JP4287292B2 - Improved moisture-sensitive breathability - Google Patents
Improved moisture-sensitive breathability Download PDFInfo
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- JP4287292B2 JP4287292B2 JP2004002760A JP2004002760A JP4287292B2 JP 4287292 B2 JP4287292 B2 JP 4287292B2 JP 2004002760 A JP2004002760 A JP 2004002760A JP 2004002760 A JP2004002760 A JP 2004002760A JP 4287292 B2 JP4287292 B2 JP 4287292B2
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Classifications
-
- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
- A41D13/00—Professional, industrial or sporting protective garments, e.g. surgeons' gowns or garments protecting against blows or punches
- A41D13/002—Professional, industrial or sporting protective garments, e.g. surgeons' gowns or garments protecting against blows or punches with controlled internal environment
-
- A—HUMAN NECESSITIES
- A41—WEARING APPAREL
- A41D—OUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
- A41D31/00—Materials specially adapted for outerwear
- A41D31/04—Materials specially adapted for outerwear characterised by special function or use
- A41D31/12—Hygroscopic; Water retaining
- A41D31/125—Moisture handling or wicking function through layered materials
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- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Environmental & Geological Engineering (AREA)
- Health & Medical Sciences (AREA)
- General Health & Medical Sciences (AREA)
- Physical Education & Sports Medicine (AREA)
- Professional, Industrial, Or Sporting Protective Garments (AREA)
- Outerwear In General, And Traditional Japanese Garments (AREA)
- Knitting Of Fabric (AREA)
- Woven Fabrics (AREA)
Description
本発明は、肌からの発汗などの湿度を感知して、衣服の寸法を変えることなく可逆的に通気性が向上する感湿通気性向上衣服に関するものである。 The present invention relates to a moisture-sensitive and breathable improvement garment that senses humidity such as sweat from the skin and reversibly improves the breathability without changing the size of the garment.
従来、合成繊維や天然繊維などからなる織編物を、スポーツウエアーやインナーウエアーなどとして使用すると、肌からの発汗によりムレやベトツキが発生するという問題があった。 Conventionally, when a woven or knitted fabric made of synthetic fiber or natural fiber is used as sportswear or innerwear, there has been a problem that stuffiness or stickiness is generated due to sweating from the skin.
かかる発汗によって生じるムレやベトツキを解消する方法として、例えば、特許文献1や特許文献2では、通気性のよいメッシュ布地で脇部や側体部を構成した衣服が提案されている。しかしながらかかる衣服においては、外観が損なわれたり、発汗していないときでも通気性がよいため寒いという問題があった。このような理由から、発汗時だけ通気性がよく、発汗していないときは可逆的に通気性が低下する衣服が求められていた。
As a method for eliminating the stuffiness and stickiness caused by perspiration, for example,
一方、本発明者らは、特願2003−177763号において、吸水自己伸張糸と非自己伸張糸とを用いて、湿潤時に通気性が向上し乾燥時に可逆的に通気性が低下する織編物を提案した。しかしながら、かかる織編物だけを用いて衣服を縫製すると、若干ではあるが湿潤時の衣服寸法が乾燥時の衣服寸法よりも大きくなるということが判明した。 On the other hand, in Japanese Patent Application No. 2003-177663, the present inventors use a water-absorbing self-stretching yarn and a non-self-stretching yarn to produce a woven or knitted fabric that has improved air permeability when wet and reversibly decreases air permeability when dried. Proposed. However, it has been found that if the garment is sewn using only such a woven or knitted fabric, the garment size when wet is slightly larger than the garment size when dry.
本発明は上記の背景に鑑みなされたものであり、その目的は、肌からの発汗などの湿度を感知して、衣服の寸法を変えることなく可逆的に通気性が向上する感湿通気性向上衣服
を提供することにある。
The present invention has been made in view of the above background, and its purpose is to detect moisture such as perspiration from the skin, and to improve moisture permeability and breathability that reversibly improve without changing the size of clothes. To provide clothes.
本発明者らは上記の課題を達成するため鋭意検討した結果、主として湿潤に対して通気性が向上しない織編物で構成される衣服において、比較的発汗しやすい個所を、湿潤により通気性が可逆的に向上する織編物で構成することにより、所望の感湿通気性向上衣服が得られることを見出し、さらに鋭意検討を重ねることにより本発明を完成するに至った。 As a result of intensive studies to achieve the above-mentioned problems, the inventors of the present invention have reversible breathability due to wetting in places that are made of woven or knitted fabric that do not improve breathability with respect to wetting. As a result, it was found that a desired garment with improved moisture sensitivity and air permeability can be obtained by using a woven or knitted fabric that can be improved, and the present invention has been completed by intensive studies.
かくして、本発明によれば「湿潤に対して通気性が向上しない織編物で主として構成される衣服であって、湿潤により通気性が可逆的に向上する部位を部分的に有し、かつ、湿潤により通気性が可逆的に向上する部位が、吸水自己伸張糸と非自己伸張糸とからなる織編物で構成され、温度20℃、湿度65%RHの雰囲気中における該織編物中の吸水自己伸張糸の糸長を(A)、他方、非自己伸張糸の糸長を(B)とするとき、A/Bが0.9以下であることを特徴とする感湿通気性向上衣服。」が提供される。 Thus, according to the present invention, “a garment mainly composed of a woven or knitted fabric that does not improve air permeability against moisture, partially having a portion where the air permeability is reversibly improved by moisture , and is wet. The part where the air permeability is reversibly improved by the knitted fabric is composed of a woven or knitted fabric composed of a water-absorbing self-stretching yarn and a non-self-stretching yarn, and the water-absorbing self-stretching in the knitting or knitting in an atmosphere at a temperature of 20 ° C. and a humidity of 65% RH. A moisture-sensitive and air-permeable improvement garment characterized in that A / B is 0.9 or less, where (A) is the yarn length of the yarn and (B) is the yarn length of the non-self-stretching yarn . Provided.
その際、湿潤により通気性が可逆的に向上する部位が、脇部、側体部、胸部、背部、肩部より選択される1部位または2部位以上であることが好ましい。 In that case, it is preferable that the site | part which air permeability improves reversibly by wet is 1 site | part or 2 or more site | parts selected from a side part, a side body part, a chest part, a back part, and a shoulder part .
かかる吸水自己伸張糸と非自己伸張糸とからなる織編物としては、吸水自己伸張糸と非自己伸張糸とが丸編組織の複合ループを形成してなる編物、吸水自己伸張糸と非自己伸張糸とが引き揃えられて織組織の経糸および/または緯糸を構成してなる織物、吸水自己伸張糸と非自己伸張糸とが、各々織編物の構成糸条として、1本交互にまたは複数本交互に配列してなる織編物、吸水自己伸張糸と非自己伸張糸とを複合糸として含む織編物などが例示される。 As a woven or knitted fabric composed of such a water-absorbing self-stretching yarn and a non-self-stretching yarn, a knitting in which a water-absorbing self-stretching yarn and a non-self-stretching yarn form a composite loop of a circular knitted structure, a water-absorbing self-stretching yarn and a non-self-stretching yarn. A woven fabric in which warps and / or wefts of a woven structure are formed by aligning yarns, a water-absorbing self-stretching yarn and a non-self-stretching yarn, each as a constituent yarn of a woven or knitted fabric, one alternately or a plurality of yarns Examples of the knitted or knitted fabric that are alternately arranged, and a woven or knitted fabric that includes a water-absorbing self-stretching yarn and a non-self-stretching yarn as a composite yarn.
前記の吸水自己伸張糸としては、ポリブチレンテレフタレートをハードセグメントとし、ポリオキシエチレングリコールをソフトセグメントとするポリエーテルエステルエラストマーからなるポリエーテルエステル繊維が好適である。一方、非自己伸張糸としては、ポリエステル繊維が好適である。 As the water-absorbing self-stretching yarn, a polyether ester fiber made of a polyether ester elastomer having polybutylene terephthalate as a hard segment and polyoxyethylene glycol as a soft segment is suitable. On the other hand, polyester fibers are suitable as the non-self-stretching yarn.
本発明の感湿通気性向上衣服の湿潤により通気性が可逆的に向上する部位において、湿潤時と乾燥時とで通気性変化率が30%以上であることが好ましい。また、主として湿潤に対して通気性が不変の織編物がポリエステル繊維で構成されることが好ましい。本発明の感湿通気性向上衣服はインナー用衣料やスポーツ衣料として好適である。 In the portion where the breathability is reversibly improved by wetting of the moisture-sensitive breathability-improving clothes of the present invention, the rate of change in breathability is preferably 30% or more when wet and when dry. Moreover, it is preferable that the woven or knitted fabric whose air permeability is not changed with respect to moisture is mainly composed of polyester fibers. The moisture-sensitive air-permeable improvement garment of the present invention is suitable as an inner garment or a sports garment.
本発明によれば、肌からの発汗などの湿度を感知して、衣服の寸法を変えることなく可逆的に通気性が向上する感湿通気性向上衣服が得られる。 According to the present invention, it is possible to obtain a moisture-sensitive and breathable improved garment that senses humidity such as perspiration from the skin and reversibly improves the breathability without changing the size of the garment.
以下、本発明の実施の形態について詳細に説明する。
本発明の感湿通気性向上衣服は、主として、湿潤に対して通気性が向上しない織編物で構成され、かつ、湿潤により通気性が可逆的に向上する部位を部分的に有する。
Hereinafter, embodiments of the present invention will be described in detail.
The moisture-sensitive and air-permeable improved garment of the present invention is mainly composed of a woven or knitted fabric that does not improve air permeability with respect to moisture, and partially has a portion where the air permeability is reversibly improved by being wet.
ここで、本発明において「湿潤に対して通気性が向上しない」および「湿潤に対して通気性が向上する」とは以下に定義する性質である。すなわち、織編物を温度20℃、湿度65RH%の環境下に24時間放置(以下、乾燥時という。)した後通気性を測定し、乾燥時の通気性とする。一方、織編物を、水温20℃の水中に5分間浸漬した後(以下、湿潤時という。)、試料を2枚のろ紙の間にはさみ、490N/m2(50kgf/m2)の圧力で1分間加重し、繊維間に存在する水分を取り除いた後、通気性を測定し、湿潤時の通気性とする。そして、下記式で定義する通気性変化率が5%未満の場合「湿潤に対して通気性が向上しない」とし、一方、通気性変化率が5%以上の場合「湿潤に対して通気性が向上する」とする。湿潤に対して通気性が低下する場合も「通気性が向上しない」に含めるものとする。なお、通気性は、JIS L 1096−1998、6.27.1、A法(フラジール形通気性試験機法)により測定されるものであり、乾燥時と湿潤時についてそれぞれn数5で測定しその平均値を求める。
通気性変化率(%)=((湿潤時の通気性)−(乾燥時の通気性))/(乾燥時の通気性)×100
Here, in the present invention, “the air permeability is not improved with respect to wetness” and “the air permeability is improved with respect to wetness” are properties defined below. That is, after the woven or knitted fabric is left in an environment of a temperature of 20 ° C. and a humidity of 65 RH for 24 hours (hereinafter referred to as drying), the air permeability is measured to obtain the air permeability during drying. On the other hand, after the woven or knitted fabric is immersed in water having a water temperature of 20 ° C. for 5 minutes (hereinafter referred to as “wet”), the sample is sandwiched between two filter papers at a pressure of 490 N / m 2 (50 kgf / m 2 ). After weighting for 1 minute to remove moisture present between the fibers, the air permeability is measured to obtain the air permeability when wet. When the air permeability change rate defined by the following formula is less than 5%, “the air permeability is not improved with respect to wetness”, while when the air permeability change rate is 5% or more, “the air permeability with respect to the wetness is not improved”. To improve. " The case where the air permeability is lowered with respect to wetness is also included in “the air permeability does not improve”. The air permeability is measured according to JIS L 1096-1998, 6.27.1, Method A (Fragile type air permeability tester method), and measured with n number of 5 for both dry and wet conditions. The average value is obtained.
Air permeability change rate (%) = ((wet breathability when wet) − (breathability when dried)) / (breathability when dried) × 100
湿潤に対して通気性が向上しない前記織編物としては、従来から知られている通常の繊維からなる通常の織編物でよい。例えば、繊維の種類としては、綿、羊毛、麻などの有機天然繊維、ポリエステル、ナイロン、及びポリオレフィン繊維などの有機合成繊維、セルロースアセテート繊維などの有機半合成繊維及、ビスコースレーヨン繊維などの有機再生繊維から選ばれるものであり、特にその種類は限定されない。 The woven or knitted fabric that does not improve the air permeability with respect to the wetness may be a conventional woven or knitted fabric made of conventional normal fibers. For example, the types of fibers include organic natural fibers such as cotton, wool and hemp, organic synthetic fibers such as polyester, nylon and polyolefin fibers, organic semi-synthetic fibers such as cellulose acetate fibers, and organic materials such as viscose rayon fibers. It is selected from recycled fibers, and the type is not particularly limited.
なかでも、繊維強度や取り扱い性の点でポリエステル繊維が好適である。ポリエステル繊維は、ジカルボン酸成分と、ジグリコール成分とから製造される。ジカルボン酸成分としは、主としてテレフタル酸が用いられることが好ましく、ジグリコール成分としては主としてエチレングリコール、トリメチレングリコール及びテトラメチレングリコールから選ばれた1種以上のアルキレングリコールを用いることが好ましい。また、ポリエステルには、前記ジカルボン酸成分及びグリコール成分の他に第3成分を含んでいてもよい。第3成分としては、カチオン染料可染性アニオン成分、例えば、ナトリウムスルホイソフタル酸;テレフタル酸以外のジカルボン酸、例えばイソフタル酸、ナフタレンジカルボン酸、アジピン酸、セバシン酸;及びアルキレングリコール以外のグリコール化合物、例えばジエチレングリコール、ポリエチレングリコール、ビスフェノールA、ビスフェノールスルフォンの1種以上を用いることができる。 Of these, polyester fibers are preferred in terms of fiber strength and handleability. The polyester fiber is produced from a dicarboxylic acid component and a diglycol component. As the dicarboxylic acid component, terephthalic acid is preferably used mainly, and as the diglycol component, it is preferable to use one or more alkylene glycols selected from ethylene glycol, trimethylene glycol and tetramethylene glycol. Further, the polyester may contain a third component in addition to the dicarboxylic acid component and the glycol component. As the third component, cationic dye dyeable anion components such as sodium sulfoisophthalic acid; dicarboxylic acids other than terephthalic acid such as isophthalic acid, naphthalenedicarboxylic acid, adipic acid, sebacic acid; and glycol compounds other than alkylene glycol, For example, one or more of diethylene glycol, polyethylene glycol, bisphenol A, and bisphenol sulfone can be used.
かかる繊維には、必要に応じて艶消し剤(二酸化チタン)、微細孔形成剤(有機スルホン酸金属塩)、着色防止剤、熱安定剤、難燃剤(三酸化二アンチモン)、蛍光増白剤、着色顔料、制電剤(スルホン酸金属塩)、吸湿剤(ポリオキシアルキレングリコール)、抗菌剤、その他の無機粒子の1種以上を含有させてもよい。 For such fibers, a matting agent (titanium dioxide), a micropore forming agent (organic sulfonic acid metal salt), a coloring inhibitor, a heat stabilizer, a flame retardant (antimony trioxide), and a fluorescent whitening agent as necessary. , A coloring pigment, an antistatic agent (sulfonic acid metal salt), a hygroscopic agent (polyoxyalkylene glycol), an antibacterial agent, and other inorganic particles may be contained.
かかる繊維の形態は特に限定されず、長繊維(マルチフィラメント)、短繊維いずれでもよいが、柔軟な風合いを得る上で長繊維が好ましい。さらには、通常の仮撚捲縮加工、撚糸、インターレース空気加工が施されていてもよい。繊維の繊度は特に限定されないが、柔軟な風合いを得る上で単繊維繊度は0.1〜3dtex、フィラメント数は20〜150、総繊度は30〜300dtexであることが好ましい。単繊維の断面形状には制限はなく、通常の円形断面のほかに三角、扁平、十字形、六様形、あるいは中空形の断面形状を有していてもよい。 The form of the fiber is not particularly limited, and may be either a long fiber (multifilament) or a short fiber, but a long fiber is preferable for obtaining a soft texture. Furthermore, normal false twist crimping, twisting, and interlaced air processing may be applied. The fineness of the fiber is not particularly limited, but in order to obtain a soft texture, the single fiber fineness is preferably 0.1 to 3 dtex, the number of filaments is 20 to 150, and the total fineness is preferably 30 to 300 dtex. The cross-sectional shape of the single fiber is not limited, and may have a triangular, flat, cross, hexagonal, or hollow cross-sectional shape in addition to a normal circular cross-section.
湿潤に対して通気性が向上しない前記織編物の組織も特に限定されず、通常のものでよい。例えば、織物の織組織としては、平織、斜文織、朱子織等の三原組織、変化組織、変化斜文織等の変化組織、たて二重織、よこ二重織等の片二重組織、たてビロードなどが例示される。編物の種類は、よこ編物であってもよいしたて編物であってもよい。よこ編組織としては、平編、ゴム編、両面編、パール編、タック編、浮き編、片畔編、レース編、添え毛編等が好ましく例示され、たて編組織としては、シングルデンビー編、シングルアトラス編、ダブルコード編、ハーフトリコット編、裏毛編、ジャガード編等が例示される。 The structure of the woven or knitted fabric in which the air permeability does not improve against wetness is not particularly limited, and may be a normal one. For example, the woven structure of the woven fabric is a three-layer structure such as plain weave, oblique weave, satin weave, etc., altered structure, altered structure such as altered oblique weave, single duplex structure such as vertical double weave, weft double weave, etc. And fresh velvet. The type of knitted fabric may be a weft knitted fabric or a newly knitted fabric. Preferred examples of the weft knitting structure include flat knitting, rubber knitting, double-sided knitting, pearl knitting, tuck knitting, float knitting, one-sided knitting, lace knitting, bristle knitting, and the like. Single atlas knitting, double cord knitting, half tricot knitting, back hair knitting, jacquard knitting and the like are exemplified.
本発明の感湿通気性向上衣服は、前記の湿潤に対して通気性が向上しない織編物で主として構成され、かつ湿潤により通気性が可逆的に向上する部位を部分的に有している。かかる部位としては、比較的発汗の多い個所が好適であり、例えば、図1に模式的に示す脇部、図2に模式的に示す側体部、図3に模式的に示す胸部、図4に模式的に示す背部、図5に模式的に示す肩部、およびこれらの組合わせが好適である。かかる湿潤により通気性が可逆的に向上する部位の面積としては、500〜10000cm2であることが好ましく、面積比率としては衣服の総面積に対して5〜70%の範囲が好適である。該面積比率が5%よりも小さいと、湿潤時に衣服トータルとしての通気性向上が不十分であり十分な快適性が得られない恐れがある。逆に、該面積比率が70%よりも大きいと、湿潤時に衣服の寸法が変化する恐れがある。 The moisture-sensitive and air-permeable improved garment of the present invention is mainly composed of a woven or knitted fabric that does not improve air permeability with respect to the above-mentioned wetness, and partially has a portion where the air-permeability is reversibly improved by the wetness. As such a part, a part with relatively much sweating is suitable, for example, a side part schematically shown in FIG. 1, a side body part schematically shown in FIG. 2, a chest part schematically shown in FIG. 3, and FIG. A back portion schematically shown in FIG. 5, a shoulder portion schematically shown in FIG. 5, and a combination thereof are suitable. The area of the portion where the air permeability is reversibly improved by the wetting is preferably 500 to 10,000 cm 2 , and the area ratio is preferably 5 to 70% with respect to the total area of the clothes. When the area ratio is less than 5%, there is a fear that sufficient improvement in air permeability as clothing total is insufficient when wet and sufficient comfort cannot be obtained. Conversely, if the area ratio is greater than 70%, the dimensions of the clothes may change when wet.
湿潤により通気性が可逆的に向上する部位を構成する布帛としては、特に限定されないが、特願2003−177763号で提案された織編物が好適である。 Although it does not specifically limit as a fabric which comprises the site | part which air permeability improves reversibly by wetness, The woven / knitted fabric proposed by Japanese Patent Application No. 2003-177663 is suitable.
すなわち、吸水自己伸張糸と非自己伸張糸とからなる織編物で構成され、温度20℃、湿度65%RHの雰囲気中における該織編物中の吸水自己伸張糸の糸長を(A)、他方、非自己伸張糸の糸長を(B)とするとき、A/Bが0.9以下(好ましくは0.9〜0.2、特に好ましくは0.8〜0.3)の織編物である。 That is, it is composed of a woven or knitted fabric composed of a water-absorbing self-stretching yarn and a non-self-stretching yarn, and the yarn length of the water-absorbing self-stretching yarn in the woven or knitting in an atmosphere of temperature 20 ° C. and humidity 65% RH is (A), When the yarn length of the non-self-stretching yarn is (B), A / B is 0.9 or less (preferably 0.9 to 0.2, particularly preferably 0.8 to 0.3). is there.
ここで、吸水自己伸張糸と非自己伸張糸は以下に定義する糸である。すなわち、枠周:1.125mの巻き返し枠を用いて荷重:0.88mN/dtex(0.1g/de)をかけて一定の速度で巻き返し、巻き数:10回のかせを作り、かせ取りした糸を温度20℃、湿度65RH%の環境下に24時間放置し、これに非弾性糸の場合は1.76mN/dtex(200mg/de)、弾性糸の場合は0.0088mN/dtex(1mg/de)の荷重をかけて測定した糸長(mm)を乾燥時の糸長とする。該糸を水温20℃の水中に5分間浸漬した後に水中より引き上げ、該糸に乾燥時と同様に非弾性糸の場合は1.76mN/dtex(200mg/de)、弾性糸の場合は0.0088mN/dtex(1mg/de)の荷重をかけて測定した糸長(mm)を湿潤時の糸長とする。なお、前記非弾性糸とは破断伸度が200%以下の糸であり、前記弾性糸とは破断伸度が200%より高い糸である。そして、下記式で求められる繊維軸方向の膨潤率が5%以上のものを吸水自己伸張糸と定義する。他方、該膨潤率が5%未満のものを非自己伸張糸と定義する。
膨潤率(%)=((湿潤時の糸長)−(乾燥時の糸長))/(乾燥時の糸長)×100
Here, the water-absorbing self-stretching yarn and the non-self-stretching yarn are yarns defined below. That is, using a rewind frame with a frame circumference of 1.125 m, a load of 0.88 mN / dtex (0.1 g / de) was applied and the rewind was performed at a constant speed, and the number of turns: 10 skeins were made and cut off. The yarn is allowed to stand in an environment of a temperature of 20 ° C. and a humidity of 65 RH% for 24 hours. The yarn length (mm) measured by applying a load of de) is defined as the yarn length at the time of drying. The yarn is dipped in water at a water temperature of 20 ° C. for 5 minutes and then pulled up from the water. The yarn length (mm) measured by applying a load of 0088 mN / dtex (1 mg / de) is defined as the wet yarn length. The inelastic yarn is a yarn having a breaking elongation of 200% or less, and the elastic yarn is a yarn having a breaking elongation higher than 200%. And a thing whose swelling rate of the fiber axis direction calculated | required by the following formula is 5% or more is defined as a water absorption self-extension thread | yarn. On the other hand, those having a swelling ratio of less than 5% are defined as non-self-stretching yarns.
Swell ratio (%) = ((wet yarn length) − (dry yarn length)) / (dry yarn length) × 100
また、糸長の測定は以下の方法で行うものとする。まず、織編物を温度20℃、湿度65%RHの雰囲気中に24時間放置した後、該織編物から、30cm×30cmの小片を裁断する(n数=5)。続いて、各小片から、吸水自己伸張糸及び非自己伸張糸を1本ずつ取り出し、吸水自己伸張糸の糸長A(mm)、非自己伸張糸の糸長B(mm)を測定する。その際、非弾性糸の場合は1.76mN/dtex(200mg/de)、弾性糸の場合は0.0088mN/dtex(1mg/de)の荷重をかけて測定する。そして、(糸長Aの平均値)/(糸長Bの平均値)をA/Bとする。ここで、小片から取り出す吸水自己伸張糸と非自己伸張糸とは織編物中において同一方向のものである必要がある。例えば、吸水自己伸張糸を織物の経糸(緯糸)から取り出す場合、他方の非自己伸張糸も経糸(緯糸)から取り出す必要がある。また、吸水自己伸張糸と非自己伸張糸とが、複合糸として織編物を構成する場合には、裁断された小片(30cm×30cm)から複合糸を取り出し(n数=5)、さらに複合糸から吸水自己伸張糸と非自己伸張糸とを取り出して前記と同様にして測定するものとする。 The yarn length is measured by the following method. First, after leaving the woven or knitted fabric to stand in an atmosphere of a temperature of 20 ° C. and a humidity of 65% RH for 24 hours, a 30 cm × 30 cm small piece is cut from the woven or knitted fabric (n number = 5). Subsequently, one water-absorbing self-stretching yarn and one non-self-stretching yarn are taken out from each piece, and the yarn length A (mm) of the water-absorbing self-stretching yarn and the yarn length B (mm) of the non-self-stretching yarn are measured. At that time, in the case of an inelastic yarn, the load is 1.76 mN / dtex (200 mg / de), and in the case of an elastic yarn, a load of 0.0088 mN / dtex (1 mg / de) is applied. Then, (average value of yarn length A) / (average value of yarn length B) is defined as A / B. Here, the water-absorbing self-stretching yarn and the non-self-stretching yarn taken out from the small piece need to be in the same direction in the woven or knitted fabric. For example, when the water-absorbing self-stretching yarn is taken out from the warp (weft) of the fabric, the other non-self-stretching yarn needs to be taken out from the warp (weft). When the water-absorbing self-stretching yarn and the non-self-stretching yarn constitute a woven or knitted fabric as a composite yarn, the composite yarn is taken out from the cut pieces (30 cm × 30 cm) (n number = 5), and further the composite yarn The water-absorbing self-stretching yarn and the non-self-stretching yarn are taken out of the yarn and measured in the same manner as described above.
吸水自己伸張糸としては、前記の膨潤率を有するものであれば特に限定されないが、6%以上(より好ましくは8〜30%)の膨潤率を有するものであることが好ましい。 The water-absorbing self-stretching yarn is not particularly limited as long as it has the above swelling ratio, but preferably has a swelling ratio of 6% or more (more preferably 8 to 30%).
かかる吸水自己伸張糸としては、例えば、ポリブチレンテレフタレートをハードセグメントとし、ポリオキシエチレングリコールをソフトセグメントとするポリエーテルエステルエラストマーからなるポリエーテルエステル繊維や、ポリアクリル酸金属塩、ポリアクリル酸およびその共重合体、ポリメタアクリル酸およびその共重合体、ポリビニルアルコールおよびその共重合体、ポリアクリルアミドおよびその共重合体、ポリオキシエチレン系ポリマーなどを配合したポリエステル繊維、5−スルホイソフタル酸成分を共重合したポリエステル繊維などが例示される。なかでも、かかる吸水自己伸張糸として、ポリブチレンテレフタレートをハードセグメントとし、ポリオキシエチレングリコールをソフトセグメントとするポリエーテルエステルエラストマーからなるポリエーテルエステル繊維が好適に例示される。 Examples of such water-absorbing self-stretching yarns include polyether ester fibers made of a polyether ester elastomer having polybutylene terephthalate as a hard segment and polyoxyethylene glycol as a soft segment, polyacrylic acid metal salts, polyacrylic acid and the like. Copolymer, polymethacrylic acid and its copolymer, polyvinyl alcohol and its copolymer, polyacrylamide and its copolymer, polyester fiber blended with polyoxyethylene polymer, 5-sulfoisophthalic acid component Examples include polymerized polyester fibers. Among these, as the water-absorbing self-stretching yarn, a polyether ester fiber made of a polyether ester elastomer having polybutylene terephthalate as a hard segment and polyoxyethylene glycol as a soft segment is preferably exemplified.
上記ポリブチレンテレフタレートは、ブチレンテレフタレート単位を少なくとも70モル%以上含有することが好ましい。ブチレンテレフタレートの含有率は、より好ましくは80モル%以上、さらに好ましくは90モル%以上である。酸成分は、テレフタル酸が主成分であるが、少量の他のジカルボン酸成分を共重合してもよく、またグリコール成分は、テトラメチレングリコールを主成分とするが、他のグリコール成分を共重合成分として加えてもよい。 The polybutylene terephthalate preferably contains at least 70 mol% of butylene terephthalate units. The content of butylene terephthalate is more preferably 80 mol% or more, and still more preferably 90 mol% or more. The acid component is mainly composed of terephthalic acid, but a small amount of other dicarboxylic acid components may be copolymerized. The glycol component is mainly composed of tetramethylene glycol, but other glycol components are copolymerized. It may be added as a component.
テレフタル酸以外のジカルボン酸としては、例えばナフタレンジカルボン酸、イソフタル酸、ジフェニルジカルボン酸、ジフェニルキシエタンジカルボン酸、β−ヒドロキシエトキシ安息香酸、p−オキシ安息香酸、アジピン酸、セバシン酸、1、4−シクロヘキサンジカルボン酸のような芳香族、脂肪族のジカルボン酸成分を挙げることができる。さらに、本発明の目的の達成が実質的に損なわれない範囲内で、トリメリット酸、ピロメリット酸のような三官能性以上のポリカルボン酸を共重合成分として用いても良い。 Examples of dicarboxylic acids other than terephthalic acid include naphthalenedicarboxylic acid, isophthalic acid, diphenyldicarboxylic acid, diphenyloxyethanedicarboxylic acid, β-hydroxyethoxybenzoic acid, p-oxybenzoic acid, adipic acid, sebacic acid, and 1,4- Examples thereof include aromatic and aliphatic dicarboxylic acid components such as cyclohexanedicarboxylic acid. Further, a tricarboxylic or higher polycarboxylic acid such as trimellitic acid or pyromellitic acid may be used as a copolymerization component as long as the achievement of the object of the present invention is not substantially impaired.
また、テトラメチレングリコール以外のジオール成分としては、例えばトリメチレングリコール、エチレングリコール、シクロヘキサン−1,4−ジメタノール、ネオペンチルグリコールのような脂肪族、脂環族、芳香族のジオール化合物を挙げることができる。更に、本発明の目的の達成が実質的に損なわれない範囲内で、グリセリン、トリメチロールプロパン、ペンタエリスリトールのような三官能性以上のポリオールを共重合成分として用いてもよい。 Examples of diol components other than tetramethylene glycol include aliphatic, alicyclic and aromatic diol compounds such as trimethylene glycol, ethylene glycol, cyclohexane-1,4-dimethanol, and neopentyl glycol. Can do. Furthermore, a trifunctional or higher functional polyol such as glycerin, trimethylolpropane, or pentaerythritol may be used as a copolymerization component as long as the achievement of the object of the present invention is not substantially impaired.
一方、ポリオキシエチレングリコールは、オキシエチレングリコール単位を少なくとも70モル%以上含有することが好ましい。オキシエチレングリコールの含有量は、より好ましくは80モル%以上、さらに好ましくは90モル%以上である。本発明の目的の達成が実質的に損なわれない範囲内で、オキシエチレングリコール以外にプロピレングリコール、テトラメチレングリコール、グリセリンなどを共重合させても良い。 On the other hand, the polyoxyethylene glycol preferably contains at least 70 mol% or more of oxyethylene glycol units. The content of oxyethylene glycol is more preferably 80 mol% or more, and still more preferably 90 mol% or more. In addition to oxyethylene glycol, propylene glycol, tetramethylene glycol, glycerin and the like may be copolymerized within a range where the achievement of the object of the present invention is not substantially impaired.
かかるポリオキシエチレングリコールの数平均分子量としては、400〜8000が好ましく、なかでも1000〜6000が特に好ましい。 The number average molecular weight of such polyoxyethylene glycol is preferably 400 to 8000, and particularly preferably 1000 to 6000.
前記のポリエーテルエステルエラストマーは、たとえば、テレフタル酸ジメチル、テトラメチレングリコールおよびポリオキシエチレングリコールとを含む原料を、エステル交換触媒の存在下でエステル交換反応させ、ビス(ω−ヒドロキシブチル)テレフタレート及び/又はオリゴマーを形成させ、その後、重縮合触媒及び安定剤の存在下で高温減圧下にて溶融重縮合を行うことにより得ることができる。 The polyether ester elastomer is obtained, for example, by subjecting a raw material containing dimethyl terephthalate, tetramethylene glycol and polyoxyethylene glycol to a transesterification reaction in the presence of a transesterification catalyst to produce bis (ω-hydroxybutyl) terephthalate and / or Alternatively, it can be obtained by forming an oligomer and then performing melt polycondensation under high temperature and reduced pressure in the presence of a polycondensation catalyst and a stabilizer.
ハードセグメント/ソフトセグメントの比率は、重量を基準として30/70〜70/30であることが好ましい。 The ratio of hard segment / soft segment is preferably 30/70 to 70/30 based on weight.
かかるポリエーテルエステル中には、公知の有機スルホン酸金属塩が含まれていると、さらに優れた吸水自己伸張性能が得られ好ましい。 It is preferable that a known organic sulfonic acid metal salt is contained in such a polyether ester because a further excellent water absorption self-extension performance is obtained.
ポリエーテルエステル繊維は、前記ポリエーテルエステルを、通常の溶融紡糸口金から溶融して押し出し、引取速度300〜1200m/分(好ましくは400〜980m/分)で引取り、巻取ドラフト率をさらに該引取速度の1.0〜1.2(好ましくは1.0〜1.1)で巻取ることにより製造することができる。 The polyether ester fiber is obtained by melting and extruding the polyether ester from a normal melt spinneret, and taking it out at a take-up speed of 300 to 1200 m / min (preferably 400 to 980 m / min). It can manufacture by winding at 1.0-1.2 (preferably 1.0-1.1) of taking-up speed.
一方、非自己伸張糸としては、木綿、麻などの天然繊維やレーヨン、アセテートなどのセルロース系化学繊維、さらにはポリエチレンテレフタレートやポリトリメチレンテレフタレートに代表されるポリエステル、ポリアミド、ポリアクリルニトリル、ポリプロピレンなどの合成繊維が例示される。なかでも、通常のポリエステル繊維が好ましく例示される。 On the other hand, non-self-stretched yarns include natural fibers such as cotton and linen, cellulosic chemical fibers such as rayon and acetate, and polyesters such as polyethylene terephthalate and polytrimethylene terephthalate, polyamide, polyacrylonitrile, and polypropylene. These synthetic fibers are exemplified. Especially, a normal polyester fiber is illustrated preferably.
前記吸水自己伸張糸及び非自己伸張糸の繊維形態は特に限定されず、短繊維でもよいし長繊維でもよい。繊維の断面形状も特に限定されず、丸、三角、扁平、中空など公知の断面形状が採用できる。吸水自己伸張糸及び非自己伸張糸の総繊度、単糸繊度、フィラメント数も特に限定されないが、風合いや生産性の点で総繊度30〜300dtex、単糸繊度0.6〜10dtex、フィラメント数1〜300本の範囲が好ましい。 The fiber form of the water-absorbing self-stretching yarn and the non-self-stretching yarn is not particularly limited, and may be a short fiber or a long fiber. The cross-sectional shape of the fiber is not particularly limited, and a known cross-sectional shape such as a circle, a triangle, a flat shape, or a hollow shape can be employed. The total fineness, single yarn fineness, and number of filaments of the water-absorbing self-stretched yarn and non-self-stretched yarn are not particularly limited, but the total fineness is 30 to 300 dtex, the single yarn fineness is 0.6 to 10 dtex, and the number of filaments is 1 in terms of texture and productivity. A range of ˜300 is preferred.
吸水自己伸張糸と非自己伸張糸との重量比として、湿潤時の通気性向上を効果的に得る上で、前者:後者で10:90〜60:40(より好ましくは20:80〜50:50)の範囲であることが好ましい。 The weight ratio of the water-absorbing self-stretching yarn and the non-self-stretching yarn is 10:90 to 60:40 (more preferably 20:80 to 50: in the former: the latter) in order to effectively improve the air permeability when wet. 50) is preferable.
湿潤により通気性が可逆的に向上する織編物の構造としては、その織編組織、層数は特に限定されるものではない。例えば、平織、綾織、サテンなどの織組織や、天竺、スムース、フライス、鹿の子、デンビー、トリコットなどの編組織が好適に例示されるが、これらに限定されるものではない。層数も単層でもよいし、2層以上の多層であってもよい。 As the structure of the woven or knitted fabric whose breathability is reversibly improved by wetting, the woven or knitted structure and the number of layers are not particularly limited. For example, woven structures such as plain weave, twill weave, and satin, and knitted structures such as tengu, smooth, milling, kanoko, denby, and tricot are preferably exemplified, but not limited thereto. The number of layers may be a single layer or a multilayer of two or more layers.
前記吸水自己伸張糸と非自己伸張糸との糸配列としては特に限定されないが、以下の糸配列が好適に例示される。
まず、その1として、吸湿自己伸張糸と非自己伸張糸とが引き揃えられて、編物のニードルループや、織物の経糸および/または緯糸を構成する糸配列があげられる。例えば、図6に示すように、吸湿自己伸張糸と非自己伸張糸とが丸編組織の複合ループ(2本の糸条で、同時にニードルループを形成する。添え糸編みとも言われる。)を形成してなる糸配列や、図7に示すように、吸水自己伸張糸と非自己伸張糸とが、引き揃えられて織組織の経糸および/または緯糸に配された糸配列が例示される。
The yarn arrangement of the water-absorbing self-stretching yarn and the non-self-stretching yarn is not particularly limited, but the following yarn arrangement is preferably exemplified.
First, the hygroscopic self-stretching yarn and the non-self-stretching yarn are aligned to form a needle loop of a knitted fabric and a yarn arrangement constituting a warp and / or weft of a woven fabric. For example, as shown in FIG. 6, a hygroscopic self-stretching yarn and a non-self-stretching yarn form a circular loop knitted composite loop (two yarns form a needle loop at the same time, also called splicing yarn). As shown in FIG. 7, the formed yarn arrangement and the yarn arrangement in which the water-absorbing self-stretching yarn and the non-self-stretching yarn are aligned and arranged on the warp and / or the weft of the woven structure are exemplified.
その2として、吸湿自己伸張糸と非自己伸張糸とが、織編物の経糸および/または緯糸において1本交互(1:1)や複数本交互(2:2、3:3など)に配された糸配列があげられる。例えば、図8に示すように、丸編物中に吸水自己伸張糸と非自己伸張糸とが1:1に配された糸配列、図9に示すように、織物中に吸水自己伸張糸と非自己伸張糸とが1:1に経糸および緯糸に配された糸配列などが例示される。
As
その3として、吸水自己伸張糸と非自己伸張糸とが、混繊糸、複合仮撚捲縮加工糸、合撚糸、カバリング糸などの複合糸として織編物を構成する態様があげられる。 As a third example, there is an embodiment in which a water-absorbing self-stretching yarn and a non-self-stretching yarn constitute a woven or knitted fabric as a composite yarn such as a mixed yarn, a composite false twist crimped yarn, a combined twist yarn, or a covering yarn.
これらの糸配列において、吸水自己伸張糸と非自己伸張糸との糸長差をもうける方法としては、以下の方法が例示される。 In these yarn arrangements, the following method is exemplified as a method of creating a difference in yarn length between the water-absorbing self-stretching yarn and the non-self-stretching yarn.
例えば、その1として、前記の織編物を製編織する際、吸水自己伸張糸として、前記の弾性を有するポリエーテルエステル繊維を使用し、該ポリエーテルエステル繊維をドラフト(延伸)しながら非自己伸張糸と引き揃え、同一の給糸口に給糸して製編織する方法があげられる。その際、ポリエーテルエステル繊維のドラフト率としては、10%以上(好ましくは20%以上300%以下)が好ましい。なお、該ドラフト率(%)は、下記式で求められる。
ドラフト率(%)=(((引き取り速度)−(供給速度))/(供給速度))×100
ポリエーテルエステル繊維は、通常弾性性能を有しているため、織編物中において、ポリエーテルエステル繊維は、弾性回復してその糸長が短くなり、他方の非自己伸張糸との糸長差をもうけることができる。
For example, as one of the above, when knitting or weaving the woven or knitted fabric, the polyether ester fiber having elasticity is used as a water-absorbing self-stretching yarn, and the polyether ester fiber is not self-stretched while being drafted (stretched). There is a method of knitting and weaving by aligning with yarn and feeding to the same yarn feeder. At that time, the draft rate of the polyetherester fiber is preferably 10% or more (preferably 20% or more and 300% or less). The draft rate (%) is obtained by the following formula.
Draft rate (%) = (((take-off speed) − (supply speed)) / (supply speed)) × 100
Since polyetherester fibers usually have elastic performance, in woven and knitted fabrics, the polyetherester fibers are elastically recovered and their yarn length is shortened, resulting in a difference in yarn length from the other non-self-stretching yarn. I can make it.
その2として、前記の織編物を製編織する際、吸水自己伸張糸の沸水収縮率を非自己伸張糸の沸水収縮率よりも大きくする方法があげられる。かかる織編物を通常の染色加工工程に供することにより、吸水自己伸張糸の糸長が短くなり、他方の非自己伸張糸との糸長差をもうけることができる。 As a second method, when the woven or knitted fabric is knitted or woven, the boiling water shrinkage rate of the water-absorbing self-stretching yarn is made larger than that of the non-self-stretching yarn. By subjecting such a woven or knitted fabric to a normal dyeing process, the yarn length of the water-absorbing self-stretching yarn is shortened, and a yarn length difference from the other non-self-stretching yarn can be obtained.
その3として、非自己伸張糸をオーバーフィード(過供給)させながら吸水自己伸張糸と引き揃えて、通常の空気混繊加工、撚糸、カバリング加工なより複合糸を得て、該複合糸を用いて織編物を製編織する方法があげられる。
As
湿潤により通気性が可逆的に向上する部位を構成する布帛として、上記の湿潤により通気性が可逆的に向上する織編物を選定することにより、例えば、該織編物が、吸水自己伸張糸と非自己伸張糸とが丸編組織の複合ループを形成している丸編物の場合、乾燥時、該丸編物の複合ループにおいて、図6の(1)に示すように非自己伸張糸からなるループはたるんでいる。そして、湿潤時、図6の(2)に示すように吸水自己伸張糸が自己伸長し、ループは膨潤して大きくなると同時に、たるんでいた非自己伸張糸からなるループは引き伸ばされて編物内の空隙が大きくなり通気性が向上する。 By selecting the woven or knitted fabric whose air permeability is reversibly improved by the above-mentioned wet as the fabric constituting the portion where the air permeability is reversibly improved by wetting, for example, the woven or knitted fabric can be separated from the water-absorbing self-stretching yarn. In the case of a circular knitted fabric in which the self-stretching yarn forms a composite loop of a circular knitted structure, the loop made of non-self-stretching yarn in the composite loop of the circular knitted fabric as shown in FIG. It's slack. When wet, the water-absorbing self-stretching yarn self-extends as shown in (2) of FIG. 6 and the loop swells and becomes large. At the same time, the loop made of the loose non-self-stretching yarn is stretched and stretched. The air gap becomes larger and the air permeability is improved.
湿潤により通気性が可逆的に向上する該織編物において、乾燥時と湿潤時との通気性変化率としては、30%以上(より好ましくは50〜300%)であることが好ましい。該通気性変化率が30%未満では、感湿時にムレやべとつきを十分に解消できない恐れがある。 In the woven or knitted fabric whose breathability is reversibly improved by wetting, the rate of change in breathability between dry and wet is preferably 30% or more (more preferably 50 to 300%). If the air permeability change rate is less than 30%, there is a possibility that dullness and stickiness cannot be sufficiently eliminated when moisture is sensed.
本発明の感湿通気性向上衣服において、前記の湿潤により通気性が可逆的に向上する部位は、縫製によりとりつけられていることが好ましいが、湿潤に対して通気性が向上しない織編物と湿潤により通気性が可逆的に向上する部位とが一体の織編物であってもよい。 In the moisture-sensitive breathable garment of the present invention, the portion where the breathability is reversibly improved by the above-mentioned wetting is preferably attached by sewing, but the woven or knitted fabric does not improve the breathability with respect to the wetting. Thus, the knitted or knitted fabric may be integrated with the portion where the air permeability is reversibly improved.
本発明の感湿通気性向上衣服を着用すると、発汗時、湿潤により通気性が可逆的に向上する部位の通気性が向上するため、ムレやべとつきを解消することができ優れた着用快適性が得られる。同時に、かかる衣服は主として湿潤に対して通気性が向上しない織編物で構成されるため、発汗時に衣服の寸法が変化する恐れもない。かかる衣服は、肌着などのインナー用衣料、セーター、シャツ、トレーナーなどのスポーツ用衣料などに好適である。 Wearing the moisture-sensitive and air-improving garment of the present invention improves the breathability of the part where breathability is reversibly improved by sweating, so that it can eliminate stuffiness and stickiness and has excellent wearing comfort can get. At the same time, since the garment is mainly composed of a woven or knitted fabric that does not improve air permeability against moisture, there is no fear that the dimensions of the garment will change when sweating. Such clothes are suitable for inner clothing such as underwear, sports clothing such as sweaters, shirts, and trainers.
なお、本発明の感湿通気性向上衣服には、常法の染色仕上げ加工が施されてもよい。さらには、常法の撥水加工、起毛加工、紫外線遮蔽あるいは抗菌剤、消臭剤、防虫剤、蓄光剤、再帰反射剤、マイナスイオン発生剤等の機能を付与する各種加工を付加適用してもよい。 In addition, the dyeing finishing process of a usual method may be given to the moisture-sensitive air-permeable improvement clothes of this invention. In addition, various processes that provide functions such as conventional water-repellent processing, brushed processing, ultraviolet shielding or antibacterial agents, deodorants, insect repellents, phosphorescent agents, retroreflective agents, and negative ion generators are additionally applied. Also good.
次に本発明の実施例及び比較例を詳述するが、本発明はこれらによって限定されるものではない。なお、実施例中の各測定項目は下記の方法で測定した。
<糸長の測定>織編物を温度20℃、湿度65%RHの雰囲気中に24時間放置した後、該織編物から、経緯の方向が織編物と同じになるよう30cm×30cmの小片を裁断する(n数=5)。続いて、各々の小片から、吸水自己伸張糸及び非自己伸張糸を1本ずつ取り出し、弾性糸である吸水自己伸張糸には0.0088mN/dtex(1mg/de)の荷重をかけ、非弾性糸である非自己伸張糸には1.76mN/dtex(200mg/de)の荷重をかけて吸水自己伸張糸の糸長A(mm)、非自己伸張糸の糸長B(mm)を測定する。そして、(糸長Aの平均値)/(糸長Bの平均値)をA/Bとする。
<通気性>JIS L 1096−1998、6.27.1、A法(フラジール形通気性試験機法)により通気性を測定した。そして、該通気性を、乾燥時と湿潤時についてそれぞれ測定(n数=5)し、下記式により通気性変化率(%)を算出する。
通気性変化率(%)=((湿潤時の通気性)−(乾燥時の通気性))/(乾燥時の通気性)×100
Next, although the Example and comparative example of this invention are explained in full detail, this invention is not limited by these. In addition, each measurement item in an Example was measured with the following method.
<Measurement of yarn length> After leaving the woven or knitted fabric in an atmosphere at a temperature of 20 ° C. and a humidity of 65% RH for 24 hours, a small piece of 30 cm × 30 cm is cut from the woven or knitted fabric so that the direction of the weft is the same as that of the woven or knitted fabric (N number = 5). Subsequently, one water-absorbing self-stretching yarn and one non-self-stretching yarn are taken out from each piece, and a load of 0.0088 mN / dtex (1 mg / de) is applied to the water-absorbing self-stretching yarn, which is an elastic yarn. A load of 1.76 mN / dtex (200 mg / de) is applied to the non-self-stretching yarn, which is a yarn, and the yarn length A (mm) of the water-absorbing self-stretching yarn and the yarn length B (mm) of the non-self-stretching yarn are measured. . Then, (average value of yarn length A) / (average value of yarn length B) is defined as A / B.
<Breathability> Breathability was measured according to JIS L 1096-1998, 6.27.1, Method A (Fragile Breathability Tester Method). Then, the air permeability is measured for each of dry time and wet time (n number = 5), and the air permeability change rate (%) is calculated by the following formula.
Air permeability change rate (%) = ((wet breathability when wet) − (breathability when dried)) / (breathability when dried) × 100
[実施例1]
ハードセグメントとしてポリブチレンテレフタレートを49.8重量部、ソフトセグメントとして数平均分子量4000のポリオキシエチレングリコール50.2重量部からなるポリエーテルエステルを、230℃で溶融し、所定の紡糸口金より吐出量3.05g/分で押出した。このポリマーを2個のゴデットロールを介して705m/分で引取り、さらに750m/分(巻取りドラフト1.06)で巻取り、44デシテックス/1フィラメントの弾性を有する吸水自己伸張糸を得た。この吸水自己伸張糸の湿潤時の繊維軸方向への膨潤率は10%であり、沸水収縮率は8%であった。
[Example 1]
Polyetherene terephthalate (49.8 parts by weight) as a hard segment and polyether ester (50.2 parts by weight of polyoxyethylene glycol having a number average molecular weight of 4000 as a soft segment) are melted at 230 ° C. and discharged from a predetermined spinneret. Extruded at 3.05 g / min. The polymer was drawn through two godet rolls at 705 m / min and further wound at 750 m / min (winding draft 1.06) to obtain a water-absorbing self-stretching yarn having elasticity of 44 dtex / 1 filament. The swelling rate of the water-absorbing self-stretching yarn in the fiber axis direction when wet was 10%, and the boiling water shrinkage rate was 8%.
また、非自己伸張糸として沸水収縮率が10%であり、湿潤時の膨張率が1%以下である、通常のポリエチレンテレフタレートマルチフィラメント糸(84デシテックス/24フィラメント)を用意した。 In addition, a normal polyethylene terephthalate multifilament yarn (84 dtex / 24 filament) having a boiling water shrinkage of 10% and a wet expansion rate of 1% or less was prepared as a non-self-stretching yarn.
次いで、28ゲージのシングル丸編機を用いて、上記吸水自己伸張糸をドラフト率50%でドラフトさせながら上記非自己伸張糸と同時に該編機に給糸することにより、47コース/2.54cm、40ウェール/2.54cmの編密度にて天竺組織の丸編物を編成した。ついで、この丸編物を常法の染色仕上げ方法にて加工を行うことにより、湿潤時に通気性が向上する編物を得た。得られた編物において図6に模式的に示すように、吸水自己伸張糸と非自己伸張糸とで丸編組織の複合ループが形成されており、A/Bが0.7であった。また、得られた丸編物において、乾燥時では、通気性210cc/cm2/sであり、湿潤時には、通気性380cc/cm2/s(通気性変化率81%)と、湿潤時に通気性が大きく向上するものであった。 Next, using a 28-gauge single circular knitting machine, the water-absorbing self-stretching yarn was drafted at a draft rate of 50% and fed to the knitting machine simultaneously with the non-self-stretching yarn to obtain 47 course / 2.54 cm. A circular knitted fabric with a tengu structure was knitted at a knitting density of 40 wales / 2.54 cm. Subsequently, this circular knitted fabric was processed by a conventional dyeing finishing method to obtain a knitted fabric having improved air permeability when wet. In the obtained knitted fabric, as schematically shown in FIG. 6, a composite loop of a circular knitted structure was formed by the water-absorbing self-stretching yarn and the non-self-stretching yarn, and A / B was 0.7. Further, at circle knit obtained, in the drying is a breathable 210cc / cm 2 / s, at the time of wet, breathable 380cc / cm 2 / s (change in air permeability 81%), breathable when wet is It was a big improvement.
一方、28ゲージのダブル丸編機で、湿潤時の膨張率が1%以下である、通常のポリエチレンテレフタレートマルチフィラメント仮撚捲縮加工糸(56デシテックス/72フィラメント)を用いて、45コース/2.54cm、41ウエール/2.54cmの編密度にてスムース組織の丸編物を編成した後、常法の染色仕上げ方法にて加工を行い、湿潤時に通気性が不変の編地(通気性変化率が5%未満)を得た。そして、該編地を裁断縫製して、半そでシャツを作製した。 On the other hand, with a 28 gauge double circular knitting machine, 45 course / 2 using ordinary polyethylene terephthalate multifilament false twist crimped yarn (56 dtex / 72 filament) with an expansion rate of 1% or less when wet. After knitting a smooth knitted fabric with a knitting density of .54cm, 41 wale / 2.54cm, the fabric is processed by a conventional dyeing finishing method, and the knitted fabric has the same air permeability when wet (rate of change in air permeability) Was less than 5%). Then, the knitted fabric was cut and sewn to prepare a half sleeve shirt.
続いて、該半そでシャツの両脇部のみをカットし、図1に示すように前記湿潤時に通気性が向上する編物を脇部に縫製することにより、感湿通気性向上半そでシャツを得た。得られた感湿通気性向上半そでシャツにおいて、通気性が可逆的に向上する部位の合計面積は1050cm2であり、面積比率としては衣服の総面積に対して10%であった。試験者が該感湿通気性向上半そでシャツを着用してランニングし発汗したところ、発汗の多い脇部のムレも少なく快適であり、シャツの寸法が変わることもなかった。 Subsequently, only the both side portions of the half sleeve were cut, and a knitted fabric having improved air permeability when wet as shown in FIG. 1 was sewn to the side portions to obtain a moisture-sensitive breathable half sleeve shirt. In the obtained moisture-sensitive breathable half sleeve shirt, the total area of the portions where the breathability was reversibly improved was 1050 cm 2 , and the area ratio was 10% with respect to the total area of the clothes. When the tester ran and sweated while wearing the shirt with the improved moisture-sensitive air permeability, the side portions with much sweating were less stuffy and comfortable, and the dimensions of the shirt did not change.
[比較例1]
実施例1において、両脇部をカットする前の半そでシャツ(通常のポリエチレンテレフタレートマルチフィラメント仮撚捲縮加工糸(56デシテックス/72フィラメント)100%)を試験者が着用してランニングし発汗したところ、発汗量が増加するにつれ脇部のムレが増大し不快であった。
[Comparative Example 1]
In Example 1, the tester wears a half sleeve shirt (normal polyethylene terephthalate multifilament false twisted crimped yarn (56 dtex / 72 filament) 100%) before cutting both sides and sweats. As the amount of sweat increased, the side stuffiness increased and was uncomfortable.
本発明によれば、肌からの発汗などの湿度を感知して、衣服の寸法を変えることなく可逆的に通気性が向上する感湿通気性向上衣服が提供される。かかる衣服はスポーツ衣料用途やインナー衣料用途に好適であり、その工業的価値は極めて大である。 ADVANTAGE OF THE INVENTION According to this invention, the moisture-sensitive air-permeability improvement clothes which perceive humidity, such as perspiration from skin, reversibly improve without changing the dimension of clothes are provided. Such clothing is suitable for sports clothing and inner clothing, and its industrial value is extremely large.
1−1,1−2,1−3,1−4,1−5 湿潤により通気性が可逆的に向上する部位
2−1,2−2,4−1,4−2,6−1,6−2,8−1,8−2 吸水自己伸張糸
3−1,3−2,5−1,5−2,7−1,7−2,9−1,9−2 非自己伸張糸
1-1, 1-2, 1-3, 1-4, 1-5 Sites where air permeability is reversibly improved by wetting 2-1, 2-2, 4-1, 4-2, 6-1, 6-2,8-1,8-2 Water-absorbing self-stretching yarn 3-1,3-2,5-1,5-2,7-1,7-2,9-1,9-2 Non-self-stretching yarn
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JP5667548B2 (en) * | 2011-11-01 | 2015-02-12 | 東洋紡Stc株式会社 | Knitted fabric with excellent breathability |
JP6596104B2 (en) * | 2016-03-14 | 2019-10-23 | プーマ エス イー | Exercise clothing |
JP6957137B2 (en) * | 2016-09-07 | 2021-11-02 | ナガイレーベン株式会社 | clothes |
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