JP3598027B2 - Special composite crimped yarn - Google Patents

Special composite crimped yarn Download PDF

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Publication number
JP3598027B2
JP3598027B2 JP28939499A JP28939499A JP3598027B2 JP 3598027 B2 JP3598027 B2 JP 3598027B2 JP 28939499 A JP28939499 A JP 28939499A JP 28939499 A JP28939499 A JP 28939499A JP 3598027 B2 JP3598027 B2 JP 3598027B2
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yarn
composite crimped
crimped yarn
thick
details
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JP2001115344A (en
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三男 松本
勝行 笠岡
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Teijin Fibers Ltd
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Teijin Fibers Ltd
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Description

【0001】
【発明の属する技術分野】
本発明はストレッチ性に優れ、しかもナチュラルなスパナイズ風合を呈する布帛が得られる特殊複合捲縮糸に関する。
【0002】
【従来の技術】
従来、熱収縮性特性の異なる2種類のポリマーをサイドバイサイドや偏心的に複合化してなる複合捲縮糸は、織編物として、あるいは不織布としてストレッチ性に優れた布帛が得られることが良く知られている(例えば特開平9−228172号公報、特開平9−241937号公報、特許第2703294号公報など)。
【0003】
かかる複合捲縮糸はポリマーの熱収縮差が繊維長さ方向で一定であるため、熱収縮して発現するスパイラル状の捲縮サイズ、形態も皆一定であり、特に撚糸を施してから捲縮を発現させたりすると、糸を構成する各フィラメントの位相が重なり合って全体として集束し合ったスパイラル形態を発現し、高いストレッチ性を実現しようとするものである。
【0004】
すなわち、上記の複合捲縮糸は単にストレッチ機能だけを要するスポーツ衣料用途や医療用不織布といった分野には利用できるものの、さらに感性を要求される分野、特にアウターなどの衣料用分野に展開する上では限界が有り、ましてやかかる複合捲縮糸のみからナチュラルなスパナイズ風合とストレッチ性を同時に有する布帛を得ようといった試みは従来あまりなされていない。
【0005】
【発明が解決しようとする課題】
本発明の目的は、従来の複合捲縮糸の優れたストレッチ性は維持したまま、ナチュラルなスパナイズ風合を付与し、ストレッチ機能とスパナイズ感性の両方を兼ね備えた汎用性のある快適素材を提供することにある。
【0006】
【課題を解決するための手段】
本発明者らは上記目的を達成すべく鋭意検討した結果、複合捲縮糸に太細部を付与するような延伸を施すと、その太部と細部で捲縮サイズや形状の異なった特殊な複合捲縮糸となり、該複合捲縮糸からは従来にないスパナイズ風合を有する織編物が得られることを見出し、本発明を完成させるに至った。
かくして本発明によれば2種類のポリマーがサイドバイサイド型に複合化された複合捲縮糸において、糸の長さ方向に交互に太細部を有し、該太細部の太部と細部とでスパイラル捲縮形状が異なり、太部の捲縮数が細部の捲縮数の85%以下であり、2種類のポリマーのうち、一方のポリマーP が、ポリトリメチレンテレフタレート、ポリブチレンテレフタレート、または、イソフタル酸、ビスフェノールA化合物および金属スルホネート基を有する芳香族ジカルボン酸の群から選択される少なくとも1種を8〜15モル%共重合したポリエチレンテレフタレートであり、他方のポリマーP がポリエチレンテレフタレートであり、かつ該複合捲縮糸の横断面において、P 領域からP 領域に対して少なくとも1つの凸部が形成されており、P 領域内に中空部を有することを特徴とする特殊複合捲縮糸が提案される。
【0007】
【発明の実施の形態】
本発明において、特に肝要なのが本発明の特殊捲縮複合糸が長さ方向に交互に太細部を有し、しかも該太細部の太部と細部で異なった捲縮形状を有していることである。ここで捲縮形状が異なるとは、該太細部の太部および細部における、捲縮のサイズ、捲縮数が明らかに異なることをいい、例えば、該太細部の太部においてはスパイラル捲縮の直径が大きく捲縮数の少ない粗い捲縮を、細部においてはスパイラル捲縮の直径が小さく捲縮数の多い細かい捲縮を有していることをいう。このような繊維形状とすることにより、該複合捲縮糸からはストレッチ性能だけでなくナチュラルなスパナイズ風合を有する布帛を得ることができるのである。
【0008】
上記の太部と細部における捲縮形状の差としては、太部の捲縮数が細部の捲縮数の85%以下、より好ましくは80%以下、特に好ましくは75%以下とすることが、粗い捲縮部分と細かい捲縮部分との間で明瞭な捲縮差を発現し、よりナチュラルなスパナイズ風合を表現できる点で好ましい。
【0009】
また、該複合捲縮糸における太部と細部の割合は太部:細部=30:70〜70:30が好ましく、また、太部および細部の長さはいずれも2〜150mmの範囲が好ましく、より好ましくは10〜50mmの範囲であり、これによってさらにスパナイズな風合を得ることができる。
【0010】
さらに本発明の特殊複合捲縮糸は2種類のポリマーがサイドバイサイド型または偏心芯鞘型に複合化された複合捲縮糸であって、該繊維を構成するポリマーとしては、サイドバイサイド型または偏心芯鞘型の複合繊維としたとき良好なストレッチ性を発現する組合わせであればいかなるものであっても良く、ポリエステル、ポリアミド、ポリオレフィン、あるいはこれらの共重合体のいずれを組合わせたものであっても良い。また、上記の2種類のポリマーとは同一ポリマーの低粘度のものと高粘度のものの2種類であっても良く、例えば該複合捲縮糸としてはポリエチレンテレフタレートの低粘度ポリマーと高粘度ポリマーとからなる複合繊維であっても良い。
【0011】
なかでも上記2種類のポリマーの組合わせとしては、一方のポリマー(P)を、ポリトリメチレンテレフタレート、ポリブチレンテレフタレート、または、イソフタル酸、ビスフェノールA化合物および金属スルホネート基を有する芳香族ジカルボン酸の群から選択される少なくとも1種類を全酸性分を基準として8〜15モル%共重合したポリエチレンテレフタレートとし、他方のポリマー(P)を、ポリエチレンテレフタレートとした組合わせが好ましい。この際、Pにおいてポリエチレンテレフタレートに共重合できる金属スルホネート基を有する芳香族ジカルボン酸としては、5−ナトリウムスルホイソフタル酸、5−カリウムスルホイソフタル酸、5−リチウムスルホイソフタル酸、4−ナトリウムスルホイソフタル酸、4−ナトリウムスルホ−2,6−ナフタレンジカルボン酸などが挙げられるが、特に5−ナトリウムスルホイソフタル酸が好ましく用いられる。また、Pのポリエチレンテレフタレートは単独で用いることが好ましいが、染色性向上などの目的で、イソフタル酸(Pにイソフタル酸のみを共重合したポリエチレンテレフレートを使用する場合を除く)、アジピン酸、セバシン酸、1,4−ブタンジオール、1,6−へキサンジオール、ジエチレングリコール、ポリエチレングリコールなどの共重合成分を少量(5モル%程度以下)含有してもよい。Pのポリエチレンテレフタレートの固有粘度としては0.36〜0.47が適当である。以上のようなPとPの組合わせとしたとき特に高いストレッチ性能が得られ、複合捲縮糸の太部および細部のいずれにおいてもより明瞭な捲縮が発現し、同時に捲縮形状の差も明確なものとなり、前述した太部の捲縮数が細部の捲縮数の85%以下となるような複合捲縮糸とし易く、スパナイズ風合を容易に得ることができるのである。
【0012】
また、複合捲縮糸の複合形態は前述の如くサイドバイサイド型や偏心芯鞘型などが挙げられるが、より高いストレッチ性能が得られるサイドバイサイドが好ましく、前述の効果をより顕著なものにできる。さらに、該複合捲縮糸を図1−(2)〜(3)に示すように中空断面にすると、同じデニールでも捲縮性能をさらに高めることが可能である。この際、中空部の位置を図1−()に示すようにP内に配置すると、Pが収縮した際に、Pの屈曲を阻害しないので高い捲縮性能が得られ、同時に製編織工程など後工程の取扱いにおいて屈曲や伸長変形を受けた際にも両ポリマーの接合界面の剥離も防止できる。この際、該複合捲縮糸の複合比率としてはP:P=40:60〜60:40が好ましい。
【0013】
該複合捲縮糸を構成する単糸デニールは特に限定されないが、衣料用に使用する場合、好ましくは1.1〜11.1dtex(1.0〜10.0デニール)、特に1.1〜5.5dtex(1.0〜5.0デニール)の範囲が好ましい。
【0014】
本発明の特殊複合捲縮糸は、例えば、前述したサイドバイサイド型複合繊維を、従来公知の方法により紡糸して得た未延伸糸または紡糸速度を高速にして得た高配向未延伸糸を、該未延伸糸の自然延伸倍率領域内で延伸して太細部を発生させ、これを織編物などの布帛とした後で、染色工程や精練工程で高温処理することを利用して捲縮を発現させことによって得ることができる。この際、上記の延伸に供する原糸としては太部と細部の異なった捲縮形状を発現し、太部の捲縮数が細部の捲縮数の85%以下となるような明瞭な捲縮差が容易に得られる、自然延伸倍率が1.4〜2.5倍の高配向未延伸糸が特に好ましい。また、延伸工程あるいは延伸工程の後工程で、太細部を発生させた糸条を高温熱風や非接触ヒータなどで熱処理して、織編物など布帛に成形する前に捲縮を発現させてもかまわない。
【0015】
図2は、前者の好ましい実施態様の一例を示す概略図であり、Yは2種類のポリマーからなる複合繊維の原糸、1は供給ローラ、2は予熱ローラ、3はプレートヒータ、4は引取りローラ、5は巻取装置である。該高配向未延伸糸Yは、供給ローラ1により供給され、予熱ローラ2で予熱され、該予熱ローラ2と引取りローラ4との間で、この間に設置されたプレートヒータ3で加熱されながら所定の延伸倍率で延伸されて、巻取り装置5で巻き取られる。
【0016】
具体的な条件としては、例えば、イソフタル酸を8〜15モル%共重合したポリエチレンテレフタレートとポリエチレンテレフタレートとのサイドバイサイド型複合繊維の自然延伸倍率が1.75倍の高配向未延伸糸を用いた場合、予熱温度(予熱ヒータ2の温度)を80〜100℃、延伸温度(プレートヒータ3の温度)を160〜190℃、延伸速度(引取りローラ3の速度)を500〜800m/分とすることによって得ることができる。この際の、延伸倍率は前述のように未延伸糸または高配向未延伸糸の自然延伸倍率領域内、好ましくは自然延伸倍率の20〜90%を採用すれば良い。
【0017】
以上のような条件を採用することによって太細部を有する延伸糸を得、例えばこれを織編物などとして従来公知の条件により精練および/または染色処理することによって太部と細部に異なる捲縮形状を容易に発現させることができ、太部の捲縮数が細部の捲縮数の85%以下となるような明瞭な捲縮差を有する特殊捲縮複合繊維を容易に得ることができる。
【0018】
また、前述の如く織編物とする前に捲縮を発現させる場合は、熱風温度や非接触ヒータの温度として80〜130℃が好ましく採用される。
【0019】
さらに、該特殊複合捲縮糸を複数本交絡および/または撚糸した特殊複合捲縮糸からは従来にない表面変化に富んだ織物を得ることができる。この際の合糸する特殊複合捲縮糸の本数としては2〜3本が好ましい。また、該特殊複合捲縮糸に交絡および/または撚糸を付与する場合は、合糸した糸の太さにもよるが交絡数は30〜60ケ/m、撚数は300〜1600T/mとすることが好ましい。
【0020】
【実施例】
以下、実施例により詳細に説明する。実施例における特性値などの測定法は次ぎの通りである。
(1)固有粘度
フェノールと四塩化エタン1:1混合触媒中20℃で測定。
(2)繊度
JIS L1090−5−3の方法で測定。
(3)強度、伸度
JIS L1090−5−5−1の方法で測定。
(4)熱収縮率
JIS L1090−5−10−Aの方法で測定。
(5)捲縮数
3000デニールの綛を作りこれを濃淡差が識別できる染料(例えばチバガイギ社のテラトップブルーGLFなど)を溶かした水溶液で10分間フリーの状態で沸水処理し、乾燥後、単繊維をサンプリングし、2cm以上の長さで、濃染となっている太部と淡染となっている細部で、それぞれ2cm単位でマークを付与し、マーク間のクリンプ数と繊維長を各々10個所測定し、繊維長1cm当りのクリンプ数の平均値を算出する。この際、繊維長は0.8mN/dtex(0.1g/de)の荷重下で長さを測定する。
(6)捲縮率
糸条に0.0026mN/dtex(0.30mg/de)の荷重を掛け、沸水中で20分間捲縮発現処理をした後、1日放置して乾燥し、糸長Lを測定する。次いで1.7mN/dtex(0.20g/de)の重荷重を掛け2分後に糸長Lを測定し、次式で捲縮率を算出する。
捲縮率=[(L−L)/L]×100(%)
【0021】
[実施例1]
イソフタル酸を10モル%共重合したポリエチレンテレフタレートと、[η]=0.43のポリエチレンテレフタレートとを重量比1:1として、図1−(3)に示すような断面形状が得られるサイドバイサイド型紡糸口金を用いて紡速2600m/分で紡糸し、111dtex(100デニール)/24フィラメント、強度14mN/dtex(1.6g/de)、伸度153%、自然延伸倍率1.7、中空率1%の高配向未延伸糸を得た。
【0022】
次いでこの高配向未延伸糸を原糸として図2に示す延伸装置を用いて、供給ローラ1と予熱ローラ2との間の第1延伸倍率(DR1)を1.02倍、予熱ローラ2の温度を85℃、予熱ローラ2と引取りローラ4との間の第2延伸倍率(DR2)を1.55倍、プレートヒータ3の温度を160℃とした条件で600m/分で延伸した。
【0023】
得られた延伸糸は72dtex(65デニール)/24フィラメント、強度が20mN/dtex(2.3g/de)、伸度が55%、捲縮率(TC)が35%、沸水収縮(FS)が13%であった。また、該延伸糸の太部および細部の捲縮数の平均値はそれぞれ5ケ/cm、7ケ/cmであり捲縮数の比(太部の捲縮数の平均値/細部の捲縮数の平均値)は0.71であった。さらに、該延伸糸を筒状に編み立てて染色したところ糸の長さ方向に太さ斑、染色斑、捲縮形態差がランダムに発生しナチュラルな外観と嵩高性を有したスパナイズ風合が認められた。
【0024】
該糸条を用いて1200T/mの撚糸を施し80℃で撚止めセットを行なった後、経糸密度189本/インチの緯糸密度121本/インチの綾織物を織り、次いで120℃の温水で20分間よくもみながら精練リラックスを行ない、180℃でプレセットしてから17%のアルカリ減量を施し、130℃で45分間染色した後、160℃で最終セットして製品を得た。
【0025】
得られた製品は、ナチュラルなスパナイズ外観と風合を有しストレッチ性は19%(経方向と緯方向の平均値)、回復率は89%と好調であった。
【0026】
なお、該糸条の撚数を700T/mにし、それ以外は上記と同様の条件にて製品を得たところ、織物表面に細やかなしぼ状の凹凸が現われ、低い撚数にもかかわらず新規な表面変化織物が得られた。
【0027】
[実施例2]
イソフタル酸を10モル%共重合したポリエチレンテレフタレートをポリトリメチレンテレフタレートとした以外は実施例1と同様にして、111dtex(100デニール)/24フィラメント、強度13mN/dtex(1.5g/de)、伸度155%、自然延伸倍率1.65%、中空率1%の高配向未延伸糸を得た。
【0028】
次いでこの高配向未延伸糸を原糸として第2延伸倍率(DR2)を1.5倍とした以外は実施例1と同様の方法で延伸し、75dtex(68デニール)/24フィラメント、強度が17mN/dtex(1.9g/de)、伸度が50%、捲縮率(TC)が48%、沸水収縮(FS)が16%の延伸糸を得た。また、該延伸糸の太部および細部の捲縮数の平均値はそれぞれ6ケ/cm、9ケ/cmであり捲縮数の比(太部の捲縮数の平均値/細部の捲縮数の平均値)は0.67であった。さらに、該延伸糸を筒状に編み立てて染色したところ実施例1と同様に糸の長さ方向に太さ斑、染色斑、捲縮形態差がランダムに発生しナチュラルな外観と嵩高性を有したスパナイズ風合が認められた。
【0029】
なお、該糸条を実施例1と同じ条件で撚糸・撚止めセットし、経糸密度180本/インチの緯糸密度115本/インチの綾織物となるように製織した以外は、実施例1と同条件で精練リラックス、アルカリ減量、最終熱セットを施した。得られた製品はナチュラルなスパナイズ外観と風合を有しているだけでなく、ストレッチ性が27%、回復率が94%と実施例1よりもストレッチ性、回復率が優れていた。
【0030】
[比較例]
実施例1で得た高配向未延伸糸を原糸として供給ローラ1と予熱ローラ2の間で延伸倍率(DR1)を1.02倍、予熱ローラ2の温度を90℃、予熱ローラと引取りローラ間の延伸倍率(DR2)を1.85、プレートヒータ温度を180℃の条件にて、600m/分の速度で延伸を行なった。
【0031】
得られた糸条は62dtex(56デニール)/24フィラメント強度が28mN/dtex(3.2g/de)、伸度が31%、捲縮率(TC)が40%、沸水収縮率(FS)が9%であった。さらに、実施例1と同様にして筒編および綾織物を作成した。その結果、筒編および綾織物には染色あるいは精練リラックスにおいても、糸の長さ方向に太さ斑、染色斑、捲縮形状差が発生せず、人工的で均一なフラットヤーン風のスムースな筒編および綾織物の表面となり、ストレッチ性はストレッチ率が24%、回復率が92%と良好であったが、ナチュラルなスパナイズ風合は得られなかった。
【0032】
【発明の効果】
本発明によれば、ストレッチ機能を有し、嵩高性があり、同時に太細部で捲縮形状が異なるためナチュラルなスパナイズ風合を有する布帛が得られる特殊複合捲縮糸を提供することができ、特に衣料用途で新規な素材を提供しうるものである。また、該複合捲縮糸は太細部で染着性が異なり、これを構成する2種類のポリマーの組合せによっては該染着差をより際立たせることができるため、捲縮差だけでなく色調によってもさらにナチュラルな外観を表現できるといった効果を奏するものである。
【図面の簡単な説明】
【図1】本発明に係る特殊複合捲縮糸の一例を示す断面図。
【図2】本発明に係る特殊複合捲縮糸の製造工程の一例を示す概略図。
【符号の説明】
H 中空部
,P 2種類のポリマー成分
Y 原糸
1 供給ローラ
2 予熱ローラ
3 プレートヒータ
4 引取りローラ
5 巻取り装置[0001]
TECHNICAL FIELD OF THE INVENTION
TECHNICAL FIELD The present invention relates to a special composite crimped yarn which is excellent in stretchability and can obtain a fabric exhibiting a natural spanized feeling.
[0002]
[Prior art]
Conventionally, it is well known that a composite crimped yarn obtained by side-by-side or eccentrically compounding two kinds of polymers having different heat shrinkage characteristics can be obtained as a woven or knitted fabric or a nonwoven fabric with excellent stretchability. (For example, JP-A-9-228172, JP-A-9-241937, and Japanese Patent No. 2703294).
[0003]
In such composite crimped yarns, since the difference in heat shrinkage of the polymer is constant in the fiber length direction, the crimp size and shape of the spiral crimps expressed by heat shrinkage are all constant. When or to express, yarn express spiral form each other and focused as a whole overlap phase of each filament constituting the, is intended to achieve a stretch has high.
[0004]
In other words, the above-mentioned composite crimped yarn can be used in the fields of sports clothing and medical non-woven fabrics that require only a stretch function, but in the field where sensibility is required, especially in the field of clothing such as outerwear. There has been a limit, and much less attempts have been made to obtain a fabric having natural spanning feeling and stretchability at the same time from such composite crimped yarn alone.
[0005]
[Problems to be solved by the invention]
An object of the present invention is to provide a versatile comfort material that imparts a natural spanning feel while maintaining the excellent stretchability of a conventional composite crimped yarn, and has both a stretching function and a spanning feeling. It is in.
[0006]
[Means for Solving the Problems]
The present inventors have conducted intensive studies to achieve the above object, and as a result, when a composite crimped yarn is stretched to give thick details, a special composite having a different crimp size and shape between the thick portion and the details is obtained. It has been found that a crimped yarn can be obtained from the composite crimped yarn, and that a woven or knitted product having an unprecedented spanning feeling can be obtained, thereby completing the present invention.
Thus, according to the present invention, a composite crimped yarn in which two types of polymers are compounded in a side-by-side type has thick details alternately in the length direction of the yarn, and the thick portion and the details of the spiral wound have a spiral winding. Unlike condensation-shaped crimps number of thick portion is 85% or less of the reduced number of winding of the details of the two types of polymers, one polymer P 1, polytrimethylene terephthalate, polybutylene terephthalate, or isophthalic acid, a polyethylene terephthalate at least one kind of polymerization co 8-15 mol% is selected from the group of aromatic dicarboxylic acids having a bisphenol a compound and a metal sulfonate group, other polymer P 2 is polyethylene terephthalate, and in cross-section of the composite crimped yarn, at least one of the protrusions with respect to the area P 2 from P 1 region is formed Cage, special composite crimped yarn is proposed characterized in that it has a hollow portion P 1 region.
[0007]
BEST MODE FOR CARRYING OUT THE INVENTION
In the present invention, it is particularly important that the special crimped composite yarn of the present invention has thick details alternately in the length direction, and has a different crimp shape in the thick part and the details of the thick details. It is. Here, the difference in the crimped shape means that the size of the crimp and the number of crimps in the thick portion and the detail in the thick and small portions are clearly different. It refers to a coarse crimp having a large diameter and a small number of crimps, and a fine crimp having a small diameter of a spiral crimp and a large number of crimps in detail. By using such a fiber shape, a cloth having not only a stretch performance but also a natural spanized feel can be obtained from the composite crimped yarn.
[0008]
The difference between the crimped shape in the thick part and the crimped shape in the detail is that the number of crimps in the thick part is 85% or less, more preferably 80% or less, particularly preferably 75% or less of the crimp number in the detail. This is preferable in that a clear crimp difference is expressed between the coarsely crimped portion and the finely crimped portion, and a more natural spanized feeling can be expressed.
[0009]
Further, the ratio of the thick part to the detail in the composite crimped yarn is preferably thick part: detail = 30: 70 to 70:30, and the length of the thick part and the detail is preferably in a range of 2 to 150 mm, More preferably, it is in the range of 10 to 50 mm, whereby a further spanned feeling can be obtained.
[0010]
Further, the special composite crimped yarn of the present invention is a composite crimped yarn in which two kinds of polymers are compounded into a side-by-side type or an eccentric core-sheath type , and the polymer constituting the fiber is a side-by-side type or an eccentric core-sheath. Any combination may be used as long as it exhibits good stretchability when it is used as a conjugate fiber of a type, and any combination of polyester, polyamide, polyolefin, or a copolymer thereof may be used. good. Further, the two kinds of polymers may be two kinds of low viscosity and high viscosity of the same polymer. For example, as the composite crimped yarn, a low viscosity polymer and a high viscosity polymer of polyethylene terephthalate are used. Composite fibers.
[0011]
Above all, as a combination of the above two kinds of polymers, one of the polymers (P 1 ) is made of polytrimethylene terephthalate, polybutylene terephthalate, or isophthalic acid, a bisphenol A compound and an aromatic dicarboxylic acid having a metal sulfonate group. At least one selected from the group is preferably polyethylene terephthalate copolymerized with 8 to 15 mol% based on the total acid content, and the other polymer (P 2 ) is preferably polyethylene terephthalate. At this time, as the aromatic dicarboxylic acid having a metal sulfonate group which can be copolymerized polyethylene terephthalate in P 1, 5-sodium sulfoisophthalic acid, 5-potassium sulfoisophthalic acid, 5-lithium sulfoisophthalic acid, 4-sodium sulfoisophthalic Examples thereof include an acid and 4-sodium sulfo-2,6-naphthalenedicarboxylic acid, and particularly preferably 5-sodium sulfoisophthalic acid. Further, (except when using polyethylene terephthalate freight obtained by copolymerizing only isophthalic acid P 1) polyethylene terephthalate P 2 While it is preferred to use alone, for the purpose of dyeing improver, isophthalic acid, adipic acid , Sebacic acid, 1,4-butanediol, 1,6-hexanediol, diethylene glycol, polyethylene glycol, and other copolymer components may be contained in small amounts (about 5 mol% or less). The intrinsic viscosity of the polyethylene terephthalate of P 2 is suitably from 0.36 to 0.47. As described above P 1 and P 2 of the combination and to particularly high stretch performance when he is obtained, also expressed clearer crimp in any of the thick portion and the details of the composite crimped yarn, at the same time the crimped shape The difference is also clear, and it is easy to obtain a composite crimped yarn in which the number of crimps in the thick portion described above is 85% or less of the number of crimps in the detail, and a spanized feeling can be easily obtained.
[0012]
The composite form of the composite crimped yarn includes a side-by-side type and an eccentric core-sheath type, as described above. However, a side-by-side that can obtain higher stretching performance is preferable, and the above-described effect can be more remarkable. Further, when the composite crimped yarn has a hollow cross section as shown in FIGS. 1- (2) and (3), it is possible to further improve the crimping performance even with the same denier. At this time, when the position of the hollow portion disposed within P 1 as shown in FIG. 1- (3), when the P 1 is contracted, high crimp performance is obtained does not inhibit the bending of P 2, at the same time Even in the case of bending or elongating deformation in handling in a post-process such as a knitting or weaving process, separation of the bonding interface between the two polymers can be prevented. At this time, P 1 is a composite ratio of the composite crimped yarn: P 2 = 40: 60~60: 40 is preferred.
[0013]
The single yarn denier constituting the composite crimped yarn is not particularly limited, but when used for clothing, it is preferably 1.1 to 11.1 dtex (1.0 to 10.0 denier), particularly 1.1 to 5 dtex. The range of 0.5 dtex (1.0 to 5.0 denier) is preferable.
[0014]
The special composite crimped yarn of the present invention is, for example, an undrawn yarn obtained by spinning the above-described side-by-side type conjugate fiber by a conventionally known method or a highly oriented undrawn yarn obtained at a high spinning speed. The undrawn yarn is drawn in the natural draw ratio region to generate thick details, and after forming this into a fabric such as a woven or knitted fabric, a crimp is developed using high-temperature treatment in a dyeing process or a scouring process. Can be obtained by: At this time, the raw yarn to be subjected to the above-mentioned drawing develops a crimped shape having a thick portion and a different detail, and a clear crimp such that the number of crimps in the thick portion is 85% or less of the number of crimps in the detail. A highly oriented undrawn yarn having a natural draw ratio of 1.4 to 2.5 times, from which a difference can be easily obtained, is particularly preferable. Further, in the stretching step or the subsequent step of the stretching step, the yarn that has generated the thick detail is heat-treated with a high-temperature hot air or a non-contact heater or the like, so that a crimp can be developed before forming into a fabric such as a woven or knitted fabric. I don't care.
[0015]
FIG. 2 is a schematic view showing an example of the former preferred embodiment, wherein Y is a yarn of a conjugate fiber composed of two kinds of polymers, 1 is a supply roller, 2 is a preheating roller, 3 is a plate heater, and 4 is a drawer. The take-up roller 5 is a winding device. The highly oriented unstretched yarn Y is supplied by a supply roller 1, preheated by a preheating roller 2, and is heated between a preheating roller 2 and a take-up roller 4 while being heated by a plate heater 3 provided therebetween. And the film is wound up by the winding device 5.
[0016]
Specific conditions include, for example, a case where a natural oriented draw ratio of a side-by-side type conjugate fiber of polyethylene terephthalate and polyethylene terephthalate obtained by copolymerizing 8 to 15 mol% of isophthalic acid is a highly oriented undrawn yarn having a draw ratio of 1.75 times. The preheating temperature (temperature of the preheating heater 2) is 80 to 100 ° C., the stretching temperature (temperature of the plate heater 3) is 160 to 190 ° C., and the stretching speed (speed of the take-off roller 3) is 500 to 800 m / min. Can be obtained by At this time, as described above, the stretching ratio may be in the range of the natural stretching ratio of the undrawn yarn or the highly oriented undrawn yarn, preferably 20 to 90% of the natural stretching ratio.
[0017]
A drawn yarn having thick details is obtained by adopting the above-described conditions, and for example, a woven or knitted fabric is subjected to scouring and / or dyeing treatment under conventionally known conditions to thereby obtain a different crimped shape in the thick portion and the details. A specially crimped conjugate fiber having a distinct crimp difference such that the number of crimps in the thick portion can be 85% or less of the number of crimps in the detail portion can be easily obtained.
[0018]
In addition, when the crimp is developed before forming the woven or knitted fabric as described above, the temperature of the hot air or the temperature of the non-contact heater is preferably 80 to 130 ° C.
[0019]
Furthermore, a woven fabric having a surface change that has never been obtained can be obtained from a special composite crimped yarn in which a plurality of the special composite crimped yarns are entangled and / or twisted. In this case, the number of special composite crimped yarns to be combined is preferably two to three. In addition, when entangled and / or twisted yarn is added to the special composite crimped yarn, the number of entanglements is 30 to 60 / m, and the number of twists is 300 to 1600 T / m, depending on the thickness of the plied yarn. Is preferred.
[0020]
【Example】
Hereinafter, an embodiment will be described in detail. The measuring method of the characteristic values and the like in the examples is as follows.
(1) Intrinsic viscosity Measured at 20 ° C. in a 1: 1 mixed catalyst of phenol and ethane tetrachloride.
(2) Fineness Measured according to the method of JIS L1090-5-3.
(3) Strength and elongation Measured by the method of JIS L1090-5-5-1.
(4) Heat shrinkage measured by the method of JIS L1090-5-10-A.
(5) A skein with a number of crimps of 3,000 deniers is prepared and subjected to a boiling water treatment in a free state for 10 minutes with an aqueous solution in which a dye (for example, Teratop Blue GLF manufactured by Ciba Geigy Co., Ltd.) is discriminated, and dried. The fiber is sampled, and the length is 2 cm or more. Marks are given in units of 2 cm in each of the thick part which is deeply dyed and the detail which is lightly dyed, and the number of crimps between the marks and the fiber length are each 10 minutes. The measurement is performed at each part, and the average value of the number of crimps per 1 cm of the fiber length is calculated. At this time, the fiber length is measured under a load of 0.8 mN / dtex (0.1 g / de).
(6) The crimp rate The yarn is subjected to a crimp development treatment in boiling water by applying a load of 0.0026 mN / dtex (0.30 mg / de) for 20 minutes, then left to dry for one day, and the yarn length L Measure 0 . Then yarn length L 1 measured 2 minutes after multiplied by the weight load of 1.7mN / dtex (0.20g / de) , calculates the shrinkage wound by the following equation.
Crimp rate = [(L 1 −L 0 ) / L 1 ] × 100 (%)
[0021]
[Example 1]
Side-by-side spinning in which a cross-sectional shape as shown in FIG. 1- (3) is obtained by setting the weight ratio of polyethylene terephthalate obtained by copolymerizing isophthalic acid at 10 mol% and polyethylene terephthalate having [η] of 0.43 to 1: 1. It is spun with a spinneret at a spinning speed of 2600 m / min, 111 dtex (100 denier) / 24 filaments, strength 14 mN / dtex (1.6 g / de), elongation 153%, natural stretching ratio 1.7, hollow ratio 1% Was obtained.
[0022]
Then, using the highly oriented undrawn yarn as a raw yarn and using a drawing device shown in FIG. 2 , the first drawing ratio (DR1) between the supply roller 1 and the preheating roller 2 is 1.02 times, and the temperature of the preheating roller 2 is At a temperature of 85 ° C., a second draw ratio (DR2) between the preheating roller 2 and the take-up roller 4 of 1.55 times, and a temperature of the plate heater 3 at 160 ° C. at 600 m / min.
[0023]
The obtained drawn yarn has 72 dtex (65 denier) / 24 filaments, a strength of 20 mN / dtex (2.3 g / de), an elongation of 55%, a crimp rate (TC) of 35%, and a boiling water shrinkage (FS). 13%. The average value of the number of crimps of the thick part and the detail of the drawn yarn is 5 / cm and 7 / cm, respectively, and the ratio of the number of crimps (the average value of the number of crimps of the thick part / the number of crimps of the detail) (Average value of numbers) was 0.71. Furthermore, when the drawn yarn was knitted into a tubular shape and dyed, unevenness in thickness, unevenness in dyeing, a difference in crimping form in the length direction of the yarn occurred randomly, and a naturalized appearance and bulkiness having a bulkiness were generated. Admitted.
[0024]
After twisting 1200 T / m using the yarn and performing twist setting at 80 ° C., weaving a twill fabric having a warp density of 189 yarns / inch and a weft density of 121 yarns / inch, and then heating the yarn at 120 ° C. with warm water at 20 ° C. After scouring and relaxing for a minute, the product was pre-set at 180 ° C, subjected to a 17% alkali weight loss, dyed at 130 ° C for 45 minutes, and finally set at 160 ° C to obtain a product.
[0025]
The obtained product had a natural spanized appearance and feel, had a good stretchability of 19% (average value in the longitudinal and weft directions), and had a good recovery rate of 89%.
[0026]
The product was obtained under the same conditions as above except that the number of twists of the yarn was 700 T / m. Fine grain-like irregularities appeared on the surface of the woven fabric. A surface-changed woven fabric was obtained.
[0027]
[Example 2]
111 dtex (100 denier) / 24 filaments, strength of 13 mN / dtex (1.5 g / de), elongation in the same manner as in Example 1 except that polyethylene terephthalate obtained by copolymerizing isophthalic acid at 10 mol% was changed to polytrimethylene terephthalate. A highly oriented undrawn yarn having a degree of 155%, a natural draw ratio of 1.65%, and a hollow ratio of 1% was obtained.
[0028]
Next, this highly oriented unstretched yarn was used as an original yarn and stretched in the same manner as in Example 1 except that the second draw ratio (DR2) was set to 1.5 times, and 75 dtex (68 denier) / 24 filaments, strength of 17 mN / Dtex (1.9 g / de), a stretched yarn having an elongation of 50%, a crimp rate (TC) of 48%, and a boiling water shrinkage (FS) of 16% were obtained. The average value of the number of crimps in the thick part and the detail of the drawn yarn is 6 / cm and 9 / cm, respectively, and the ratio of the number of crimps (the average value of the number of crimps in the thick part / the number of crimps in the detail) (Average of numbers) was 0.67. Further, when the drawn yarn was knitted into a tubular shape and dyed, unevenness of thickness, unevenness of dyeing, difference in crimping form were randomly generated in the length direction of the yarn as in Example 1, and the natural appearance and bulkiness were reduced. A possessed spanized texture was recognized.
[0029]
The same procedure as in Example 1 was performed except that the yarn was twisted and twist-set under the same conditions as in Example 1 and woven into a twill fabric having a warp density of 180 threads / inch and a weft density of 115 threads / inch. Under the conditions, scouring relaxation, alkali weight reduction, and final heat setting were performed. The obtained product not only had a natural spanized appearance and feeling, but also had a stretchability of 27% and a recovery rate of 94%, which were superior to those of Example 1 in stretchability and recovery rate.
[0030]
[Comparative example]
Using the highly oriented undrawn yarn obtained in Example 1 as a raw yarn, the draw ratio (DR1) between the supply roller 1 and the preheating roller 2 is 1.02 times, the temperature of the preheating roller 2 is 90 ° C., and the preheating roller is taken off. The stretching was performed at a speed of 600 m / min under the conditions of a stretching ratio (DR2) between rollers of 1.85 and a plate heater temperature of 180 ° C.
[0031]
The obtained yarn has a 62 dtex (56 denier) / 24 filament strength of 28 mN / dtex (3.2 g / de), an elongation of 31%, a crimp rate (TC) of 40%, and a boiling water shrinkage rate (FS). 9%. Further, a tubular knitted fabric and a twill fabric were prepared in the same manner as in Example 1. As a result, even in dyeing or scouring relaxation of the tube knit and twill fabric, there is no unevenness in thickness, stained spots, and differences in crimped shape in the length direction of the yarn, and a smooth, artificial and uniform flat yarn style is obtained. It became the surface of the tubular knit and twill fabric, and the stretchability was good, with a stretch ratio of 24% and a recovery ratio of 92%, but a natural spanished texture was not obtained.
[0032]
【The invention's effect】
According to the present invention, it is possible to provide a special composite crimped yarn having a stretch function, having a bulkiness, and at the same time, obtaining a fabric having a natural spanized feeling because the crimped shape is different in thick details, In particular, it can provide a new material for use in clothing. In addition, the composite crimped yarn has different dyeing properties in thick details, and the dyeing difference can be made more prominent depending on the combination of the two types of polymers constituting the composite crimped yarn. Has an effect of being able to express a more natural appearance.
[Brief description of the drawings]
FIG. 1 is a sectional view showing an example of a special composite crimped yarn according to the present invention.
FIG. 2 is a schematic view showing an example of a production process of a special composite crimped yarn according to the present invention.
[Explanation of symbols]
H Hollow portions P 1 , P 2 Two kinds of polymer components Y Yarn 1 Supply roller 2 Preheating roller 3 Plate heater 4 Take-up roller 5 Take-up device

Claims (2)

2種類のポリマーがサイドバイサイド型に複合化された複合捲縮糸において、糸の長さ方向に交互に太細部を有し、該太細部の太部と細部とでスパイラル捲縮形状が異なり、太部の捲縮数が細部の捲縮数の85%以下であり、2種類のポリマーのうち、一方のポリマーP が、ポリトリメチレンテレフタレート、ポリブチレンテレフタレート、または、イソフタル酸、ビスフェノールA化合物および金属スルホネート基を有する芳香族ジカルボン酸の群から選択される少なくとも1種を8〜15モル%共重合したポリエチレンテレフタレートであり、他方のポリマーP がポリエチレンテレフタレートであり、かつ該複合捲縮糸の横断面において、P 領域からP 領域に対して少なくとも1つの凸部が形成されており、P 領域内に中空部を有することを特徴とする特殊複合捲縮糸。A composite crimped yarn in which two types of polymers are compounded in a side-by-side type has thick details alternately in the length direction of the yarn, and the spiral crimped shape differs between the thick portion of the thick details and the details. parts and the crimp number is more than 85% of the contraction speed winding details of, out of the two polymers, one polymer P 1 is, polytrimethylene terephthalate, polybutylene terephthalate, or isophthalic acid, bisphenol a compounds and is polyethylene terephthalate having at least one kind of polymerization co 8-15 mol% is selected from the group of aromatic dicarboxylic acid having a metal sulfonate group, other polymer P 2 is polyethylene terephthalate, and of the composite crimped yarn in cross-section, at least one convex portion is formed relative to the area P 2 from P 1 region, the medium in P 1 region Special composite crimped yarn, characterized in that it comprises a part. 請求項1記載の特殊複合捲縮糸が複数本交絡および/または撚糸してなる特殊複合捲縮糸。 A special composite crimped yarn comprising a plurality of the special composite crimped yarns according to claim 1 entangled and / or twisted.
JP28939499A 1999-10-12 1999-10-12 Special composite crimped yarn Expired - Lifetime JP3598027B2 (en)

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