JPH1158572A - Fibrous functional laminar material - Google Patents
Fibrous functional laminar materialInfo
- Publication number
- JPH1158572A JPH1158572A JP9229331A JP22933197A JPH1158572A JP H1158572 A JPH1158572 A JP H1158572A JP 9229331 A JP9229331 A JP 9229331A JP 22933197 A JP22933197 A JP 22933197A JP H1158572 A JPH1158572 A JP H1158572A
- Authority
- JP
- Japan
- Prior art keywords
- fiber
- fibrous
- layer
- woven fabric
- woven
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
Landscapes
- Laminated Bodies (AREA)
- Artificial Filaments (AREA)
- Nonwoven Fabrics (AREA)
- Carpets (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、寝具、敷物、ブル
ゾン、膝掛け等の各種の繊維製品の母材として、特にそ
れらの中綿等として利用することができる繊維質機能性
層状体に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fibrous functional layered material which can be used as a base material for various fiber products such as bedding, rugs, blousons, and lap rests, and in particular, can be used as batting.
【0002】[0002]
【従来の技術】従来、寝具やマット等の敷物類は、綿や
毛、或いはゴム等のスポンジなどの弾性材料をカバーの
中に充填してなるもので、弾性によって身体を支えるよ
うに構成されている。また、ブルゾン、膝掛け等の中綿
は、羊毛や羽毛、又は各種繊維製の綿などをカバーで被
覆してなるものである。これらの製品は何れもクッショ
ン性、保温性などの、目的に応じた機能を備えているこ
とが必要とされているが、例えば梅雨時の高温多湿の環
境下では蒸れ易く、敷物体の素材が劣化したり、雑菌や
黴等により汚染されたり、或いは損傷などにより機能劣
化を起こし易いものであった。2. Description of the Related Art Conventionally, rugs such as bedding and mats are made by filling an elastic material such as sponge such as cotton, wool, or rubber into a cover, and are configured to support a body by elasticity. ing. Insulation such as blousons and knee rests are made by covering wool, feathers, or cotton made of various fibers with a cover. Each of these products is required to have a function according to the purpose, such as cushioning and heat retention, but it is easy to get stuffy in a hot and humid environment during the rainy season, for example, It is liable to deteriorate, to be contaminated by various bacteria or fungi, or to deteriorate in function due to damage.
【0003】[0003]
【発明が解決しようとする課題】このような寝具やマッ
ト等の敷物類を、四季を通じて快適な状態に維持するの
は容易なことではなく、身体が蒸れず、保温性があり、
素材の劣化が起こらず、雑菌や黴等の汚染を受けないよ
うな製品が望まれていた。また、ブルゾン、膝掛け等の
中綿も、身体が蒸れず、保温性があり、更に各種の機能
性に富むものが望まれていた。It is not easy to maintain such rugs such as bedding and mats in a comfortable state throughout the seasons.
There has been a demand for a product that does not cause deterioration of the material and does not suffer from contamination such as bacteria and fungi. Also, balings such as blousons and knee rests have been desired to have a body that does not become stuffy, has heat retention, and is rich in various functions.
【0004】そこで本発明は、上記のような要望に応え
て、抗菌性、保温性、放熱性、並びに水分放散性を兼ね
備え、更に電磁波遮蔽性等を有していて、多種の用途に
それぞれ快適に使用することができる、多機能性の繊維
質層状体を提供することを目的とした。[0004] In response to the above demands, the present invention has antibacterial properties, heat retention properties, heat dissipation properties, and moisture dissipation properties, and further has electromagnetic wave shielding properties, etc., so that it is comfortable for various uses. It is an object of the present invention to provide a multifunctional fibrous layered body that can be used for the following.
【0005】[0005]
【課題を解決するための手段】上記の本発明の目的は、
導電性繊維を含んでなる織布又は不織布からなる第1層
と、遠赤外線放射性充填剤及び抗菌剤を含む合成樹脂繊
維を含んでなる繊維体からなる第2層と、炭素繊維で形
成された織布又は不織布からなる第3層とを順次に積層
してなり、側端縁部において該第1層と該第3層とが直
接に結合されていることを特徴とする繊維質機能性層状
体によって達成することができる。SUMMARY OF THE INVENTION The object of the present invention is as follows.
A first layer made of a woven or non-woven fabric containing conductive fibers, a second layer made of a fibrous body containing synthetic resin fibers containing a far-infrared radiation filler and an antibacterial agent, and carbon fibers. A fibrous functional layer formed by sequentially laminating a third layer made of a woven or nonwoven fabric, wherein the first layer and the third layer are directly bonded at a side edge portion. Can be achieved by the body.
【0006】[0006]
【発明の実施の形態】本発明の繊維質機能性層状体の第
1層を構成する織布又は不織布は、導電性繊維を含んで
なるものであるが、かかる導電性繊維は、通常の繊維、
例えば綿、麻等の天然繊維、例えばレーヨン、キュプ
ラ、アセテート、ナイロン、ビニロン、ポリ塩化ビニ
ル、ポリエチレン、ポリプロピレン、ポリエステル、ア
クリル、ポリクラール等の繊維、或いはガラス繊維、炭
素繊維などの各種の繊維の表面に、例えば真空蒸着、ス
パッタリング、イオンプレーティング等の物理的蒸着、
或いは化学的蒸着、若しくは塗装等の方法で、例えば
金、銀、銅、ニッケル等の導電性材料を付着させたも
の、或いはポリピロール、ポリアセチレン、ポリチエニ
レン等の導電性ポリマーを繊維状に加工したものを用い
ることができる。BEST MODE FOR CARRYING OUT THE INVENTION The woven or nonwoven fabric constituting the first layer of the fibrous functional layered body of the present invention contains conductive fibers. ,
For example, the surface of natural fibers such as cotton and hemp, for example, fibers such as rayon, cupra, acetate, nylon, vinylon, polyvinyl chloride, polyethylene, polypropylene, polyester, acrylic, and polychloral, or various fibers such as glass fiber and carbon fiber In, for example, physical vapor deposition such as vacuum deposition, sputtering, ion plating,
Or, by a method such as chemical vapor deposition or painting, for example, a material obtained by attaching a conductive material such as gold, silver, copper, nickel, or a material obtained by processing a conductive polymer such as polypyrrole, polyacetylene, or polythienylene into a fibrous form. Can be used.
【0007】これらの導電性繊維は、それ単独で又は数
種組み合わせて、若しくはその他の繊維と組み合わせて
織布又は不織布を形成してもよく、織布又は不織布を形
成したのちに導電性加工を加えてもよい。不織布の形成
には通常の不織布の製造方法を利用することができ、ま
た織布の形成にはタペット織機、グリッパー織機等を利
用することができる。[0007] These conductive fibers may be used alone or in combination of several types, or in combination with other fibers to form a woven or nonwoven fabric. May be added. A normal nonwoven fabric manufacturing method can be used to form the nonwoven fabric, and a tappet loom, a gripper loom, or the like can be used to form the woven fabric.
【0008】本発明の繊維質機能性層状体の第2層を構
成する繊維体は、遠赤外線放射性充填剤及び抗菌剤を含
む合成樹脂繊維を含んでなるものであるが、かかる合成
樹脂繊維とは、例えばレーヨン、ポリノジックレーヨ
ン、アセテート、ナイロン、ビニロン、ポリエステル、
アクリル等の繊維用合成樹脂、好ましくは弾力性に富む
ポリエステル系樹脂を紡糸して得た繊維である。このよ
うな繊維に含有される遠赤外線放射性充填剤は、4〜3
0μm以上の広い範囲にわたる遠赤外線を効率よく放射
することができる微粉末状無機物質であり、例えばアル
ミナ、二酸化チタン、炭化チタン、ジルコニア、炭化ジ
ルコニウム、シリカ、希土類酸化物等の金属化合物から
なる材料であってよい。特に好ましい材料は、アルミ
ナ、チタニア、ジルコニア等を含み、更にネオジム、ラ
ンタン、イットリウム等の希土類金属の酸化物を含むも
ので、少量のシリカ、アルカリ金属酸化物、アルカリ土
類金属酸化物等が含まれたものであってもよい。The fibrous body constituting the second layer of the fibrous functional layered body of the present invention comprises a synthetic resin fiber containing a far-infrared radiating filler and an antibacterial agent. For example, rayon, polynosic rayon, acetate, nylon, vinylon, polyester,
It is a fiber obtained by spinning a synthetic resin for fibers such as acrylic, preferably a polyester resin having high elasticity. Far-infrared radiation fillers contained in such fibers are 4 to 3
A fine powdered inorganic substance that can efficiently emit far-infrared rays over a wide range of 0 μm or more, for example, a material composed of a metal compound such as alumina, titanium dioxide, titanium carbide, zirconia, zirconium carbide, silica, and rare earth oxide. It may be. Particularly preferred materials include alumina, titania, zirconia, etc., and further include oxides of rare earth metals such as neodymium, lanthanum, yttrium, and a small amount of silica, alkali metal oxides, alkaline earth metal oxides, etc. May be used.
【0009】また合成樹脂繊維に含まれる抗菌剤は、抗
菌性を有する有機化合物又は抗菌性を有する無機充填剤
であって、繊維製品の微生物汚染やそれによる劣化を防
ぐために使用される抗菌剤が用いられる。かかる抗菌剤
としては、例えばフェノール系、ハロゲン系、第四級ア
ンモニウム系等が挙げられるが、中でも抗菌性を有する
無機充填剤として、銀イオンで置換された微粒子状のゼ
オライトが好ましく用いられる。これらは何れも繊維製
品の細菌による汚染防止及び防黴の目的で使用されるも
ので、抗菌剤や防黴剤として作用するものであれば、ど
のような材料であっても使用することができる。The antibacterial agent contained in the synthetic resin fiber is an organic compound having an antibacterial property or an inorganic filler having an antibacterial property. Used. Examples of such antibacterial agents include phenol-based, halogen-based, and quaternary ammonium-based agents. Among them, zeolite in the form of fine particles substituted with silver ions is preferably used as an inorganic filler having antibacterial properties. All of these are used for the purpose of preventing bacterial contamination of bacteria and fungi, and any material can be used as long as it acts as an antibacterial agent or an antifungal agent. .
【0010】上記の遠赤外線放射性充填剤及び抗菌剤
は、上記の繊維用合成樹脂に配合して混練したのち、例
えば溶融紡糸などの方法によって繊維を得る。この際、
遠赤外線放射性充填剤及び抗菌剤をそれぞれ単独で、少
量の合成樹脂と練り合わせることによってマスタバッチ
としておくか、又は遠赤外線放射性充填剤及び抗菌剤の
双方を含むマスタバッチとしておいて、繊維用合成樹脂
と配合したうえ、繊維状に紡糸することができる。The above-mentioned far-infrared radiation filler and antibacterial agent are mixed with the above-mentioned synthetic resin for fibers and kneaded, and then fibers are obtained by a method such as melt spinning. On this occasion,
The far-infrared radiation filler and the antibacterial agent can be used alone as a masterbatch by kneading them with a small amount of synthetic resin, or as a masterbatch containing both the far-infrared radiation filler and the antibacterial agent, and can be used for fiber synthesis. It can be mixed with a resin and spun into a fibrous form.
【0011】これらの繊維は、それ単独で又は数種組み
合わせて、若しくはその他の繊維と組み合わせて綿状、
不織布状、織布状等の繊維体とするが、通常の不織布の
製造方法を利用して不織布とすることができ、また、タ
ペット織機、グリッパー織機等を使用して織布とするこ
ともできる。These fibers may be used alone or in combination of several kinds, or in combination with other fibers,
Non-woven fabric, woven fabric, etc., can be made into a non-woven fabric using a normal non-woven fabric manufacturing method, and can also be made into a woven fabric using a tappet loom, a gripper loom, or the like. .
【0012】本発明の繊維質機能性層状体の第3層を構
成する織布又は不織布は、炭素繊維で形成されたもので
あるが、かかる炭素繊維としては、例えばポリアクリロ
ニトリル繊維を熱分解して得たPAN系炭素繊維、ピッ
チを紡糸し熱分解して得た炭素繊維などを挙げることが
できるが、電気伝導率が高い炭素繊維であれば特に限定
されることなく使用することができる。これらの炭素繊
維は、織布又は不織布の形態で使用されるが、不織布の
形成には通常の不織布の製造方法を利用することがで
き、また織布の形成にはタペット織機、グリッパー織機
等を利用することができる。The woven or nonwoven fabric constituting the third layer of the fibrous functional layered body of the present invention is formed of carbon fibers. Examples of such carbon fibers include polyacrylonitrile fibers obtained by thermal decomposition. Examples thereof include PAN-based carbon fibers obtained by spinning and carbon fibers obtained by spinning and thermally decomposing pitch, and any carbon fiber having a high electric conductivity can be used without any particular limitation. These carbon fibers are used in the form of a woven fabric or a non-woven fabric.A normal non-woven fabric manufacturing method can be used for forming the non-woven fabric, and a tappet loom, a gripper loom, or the like is used for forming the woven fabric. Can be used.
【0013】本発明の繊維質機能性層状体は、それぞれ
上記のように構成された第1層と第2層と第3層とを順
次に積層したもので、それぞれの用途に応じた形状とし
たのち、その側端縁部において第1層と第3層とを、例
えば縫い合わせる、接着剤等を介して接着する、熱融着
する等の適宜な方法で、直接に結合してなるものであ
る。The fibrous functional layered body of the present invention is obtained by sequentially laminating the first layer, the second layer, and the third layer each having the above-described structure, and has a shape suitable for each use. After that, the first layer and the third layer are directly connected at their side edges by an appropriate method such as stitching, bonding with an adhesive or the like, or heat fusion. is there.
【0014】[0014]
(参考例)紡糸用のポリエチレンテレフタレート樹脂1
00重量部に対して、遠赤外線放射性充填剤として、二
酸化チタン粉末(粒径:0.3〜0.5μm)30部、
アルミナ粉末(粒径:0.3μm)40部、ジルコニア
粉末(粒径:0.3μm)30部、酸化ランタン粉末
(粒径:0.3μm)0.2部及び酸化ネオジム粉末
(粒径:0.3μm)0.2部からなる配合物15重量
部と、抗菌剤として銀イオンで置換されたゼオライト微
粒子5重量部とを配合し、混練押出機で260℃で混練
してマスタバッチを調製した。(Reference example) Polyethylene terephthalate resin 1 for spinning
30 parts by weight of titanium dioxide powder (particle size: 0.3 to 0.5 μm) as a far-infrared radiation filler based on 00 parts by weight;
40 parts of alumina powder (particle diameter: 0.3 μm), 30 parts of zirconia powder (particle diameter: 0.3 μm), 0.2 part of lanthanum oxide powder (particle diameter: 0.3 μm) and neodymium oxide powder (particle diameter: 0) 0.3 μm) 15 parts by weight of a 0.2 part mixture and 5 parts by weight of zeolite fine particles substituted with silver ions as an antibacterial agent were kneaded at 260 ° C. by a kneading extruder to prepare a master batch. .
【0015】上記のマスタバッチ10重量部と紡糸用の
ポリエチレンテレフタレート樹脂90重量部とを配合
し、溶融式紡糸機で260℃で紡糸し延伸して12デニ
ールの長繊維を得、これから長さ51mmの練り込みポリ
エステル繊維aを製造した。また上記のマスタバッチを
使用することなく、紡糸用のポリエチレンテレフタレー
ト樹脂のみを用いて同様にして紡糸し、12デニールで
長さ51mmの比較用のポリエステル繊維bを製造した。[0015] 10 parts by weight of the above master batch and 90 parts by weight of a polyethylene terephthalate resin for spinning were blended, spun at 260 ° C by a melt spinning machine and stretched to obtain a 12 denier long fiber, from which a length of 51 mm was obtained. Was manufactured. Also, without using the above-mentioned master batch, spinning was carried out in the same manner using only the polyethylene terephthalate resin for spinning, to produce a polyester fiber b for comparison having a length of 12 mm and a length of 51 mm.
【0016】(実施例)参考例で得た練り込みポリエス
テル繊維aの50重量部と、ポリエステル繊維bの45
重量部と、低融点ポリエステル繊維cの5重量部とを混
合して、スパンボンド法に従って不織布を製造し、更に
圧熱して厚さ10mm、目付800g/m2の基布A1を得
た。(Example) 50 parts by weight of the kneaded polyester fiber a obtained in the reference example and 45 parts by weight of the polyester fiber b were used.
By weight, 5 parts by weight of the low-melting polyester fiber c were mixed to produce a nonwoven fabric according to a spunbonding method, and further heated to obtain a base fabric A1 having a thickness of 10 mm and a basis weight of 800 g / m 2 .
【0017】次に、3デニールのナイロン繊維に銀メッ
キして得た導電性繊維dの10重量部と、ポリエステル
繊維bの85重量部と、低融点ポリエステル繊維cの5
重量部とを混合して、スパンボンド法に従って不織布を
製造し、更に圧熱して厚さ5mm、目付60g/m2の導電
性不織布B1を得た。Next, 10 parts by weight of conductive fiber d obtained by silver plating 3 denier nylon fiber, 85 parts by weight of polyester fiber b, and 5 parts by weight of low melting polyester fiber c.
By mixing parts by weight, to produce a nonwoven fabric in accordance with the spunbond method to obtain further hot with a thickness of 5 mm, a conductive nonwoven fabric B1 having a basis weight of 60 g / m 2.
【0018】又、太さ30番手相当のPAN系炭素繊維
eを用いてタペット織機により織成し、平織りの炭素織
布C1を得た。一方、低融点ポリエステル繊維cのみを
用いてスパンボンド法に従って、厚さ0.5mm、目付3
0g/m2の熱接着用不織布Dを製造した。A woven carbon fiber cloth C1 having a thickness of 30 counts was woven by a tappet loom using a PAN-based carbon fiber e. On the other hand, using the low-melting polyester fiber c alone, according to the spunbonding method, a thickness of 0.5 mm and a basis weight of 3
Non-woven fabric D for thermal bonding of 0 g / m 2 was produced.
【0019】そして、炭素織布C1の上に熱接着用不織
布Dを重ねて軽く圧熱して一体化層とし、その上に基布
A1、熱接着用不織布D、導電性不織布B1の順に重ね
たうえ、その縁部を覆うように一体化層の縁部を上方に
折り曲げて、導電性不織布B1に上面に熱接着用不織布
Dが接するように重ね、全体を圧熱して図1のような構
造を有する本発明の繊維質機能性層状体Iを作成した。Then, the non-woven fabric for thermal bonding D is superimposed on the carbon woven fabric C1 and lightly pressed to form an integrated layer, on which the base fabric A1, the non-woven fabric for thermal bonding D, and the conductive non-woven fabric B1 are laminated in this order. Further, the edge of the integrated layer is bent upward so as to cover the edge, and the nonwoven fabric for thermal bonding D is overlapped on the conductive nonwoven fabric B1 so that the upper surface thereof is in contact with the conductive nonwoven fabric B1. The fibrous functional layered product I of the present invention having the following formula was prepared.
【0020】(比較例1)ポリエステル繊維bの95重
量部と、低融点ポリエステル繊維cの5重量部とを混合
して、スパンボンド法に従って不織布を製造し、更に圧
熱して厚さ10mm、目付800g/m2の基布A2を得
た。そして、実施例における基布A1の代わりに基布A
2を用いたほかは実施例と全く同様にして、炭素織布C
1と基布A2と導電性不織布B1とを、熱接着用不織布
Dを介して積層し圧熱して、対照品の繊維質機能性層状
体IIを作成した。(Comparative Example 1) 95 parts by weight of polyester fiber b and 5 parts by weight of low melting point polyester fiber c were mixed to produce a nonwoven fabric according to the spunbonding method. 800 g / m 2 of base cloth A2 was obtained. Then, instead of the base cloth A1 in the embodiment, the base cloth A
2 in the same manner as in Example except that carbon woven fabric C was used.
1, a base fabric A2, and a conductive nonwoven fabric B1 were laminated via a non-woven fabric D for thermal bonding, and were heated under pressure to prepare a fibrous functional layered material II as a control product.
【0021】(比較例2)3デニールのナイロン長繊維
の95重量部と、低融点ポリエステル繊維cの5重量部
とを混合して、スパンボンド法に従って不織布を製造
し、更に圧熱して厚さ5mm、目付60g/m2の不織布B
2を得た。そして、実施例における導電性不織布B1の
代わりに不織布B2を用いたほかは実施例と全く同様に
して、炭素織布C1と基布A1と不織布B2とを、熱接
着用不織布Dを介して積層し圧熱して、対照品の繊維質
機能性層状体III を作成した。COMPARATIVE EXAMPLE 2 95 parts by weight of a 3-denier nylon filament and 5 parts by weight of a low-melting polyester fiber c were mixed to produce a nonwoven fabric according to a spunbonding method, and further heat-pressed to a thickness. 5 mm, non-woven fabric B with a basis weight of 60 g / m 2
2 was obtained. Then, a carbon woven fabric C1, a base cloth A1, and a nonwoven fabric B2 are laminated via a nonwoven fabric D for heat bonding in exactly the same manner as in the example except that the nonwoven fabric B2 is used in place of the conductive nonwoven fabric B1 in the example. Then, a fibrous functional layered body III as a control product was prepared.
【0022】(比較例3)30番手の綿糸を用いてタペ
ット織機により織成し、平織りの織布C2を得た。そし
て、実施例における炭素織布C1の代わりに織布C2を
用いたほかは実施例と全く同様にして、織布C2と基布
A1と導電性不織布B1とを、熱接着用不織布Dを介し
て積層し圧熱して、対照品の繊維質機能性層状体IVを作
成した。(Comparative Example 3) A woven cloth C2 of plain weave was obtained by woven with a tappet loom using a 30th cotton thread. Then, the woven cloth C2, the base cloth A1, and the conductive nonwoven cloth B1 are connected to each other via the nonwoven cloth D for heat bonding in exactly the same manner as in the example except that the woven cloth C2 is used in place of the carbon woven cloth C1 in the example. This was laminated and pressed to produce a fibrous functional layered body IV as a control.
【0023】(性能試験)実施例及び比較例でそれぞれ
作成した繊維質機能性層状体I〜IVについて、以下のよ
うな試験を行い、その結果を表1に示した。 1.37℃での放射遠赤外線量(mW/cm2)を、サーモレ
ックス遠赤外線量測定計を用いて測定した。 2.100MHz 及び1GHz での電磁波の遮蔽による減衰
度(dB)を、KBS近接電界測定器を用いて測定した。 3.層状体の保温性として、硬質ウレタンマットの上に
層状体を敷いて入床し、腰部付近の60分後の温度
(℃)及び湿度(%RH )を測定した。(Performance Test) The following tests were performed on the fibrous functional layered bodies I to IV prepared in Examples and Comparative Examples, and the results are shown in Table 1. 1. The amount of radiated far-infrared ray (mW / cm 2 ) at 37 ° C. was measured using a Thermolex far-infrared ray meter. 2. The attenuation (dB) due to shielding of electromagnetic waves at 100 MHz and 1 GHz was measured using a KBS proximity electric field meter. 3. As a heat retaining property of the layered body, the layered body was laid on a hard urethane mat and entered the floor, and the temperature (° C.) and the humidity (% RH) near the waist after 60 minutes were measured.
【0024】[0024]
【表1】 [Table 1]
【0025】表1の結果を見ると、本発明の繊維質機能
性層状体Iは、対照品の繊維質機能性層状体II〜IVのい
ずれよりも温度や湿度の上昇が少なく、寝具として快適
に使用できること、また優れた電磁波遮蔽性能を有する
うえ蒸れることがないので、電磁波防護用衣類、或いは
帯電防止用衣類としても、快適に使用できることがわか
る。From the results shown in Table 1, it can be seen that the fibrous functional layered product I of the present invention has less rise in temperature and humidity than any of the fibrous functional layered products II to IV of the control product and is comfortable as bedding. It has excellent electromagnetic wave shielding performance and does not get stuffy, so that it can be used comfortably as electromagnetic wave protection clothing or antistatic clothing.
【0026】[0026]
【発明の効果】本発明の繊維質機能性層状体は、寝具と
して使用すると保温性に優れるうえ蒸れることがないの
で、身体の冷える傾向がある人に極めて有益であり、黴
や細菌などの増殖が抑制されるので清潔に使用できる効
果がある。また帯電防止性、並びに電磁遮蔽性に優れる
うえ蒸れることがないので、衣類等、特に作業用の衣類
として使用するのに適している。The fibrous functional layered body of the present invention is excellent in heat retention and does not stuffy when used as bedding, and is extremely useful for people who tend to cool their bodies, and proliferates mold and bacteria. Is suppressed, so that it can be used cleanly. In addition, since it is excellent in antistatic properties and electromagnetic shielding properties and does not stuffy, it is suitable for use as clothing, especially clothing for work.
【図1】本発明の繊維質機能性層状体の構造を説明する
ための概念図である。FIG. 1 is a conceptual diagram for explaining the structure of a fibrous functional layered body of the present invention.
A1 基布 B1 導電性不織布 C1 炭素織布 D 熱接着用不織布 a 練り込みポリエステル繊維 b ポリエステル繊維 c 低融点ポリエステル繊維 d 導電性繊維 e PAN系炭素繊維 A1 Base fabric B1 Conductive nonwoven fabric C1 Carbon woven fabric D Nonwoven fabric for thermal bonding a Kneaded polyester fiber b Polyester fiber c Low melting point polyester fiber d Conductive fiber e PAN-based carbon fiber
フロントページの続き (51)Int.Cl.6 識別記号 FI D01F 1/09 D01F 1/09 1/10 1/10 Continued on the front page (51) Int.Cl. 6 Identification code FI D01F 1/09 D01F 1/09 1/10 1/10
Claims (4)
からなる第1層と、遠赤外線放射性充填剤及び抗菌剤を
含む合成樹脂繊維を含んでなる繊維体からなる第2層
と、炭素繊維で形成された織布又は不織布からなる第3
層とを順次に積層してなり、側端縁部において該第1層
と該第3層とが直接に結合されていることを特徴とする
繊維質機能性層状体。1. A first layer made of a woven or non-woven fabric containing conductive fibers, a second layer made of a fibrous body containing synthetic resin fibers containing a far-infrared radiating filler and an antibacterial agent, and carbon Third made of woven or non-woven fabric made of fiber
A fibrous functional layered body, wherein the first layer and the third layer are directly bonded at a side edge portion.
あるか、又は導電性金属の微粉末を被着した繊維であ
る、請求項1に記載の繊維質機能性層状体。2. The fibrous functional layered body according to claim 1, wherein the conductive fiber is a conductive metal fiber or a fiber coated with a conductive metal fine powder.
ルである、請求項2に記載の繊維質機能性層状体。3. The fibrous functional layered body according to claim 2, wherein the conductive metal is gold, silver, copper, or nickel.
請求項1乃至3のいずれかに記載の繊維質機能性層状
体。4. The fibrous body is a nonwoven fabric or a flocculent body.
The fibrous functional layered body according to any one of claims 1 to 3.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP9229331A JPH1158572A (en) | 1997-08-26 | 1997-08-26 | Fibrous functional laminar material |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP9229331A JPH1158572A (en) | 1997-08-26 | 1997-08-26 | Fibrous functional laminar material |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH1158572A true JPH1158572A (en) | 1999-03-02 |
Family
ID=16890486
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP9229331A Withdrawn JPH1158572A (en) | 1997-08-26 | 1997-08-26 | Fibrous functional laminar material |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH1158572A (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2002294042A (en) * | 2001-04-02 | 2002-10-09 | Mitsubishi Rayon Co Ltd | Polyester resin composition and light-reflecting body made of polyester resin |
| CN115341337A (en) * | 2021-12-30 | 2022-11-15 | 称道新材料科技(上海)有限公司 | Preparation process and application of fluffy heat-storage melt-blown material |
-
1997
- 1997-08-26 JP JP9229331A patent/JPH1158572A/en not_active Withdrawn
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2002294042A (en) * | 2001-04-02 | 2002-10-09 | Mitsubishi Rayon Co Ltd | Polyester resin composition and light-reflecting body made of polyester resin |
| CN115341337A (en) * | 2021-12-30 | 2022-11-15 | 称道新材料科技(上海)有限公司 | Preparation process and application of fluffy heat-storage melt-blown material |
| CN115341337B (en) * | 2021-12-30 | 2024-01-30 | 称道新材料科技(上海)有限公司 | Preparation process and application of fluffy heat storage melt-blown material |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| A300 | Withdrawal of application because of no request for examination |
Free format text: JAPANESE INTERMEDIATE CODE: A300 Effective date: 20041102 |