JP2001011779A - Camouflage laminated fabric - Google Patents

Abstract

[PROBLEMS] To provide an infrared camouflage laminated fabric which exhibits a reduced reflectance for infrared rays having a wavelength of 600 to 1200 nm. SOLUTION: A camouflage-processed laminated fabric obtained by laminating a fabric subjected to infrared camouflage processing and a colored stretched porous polytetrafluoroethylene film.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a laminated fabric having a camouflage pattern in the infrared region. The present invention relates to a waterproof / moisture-permeable camouflage laminated fabric having the same function. The term “infrared camouflage processing” as used herein means a dyeing processing for giving a colored pattern absorbing infrared rays.

[0002]

2. Description of the Related Art Japanese Unexamined Patent Publication (Kokai) No. 5-222682 discloses a fabric obtained by applying infrared camouflage to a waterproof and moisture-permeable fabric and coating or laminating a moisture-permeable resin to the infrared camouflage-treated fabric. Further, a fabric in which a fibrillated ethylene tetrafluoride film (ePTFE film) is bonded to a fabric subjected to infrared camouflage processing is disclosed in JP-A-5-60496 and JP-A-9-504598.

[0003] Various methods are known for applying a waterproof and moisture-permeable treatment to a fabric. Polyurethane resins and amino acids obtained by reacting a polyol with an isocyanate compound disclosed in JP-A-5-222682 are known. In the method of coating or laminating a cloth by mixing or mixing acrylate resins such as polyamino acid resins and acrylates which are copolymers of the above, it is not possible to achieve both waterproof durability and moisture permeability at a high level. There is.
In other words, if holes (porous layer) are formed in the resin layer to increase moisture permeability, or if the thickness of the resin layer is reduced, the durability of waterproofness decreases. Increasing the thickness of the layer or the thickness of the solid layer formed on one side of the porous layer lowers the moisture permeability, which is a contradictory problem for achieving both waterproof durability and moisture permeability.

[0004] As a method of applying a waterproof and moisture-permeable treatment to a fabric,
To achieve both waterproof durability and moisture permeability at a high level, eP
The method of laminating a TFE film on a fabric is the most preferable method. However, Japanese Patent Application Laid-Open No. 5-604
In the method disclosed in Japanese Patent Publication No. 96 or No. 9-504598, the infrared reflectivity of the ePTFE film is high, so that the infrared camouflage-treated fabric, particularly the thickness used for rain gear, is thin. When the ePTFE film is laminated on a lightweight, transparent backing fabric, there is a problem that the infrared reflectance of the laminated fabric is increased and the color tone of the fabric is changed, so that the fabric is not practical as an infrared camouflage fabric.

[0005]

SUMMARY OF THE INVENTION The present invention overcomes the drawbacks of conventional laminated fabrics obtained by laminating an infrared camouflage fabric and an ePTFE film, and reduces the reflectance for infrared rays having a wavelength of 600 to 1200 nm. It is an object of the present invention to provide an infrared camouflage-laminated fabric as described above, and to provide an infrared camouflage-laminated fabric having both waterproof durability and moisture permeability at a high level.

[0006]

Means for Solving the Problems The present inventors have conducted intensive studies to solve the above-mentioned problems, and as a result, have completed the present invention. That is, according to the present invention, there is provided a camouflage laminate fabric obtained by laminating a fabric subjected to infrared camouflage processing and a colored stretched porous polytetrafluoroethylene film.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The camouflage fabric used in the present invention is:
Infrared camouflage processing can be performed, and a conventionally known one can be used. Such a material has a reflectance of 5 to 600 to 1000 nm in the infrared region.
0% or less, preferably 40% or less, preferably in the infrared region having a wavelength of 600 to 1200 nm, the reflectance of the infrared ray is 5% in relation to the infrared wavelength.
% To 60%, in multiple stages, preferably 2 to 8 stages,
More preferably, those exhibiting four to six different reflectances are used. In this case, for example, when the reflectance of 2 to 8 steps, preferably 4 to 6 steps, showing different reflectances is shown, the reaction rate of each color is 60% or less, preferably 40% or less.
Those which have been subjected to infrared camouflage processing with eight, preferably four to six, infrared absorbing dyes can be shown.

In the present invention, as the cloth, a cloth made of fibers such as nylon, polyester, polyethylene, polypropylene, acrylic, rayon, acetate, vinylon, cotton, etc. is used, and a cloth made of polyamide fibers is preferably used. You. For such polyamide fibers, a camouflage pattern can be easily dyed with an infrared reflectance of 60% or less, preferably 40% or less.
In this case, as a dyeing method, a conventionally known technique is used, and for example, JP-A-5-222682 and JP-A-5-222682.
The method described in Japanese Patent No. 60496 can be preferably used. Further, the polyamide fibers include fibers made of polyamides such as nylon 4, nylon 6, nylon 7, nylon 11, nylon 12, nylon 66, nylon 610 and the like, or copolymers thereof. In the present invention, fibers made of nylon 6 or nylon 66 are particularly preferably used. The fabric used in the present invention may be a woven fabric, a knitted fabric, a nonwoven fabric, a knit, a net, or the like, and the thickness thereof is 150 g / m ² or less, preferably 100 g / m ² or less in terms of basis weight. The value is usually 50
g / m ² .

The colored expanded porous polytetrafluoroethylene film (ePTFE film) used in the present invention is produced according to a conventionally known general method for producing an ePTFE film. For example,
It is manufactured by a manufacturing method described in 1-18991 or the like,
The microstructure and the like are known together with their production methods. Specifically, the ePTFE film is basically formed into a tape by paste extrusion or paste extrusion and a rolling method from a paste molded body composed of a mixture of PTFE fine powder and a lubricating aid such as petroleum naphtha. After removing the lubricating aid by heating
It is manufactured by stretching uniaxially or simultaneously or successively biaxially or more at a high temperature below the TFE melting point. In addition, in order to fix the fine continuous porous structure generated by stretching and improve dimensional stability, PT
A baking treatment of heating to a temperature equal to or higher than the melting point of the FE and then cooling may be performed.

As a method of obtaining a colored ePTFE film, there are a method of previously mixing a pigment when mixing an auxiliary agent with the PTFE fine powder, and a method of mixing a pigment during polymerization of the PTFE fine powder to be used and preparing a colored PTFE fine powder by copolymerization. There is a method using powder, and the like.
In the colored ePTFE film used in the present invention, the thickness is 5 to 500 μm, preferably 10 to 100 μm, and the average pore diameter is 0.05 to 5 μm as measured by a Coulter Porometer manufactured by Coulter Electronics Co., Ltd.
Preferably it is 0.1 to 1.0 μm, and its porosity is 5
It is 0 to 90%, preferably 70 to 85%. The colored ePTFE film used in the present invention can be a laminated film. Such a laminated film includes a laminated film of a colored ePTFE film and an uncolored ePTFE film, a laminated body of two colored ePTFE films, and the like. The color tone can be green, brown, gray, or the like. In the present invention, the colored film has a reflectance of 45% or less, preferably 35%, for infrared rays having a wavelength of 600 to 680 nm.
Hereinafter, those having a reflectance of 50% or less, preferably 45% or less, for infrared rays having a wavelength of 680 to 1200 nm are preferable.

In the present invention, a colored ePTFE film is used.
A colored ePTFE film (a ¹) And uncolored eP
TFE film (a^TwoPreferred to use laminated film with
However, in order to preferably produce such a laminated film,
First, PTFE sheet a^TwoAnd PTFE containing color pigment
Sheet a¹Prepare Sheet a^TwoIs a poly
Fine powder of tetrafluoroethylene resin (PTFE)
Powder (crystallinity of 95% or more) with a liquid lubricant (Solven
Naphtha, white oil, etc.)
Formed by the extruder and rolling machine
Can be obtained. In this case, the moisture in the mixture
The lubricant content is 10 to 30% by weight, preferably 15 to 20%
% By weight. Average particle size of PTFE fine powder
Is 400 to 700 nm, preferably 450 to 550 n
m. Extrusion and rolling temperature is 22-70 ° C, good
Preferably it is 25-50 degreeC. Sheet a^TwoHas a thickness of 0.
It is 1 to 5 mm, preferably 0.2 to 1 mm. on the other hand,
Sheet a¹To manufacture PTFE, use PTFE dispersion.
1 to 30% by weight based on the solid content of PTFE
Or 5 to 10% by weight of pigment, co-coagulated, dried
To obtain a dried colored PTFE. For this dried product
And sheet a^TwoMix the lubricant as well as this mixture
Into a sheet with an extrusion device and a rolling device.
And can be obtained by Sheet a¹Thickness is 0.1
５5 mm, preferably 0.2-1.0 mm.

[0012] Next, with respect to seat a ^1, stacked sheets a ² on one surface thereof, rolled. In this case, rolling can be performed by roll rolling. Rolling temperature is 20-70
° C, preferably 30 to 50 ° C. The stretching ratio of the sheet by rolling is 1.5 to 10 times, preferably 3 to 5 times. In the laminated sheet after rolling, the thickness of the sheet a ¹ is 0.05 to 2 mm, preferably 0.1 to 1.0 mm, the thickness of the sheet a ² is 0.05 to 2 mm, preferably 0.1 １．０1.0 mm. The ratio of the thickness of a ² with respect to the seat a ¹ is 0.05 to 10, preferably 0.5
~ 2.0.

Next, the sheet (A) composed of the rolled laminated sheet is heated to a temperature higher than the boiling point of the lubricant, for example, 200 to 2
After heating to 60 ° C. to evaporate and remove the lubricant, it is subjected to a stretching treatment. This stretching process uses a conventional sheet stretching device,
The film is stretched in the uniaxial or biaxial direction at a temperature lower by about 20 to 150 ° C, preferably lower by about 20 to 30 ° C than the melting point of PTFE. In this case, the stretching speed is 10% / sec or more, preferably 100 to 1000% / sec, and the stretching ratio is 1 to 10.
It is 50 times, preferably 9 to 15 times. The stretched product is fired at a temperature of 327 to 380 ° C. to fix its structure. The stretched laminated sheet thus obtained forms a porous film (A) composed of a colored film layer and an uncolored film layer. Such a laminated film of a colored ePTFE film and an uncolored ePTFE film is excellent in waterproofness, and even if one of the films has a pinhole, the other film retains the waterproofness. Can be.

In the case of obtaining a laminated fabric comprising the fabric of the present invention and a colored ePTFE film having a moisture-permeable resin layer on the reflection side with respect to the fabric side of the film, one side of the colored ePTFE film may be used. Then, a coating liquid containing a moisture-permeable resin is applied and dried. In this case, the moisture-permeable resin has a hydroxyl group, a carboxyl group, a sulfonic acid group,
Thermoplastic resins and thermosetting resins having a hydrophilic group such as an amino group are included. Examples of such moisture-permeable resin include polyurethane, polyfluorosulfonic acid resin, polyvinyl alcohol, cellulose acetate, cellulose nitrate, polyamino acid, hydrophilic fluoropolymer, and silicone resin. As the coating liquid, a solution in which a resin or a prepolymer thereof is dissolved or dispersed in an organic solvent or an aqueous solvent can be used. In the present invention, a moisture-permeable resin having curability or crosslinkability or a prepolymer thereof is preferable. When using a coating liquid containing such a resin and, if necessary, a curing agent thereof, after applying it on a film, a curing treatment such as heating is performed. Thereby, a cured product of the resin can be formed. Such a cured product has excellent properties such as water resistance and mechanical strength. In the present invention, it is particularly preferable to use a hydrophilic polyurethane resin-based coating solution. This coating liquid is a thermosetting liquid composed of a polyurethane prepolymer obtained by reacting a polyol with a polyisocyanate compound and a curing agent thereof.
In this case, as the polyol, polyoxyethylene glycol, polyoxyalkylene polyol, or the like is used. As the curing agent, a diol or a diamine is used. Further, a moisture-curable hydrophilic polyurethane resin can also be used.

The laminated fabric of the fabric of the present invention and the colored ePTFE film can be produced by laminating and fixing the two. The lamination and fixing of the fabric and the film can be performed by a bonding method using an adhesive or a fusion treatment by heat treatment. It can be performed by a wearing method, a sewing method, or the like. When bonding using an adhesive, the bonding is performed by using an adhesive made of a moisture-permeable resin so that the bonding does not impair the moisture permeability of the material.
Alternatively, it is preferable to use a partial bonding method. When laminating by the fusion method, it is preferable to use the partial fusion method. Further, in the case of performing sewing, it is preferable to attach a waterproof seam tape to this portion in order to prevent rainwater from entering through the seam. Specific examples of the moisture-permeable resin include those described above.

In the laminated fabric of the fabric of the present invention and a colored ePTFE film, a protective cloth can be laminated and fixed on the surface of the film opposite to the fabric side. In this case, as the protective cloth, a cloth made of fibers such as nylon, polyester, polyethylene, polypropylene, acrylic, rayon, acetate, vinylon, and cotton is used. The thickness is the basis weight, 100
g / m ² or less, preferably 50 g / m ² or less. The lower limit is about 5 g / m ² . The fixing of the protective cloth and the film can be performed by an adhesion method using an adhesive, a fusion method by heat treatment, a sewing method, or the like. In the case of bonding using an adhesive, the bonding is preferably performed by using an adhesive made of a moisture-permeable resin or by a partial bonding method, so that the bonding does not impair the moisture permeability of the material. When laminating by the fusion method, it is preferable to use the partial fusion method. Further, in the case of performing sewing, it is preferable to attach a waterproof seam tape to this portion in order to prevent rainwater from entering through the seam. Specific examples of the moisture-permeable resin in this case include those described above.

[0017]

The present invention will be described below in detail with reference to examples.

EXAMPLE 1 Green, light green, dark green, brown, and black were added to a plain woven fabric (basis weight 79 g / m ² , density: 78 lines × 76 lines / inch) composed of 100% nylon 66 long fiber. A camouflage fabric made by dyeing a camouflage pattern consisting of four colors is colored ePTFE having a moisture-permeable resin layer formed thereon.
The film was adhered to the ePTFE film surface, and nylon 66100% tricot knit (basis weight 32 g / m ² ) was adhered to the surface on the permeable resin side as a protective cloth.

The coloring in the colored ePTFE film was carried out by including a mixture of Nova Green and carbon black as a pigment in the ePTFE film. In the colored ePTFE film,
Its thickness is 44 μm, its average pore size is 0.23 μm,
Its porosity is 73%. The infrared reflectance is as shown in Table 1. The hydrophilic resin layer is made of a hydrophilic polyurethane prepolymer (trade name: Hypol FHP3000, HAMPSH) as a moisture-permeable resin (hydrophilic resin).
IRE CHEMICAL CORPORATION) and a solution containing a diamine-based curing agent.
It was formed by heating to 00 ° C. and curing. Its thickness is 10 μm.

The fabric and the film were fixed by a gravure coating method using a urethane-based adhesive.
In this case, the bonding area was 35%. The protective cloth and the film were fixed by a gravure coating method using a urethane-based adhesive. In this case, the bonding area was 25%. Table 2 shows the reflectance of each color tone portion when the fabric side of the laminated fabric according to the present invention was irradiated with infrared rays. Also, for comparison, the reflectance of a natural ePTFE film (uncolored ePTFE film) is shown.

The infrared reflectance shown in the present specification was measured with UV3100 manufactured by Shimadzu Corporation.

[0022]

[Table 1]

[0023]

[Table 2]

Comparative Example 1 A laminated fabric was produced in the same manner as in Example 1, except that an uncolored white ePTFE film (natural) was used as the ePTFE film. Table 3 shows the infrared reflectance.

[0025]

[Table 3]

By comparing the results in Tables 2 and 3, it can be seen that the laminated fabric containing the colored ePTFE film is
It can be seen that the infrared reflectance was lowered.

[0027]

The laminated fabric according to the present invention has a camouflage pattern and is advantageously used as a clothing material worn in the military and the like. In the case of the laminate fabric of the present invention, there is an advantage that it is difficult to be captured by the infrared detection method because the infrared reflectance is low. Since the laminated fabric of the present invention is a laminate of the fabric and the colored stretched porous polytetrafluoroethylene film, it has good moisture permeability and waterproofness, and also has excellent strength, windproofness, It has excellent durability. The one having the moisture-permeable resin layer and the one having the protective cloth according to the present invention are further improved in strength, wind resistance, durability and the like. The formation of the protective cloth has an effect of protecting the colored ePTFE from damage due to friction or the like, and the formation of the moisture-permeable resin layer is equivalent to the formation of the colored ePTFE.
The effect of improving the stain resistance of the TFE film is shown.

──────────────────────────────────────────────────続 き Continuation of the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat 参考 (Reference) F41H 3/00 F41H 3/00 (72) Inventor Shinsuke Tagashi 1-42-5 Akatsutsumi, Settsuya-ku, Tokyo F-term (reference) in Pangooretex Co., Ltd. AC07 AC15 BA48 CA50 CA70

Claims (4)

[Claims] 1. A camouflage laminated fabric obtained by laminating a fabric subjected to infrared camouflage processing and a colored stretched porous polytetrafluoroethylene film. 2. The camouflage-processed laminated fabric according to claim 1, wherein a protective fabric is laminated on a surface of the colored film opposite to the fabric side. 3. The colored film is a laminated film of an uncolored expanded porous polytetrafluoroethylene film and a colored expanded porous polytetrafluoroethylene film, and a camouflage fabric is provided on the colored film side of the laminated film. The camouflage laminate fabric according to claim 1 or 2, wherein the laminate fabric is laminated. 4. The camouflage laminate according to claim 1, wherein a moisture-permeable resin layer is formed on a surface of the colored film opposite to the side having the camouflage fabric. Fabric.