JPH0122148B2 - - Google Patents

Description

[Detailed description of the invention]

The present invention relates to a flexible and stretchable laminated fabric. More specifically, the present invention relates to a laminated fabric that is flexible, has appropriate elongation rate, recovery rate, and air permeability, and is excellent as a material for sportswear. Sportswear needs to have elasticity that follows the movements of the human body, and therefore the materials used for sewing it are required to have appropriate elasticity and recovery properties. In particular, materials for ski wear are required to have excellent heat retention, strength, and adequate breathability, as well as stretchability and recovery properties that provide sufficient fit to the body and freedom of movement. In speed sports, the breathability of the sportswear worn by athletes has an extremely large effect on their records, and theoretically, impermeable clothing is considered the most desirable for achieving good records. However, if it is completely impermeable, it will become stuffy due to sweat and cannot be worn for long periods of time, so generally a minimum level of breathability is required.
The term "appropriate air permeability" as used in the present invention refers to this minimum air permeability. For example, according to the International Ski Federation (FIS) standards, the breathability is set at 50% to prevent stuffiness.
m ² /sec (5c.c./cm ² /sec) or less. The present invention aims to provide a material that satisfies the properties described above by laminating (laminating) stretchable fabrics together. BACKGROUND ART Conventionally, laminated fabrics made by laminating fabrics together using adhesives have been generally provided as reversible fabrics, for example. However, when stretchable fabrics are bonded together using a general adhesive as an intermediate coating layer, the object of the present invention cannot be achieved because the breathability is lost and the stretchability is greatly reduced. . Note that if two pieces of fabric are bonded together using so-called spot bonding, in which the adhesive is applied in plots or stripes, breathability will not be lost, but there will be problems with the external peel strength and there will be a lot of movement, such as in sportswear. Not suitable for clothing materials. As mentioned above, when two stretchable fabrics are pasted together, the impermeability and the decrease in elasticity are due to the influence of the adhesive coating layer used. As a result of intensive research on film layers, we succeeded in finding an excellent adhesive coating layer, and by applying this to lamination, we were able to achieve the optimal elongation rate and recovery as a material for sportswear, especially ski wear. This makes it possible to provide a laminated fabric that has both high air permeability and air permeability. The laminated fabric of the present invention is produced by laminating stretchable fabrics together via a foam-containing paint film layer using a foam-containing paint whose foam magnification is adjusted to 1.2 to 4 times as an adhesive, or by bonding the stretchable fabric together with a foam-containing adhesive paint film layer. This is a laminated fabric made by laminating a breathable synthetic resin foam layer. That is, the present invention firstly achieves elasticity by using a foam-containing paint to provide a stretchable adhesive coating layer, that is, a foam-containing adhesive coating layer having bubbles (cells) in the coating film. We have found that we have achieved two objectives: hardly reducing the elasticity and recovery properties of the fabric itself, and secondly, preventing it from becoming completely impermeable. be. As already mentioned, sportswear, especially ski wear, is required to suppress air permeability to an extent that does not become completely impermeable. By the way, in the present invention, a foam-containing adhesive coating layer is used as the intermediate layer of the lamination, but in this case, the foam-containing paint is simply prepared and the foam-containing adhesive coating layer is simply formed. Therefore, it is extremely difficult to achieve both the optimal elongation rate and recovery rate for sportswear and the suppression of breathability. Therefore, in the present invention, as a result of various studies, we have decided to increase the foam magnification of the foam-containing paint to 1.2 to 4.
In addition to adjusting the amount to 20% to 20% in the formation of a foam-containing adhesive coating layer by applying this foam-containing paint,
By setting it to 200g/ ^m2 , the elongation rate is 20-150%,
Recovery rate 70-98% and air permeability 0.5-20 c.c./cm ² /sec
As shown in the figure, we succeeded in achieving the optimal balance between stretchability, recovery performance, and breathability as a material for sportswear, especially skiwear. In the present invention, in addition to laminating two stretchable fabrics through a foam-containing adhesive coating layer, a breathable synthetic resin foam layer (hereinafter referred to as a foam layer) is used together with the foam-containing adhesive coating layer. By laminating two pieces of stretchable fabric through a material, it is possible to obtain a stretchable laminated fabric that satisfies the elongation rate, recovery rate and air permeability of the present invention, is flexible and bulky, and has good heat retention properties. I can do it. This foam layer is laminated to the stretchable fabric by melting one side of the foam layer with flame and laminating it onto the stretchable fabric (flame lamination).
Next, another stretchable fabric is laminated to the surface of this foam layer using a foam-containing paint, or a foam-containing paint layer is provided on both sides of the foam layer, and a stretchable fabric is laminated to each side of the foam layer. In either case, the foam-containing paint must satisfy the same conditions as in the case of laminating stretchable fabrics together. In the present invention, the foam magnification of the foam-containing coating material greatly influences the elongation rate and recovery rate of the foam-containing adhesive coating layer formed by the coating material. Since the values of its elongation rate and recovery rate determine the degree of elasticity of the stretchable laminated fabric of the present invention, the relationship between the foam magnification, elongation rate, and recovery rate is extremely important. The foam magnification must be adjusted according to the recovery rate. Incidentally, an example of the relationship between foam magnification, elongation rate, and recovery rate is shown in the following table.

[Table] By the way, the foam magnification as used in the present invention refers to the volume ratio per unit weight before and after foaming. Further, the elongation rate and recovery rate are based on the following measurement method. Elongation rate: Apply an initial load (weight equivalent to a sample of 5 cm x 1 m) to a test piece 5 cm wide x 30 cm.
Mark a length of 20 cm, fix one end of the sample, and apply a load of 1.5 kgf to the other end.
Measure the length between the marks after leaving it for 60 minutes and express it using the following formula: Elongation rate = L ₁ − L ₀ /L ₀ ×100 L ₁ : Length between the marks after applying the load for 60 minutes cm L ₀ : Length between original marks (20 cm) Elongation recovery rate: Apply an initial load to the same test sample as above, mark a length of 20 cm, fix one end of the sample, and apply a load of 1.5 Kgf to the other end. After applying a load for 60 minutes and unloading, apply an initial load after 30 seconds and 60 minutes, measure the length between the marks, and express it using the following formula: Elongation recovery rate (%) = L ₁ − L ₀ /L ₁ − L ₀ ×100 L ₀ : Original length between marks (20cm) L ₁ : Length between marks after applying load for 60 minutes cm L ₂ : Length between marks after unloading for 30 seconds or 60 minutes cm Furthermore, depending on the type of stretch fabric used, such as the coarseness of the mesh, it may be necessary to adjust the viscosity of the foam-containing paint or pre-treat the stretch fabric (water repellent treatment, etc.). In the present invention, the viscosity of the foam-containing paint is 10,000
~100000cps., preferably 20000~50000cps. The synthetic resins used as the foam-containing paint of the present invention are mainly emulsions such as polyacrylic ester, polyurethane, styrene-butadiene rubber, acrylonitrile-butadiene rubber, polyvinyl chloride, ethylene-vinyl acetate copolymer, and polyvinyl acetate. By mechanical stirring,
Alternatively, foaming may be controlled by adding a foaming agent and stirring. Incidentally, it is of course possible to add various additives as necessary. In addition, the stretchable fabrics used include, for example, knitted fabrics such as knitted fabrics and tricot fabrics,
There are woven and knitted fabrics using spandex yarn. Furthermore, polyurethane foam is generally used as the breathable synthetic resin foam, but it is not particularly limited as long as it has breathability and elasticity. Next, the present invention will be explained in more detail with reference to Examples. Example 1 A polyacrylic acid emulsion having the following composition was stirred and foamed using a continuous foaming machine at a rotation speed of 70 rpm to obtain a foam-containing paint having a foam magnification of 2 and a viscosity of 20,000 cps. Deiknal K-2540 (acrylic acid ester emulsion, manufactured by Dainippon Ink Co., Ltd.) 100 Betsukamine PM (crosslinking agent, manufactured by Dainippon Ink Co., Ltd.) 3 Cat.376 (catalyst, manufactured by Dainippon Ink Co., Ltd.) 0.3 Deiknal NB-WT (foam stabilizer, Dainippon Ink Co., Ltd.)
(manufactured by Dainippon Ink Co., Ltd.) 7 NH ₄ OH 1 Poncoat V (thickener, manufactured by Dainippon Ink Co., Ltd.)
1-3 Apply the foam-containing paint prepared according to the above formulation onto one side of the tricot fabric of A below using the doctor coating method to a coating amount of 70 g/m ² to form a foam-containing adhesive coating layer, and then A stretchable laminated fabric was obtained by laminating a tricot fabric of B below to this. A: Tricot fabric knitted with raw yarn 60 count cotton yarn, 40 denier spandex thread gauge number 32, gauge/inch B: 30 denier nylon thread, 40 denier spandex thread knitted with gauge number 32, gauge/inch Datricot Fabric The stretchable laminated fabric thus obtained was extremely flexible and had a good feel, and exhibited the following physical properties, making it ideal as a sportswear material.

[Table] Example 2 Thickness 2m/m on one side of fabric A similar to Example 1
The polyurethane foam layers were laminated together by frame lamination. Next, a polyurethane emulsion with the following composition was stirred and foamed using a continuous foaming machine at a rotation speed of 100 RPM to obtain a foam magnification of 3 times and a viscosity of
After obtaining a foam-containing paint adjusted to 50,000 cps and applying it to the surface of the polyurethane foam layer to a coating amount of 100 g/m ² to form a foam-containing adhesive coating layer, the foam-containing adhesive coating layer was Fabric B similar to Example 1 on top
A stretchable laminated fabric was obtained by laminating the two. Rezamin W-7510 (polyurethane emulsion, manufactured by Dainichiseika Chemical Co., Ltd.) 100 uH-30 (crosslinking agent, manufactured by Dainichiseika Chemical Co., Ltd.) 5 uHCat#7 (catalyst, manufactured by Dainichiseika Chemical Co., Ltd.) 0.5 WS -1 (foam stabilizer, manufactured by Dainichiseika Co., Ltd.) 5 WH-3 (thickener, manufactured by Dainichiseika Co., Ltd.) 2-4 The stretchable laminated fabric obtained in the above manner is extremely flexible. In addition to being rich in heat retention, it also had a good feel and exhibited the following physical properties, making it ideal as a material for sportswear.

【table】

Claims (1)

[Claims] 1. A foam-containing paint layer with a bubble magnification adjusted to 1.2 to 4 times is provided on one side of a stretchable fabric, and then the stretchable fabric is laminated on the foam-containing paint layer to increase the elongation rate. 20〜
150%, recovery rate 70-98% and air permeability 0.5-20 c.c./
A stretchable laminated fabric characterized by cm ² /sec. 2. The stretchable laminated fabric according to claim 1, wherein the foam-containing paint layer has a weight of 20 to 200 g/m ² . 3. A breathable synthetic resin foam layer is laminated on one side of the stretchable fabric, and a foam-containing paint layer with a foam magnification adjusted to 1.2 to 4 times is provided on the surface of the breathable synthetic resin foam layer.
Next, by laminating a stretchable fabric on the foam-containing paint layer, the elongation rate is 20-150% and the recovery rate is 70-98%.
A stretchable laminated fabric characterized by a large air permeability of 0.5 to 20 c.c./cm ² /sec. 4. The stretchable laminated fabric according to claim 3, wherein the foam-containing paint layer has a weight of 20 to 200 g/m ² . 5 A foam-containing paint layer with a bubble magnification adjusted to 1.2 to 4 times is provided on one side of the stretchable fabric, a breathable synthetic resin foam layer is laminated on this foam-containing paint layer, and foam is further added to the surface of the breathable synthetic resin foam layer. A foam-containing paint layer adjusted to a magnification of 1.2 to 4 times is provided, and then a stretchable fabric is laminated on the foam-containing paint layer to achieve an elongation rate of 20 to 4 times.
150%, recovery rate 70-98% and air permeability 0.5-20 c.c./
A stretchable laminated fabric characterized by cm ² /sec. 6. The stretchable laminated fabric according to claim 5, wherein the foam-containing paint layer has a weight of 50 to 200 g/m ² on both sides of the breathable synthetic resin foam layer.