention, and more specifically, the coating composition coating material formed on one side using the porous fibrous sheet base material (3) as an intermediate layer. A three-layer sheet-like roofing material having a forming layer (cement coating layer) (2) and an adhesive layer (7) on the opposite side (FIG. 5); A sheet-like roofing material having a four-layer structure having (8) (FIG. 6) can be given.

The adhesive used for the adhesive layer is not particularly limited, and any adhesive suitable for the construction surface of a building to which the waterproof sheet is applied can be used. The release film is not limited, and examples thereof include a polyethylene film and surface-treated paper .

The underlaying material for a roof of the present invention has a sufficient waterproofing function, and also has appropriate air permeability and moisture permeability. For this reason, it is possible to reliably prevent rainwater or the like from entering the inside of the structure through the roofing material, and it is possible to promptly pass moisture as moisture from the inside of the roofing material and release it to the atmosphere. Therefore, it is possible to prevent damage to the house due to moisture, and to provide a sanitary living environment.

Further, even when the roofing material of the present invention is nailed, the waterproof sheet is elastically entangled with the nail based on the mutual action of the polymer component and the cement incorporated in the coating layer. Intrusion of water from the attachment portion can be reliably prevented.

The underlaying material for a roof of the present invention has a practically preferable strength and flexibility since a flexible sheet substrate is used as a material to be coated with the coating composition. . Based on such flexibility, even if the construction surface of the waterproof sheet is no aspects, ya easily along the said surface
Underlaying material for roots can be constructed .

[0053]

EXAMPLES The contents of the present invention will be specifically described with reference to the following examples and test examples. However, these examples and test examples are only one embodiment of the present invention, and the present invention is not limited to these examples. Example 1 A polypropylene thermocompression-bonded type spunbond nonwoven fabric (Geotextile "Tekton"# 3201: manufactured by Chori Co., Ltd.) was used as a porous fibrous sheet base material. In addition, such a sheet substrate has the following physical properties.

Tensile strength Vertical × Horizontal 25 × 25 kgf / 2.5cm (Test method JIS L-1096) Tensile elongation Vertical × Horizontal 60 × 60% (Test method JIS L-1096) Tear strength Vertical × Horizontal 15 × 15 kgf (Test method JIS L-1096) Basis weight 60 g / m ² (Test method JIS L-1096) Thickness 0.26 mm (Test method JIS L-1085) Permeability 2.8 × 10 ^-2 cm / sec (Test Method JIS A-1218) A coating composition is prepared by kneading raw materials having the following formulation, and a coating dry weight of 3 is applied to one surface of the sheet substrate.
Spray coating was performed using a spray gun at a rate of 20 g / m ² . Next, the coated surface was dehumidified (20 ° C.) while being exposed to steam, and dried under hot air at 80 ° C. for several minutes.

<Formulation of coating composition> 10 parts by weight of ordinary Portland cement 10 parts by weight of Ricabond ES-73 (manufactured by Chuo Rika Kogyo) [Viscosity 1900 ± 500 cp (BM type, 12 rpm / 25 ° C.), nonvolatile content 54 ± 2% 4 parts by weight of silica sand (No. 8) water appropriate amount Next, the composition of the same formulation is spray-coated on the back surface in the same manner, dehumidified and dried in the presence of steam to obtain the sheet of the present invention.
-Shaped roofing material (weight 700 g / m ² : Test method JIS L
-1096) was prepared.

[0056] The thickness of the obtained sheet over preparative was 1 mm (test method JIS L-1085). The 該Shi over bets are carried the tensile strength and tear strength over the strength the sheet substrate has. Furthermore, the tensile elongation of the sheet substrate was hardly impaired, and the sheet substrate was excellent in flexibility. No cracks or cracks were observed even when the sheet substrate was pulled or crimped. Example 2 Using a coating composition prepared by kneading raw materials having the following formulation, spraying was performed on the sheet substrate at a rate such that the applied dry weight on one surface of the sheet substrate was 300 g / m ^2. Except for coating, a moisture-permeable waterproof sheet (weight 660 g / m ² : test method JIS L-1096) was prepared in the same manner as in Example 1.

<Formulation of coating composition> Ordinary Portland cement 20 parts by weight Ricabond ES-73 (manufactured by Chuo Rika Kogyo) 30 parts by weight [viscosity 1900 ± 500 cp (BM type, 12 rpm / 25 ° C.), nonvolatile content 54 ± 2%] Silica sand (No. 8) 6 parts by weight Water appropriate amount The obtained waterproof sheet has a thickness of 0.8 mm (test method JI
SL-1085), and had excellent tensile strength, tensile elongation, tear strength and flexibility as in Example 1. Example 3 Using a coating composition prepared by kneading a raw material having the following formulation, a coating dry weight of 640 g / m 2 was applied to one surface of the same sheet substrate as used in Example 1. ^Two
Spray coating was performed using a spray gun at the following ratio, and the coated surface was dried using a dehumidifier at 20 ° C. while spraying steam. Next, an acrylic adhesive was applied on the sheet substrate on the back surface. Further, the adhesive layer was covered with a release film made of polyethylene to prepare a sheet-like roofing material (weight 700 g / m ² : test method JIS L-1096) having a cement coating layer on only one side of the present invention. . <Coating composition formulation> Ordinary Portland cement 30 parts by weight Licabond ES-73 (manufactured by Chuo Rika Kogyo) 20 parts by weight [viscosity 1900 ± 500 cp (BM type, 12 rpm / 25 ° C), nonvolatile content 54 ± 2%] silica sand ( No. 8) 12 parts by weight water q.s. resulting sheet over preparative had a thickness of 1 mm (test method JIS L-108
5), and had excellent tensile strength, tensile elongation, tear strength and flexibility as in Example 1. Example 4 Instead of the porous fibrous sheet substrate used above, a tensile strength of 10 × 10 to 100 × 100 kgf / 2.5 cm (JIS L-1096) and a tensile elongation of 50 × 50 to 70 × 70% (JIS L-1096), tear strength 7 ×
7-55 × 55kgf (JIS L-1096), basis weight 40-100g / m ²
(JIS L-1096), thickness 0.2-0.5mm (JIS L-108
5), Permeability coefficient 1-10 ^-1 to 1 × 10 ^-3 cm / sec (JIS A-1
218) As in Example 1 using the sheet having the physical properties
Shea over preparative was prepared to obtain a moisture-permeable waterproof sheet having properties useful as a roofing underlaying material. Examples 5 to 10 One surface of the same sheet base as the sheet base used in Example 1, using a coating composition prepared by mixing an appropriate amount of water into a raw material having the formulation shown in Table 1 and kneading the mixture. Was applied using a roll coater at a rate of a coating dry weight of 320 g / m ^2, and dried at 25 ° C. under a humidity of 30 to 80% for several minutes. Next, hot air of 80 ° C. was applied to cool appropriately.
Next, a coating composition having the same formulation is spray-coated on the back surface in the same manner, similarly dehumidified, and dried, and the underlaying material for a roof of the present invention (weight: 700 g / m ² : test method JIS L-1)
096).

[0058]

[Table 1]

[0059] The resulting sheet over door is, a thickness of 0.6 to 1.2
mm (test method JIS L-1085), and had excellent tensile strength, tensile elongation, tear strength and flexibility as in Example 1. Shea over preparative prepared in Test Example 1 Water pressure test in Example 1 was tested according JIS L 1092 "waterproofness test method of fiber products" (A method (low water pressure method) hydrostatic water pressure method), its waterproof And water resistance were measured. Test, cut by four sheets of test pieces of about 20 cm × 20 cm from the sheet over preparative prepared in Example 1, water tester (WP-5P, Daiei Kagaku Seiki Mfg. Co., Ltd.) is the surface of the test piece The test was performed by applying water pressure at a rate of 60 ± 3 cm / min per minute and measuring the water pressure when water came out from three places on the back side of the test piece. Note that very small water droplets that do not become large after the appearance of the water droplets are not included in the calculation. The numerical value of the result indicates the average value of four tests, with one decimal place. The result is an average of four times, 202c
m / cm ² .

[0060] Similarly, was tested for sheet over preparative prepared in Examples 2-10, any water pressure resistance 100
cm / cm ² or more. The moisture permeability of the sheet over preparative prepared in Test Example 2 Breathable Test Example 1, JIS Z 0280-197
6 Measured according to the “Moisture Permeability Test Method for Moisture-Proof Packaging Materials (Cup Method)”. Specifically, first, a moisture absorbent (calcium chloride) is put in a moisture-permeable cup, and a roofing material (sample) of the present invention cut to a diameter of 70 mm is placed on the mouth of the moisture-permeable cup, and the packing and the ring are placed. After fixing with a wing nut, the joint between the moisture-permeable cup and the sample was sealed with a vinyl adhesive tape to obtain a test body. This test specimen is 40 ± 2 ° C, 90 ± 5%
It was left in a RH constant temperature and humidity apparatus for a predetermined time. One hour later, the test specimen was taken out, the mass was measured, and after the measurement, it was placed again in a thermo-hygrostat, taken out after 4 hours, and the mass was measured.
The following equation was determined as the mass (g) of water vapor passing through the moisture permeability of the sheet over preparative (1 m ² per). <Expression> Moisture permeability (g / m ² · 24h) = 240 × (a ₂ −a ₁ ) / 4h × s a ₂ −a ₁ : The sum of the last two weighing intervals and increased mass (g) 4h: 4 hours s: Moisture permeability area (cm ² ) As a result, the moisture permeability of the roofing material of the present invention is 236 g /
m was ² · 24h (3 average samples).

[0061] Similarly, was tested for sheet over preparative prepared in Examples 2-10, both the moisture permeability 150
In g / m ² · 24h or more, particularly moisture permeability sheets over preparative examples 2 and 3 met the above 200g / m ² · 24h. Sheet over preparative specimens prepared in Test Example 3 boiling water resistance test Example 1 (100 mm × 10
0mm) was immersed in boiling water for 1 hour, and then taken out to see changes in appearance. In the treated waterproof sheet, no swelling or floating, cracking or checking, peeling of the coating layer, delamination, etc. were observed. Furthermore, was similarly tested sheet over preparative prepared <br/> in Example 2, similar results were obtained. Specimen sheet over preparative prepared in Test Example 4 hot water Test Example 1 (100 mm × 10
0 mm) was immersed in 70 ° C. warm water for 12 hours, and then taken out to see changes in appearance. The sheet over bets after treatment, swelling or floating, cracks and checking, peeling of the coating layer, such as delamination, none was observed. Furthermore, was similarly tested sheet over preparative prepared in Example 2, similar results were obtained. Test Example 5 nail hole sealability plywood test 9mm thick paste a sheet over preparative prepared in Example 1, strike this diameter 2 mm, a brass nail length 38mm through the plate so it extends 20mm Was. After placing a transparent polyvinyl chloride pipe with an inner diameter of 40 mm around the nail and sealing the periphery, water was added to a height of 150 mm, and the mixture was allowed to stand at 21 ± 1 ° C. for 24 hours to check for leakage from the nail hole. Observed visually. This test was performed on ten samples, and no water leakage was observed in any of the samples. When the waterproof sheets prepared in Examples 2 and 3 were tested in the same manner, similar results were obtained.

[Brief description of the drawings]

FIG. 1 is a roof of the present invention having a cement coating layer on both sides.
It is a perspective view of an underlaying material (prepared in a roll shape).

FIG. 2 For roof of the present invention having cement coating layers on both sides
It is sectional drawing of an underlaying material

FIG. 3 is a view showing an example of construction of a roofing material according to the present invention.

Is a diagram showing a mounted state of the roofing roof under a葺材 of the present invention; FIG.

FIG. 5 is a cross-sectional view of a roofing material of the present invention having a cement coating layer on one side and an adhesive layer on the other side via a porous fibrous sheet substrate.

FIG. 6 is a cross-sectional view of a roofing material of the present invention having a coating layer, a porous fibrous sheet substrate, an adhesive layer, and a release layer.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Roof underlay material of this invention 2 Cement coating layer 3 Porous fibrous sheet base material 4 Field board 5 Roof tile 6 Nail 7 Adhesive layer 8 Release layer

──────────────────────────────────────────────────続 き Continued on front page (58) Field surveyed (Int. Cl. ⁶ , DB name) B32B 1/00-35/00

Claims (6)

(57) [Claims] 1. One or both sides of a porous fibrous sheet substrate
In addition, water is added to the composition containing the polymer component, cement and aggregate.
Moisture permeable and waterproof formed by applying the kneaded mixture
A roof underlaying material comprising a sheet, wherein the composition
The proportion of aggregate in the material is 100 parts by weight of cement
10 to 60 parts by weight, 0.4 to 1.4 m in thickness
m and the sheet has a moisture permeability of at least 150.
g / m ^Two ・ 24h (JIS Z 0208-1976) and withstand water pressure
At least 100cm / cm ^Two ・ 24h (JIS L 1092)
An underlaying material for a roof, characterized in that: (2) The mixing ratio of the cement and the polymer component is
The polymer component is 0.2 to 4 parts by weight based on 1 part by weight of the
The underlaying material for a roof according to claim 1, which is a part. 3. A set comprising a polymer component, cement and aggregate.
The product contains a resin emulsion as a polymer component
The underlaying material for a roof according to claim 1 or 2, which is a material. 4. The method according to claim 1, wherein the resin emulsion is an acrylic resin emulsifier.
The roof according to any one of claims 1 to 3, wherein the roof is a luzon.
For underlaying materials. 5. The porous fibrous sheet base material comprises glass fibers.
The shop according to any one of claims 1 to 4, wherein the shop is a nonwoven fabric containing the nonwoven fabric.
Underlaying material for roots. 6. A set comprising a polymer component, cement and aggregate.
The composition according to claim 1, further comprising a carbon powder.
5. The underlaying material for a roof according to any one of 5.