JP2020059233A - Waterproof fabric, and waterproof sheet manufactured by using the waterproof fabric - Google Patents

Abstract

To provide a waterproof fabric with which cleaning and wiping are easy and which is capable of reducing or preventing rolling and leakage of water droplet because water affinity of a membrane surface is good while having improved waterproofness, and a waterproof sheet using the same.SOLUTION: There are provided a waterproof fabric in which at least a fabric layer and a water proof layer are laminated, a layer containing a surfactant is arranged on a whole surface or a part thereof of the waterproof layer, water pressure resistance of 500 mmHO, and moisture vapor permeability according to a JIS L1099:2012 B-1 method of less than 3000 g/m/24hr, and a waterproof sheet using the same.SELECTED DRAWING: None

Description

  TECHNICAL FIELD The present invention relates to a waterproof fabric in which a waterproof layer having waterproofness is laminated on a fiber fabric layer, and a waterproof sheet manufactured using the waterproof fabric.

  Conventionally, a waterproof fiber cloth is known (for example, refer to Patent Document 1). BACKGROUND OF THE INVENTION Waterproof fiber cloths are used in various fields such as clothing fields such as outdoor wear and kappa, material fields such as umbrellas, nursing sheets, and mattress covers.

  Particularly in the fields of medical care and nursing care, waterproof sheets that prevent contamination by body fluids such as food and excrement, sweat and saliva, and that can be kept clean by wiping with a rag or tissue paper are widely known (for example, , Patent Document 2).

  A method is known in which a layer having waterproofness is laminated on a cloth in order to impart waterproofness to the fiber cloth. The waterproof layer is, for example, a layered product obtained by directly forming a film having flexibility on the cloth, such as a soft resin film, which does not impair the flexibility of the cloth, or by bonding the cloth with an adhesive. Widely used in the form.

  However, when a simple hydrophobic film is laminated, the waterproof film does not fit well in water, so the film repels water and it is difficult to wipe it clean, and water such as drinks and urine that spilled on the film are difficult to clean. During wiping, there was a problem that water tumbled on the hydrophobic film as polka dots, spilling from the edges of the sheets and soiling unrelated places.

  In addition, when a membrane made of highly hydrophilic polyurethane resin or porous polytetrafluoroethylene (PTFE), which is widely used in the garment field, is laminated, moisture permeates the membrane and swells or permeates the membrane. As a result, water reaches the fabric layer, and there is a problem that it cannot be used as a waterproof film.

JP-A-2-154070 JP, 11-309183, A

  The present invention is to solve the above problems, while having improved waterproofness, because the film surface has good water compatibility, it is easy to wipe and clean, and water droplets may roll off and leak. It is an object of the present invention to provide a waterproof cloth capable of reducing or preventing the above-mentioned problem, and a waterproof sheet manufactured by using the waterproof cloth.

  As a result of earnest studies to solve the above problems, the present inventors have laminated a hydrophobic waterproof layer with a fabric, and provide a layer containing a surfactant on the entire surface or a part of the surface of the waterproof layer. It was found that the present invention has a function of facilitating wiping and cleaning and preventing water droplets from rolling and leaking while having reliable waterproofness, and has completed the present invention.

That is, the waterproof fabric according to the present invention has at least a fabric layer and a waterproof layer laminated, and a layer containing a surfactant is provided on all or a part of the surface of the waterproof layer, water pressure is not less 500mmH ₂ O or more and JIS L1099: moisture permeability based on 2012 B-1 is equal to or less than 3000g / m ² / 24hr.

  Moreover, it is preferable that the fabric layer is a knitted fabric.

  Further, it is preferable that the waterproof layer is formed of a flexible resin that does not break, crack or whiten even if the waterproof cloth is stretched by 20%. Specifically, a resin layer containing a polyurethane resin as a main component may be mentioned. In the present invention, the term “resin layer containing polyurethane resin as a main component” means that the polyurethane resin contains more than 50%, 60% or more, 70% or more, 80% or more, 90% or more, or 100% by weight. It means the resin layer that does.

  Further, the initial contact angle of water with respect to the surface of the waterproof layer is preferably less than 125 degrees. In the present invention, the “initial contact angle of water” refers to the contact angle of water with respect to the surface of the waterproof layer of the waterproof cloth in the initial stage that is not subjected to treatment such as washing.

  Moreover, it is preferable that the surfactant is contained in the layer containing the surfactant in an amount of 15% to 55% by mass ratio, and it is more preferable that the surfactant is an anionic type.

  In addition, a crosslinking agent is preferably added to the layer containing the surfactant, and the crosslinking agent is more preferably a polyfunctional isocyanate having a crosslinking group of more than 2. In the present invention, “a polyfunctional isocyanate having a cross-linking group of more than 2” means not only a trifunctional isocyanate but also an apparent cross-linking agent when a bifunctional isocyanate and a trifunctional isocyanate are used in combination. It also includes a polyfunctional isocyanate having a non-integer value of the number of crosslinking groups between 2 and 3.

  Further, the textile product according to the present invention is a textile product using at least a part of any of the waterproof cloths described above, and is a textile product used as waterproof sheets.

  In the waterproof cloth according to the present invention, hydrophilicity is imparted to the outermost surface of the waterproof film. Therefore, it has a reliable waterproof property, and at the same time, has a function of facilitating wiping and cleaning and preventing water droplets from rolling and leaking. Therefore, with the waterproof cloth according to the present invention, it is possible to provide a waterproof sheet having a reliable waterproof property, a function of facilitating wiping and cleaning, and a function of preventing water droplets from rolling and leaking.

<Waterproof fabric>
The waterproof cloth according to the present embodiment is a layer in which at least a cloth layer and a waterproof layer are laminated, and a layer containing a surfactant on all or a part of the surface of the waterproof layer, more specifically, an interface. and the outermost layer is provided containing the active agent, and it is more water pressure resistance 500mmH ₂ O or JIS L1099: moisture permeability based on 2012 B-1 are those less than 3000g / m ² / 24hr.

  Examples of useful fiber materials constituting the fabric layer in the present embodiment include polyester, polyamide, acrylic, polyurethane, rayon such as acetate and viscose, and polylactic acid and aroma in addition to these. Chemical fibers such as group polyamide, polyimide or polyphenylene sulfide, natural fibers such as cotton, hemp, silk or wool, or mixed fibers of these materials, mixed spinning, mixed woven or knitted products can be used, and are particularly limited. Not a thing.

  Further, the fibers forming the fabric layer may be either long fibers or short fibers. The yarn using this fiber may be any of raw yarn, twisted yarn, and processed yarn. The textured yarn is also not particularly limited, and false twisted yarn (Woolie textured yarn, DTY, improved false twist textured yarn, etc.), indented textured yarn, shaped textured yarn, scraped textured yarn, Taslan textured yarn, yarn It is possible to use a length-difference processed yarn, a composite processed yarn, a fluff processed yarn, an entangled bundled yarn, an entangled mixed yarn, and the like.

  Also, the cross-sectional shape of the fiber is not particularly limited, and examples thereof include a round shape, a triangular shape, a star shape, a flat shape, a C shape, a hollow shape, a well shape, and a dock bone.

  The fabric layer made of these materials may be in any form such as woven fabric, non-woven fabric or knitted fabric. Generally, if the waterproof sheet has elasticity, it is comfortable to use and workability when exchanging. The knitted fabric is preferable because it is excellent in stretchability and can easily give stretchability to the fabric.

  Further, the fabric layer may be colored in advance or may not be colored. When the fabric layer is colored in advance, a disperse dye, a cationic dye, an acid dye, a direct dye, a reactive dye, a vat dye, a dye such as a sulfur dye, or a fluorescent whitening agent or a pigment is used. Can be colored. The material used for coloring the fabric layer is not particularly limited, and an appropriate material may be selected according to the material of the fabric layer.

  The coloring method may be a method such as primary dyeing, dip dyeing, or printing, and is not particularly limited.

  Further, the fabric layer may be subjected to flame-retardant processing, antistatic processing, antibacterial deodorization processing, antibacterial processing, ultraviolet shielding processing, light resistance improving processing, or water repellent processing.

Material used as a waterproof layer laminated on the fabric layer is water pressure resistance of the waterproof fabrics obtained 500mmH ₂ O or more and JIS L1099: moisture permeability based on 2012 B-1 method is 3000 g / m less than ^2/24 hr or There is no particular limitation as long as

  Specifically, metal foils such as aluminum and gold, oxides such as silicon and titanium, silicone resins such as polydimethylsiloxane, polyolefins such as polyethylene, polyhalogenated olefins such as polyvinyl chloride, polybutadiene. And rubber, cellophane, polyacrylic acid ester, polymethacrylic acid ester, polyester such as polyethylene terephthalate (PET), polyamide, polyurethane resin and the like.

Water pressure resistance of waterproof fabric is preferably at least 500mmH ₂ O, more preferably 1000mmH ₂ O or higher, 2000mmH ₂ O or more is most preferable. If the water resistant pressure of the waterproof fabric is less than 500 mmH ₂ O, the original function as a waterproof layer cannot be sufficiently fulfilled, and the covered article may be wet with water. The upper limit of the water pressure resistance is not particularly limited, but may be, for example, 100,000 mmH ₂ O or less, 80,000 mmH ₂ O or less, 50,000 mmH ₂ O or less, or 20,000 mmH ₂ O or less.

JIS waterproof fabric L1099: 2012 moisture permeability is preferably less than 3000g / m ² / 24hr based on B-1 method, and more preferably less than 2500g / m ² / 24hr, less than 2000g / m ² / 24hr is most preferred. If the moisture permeability is at 3000g / m ² / 24hr or more water to lead to a swelling permeates the membrane. The lower limit of the moisture permeability is not particularly limited, for example, 10g / m ² / 24hr or more, 30g / m ² / 24hr or more, there at 50g / m ² / 24hr or more, or 100g / m ² / 24hr or more May be.

  Generally, if the waterproof sheet has elasticity, it is excellent in comfort during use and workability during replacement. Therefore, even if the waterproof layer stretches the waterproof cloth by 20%, tears, cracks, whitening, etc. It is preferably formed of a resin having flexibility that does not generate In particular, it is more preferable to use a polyurethane resin as a main component in the waterproof layer from the viewpoints of high flexibility with respect to expansion and contraction of the waterproof cloth, less plastic deformation, and ease of manufacturing.

  As a method for laminating the fabric layer and the waterproof layer, a general coating machine such as a die coater, a lip coater, a slit coater, a knife coater or a gravure coater is used, and the resin is directly coated on the fabric layer. Applying an adhesive to the whole or part of the film that has been previously formed by a method of drying or solidifying, a method of depositing a material such as vacuum deposition, sputtering, or CVD on the fabric layer, stretching or extrusion, casting, skiving, or inflation. However, there is a method such as laminating in which it is adhered to the fabric layer via an adhesive, and the method is not particularly limited.

  Regarding the waterproof layer, if the contact angle of water with respect to the surface of the waterproof layer is small, the water-repellent property of the waterproof film is improved, so that the function of facilitating wiping and cleaning and preventing water droplets from rolling and leaking is strongly exhibited. Specifically, if the contact angle of water with respect to the surface of the waterproof layer is more than 135 degrees, sufficient water compatibility may not be obtained. Therefore, the contact angle of water with respect to the surface of the waterproof layer, particularly the initial contact angle of water, is preferably 135 degrees or less, more preferably less than 125 degrees, and most preferably less than 100 degrees. According to the waterproof fabric of the present embodiment, the contact angle of water with respect to the surface of the waterproof layer is 135 degrees or less, preferably 130 degrees or less, even after 20 times of washing treatment according to JIS L0217: 1995 103 method. Preferably it can be maintained below 120 degrees, thus it is possible to achieve good water compatibility over a longer period of time and thus achieve easier wipe cleaning and water drop rolling leak prevention over a longer period of time. It becomes possible. In addition, in the present invention, “20 times of washing treatment according to JIS L0217: 1995 103 method” means that washing time is 25 minutes, rinse time per washing is 10 minutes, and treatment is 5 times. This operation is repeated four times, and then the product is finally dried by hanging it once.

  In the layer containing the surfactant, the surfactant is preferably contained in a mass ratio of 10% to 65%, more preferably 15% to 55%, still more preferably 20% to 50%. , 25% to 45% is the most preferable. When the mass ratio of the surfactant is less than 10%, the effect of reducing the contact angle of water with respect to the surface of the waterproof layer is weak, the function of facilitating wiping and cleaning and preventing water droplets from rolling and leaking is not sufficiently exhibited. There are cases. When the mass ratio of the surfactant is high, the skin may feel sticky to the touch, or the mechanical strength of the layer may be weak, and the layer may fall off during use, and the effect may not be exhibited. In order to surely prevent such stickiness and layer drop-off, the mass ratio of the surfactant is preferably 55% or less.

  Examples of the surfactant include anionic surfactants such as sodium di-2-ethylhexyl sulfosuccinate and carboxylates, cationic surfactants such as quaternary ammonium salts, and amphoteric interfaces such as betaine-type surfactants. There are nonionic surfactants such as polyoxyalkylene glycols and alcohol ethoxylates containing activators, oxyethylene groups, oxypropylene groups or combinations thereof. Especially when an anionic surfactant is used, the contact angle of water with respect to the surface of the waterproof layer is highly effective, and the water-repellent property of the waterproof film is improved, which facilitates wiping and cleaning and causes water droplets to roll and leak. This is preferable because the function of preventing such a phenomenon can be strongly expressed.

  As a method of providing a layer containing a surfactant on the entire surface or a part of the surface of the waterproof layer, a coating liquid prepared by mixing or dispersing a surfactant in a base resin appropriately selected such as polyurethane resin or polyacrylic acid ester. , Using a general coating machine such as a die coater, a lip coater, a slit coater, a knife coater, a gravure coater, directly or before laminating on the whole or part of the waterproof layer laminated on the fabric layer. There is a method such as coating on a film and drying or coagulation, which is not particularly limited.

  In addition, the cross-linking agent forms a chemical bond between the surfactant and the waterproof layer, and between the surfactant and the base resin of the layer containing the surfactant, so that the surfactant flows out due to wiping or washing. It is preferable that a crosslinking agent is added to the layer containing the surfactant, because the effect of preventing the above can be obtained.

  The cross-linking agent is not particularly limited, for example, is selected from the group consisting of isocyanate, epoxy, dialdehyde, phenol resin, melamine resin, organic peroxide, allyl azide, diazirine, sulfur, and any combination thereof, It is appropriately selected depending on the compatibility of the activator with the waterproof layer and the base resin of the layer containing the surfactant. In particular, it is preferable to use a polyfunctional isocyanate having more than 2 crosslinking groups, for example, a trifunctional isocyanate. A polyfunctional isocyanate having a cross-linking group of more than 2 can form a three-dimensional network structure with a polyurethane resin that is preferably used for a waterproof layer without impairing its flexibility, and therefore has a surface activity due to wiping or washing. Highly effective in preventing the outflow of agents.

The waterproof fabric according to the embodiment of the present invention described above has at least a fabric layer and a waterproof layer laminated, and a layer containing a surfactant on the entire surface or a part of the surface of the waterproof layer. provided, and it is more water pressure resistance 500mmH ₂ O or JIS L1099: moisture permeability based on 2012 B-1 in order but less than 3000g / m ² / 24hr, to have a reliable waterproof simultaneously, It has a function of facilitating wiping and cleaning and preventing water droplets from rolling and leaking.

<Waterproof sheets>
The waterproof sheet according to the present embodiment uses the above-mentioned waterproof cloth at least in part, and is, for example, a mattress or a mattress for care.

  Since the waterproof sheet in the present embodiment uses the above-mentioned waterproof cloth, it is a waterproof sheet having a reliable waterproof property and at the same time having a function of facilitating wiping and cleaning and preventing water droplets from rolling and leaking. .

Hereinafter, examples of the waterproof cloth according to the present embodiment will be described, but the present invention is not limited to these examples. In addition, measurement and evaluation of various physical properties in each evaluation item of A to I in the following Examples and Comparative Examples were performed by the following methods. In addition, "%" and "parts" in Examples and Comparative Examples are "% by mass" and "parts by mass".
[A: moisture permeability]
The water vapor transmission rate was measured by JIS L1099: 2012 B-1 method (potassium acetate method). However, the display was converted into 24 hours.
[B: Water pressure resistance]
The water pressure resistance was measured by JIS L1092: 2009 water resistance test (hydrostatic pressure method) A method (low water pressure method).
[C: water contact angle]
The contact angle of water with respect to the surface of the waterproof layer was measured by FACE CA-D manufactured by Kyowa Interface Science Co., Ltd. both in the initial stage and after the washing treatment in D below. The water used for the measurement is ion-exchanged water having a pH of 6 to 8 and a temperature of 25 ° C.
[D: Washing process]
Washing treatment was performed 20 times according to JIS L0217: 1995 103 method. The washing time was 25 minutes, the rinse time per wash was 10 minutes, and the treatment was performed 5 times. This operation was performed 4 times and 20 times. Drying was performed once by hanging after 20 times of washing treatment.

[E: Water leak]
The waterproofness was evaluated from the viewpoint of water leakage, and specifically, 2 g of water was dropped on the waterproof membrane surface of a 10 cm square sample, and after applying force so as to push it into the membrane surface, water leakage from the back surface was observed. It was evaluated by confirming the presence or absence.
[F: Water swelling]
The waterproof property was also evaluated from the viewpoint of water swelling, and specifically, it was evaluated by dripping 2 g of water onto the waterproof film surface of a 10 cm square sample, spreading it, and allowing it to stand for 5 minutes, and then checking the appearance. .
[G: Water compatibility]
The water-friendly property should be evaluated by grading the ease of the wiping work when 2 g of water is dripped on the waterproof film surface of a 10 cm square sample and then wiped with a dry rag in the following 4 steps. According to the evaluation, both the initial stage and the above-mentioned washing process after D were evaluated. The evaluation of 2 to 4 out of the following 4 grades was passed.
1: Difficult to wipe 2: Easy to wipe 3: Very easy to wipe 4: Very easy to wipe [H: Elastic followability]
Expansion and contraction followability is performed by gripping a strip-shaped test piece having a width of 25 mm with a chuck distance of 100 mm, extending it by 20% to 120 mm with a tensile tester, and returning it to 100 mm. The appearance after the test (breakage, It was evaluated by checking for cracks and whitening.
[I: Stickiness of film surface]
The waterproof membrane surface was touched by hand and the stickiness of the membrane surface was confirmed.

(Example 1)
<Cloth layer using woven fabric>
A woven fabric using polyester fibers (yarn usage: 84 decitex / 72 filaments, density: 106 warps / inch, 86 wefts / inch plain weave) was dyed green with a disperse dye and heat set.

<Lamination of waterproof layer with PET film>
Next, using a gravure coater, a moisture-curable hot melt type urethane resin adhesive Tyforce NH-321 (manufactured by DIC Co., Ltd.) is heated to 110 ° C. and melted to form dots in a 38 μm-thick PET film surface. Granted.
Next, the woven fabric using the polyester fiber was laminated on the surface of the PET film to which the adhesive was applied, and thermocompression bonding was performed at 100 ° C. using a nip roll. After thermocompression bonding, aging was performed at 70 ° C. for 72 hours to obtain a waterproof fabric in which a woven fabric using polyester fiber and a PET film were laminated.

<Applying a layer containing a surfactant>
Next, 100 parts of polyurethane resin-based paint, Laxkin U956 (manufactured by Seiko Kasei Co., Ltd., solid content concentration: 18%), polyoxyalkylene glycol Newpol 80-4000 (manufactured by Sanyo Kasei Co., Ltd.) which is a nonionic surfactant. , Single product) 2 parts were mixed and stirred, and the solution was applied to the entire surface of the PET film laminated with the woven fabric using polyester fiber with a gravure coater, and then dried with hot air at 120 ° C. A waterproof cloth having a layer containing a surfactant on the surface of the waterproof layer was obtained. The performance of the waterproof cloth thus obtained is shown in Table 1.

(Comparative Example 1)
A waterproof cloth was obtained by the method described in Example 1 except that the step of applying the layer containing the surfactant to the surface of the waterproof layer was omitted. The performance of the waterproof cloth thus obtained is shown in Table 1.

(Comparative example 2)
<Waterproof layer laminated with highly moisture-permeable polyurethane resin film>
A solution of polyurethane resin Crisbon S-525CAT (manufactured by DIC Co., Ltd.) diluted with an organic solvent was applied on release paper and dried to form a polyurethane resin film having a thickness of 20 μm and high moisture permeability.
Next, 100 parts of polyurethane resin Crisbon TA-170 (manufactured by DIC Corporation), 12 parts of polyisocyanate solution Coronate L (manufactured by Tosoh Corporation) and 0.2 part of N-methyldiethanolamine were prepared, diluted with an organic solvent and stirred. The solvent was coated on a film formed on a release paper and then dried with hot air at 90 ° C. to provide an adhesive layer on the film.
Next, the woven fabric using the polyester fiber described in Example 1 was superposed on the adhesive layer of the film, and thermocompression-bonded at 120 ° C. using a nip roll. After thermocompression bonding, the release paper was peeled off after aging at 60 ° C. for 24 hours to obtain a waterproof fabric in which a woven fabric using polyester fiber and a polyurethane resin film having high moisture permeability were laminated.

  Next, a layer containing a surfactant is provided on the surface of the waterproof layer by the method described in Example 1, a waterproof layer having high moisture permeability is laminated, and a layer containing a surfactant is formed on the surface of the waterproof layer. A waterproof fabric having The performance of the waterproof cloth thus obtained is shown in Table 1.

(Comparative example 3)
<Lamination of waterproof layer with low water pressure resistance>
A solution of a polyurethane resin Crisbon NY-393 (manufactured by DIC Corporation) diluted with an organic solvent was applied to one side of the woven fabric using the polyester fiber described in Example 1 by floating using a knife coater, and then dried to produce polyester. A waterproof fabric in which a woven fabric using fibers and a polyurethane resin layer having a low water pressure resistance were laminated was obtained.

Next, a layer containing a surfactant is applied to the surface of the waterproof layer by the method described in Example 1, a waterproof layer having low water pressure resistance is laminated, and a layer containing the surfactant on the surface of the waterproof layer. A waterproof fabric having The performance of the waterproof cloth thus obtained is shown in Table 1.

(Example 2)
<Cloth layer using knitted fabric>
A knitted fabric using polyamide fibers (yarn usage: 78 decitex / 24 filaments, density: course 40 pieces / inch, wales 28 pieces / inch half tricot) was dyed green with an acid dye and heat set.

  Next, a waterproof fabric was obtained by the method described in Example 1 except that a knitted fabric using polyamide fiber was used for the fabric layer. The performance of the obtained waterproof fabric is shown in Table 2.

(Example 3)
<Waterproof layer laminated with polyurethane resin film with low moisture permeability>
A solution of polyurethane resin Crisbon NY-393 (manufactured by DIC Co., Ltd.) diluted with an organic solvent was applied on release paper and dried to form a polyurethane resin film having a thickness of 20 μm.
Next, 100 parts of polyurethane resin Crisbon TA-465 (manufactured by DIC Corporation), 12 parts of polyisocyanate solution Coronate L (manufactured by Tosoh Corporation), and 0.2 parts of N-methyldiethanolamine were prepared, diluted with an organic solvent, and stirred. The solvent was coated on a film formed on a release paper and then dried with hot air at 90 ° C. to provide an adhesive layer on the film.
Next, the knitted fabric using the polyamide fiber described in Example 2 was overlaid on the adhesive layer of the film and thermocompression bonded at 120 ° C. using a nip roll. After thermocompression bonding, the release paper is peeled off after aging at 60 ° C. for 24 hours to obtain a waterproof fabric in which a knitted fabric using polyamide fiber and a polyurethane resin film (containing 100% by mass of polyurethane resin) are laminated. It was

  Next, a layer containing a surfactant is applied to the surface of the waterproof layer by the method described in Example 1, a waterproof layer having a low moisture permeability is laminated, and a layer containing a surfactant on the surface of the waterproof layer. A waterproof fabric having The performance of the obtained waterproof fabric is shown in Table 2.

(Example 4)
A waterproof cloth was obtained by the method described in Example 3 except that the addition number of the polyoxyalkylene glycol was changed to 4 in the step of applying the layer containing the surfactant to the surface of the waterproof layer. The performance of the obtained waterproof fabric is shown in Table 2.

(Example 5)
A waterproof cloth was obtained by the method described in Example 3 except that the addition number of polyoxyalkylene glycol was changed to 30 parts in the step of applying the layer containing the surfactant to the surface of the waterproof layer. The performance of the obtained waterproof fabric is shown in Table 2.

(Example 6)
A waterproof cloth was obtained by the method described in Example 3 except that the addition number of the polyoxyalkylene glycol was changed to 10 parts in the step of applying the layer containing the surfactant to the surface of the waterproof layer. The performance of the obtained waterproof fabric is shown in Table 2.

(Example 7)
A waterproof cloth was obtained by the method described in Example 3 except that the addition number of polyoxyalkylene glycol was changed to 20 in the step of applying the layer containing the surfactant to the surface of the waterproof layer. The performance of the obtained waterproof fabric is shown in Table 2.

(Example 8)
In the step of applying the layer containing the surfactant to the surface of the waterproof layer, instead of polyoxyalkylene glycol, anionic surfactant sodium di-2-ethylhexyl sulfosuccinate solution Perex OT-P (Kao Corporation) A waterproof cloth was obtained by the method described in Example 3 except that 10 parts of non-volatile component concentration (86%, manufactured by the company) was added. The performance of the obtained waterproof fabric is shown in Table 2.

(Example 9)
Described in Example 3 except that 8 parts of trifunctional isocyanate solution Coronate L (manufactured by Tosoh Corporation, nonvolatile component concentration: 75%) was added in the step of applying a layer containing a surfactant to the surface of the waterproof layer. A waterproof cloth was obtained by the method described above. The performance of the obtained waterproof fabric is shown in Table 2.

  Referring to Tables 1 and 2, in the waterproof fabric of Comparative Example 1 in which the surface of the waterproof layer was not provided with the layer containing the surfactant, the contact angle of water was high both in the initial stage and after the washing treatment, and therefore, The water did not fit well, and as a result, it was not easy to wipe and clean, and water droplets leaked and leaked. In Comparative Example 2, since the water vapor permeability of the waterproof cloth was high, water penetrated into the waterproof cloth to cause swelling, and as a result, sufficient waterproofness was not obtained. In Comparative Example 3, water leakage occurred because the waterproof fabric had a low water pressure resistance, and as a result, sufficient waterproofness was not obtained.

  In contrast to this, in all of the waterproof fabrics of the present invention, a layer containing a surfactant is provided on the surface of the waterproof layer, and the waterproof fabric has a water pressure resistance and a water vapor transmission rate within a predetermined range. By controlling inside, it was possible to have high waterproofness in terms of both water leakage and water swelling, and to improve water compatibility. As a result, it was possible to easily wipe and clean, and it was possible to prevent the occurrence of rolling leakage of water droplets. In particular, in the waterproof fabric of Example 2 in which the waterproof layer was made of a polyethylene terephthalate (PET) film, whitening occurred when the waterproof fabric was stretched by 20%, but the waterproof layer was made of polyurethane resin. In the waterproof cloth of the example, no particular change in appearance was observed even by such elongation, and tearing, cracking, whitening, etc. did not occur. Further, in the waterproof cloths of Examples 4 and 6 to 9 in which the surfactant concentration in the layer containing the surfactant was controlled within the range of 15% to 55%, the initial contact angle of water was less than 125 degrees. It was reduced to a value, and as a result, higher water compatibility could be achieved. In addition, in the waterproof fabric of Example 9 in which an anionic surfactant was used and a trifunctional isocyanate was added as a cross-linking agent to the layer containing the surfactant, the contact angle of water was increased even after the washing treatment. Can be reduced to a value of less than 125 degrees, and a significantly higher water compatibility can be achieved.

  Each of the waterproof fabrics obtained as described above has a layer containing a surfactant on the outermost surface of the hydrophobic waterproof film, and therefore has a reliable waterproof property and facilitates wiping and cleaning. It is possible to provide a waterproof cloth that prevents water droplets from rolling and leaking, and a waterproof sheet manufactured by using the waterproof cloth.

Claims (10)

At least a fabric layer and a waterproof layer are laminated, and a layer containing a surfactant is provided on all or part of the surface of the waterproof layer, and the water pressure resistance is 500 mmH ₂ O or more and JIS L1099: 2012 waterproof fabric moisture permeability based on the B-1 method and less than 3000g / m ² / 24hr.   The waterproof fabric according to claim 1, wherein the fabric layer is a knitted fabric.   The waterproof property according to claim 1 or 2, wherein the waterproof layer is formed of a resin having flexibility such that the waterproof cloth is not broken, cracked or whitened even when the waterproof cloth is stretched by 20%. Cloth.   The waterproof cloth according to claim 1, wherein the waterproof layer is a resin layer containing a polyurethane resin as a main component.   The waterproof fabric according to any one of claims 1 to 4, wherein the initial contact angle of water with respect to the surface of the waterproof layer is less than 125 degrees.   The waterproof property according to any one of claims 1 to 5, wherein the layer containing the surfactant contains 15% to 55% by mass of the surfactant. Cloth.   The waterproof fabric according to any one of claims 1 to 6, wherein the surfactant is an anionic type.   The waterproof cloth according to any one of claims 1 to 7, wherein a crosslinking agent is added to the layer containing the surfactant.   The waterproof cloth according to any one of claims 1 to 8, wherein the cross-linking agent is a polyfunctional isocyanate having more than 2 cross-linking groups.   A waterproof sheet manufactured using the waterproof cloth according to claim 1.