JPH10245741A - High density woven fabric - Google Patents
High density woven fabricInfo
- Publication number
- JPH10245741A JPH10245741A JP9040626A JP4062697A JPH10245741A JP H10245741 A JPH10245741 A JP H10245741A JP 9040626 A JP9040626 A JP 9040626A JP 4062697 A JP4062697 A JP 4062697A JP H10245741 A JPH10245741 A JP H10245741A
- Authority
- JP
- Japan
- Prior art keywords
- woven fabric
- warp
- weft
- density
- denier
- 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.)
- Granted
Links
Landscapes
- Woven Fabrics (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、ノンコーティング
タイプで高い防水性能とソフトな風合を有する高密度織
物に関し、さらに詳しくはスポーツ用の衣料などとして
広く使用できる高密度織物に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a non-coating type high-density woven fabric having high waterproof performance and a soft feeling, and more particularly to a high-density woven fabric which can be widely used as sports clothing.
【0002】[0002]
【従来の技術】防水性に優れた織物として、ポリウレタ
ン等のコーティング品等がスポーツ衣料用等で広く使用
されている。2. Description of the Related Art As a woven fabric having excellent waterproofness, a coated product such as polyurethane is widely used for sports clothing and the like.
【0003】しかしながら、コーティング品等の織物は
防水性には非常に優れているが、ソフト感に乏しいとい
う欠点を有しているため、ノンコーティングタイプのソ
フト風合の高密度織物の要求は強い。[0003] However, woven fabrics such as coated products are very excellent in waterproofness, but have a drawback that they lack a soft feeling, so that there is a strong demand for non-coated type soft-feel high-density woven fabrics. .
【0004】このような要求に応えるため、構成繊維糸
条の単糸繊度を細くし、高密度に製織するなど種々の検
討がなされている。[0004] In order to meet such demands, various studies have been made, such as reducing the single fiber fineness of the constituent fiber yarns and weaving at a high density.
【0005】例えば、特開平2−269871号公報に
は、単糸繊度が1.2デニール以下の極細繊維を用いて
高密度に製織することが開示されているが、織物密度が
不十分なため、実用上の必要耐水圧(1000mm水
柱)が満足されていない。For example, Japanese Patent Application Laid-Open No. 2-269871 discloses that high-density weaving is performed using ultrafine fibers having a single-fiber fineness of 1.2 denier or less. The water pressure required for practical use (1000 mm water column) is not satisfied.
【0006】また特開平6−821848号公報には、
構成繊維糸条の40%以上が単糸繊度1.1デニール以
下の繊維を用いた高密度織物で、断面重なり係数を規定
した織物が開示されているが、縫製後の仕立て映えにつ
いては言及されていない。Japanese Patent Application Laid-Open No. 6-821848 discloses that
A high-density woven fabric in which 40% or more of the constituent fiber yarns are fibers having a single yarn fineness of 1.1 denier or less, and a woven fabric having a defined cross-sectional overlap coefficient is disclosed, but tailoring after sewing is mentioned. Not.
【0007】すなわち、従来、薄地織物で防水性に優
れ、実用上問題のない織物特性を有し、さらに縫製後の
仕立て映えにも優れたノンコーティングタイプの織物は
得ることができなかった。[0007] That is, conventionally, it has not been possible to obtain a non-coated type woven fabric which is a thin woven fabric, has excellent waterproof properties, has practically acceptable woven fabric characteristics, and is excellent in tailoring after sewing.
【0008】[0008]
【発明が解決しようとする課題】本発明の目的は、ポリ
エステル長繊維糸条からなる薄地織物で、防水性能、縫
製後の仕立て映えの良さの相反する性能を改善し、高い
防水性能と、縫製後の仕立て映えに優れ、かつ実用上問
題ないレベルの引裂強力を有するとともに、ソフトな風
合いを有するノンコーティングタイプの高密度織物を提
供することにある。SUMMARY OF THE INVENTION An object of the present invention is to provide a thin woven fabric made of polyester filament yarn, which has improved waterproofing performance and improved contradictory performance in tailoring after sewing. An object of the present invention is to provide a non-coating type high-density woven fabric that has excellent tearing finish and has a practically acceptable level of tear strength and has a soft texture.
【0009】[0009]
【課題を解決するための手段】上記の目的を達成する本
発明の構成は、 (1)織物を構成する繊維糸条の単糸繊度が0.6デニ
ール以下、トータル繊度60〜120デニールよりなる
ポリエステル長繊維糸条を用いた高密度織物であり、経
糸が捲縮加工糸からなり、経糸のトータル繊度(W
D)、緯糸のトータル繊度(FD)および経糸のカバー
ファクター(WCF)が下記(1)式および(2)式を
同時に満足することを特徴とする高密度織物。Means for Solving the Problems The constitution of the present invention for achieving the above object is as follows: (1) The single yarn fineness of the fiber yarn constituting the woven fabric is 0.6 denier or less, and the total fineness is 60 to 120 denier. It is a high-density woven fabric using polyester filament yarn, in which the warp is made of crimped yarn, and the total fineness of the warp (W
D), a high-density woven fabric characterized in that the weft total fineness (FD) and the warp cover factor (WCF) simultaneously satisfy the following expressions (1) and (2).
【0010】WD≦FD …(1) WCF>1450 …(2) (2)経糸のカバーファクター(WCF)、および緯糸
のカバーファクター(FCF)が下記(3)式を満足す
ることを特徴とする前記1項記載の高密度織物。WD ≦ FD (1) WCF> 1450 (2) (2) The warp cover factor (WCF) and the weft cover factor (FCF) satisfy the following formula (3). 2. The high-density woven fabric according to claim 1.
【0011】 0.60≦FCF/WCF≦0.68 …(3) (3)捲縮加工糸が仮撚加工糸であることを特徴とする
前記1項または2項記載の高密度織物。0.60 ≦ FCF / WCF ≦ 0.68 (3) (3) The high-density woven fabric according to the above item 1 or 2, wherein the crimped yarn is a false twisted yarn.
【0012】(4)織物を撥水処理した後の耐水圧が1
000mm水柱以上であることを特徴とする前記1〜3
項のいずれかに記載の高密度織物。(4) The water pressure resistance after water-repellent treatment of the woven fabric is 1
1 to 3 characterized by being not less than 000 mm water column
Item 14. The high-density woven fabric according to any one of the above items.
【0013】(5)織物の緯引裂強力が1000g以上
であることを特徴とする前記1〜4項のいずれかに記載
の高密度織物。(5) The high-density woven fabric according to any one of (1) to (4), wherein the weft tear strength of the woven fabric is 1000 g or more.
【0014】[0014]
【発明の実施の形態】本発明は、ポリエステル長繊維糸
条を用いた高密度織物であり、織物を構成する繊維糸条
の単糸繊度は0.6デニール以下のものを用いる。織物
構成繊維糸条の単糸繊度が0.6デニールを越えると、
織物の緻密性が低下して耐水圧が低くなるとともに、風
合が硬くなり、防水性の要求される用途には適さなくな
るからである。BEST MODE FOR CARRYING OUT THE INVENTION The present invention is a high-density woven fabric using polyester filament yarn, and the single yarn fineness of the fiber yarn constituting the woven fabric is 0.6 denier or less. When the single yarn fineness of the woven fabric fiber yarn exceeds 0.6 denier,
This is because the denseness of the woven fabric is reduced, the water pressure is reduced, and the hand becomes hard, which makes the fabric unsuitable for applications requiring waterproofness.
【0015】また、織物を構成する繊維糸条のトータル
繊度は60〜120デニールのものを用いる。トータル
繊度が120デニールを越えると、織物の緻密性が低下
して耐水圧が低下するとともに、目標の薄地織物が得ら
れなくなるからである。一方60デニール未満では、高
密度織物のため、織物の引裂強力が実用上問題のないレ
ベルを保つことができなくなり、高密度織物用としては
適さなくなるからである。The total fineness of the fiber yarn constituting the woven fabric is 60 to 120 denier. If the total fineness exceeds 120 denier, the denseness of the woven fabric is reduced, the water pressure is reduced, and the target thin woven fabric cannot be obtained. On the other hand, if the denier is less than 60 denier, the tear strength of the woven fabric cannot be maintained at a level having no practical problem because of the high-density woven fabric, which is not suitable for high-density woven fabric.
【0016】本発明は、織物の経糸に捲縮加工糸を用い
る。ノンコーティング薄地織物で、高耐水圧で、ソフト
な風合いを有し、かつ実用上問題ないレベルの引裂強力
の高密度織物が得られても、衣料に縫製後パッカリング
が発生し、仕立て映えが悪ければ、商品価値を失ってし
まうのである。In the present invention, a crimped yarn is used as a warp of a woven fabric. Even if a high-density nonwoven fabric with high water pressure, soft texture, and tear strength at a level that is practically acceptable is obtained with a non-coated thin fabric, puckering occurs after sewing on the garment, resulting in a tailored look. If it's bad, it will lose its commercial value.
【0017】高密度織物での衣料において、縫製後の仕
立て映えの善し悪しは、縫目のパッカリング発生の有無
が最大の判断基準である。高密度織物のパッカリング
は、縫製時に縫針により緻密な織物に穴が開けられ、そ
こに細くても200デニールクラスのすなわち緻密な織
物に織物構成糸よりはるかに太い縫糸が最低3本は入る
ことになる。この縫針により穴が開けられ、そこに縫糸
が入ることにより、経糸および緯糸が押し退けられ、押
し退けられた糸は湾曲し、縫製前はストレートで均衡を
保っていた織物構成糸が、湾曲するために、吊る状態と
なり、縫目パッカリングが発生するのである。In clothing made of high-density woven fabric, the quality of tailoring after sewing is determined by whether puckering occurs at the seam or not. Puckering of high-density woven fabrics requires that at the time of sewing, a hole is made in the dense woven fabric with sewing needles, and even if it is thin, 200 denier class, that is, a dense woven fabric, that is, at least three threads that are much thicker than the woven fabric thread. become. A hole is made by this sewing needle, and a warp thread and a weft thread are pushed out by inserting a sewing thread therein, and the pushed-out thread is curved.Before sewing, a woven fabric thread that is straight and balanced is curved. , And the seam puckering occurs.
【0018】高密度織物で上記の縫目パッカリングを解
消するためには、織物構成糸が湾曲しても吊らないよう
にすることが重要で、そのために、本発明では、織物の
経糸に捲縮加工糸を用いるのである。これにより、捲縮
加工糸の捲縮、すなわち、曲り構造が湾曲部分でストレ
ートになる余裕があるため、縫目以外の織物構成糸を引
っ張ることがなくなり、縫目パッカリングの解消に効果
を発揮するのである。また、生機密度から、製品密度へ
の加工収縮も大きな要素である。加工収縮が大きいほど
好ましい。ただし、加工収縮も織物構成糸の収縮が大き
いのでは効果が少なく、織物構成糸の収縮は少なく、織
物構造の収縮により加工収縮が大きいことが重要であ
る。織物構造の収縮が大きいと、縫目部分の糸が湾曲し
てもその糸が吊らないだけの余裕が発生するからであ
る。In order to eliminate the above-mentioned seam puckering in a high-density woven fabric, it is important that the yarn constituting the woven fabric does not hang even if it is curved. The shrink yarn is used. As a result, the crimp of the crimped yarn, that is, the bent structure has room to become straight at the curved portion, so that the yarn constituting the fabric other than the seam is not pulled, which is effective in eliminating seam puckering. You do it. Further, the processing shrinkage from green density to product density is also a major factor. The larger the processing shrinkage, the better. However, the processing shrinkage is less effective if the shrinkage of the woven fabric yarn is large, the shrinkage of the woven fabric yarn is small, and it is important that the work shrinkage is large due to the shrinkage of the woven fabric structure. This is because if the shrinkage of the woven structure is large, even if the thread at the stitch portion is curved, there is a margin that the thread does not hang.
【0019】通常衣料の縫目は、80%は経方向であ
り、経糸に捲縮加工糸を用いることにより、衣料に縫製
後の仕立て映えにも優れた高密度織物が得られるのであ
る。Usually, 80% of the seam of the garment is warped, and by using a crimped yarn as the warp, a high-density woven fabric excellent in tailoring after sewing on the garment can be obtained.
【0020】上記ポリエステル長繊維糸条の捲縮加工糸
としては、仮撚加工糸が好ましいがこれに限定するもの
ではない。The crimped yarn of the polyester filament yarn is preferably a false twisted yarn, but is not limited thereto.
【0021】さらに、本発明においては、経糸のトータ
ル繊度(WD)、および緯糸のトータル繊度(FD)と
が、WD≦FDの関係にあることが重要である。Further, in the present invention, it is important that the total fineness (WD) of the warp and the total fineness (FD) of the weft have a relationship of WD ≦ FD.
【0022】織物構成繊維糸条の経糸のトータル繊度と
緯糸のトータル繊度の関係は、緯糸のトータル繊度が経
糸のトータル繊度より細いと、高耐水圧の織物は得られ
ても、高密度織物のため充分な緯引裂強力(緯糸を引裂
く)が得られない。緯引裂強力は1000g以上あるこ
とが好ましい。The relationship between the total fineness of the warp and the total fineness of the weft of the woven fabric fiber yarn is such that if the total fineness of the weft is smaller than the total fineness of the warp, a high-pressure-resistant woven fabric can be obtained even if a woven fabric with high water pressure is obtained. Therefore, sufficient weft tearing strength (tearing the weft) cannot be obtained. The weft tear strength is preferably 1000 g or more.
【0023】高密度織物では、経糸と緯糸の拘束力が高
くなり、糸のズレが起こりにくいため、織物引裂強力は
通常密度の織物よりむしろ弱くなり、織物引裂強力は重
要な要素となる。織物引裂強力は織物構成繊維糸条の緯
糸のトータル繊度が同一の場合、経糸のトータル繊度が
太くなると、緯引裂強力は下がるのである。通常の織物
でも、特に高密度織物については緯糸織密度を経糸織密
度より密にすることは現状の織機を用いては困難であ
り。またもし製織することができたとしても、製織コス
トの点から好ましくない。In a high-density woven fabric, since the binding force between the warp and the weft is high and the yarn is hardly displaced, the tear strength of the woven fabric is weaker than that of a woven fabric having a normal density, and the tear strength of the woven fabric is an important factor. When the total fineness of the wefts of the fiber yarns constituting the woven fabric is the same, the weft tearing strength decreases as the total fineness of the warp increases. Even with ordinary woven fabrics, it is difficult to make the weft weave density higher than the warp weave density, especially for high-density woven fabrics, using the current loom. Even if weaving is possible, it is not preferable in terms of weaving cost.
【0024】したがって織物の引裂強力は緯引裂強力
(緯糸を引裂く)が重要であり、緯引裂強力向上のため
には、緯糸のトータル繊度が経糸のトータル繊度と同じ
か、もしくは太くすることが重要である。Therefore, the tear strength of the woven fabric is important for the weft tear strength (tear the weft). To improve the weft tear strength, the total fineness of the weft must be equal to or greater than the total fineness of the warp. is important.
【0025】また、本発明においては、経糸のカバーフ
ァクター(WCF)を1450以上とする。経糸のカバ
ーファクターが1450未満であると充分な耐水圧が得
られないからである。In the present invention, the warp cover factor (WCF) is set to 1450 or more. If the cover factor of the warp is less than 1450, sufficient water pressure resistance cannot be obtained.
【0026】ここで、経糸のカバーファクター(WC
F)、および緯糸のカバーファクター(FCF)は次式
により決定される値である。Here, the warp cover factor (WC)
F) and the weft cover factor (FCF) are values determined by the following equation.
【0027】WCF=WN・(WD)1/2 FCF=FN・(FD)1/2 前記式において、WNは、経糸の製品織密度(1インチ
当たりの経糸本数)を示し、WDは、経糸の製織前のト
ータル繊度(デニール)を示し、FNは、緯糸の製品織
密度(1インチ当たりの緯糸本数)を示し、FDは、緯
糸の製織前のトータル繊度(デニール)を示す。WCF = WN · (WD) 1/2 FCF = FN · (FD) 1/2 In the above formula, WN represents the warp product woven density (the number of warp yarns per inch), and WD represents the warp yarn. Shows the total fineness (denier) before weaving, FN shows the product weaving density of the weft (the number of wefts per inch), and FD shows the total fineness (denier) before weaving the weft.
【0028】また、本発明においては、経糸のカバーフ
ァクター(WCF)と、緯糸のカバーファクター(FC
F)とが、次の関係を満足することが好ましい。In the present invention, the warp cover factor (WCF) and the weft cover factor (FCC) are used.
F) preferably satisfies the following relationship.
【0029】0.60≦FCF/WCF≦0.68 緯糸のカバーファクターと経糸のカバーファクターの比
は、経糸のカバーファクターが1450以上であって
も、緯糸のカバーファクターが小さい、すなわち、FC
F/WDFが0.60より小さいと、目的の耐水圧が得
られない場合がある。また経糸のカバーファクターを非
常に大きく、たとえば1700以上にすれば目的の耐水
圧は得られるが、その時、緯糸密度が不足して、緯引裂
強力が実用上問題ないレベルには達しない場合がある。0.60 ≦ FCF / WCF ≦ 0.68 The ratio between the cover factor of the weft and the cover factor of the warp is such that the cover factor of the weft is small even if the cover factor of the warp is 1450 or more, ie, FC
If the F / WDF is smaller than 0.60, the desired water pressure may not be obtained. Also, if the cover factor of the warp is very large, for example, 1700 or more, the desired water pressure resistance can be obtained, but at that time, the weft density is insufficient, and the weft tear strength may not reach a level at which there is no practical problem. .
【0030】また、FCF/WCFが0.68より大で
あると、高密度になり過ぎ、風合が粗硬になると共に、
経糸に捲縮加工糸を用いても、縫製後の仕立て映えにも
優れた織物を得ることができない場合がある。When FCF / WCF is larger than 0.68, the density becomes too high, the feeling becomes coarse and hard, and
Even when a crimped yarn is used as the warp, a woven fabric excellent in tailoring after sewing may not be obtained in some cases.
【0031】[0031]
【実施例】以下、実施例により本発明を具体的に説明す
るが、本発明は下記実施例によって何ら制限を受けるも
のではない。EXAMPLES The present invention will now be described specifically with reference to examples, but the present invention is not limited by the following examples.
【0032】なお、以下の実施例で採用した織物の物性
測定方法は下記の方法によるものである。The methods for measuring the physical properties of the woven fabric employed in the following examples are based on the following methods.
【0033】[耐水圧測定方法]JIS L 1092
A に規定されている、低水圧法により測定した。な
お、洗濯10回後の織物も同様に測定した。[Method of measuring water pressure resistance] JIS L 1092
It measured by the low water pressure method prescribed | regulated in A. The woven fabric after 10 washes was measured in the same manner.
【0034】[引裂強力測定方法]JIS L 109
6に規定されている引裂き強さ(ペンジュラム法)を採
用し、緯糸を引き裂く場合を緯引裂強力とした。[Tear Strength Measurement Method] JIS L109
The tear strength (pendulum method) specified in No. 6 was adopted, and the case of tearing the weft was defined as the weft tear strength.
【0035】[仕立て映え評価方法]織物の経糸方向4
0cm、緯糸方向20cmを切り取った試料6枚を準備
し、2枚重ねで3組の本縫直線縫いをし、縫目近くを目
視により善し悪しを判定した。[Evaluation Method for Tailoring Appearance] Warp direction 4 of woven fabric
Six samples cut at 0 cm and 20 cm in the weft direction were prepared, and three sets of lockstitch straight stitches were superposed on two samples, and good or bad near seams were visually judged.
【0036】実施例1 経糸として、75デニール、144フィラメントのポリ
エステル仮撚加工糸に撚数S300T/Mの追撚を施
し、緯糸は75デニール144フィラメントのポリエス
テル仮撚加工糸を追撚無しで用い、平織物をエヤージェ
トルームで製織した。この生機の経糸密度は155本/
吋、緯糸密度は105本/吋に設定した。得られた生機
を常法により、精練、プレセットし、液流染色機で染
色、乾燥した。乾燥後下記A成分を含む液中に浸し、乾
燥、さらに下記B成分を含む液中に浸して撥水加工を施
した。Example 1 As a warp, a polyester false twisted yarn of 75 denier and 144 filaments was twisted with a twist number of S300 T / M, and a weft yarn was a polyester false twisted yarn of 75 denier 144 filaments without twisting. The plain fabric was woven in the air jet room. The warp density of this greige machine is 155 yarns /
Inch and weft density were set to 105 yarns / inch. The obtained greige was scoured and preset by a conventional method, dyed with a jet dyeing machine, and dried. After drying, it was immersed in a liquid containing the following component A, dried, and further immersed in a liquid containing the following component B to perform a water-repellent treatment.
【0037】 A マックスガードEC−400 60g/L スーパーフレッシュJB−7200 5g/L スーパーフレッシュJB−7300 5g/L スミテックスレジンMK 5g/L B アサヒガードAG−620 30g/L スミテックスレジンM−3 3g/L 渦硫酸アンモニュウム 1g/L 得られた織物の経糸密度、緯糸密度、緯引裂強力、耐水
圧、および縫製後の仕立て映え評価結果を表1に示す。A Maxgard EC-400 60g / L Super Fresh JB-7200 5g / L Super Fresh JB-7300 5g / L Sumitex Resin MK 5g / L B Asahi Guard AG-620 30g / L Sumitex Resin M-3 3 g / L Ammonium vortex sulfate 1 g / L Table 1 shows the warp density, weft density, weft tear strength, water pressure resistance, and tailoring appearance evaluation results after sewing of the obtained woven fabric.
【0038】実施例2 実施例1と同様の経糸、緯糸を用い、同様の方法で製織
した。この生機の経糸密度は170本/吋、緯糸密度は
107本/吋に設定した。Example 2 Using the same warp and weft as in Example 1, weaving was carried out in the same manner. The density of the warp was set to 170 yarns / inch and the density of the weft was set to 107 yarns / inch.
【0039】得られた生機を実施例1と同様の方法で、
精練、プレセットし、液流染色機で染色、乾燥し、撥水
処理を施した。The greige was obtained in the same manner as in Example 1.
After scouring, pre-setting, dyeing with a jet dyeing machine, drying and water-repellent treatment.
【0040】得られた織物の経糸密度、緯糸密度、緯引
裂強力、耐水圧、および縫製後の仕立て映え評価結果を
表1に示す。Table 1 shows the warp density, weft density, weft tearing strength, water pressure resistance, and tailoring evaluation after sewing of the obtained woven fabric.
【0041】実施例3 実施例1と同様の経糸を用い、緯糸を120デニール2
88フィラメントのポリエステルフラットヤーンに変更
し、それ以外は実施例1と同様の方法で製織した。この
生機の経糸密度は168本/吋、緯糸密度は92本/吋
に設定した。Example 3 The same warp as in Example 1 was used, and the weft was 120 denier 2
The fabric was woven in the same manner as in Example 1 except that the polyester flat yarn of 88 filaments was used. The warp density of this greige was set at 168 yarns / inch and the weft density was set at 92 yarns / inch.
【0042】得られた生機を実施例1と同様の方法で、
精練、プレセットし、液流染色機で染色、乾燥し、撥水
処理を施した。The obtained greige was prepared in the same manner as in Example 1.
After scouring, pre-setting, dyeing with a jet dyeing machine, drying and water-repellent treatment.
【0043】得られた織物の経糸密度、緯糸密度、緯引
裂強力、耐水圧、および縫製後の仕立て映え評価結果を
表1に示す。Table 1 shows the warp density, weft density, weft tear strength, water pressure resistance, and tailoring appearance evaluation results after sewing of the obtained woven fabric.
【0044】比較例1 実施例1と同様の経糸、緯糸を用い、同様の方法で製織
した。この生機の経糸密度は142本/吋、緯糸密度は
105本/吋に設定した。Comparative Example 1 Using the same warp and weft as in Example 1, weaving was performed in the same manner. The density of the warp was set to 142 yarns / inch, and the density of the weft was set to 105 yarns / inch.
【0045】得られた生機を実施例1と同様の方法で、
精練、プレセットし、液流染色機で染色、乾燥し、撥水
処理を施した。The obtained greige was prepared in the same manner as in Example 1.
After scouring, pre-setting, dyeing with a jet dyeing machine, drying and water-repellent treatment.
【0046】得られた織物の経糸密度、緯糸密度、緯引
裂強力、耐水圧、および縫製後の仕立て映え評価結果を
表1に示す。Table 1 shows the warp density, weft density, weft tear strength, water pressure resistance, and tailoring evaluation after sewing of the obtained woven fabric.
【0047】比較例2 実施例1と同様の経糸を用い、緯糸に60デニール14
4フィラメントのポリエステルフラットヤーンに変更
し、それ以外は実施例1と同様の方法で製織した。Comparative Example 2 The same warp as in Example 1 was used, and the weft was made of 60 denier 14
The fabric was woven in the same manner as in Example 1 except that the polyester filament was changed to a 4-filament polyester flat yarn.
【0048】この生機の経糸密度は155本/吋、緯糸
密度は106本/吋に設定した。The density of the warp was set to 155 yarns / inch, and the density of the weft was set to 106 yarns / inch.
【0049】得られた生機を実施例1と同様の方法で、
精練、プレセットし、液流染色機で染色、乾燥し、撥水
処理を施した。The greige was obtained in the same manner as in Example 1,
After scouring, pre-setting, dyeing with a jet dyeing machine, drying and water-repellent treatment.
【0050】得られた織物の経糸密度、緯糸密度、緯引
裂強力、耐水圧、および縫製後の仕立て映え評価結果を
表1に示す。Table 1 shows the warp density, weft density, weft tearing strength, water pressure resistance, and tailoring appearance evaluation results after sewing of the obtained woven fabric.
【0051】比較例3 経糸として、60デニール144フィラメントのポリエ
ステルフラットヤーンに撚数S300T/Mの追撚を施
し、緯糸は60デニール144フィラメントのポリエス
テルフラットヤーンを追撚無しで用い、平織物をエヤー
ジェトルームで製織した。この生機の経糸密度は172
本/吋、緯糸密度は111本/吋に設定した。Comparative Example 3 A 60-denier 144-filament polyester flat yarn was twisted with a twist of S300 T / M as a warp yarn. Weaved in jet room. The warp density of this greige machine is 172
The number of yarns / inch and the weft density were set to 111 yarns / inch.
【0052】得られた生機を実施例1と同様の方法で、
精練、プレセットし、液流染色機で染色、乾燥し、撥水
処理を施した。The obtained greige was prepared in the same manner as in Example 1.
After scouring, pre-setting, dyeing with a jet dyeing machine, drying and water-repellent treatment.
【0053】得られた織物の経糸密度、緯糸密度、緯引
裂強力、耐水圧、および縫製後の仕立て映え評価結果を
表1に示す。Table 1 shows the warp density, weft density, weft tearing strength, water pressure resistance, and tailoring evaluation after sewing of the obtained woven fabric.
【0054】[0054]
【表1】 [Table 1]
【0055】[0055]
【発明の効果】本発明は、上記の構成とすることによ
り、ノンコーティングタイプの薄地織物で、高い防水性
能と、ソフトな風合で、実用上問題ないレベルの引裂強
力を有し、かつ縫製後の仕立て映えにも優れたポリエス
テル長繊維糸条からなる高密度織物を提供することがで
き、スポーツ用の衣料などとして広く使用できるという
効果を奏するものである。According to the present invention, a non-coating type thin woven fabric having the above-mentioned structure, having high waterproof performance, a soft feeling, a tear strength of a practically acceptable level and sewing. It is possible to provide a high-density woven fabric made of polyester filament yarn which is also excellent in tailoring appearance, and has an effect that it can be widely used as sports clothing.
Claims (5)
0.6デニール以下、トータル繊度60〜120デニー
ルよりなるポリエステル長繊維糸条を用いた高密度織物
であり、経糸が捲縮加工糸からなり、経糸のトータル繊
度(WD)、緯糸のトータル繊度(FD)および経糸カ
バーファクター(WCF)が下記(1)式および(2)
式を同時に満足することを特徴とする高密度織物。 WD≦FD …(1) WCF>1450 …(2)1. A high-density woven fabric using a polyester filament yarn having a single denier of 0.6 denier or less and a total denier of 60 to 120 denier, wherein the warp is crimped. And the total fineness of the warp (WD), the total fineness of the weft (FD) and the warp cover factor (WCF) are expressed by the following formulas (1) and (2).
A high-density woven fabric characterized by simultaneously satisfying the formula. WD ≦ FD (1) WCF> 1450 (2)
び緯糸のカバーファクター(FCF)が下記(3)式を
満足することを特徴とする請求項1記載の高密度織物。 0.60≦FCF/WCF≦0.68 …(3)2. The high-density woven fabric according to claim 1, wherein the warp cover factor (WCF) and the weft cover factor (FCF) satisfy the following expression (3). 0.60 ≦ FCF / WCF ≦ 0.68 (3)
とする請求項1または2記載の高密度織物。3. The high-density woven fabric according to claim 1, wherein the crimped yarn is a false twisted yarn.
0mm水柱以上であることを特徴とする請求項1〜3の
いずれかに記載の高密度織物。4. The water resistant pressure of the woven fabric after water repellent treatment is 100.
The high-density woven fabric according to any one of claims 1 to 3, wherein the woven fabric has a water column of 0 mm or more.
ることを特徴とする請求項1〜4のいずれかに記載の高
密度織物。5. The high-density woven fabric according to claim 1, wherein the weft tear strength of the woven fabric is 1000 g or more.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP04062697A JP3633185B2 (en) | 1997-02-25 | 1997-02-25 | High density fabric |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP04062697A JP3633185B2 (en) | 1997-02-25 | 1997-02-25 | High density fabric |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH10245741A true JPH10245741A (en) | 1998-09-14 |
JP3633185B2 JP3633185B2 (en) | 2005-03-30 |
Family
ID=12585761
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JP04062697A Expired - Lifetime JP3633185B2 (en) | 1997-02-25 | 1997-02-25 | High density fabric |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003138449A (en) * | 2001-10-30 | 2003-05-14 | Toyobo Co Ltd | High density woven fabric and method for producing the same |
WO2003072862A1 (en) * | 2002-02-28 | 2003-09-04 | Toyo Boseki Kabusiki Kaisya | Full-dull high-density woven fabric with eliminated gloss |
KR100462502B1 (en) * | 2001-11-05 | 2004-12-17 | 주식회사 효성 | Process for preparing a polyester fabric of ultra-fine filaments |
JP2006249610A (en) * | 2005-03-10 | 2006-09-21 | Teijin Fibers Ltd | Woven/knitted fabric of slight wet feeling and textile product using the same |
US9670605B2 (en) | 2010-09-07 | 2017-06-06 | Toyobo Specialties Trading Co., Ltd. | High-density fabric |
WO2019150937A1 (en) | 2018-01-30 | 2019-08-08 | 東レ株式会社 | Plain-weave fabric, method for manufacturing same, and stent graft |
-
1997
- 1997-02-25 JP JP04062697A patent/JP3633185B2/en not_active Expired - Lifetime
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2003138449A (en) * | 2001-10-30 | 2003-05-14 | Toyobo Co Ltd | High density woven fabric and method for producing the same |
KR100462502B1 (en) * | 2001-11-05 | 2004-12-17 | 주식회사 효성 | Process for preparing a polyester fabric of ultra-fine filaments |
WO2003072862A1 (en) * | 2002-02-28 | 2003-09-04 | Toyo Boseki Kabusiki Kaisya | Full-dull high-density woven fabric with eliminated gloss |
JP2006249610A (en) * | 2005-03-10 | 2006-09-21 | Teijin Fibers Ltd | Woven/knitted fabric of slight wet feeling and textile product using the same |
JP4575199B2 (en) * | 2005-03-10 | 2010-11-04 | 帝人ファイバー株式会社 | Woven knitted fabrics and textile products with little wetting |
US9670605B2 (en) | 2010-09-07 | 2017-06-06 | Toyobo Specialties Trading Co., Ltd. | High-density fabric |
WO2019150937A1 (en) | 2018-01-30 | 2019-08-08 | 東レ株式会社 | Plain-weave fabric, method for manufacturing same, and stent graft |
KR20200112812A (en) | 2018-01-30 | 2020-10-05 | 도레이 카부시키가이샤 | Plain weave, its manufacturing method and stent graft |
US12053367B2 (en) | 2018-01-30 | 2024-08-06 | Toray Industries, Inc. | Plain-weave fabric, method for manufacturing same, and stent graft |
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---|---|
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