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JP2002105796A - Light-shielding woven fabric - Google Patents

Light-shielding woven fabric

Info

Publication number
JP2002105796A
JP2002105796A JP2000290171A JP2000290171A JP2002105796A JP 2002105796 A JP2002105796 A JP 2002105796A JP 2000290171 A JP2000290171 A JP 2000290171A JP 2000290171 A JP2000290171 A JP 2000290171A JP 2002105796 A JP2002105796 A JP 2002105796A
Authority
JP
Japan
Prior art keywords
woven fabric
weight
weft
warp
light
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.)
Pending
Application number
JP2000290171A
Other languages
Japanese (ja)
Inventor
Hideo Ikenaga
秀雄 池永
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Asahi Kasei Corp
Original Assignee
Asahi Kasei Corp
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Asahi Kasei Corp filed Critical Asahi Kasei Corp
Priority to JP2000290171A priority Critical patent/JP2002105796A/en
Publication of JP2002105796A publication Critical patent/JP2002105796A/en
Pending legal-status Critical Current

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  • Woven Fabrics (AREA)
  • Artificial Filaments (AREA)
  • Multicomponent Fibers (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a woven fabric having improved light-shielding properties such as see-through preventing property and UV-shielding property, and thin, light-weight and having soft feeling. SOLUTION: The woven fabric is constructed with polytrimethylene terephthalate fiber, has a rate of hole area of >=3%, a thickness of <=0.25 mm and an apparent density of <=0.7 g/cm3, and contains >=1.0 wt.% of inorganic oxide particles.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、防透け性や、紫外
線遮蔽性等の遮光性を高め、かつ薄手、軽量でソフト風
合いな、アウター、スポーツ、レインウエア、帽子等の
衣料用やテント、カーテン、傘地等の資材用に好適に用
いられる織物に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to clothing, tents, and the like for outerwear, sports, rainwear, hats, etc., which have improved light-shielding properties such as see-through resistance and ultraviolet ray shielding properties, and are thin, lightweight and soft. The present invention relates to a woven fabric suitably used for materials such as curtains and umbrellas.

【0002】[0002]

【従来の技術】従来より、アウター衣料やスポーツ衣料
等の織物の防透け性や紫外線遮蔽性等の遮光性を高める
ために、光遮蔽性の高い無機酸化物微粒子を高濃度に繊
維に練り込む方法、又、織物のカバーファクターを上げ
る方法等が提案されている。特開昭55−158331
号広報には芯部に酸化チタンを1.0重量%以上の高濃
度に含有し、鞘部には酸化チタンを1.0重量%未満含
有することにより繊維の製糸、加工工程時の摩耗特性を
改善し、防透け性を高めた織物が開示されている。しか
しながら、繊維内部に光遮蔽性の高い物質を練り込み、
繊維の光遮蔽性を高めても、織物の経糸と緯糸の交点の
開孔部からの光の透過を防ぐことができないため、光遮
蔽性としては不十分な織物であった。
2. Description of the Related Art Conventionally, inorganic oxide fine particles having a high light-shielding property are kneaded in a fiber at a high concentration in order to enhance the light-shielding properties such as the sheer-shielding property and ultraviolet ray-shielding property of textiles such as outer clothing and sports clothing. Methods and methods for increasing the cover factor of the woven fabric have been proposed. JP-A-55-158331
According to the publication, the core contains titanium oxide at a high concentration of 1.0% by weight or more, and the sheath contains titanium oxide at less than 1.0% by weight. And a woven fabric having improved sheer resistance is disclosed. However, a material with high light shielding properties is kneaded inside the fiber,
Even if the light shielding property of the fiber is enhanced, it is not possible to prevent the transmission of light from the opening at the intersection of the warp and the weft of the woven fabric, so that the woven fabric has insufficient light shielding property.

【0003】特開平11−81084号公報には、金属
酸化物を高濃度に含有するポリエステルを芯部に、ポリ
トリメチレンテレフタレート繊維から構成されたポリエ
ステルを鞘部に配した鞘芯複合繊維により、発色性、遮
光性、ソフトな風合い、耐光性に優れ、紡糸性の良好な
ポリエステル複合繊維が開示されている。しかしなが
ら、該ポリエステル複合繊維による織物は、開孔率と見
掛け密度が考慮されていないため、遮光性とソフトな風
合いを両立して満足させるものではなかった。特開昭6
1−146840号公報には、カバーファクターを一定
以上に規定した織物が開示されているが、カバーファク
ターを上げ織物を緻密にしたものは光遮蔽性は向上する
ものの、織物の目付、厚みが増し、かつ風合いが硬くな
るという欠点を有していた。
Japanese Patent Application Laid-Open No. 11-81084 discloses a sheath-core composite fiber in which a polyester containing a metal oxide at a high concentration is provided in a core portion and a polyester made of polytrimethylene terephthalate fiber is provided in a sheath portion. A polyester conjugate fiber having excellent coloring properties, light-shielding properties, soft texture, light resistance, and good spinnability is disclosed. However, the woven fabric made of the polyester composite fiber does not satisfy both the light-shielding property and the soft texture because the porosity and the apparent density are not considered. JP 6
JP-A 1-146840 discloses a woven fabric in which the cover factor is specified to be a certain level or more. A woven fabric in which the cover factor is increased to increase the density of the woven fabric improves the light shielding property, but increases the basis weight and thickness of the woven fabric. And the texture becomes hard.

【0004】又、特開平9−209455号公報には、
軟化点の異なる繊維で織物を構成し、低軟化点の繊維に
熱プレス処理を行い繊維の隙間を埋めて紫外線遮蔽性を
高める方法が開示されているが、この方法では織物が熱
プレスにより押しつぶされ、風合いが硬くペーパーライ
クになるという問題点があった。又、特許第28885
04号公報には、紫外線を反射または吸収する性能を有
する成分を1重量%以上含み、紫外線の透過率、可視光
線の反射率及び通気度を規定した繊維構造体が開示され
ているが、繊維構造体の薄手・軽量性、ソフト性に対す
る考慮が不十分なものであった。
[0004] Japanese Patent Application Laid-Open No. 9-209455 discloses that
A method is disclosed in which a woven fabric is composed of fibers having different softening points, and a heat-pressing treatment is performed on the fibers having a low softening point to fill the gaps between the fibers to enhance the ultraviolet shielding property.However, in this method, the woven fabric is crushed by hot pressing. However, there is a problem that the texture becomes hard and paper-like. Patent No. 28885
No. 04 discloses a fiber structure containing 1% by weight or more of a component having a performance of reflecting or absorbing ultraviolet rays and defining the transmittance of ultraviolet rays, the reflectance of visible light rays, and the air permeability. The thin, lightweight, and soft properties of the structure were not sufficiently considered.

【0005】さらには、特開平11−81141号公報
では、織物の緯糸及び又は経糸にポリトリメチレンテレ
フタレート繊維を用い、該織物に樹脂加工を施したソフ
ト風合いの高密度織物が開示されている。又、特開平1
1−200174号公報では、経糸のカバー率と緯糸の
カバー率の比とカバー率の和を規定し、弾性回復率が9
0%以上のポリトリメチレンテレフタレート繊維で構成
されたソフト風合いの高密度織物が開示されている。し
かしながら、これらは織物を柔軟なポリトリメチレンテ
レフタレート繊維で形成することにより、風合いやこす
れ音は改善しているものの、織物の開孔率や無機酸化物
微粒子等の光遮蔽性に対する考慮がなされていないた
め、遮光性が不十分であった。
Further, Japanese Patent Application Laid-Open No. 11-81141 discloses a high-density soft-textile woven fabric in which a polytrimethylene terephthalate fiber is used for the weft and / or warp of the woven fabric and the woven fabric is subjected to resin processing. Also, JP
In Japanese Patent Application Publication No. 1-200174, the ratio of the warp cover rate to the weft cover rate and the sum of the cover rates are defined, and the elastic recovery rate is 9%.
A soft-textured, high-density woven fabric composed of 0% or more of polytrimethylene terephthalate fiber is disclosed. However, although the fabric and the rubbing sound are improved by forming the fabric with the flexible polytrimethylene terephthalate fiber, consideration is given to the porosity of the fabric and the light shielding property of inorganic oxide fine particles. Therefore, the light-shielding property was insufficient.

【0006】[0006]

【発明が解決しようとする課題】本発明の目的は、防透
け性や、紫外線遮蔽性等の遮光性を高め、かつ、薄手、
軽量でソフト風合いな織物を提供するものである。
SUMMARY OF THE INVENTION An object of the present invention is to improve the light-shielding properties such as the sheer-shielding property and the ultraviolet ray shielding property,
It is intended to provide a lightweight, soft-textile fabric.

【0007】[0007]

【課題を解決するための手段】本発明者らは上記課題を
解決するために鋭意検討の結果、織物をポリトリメチレ
ンテレフタレート繊維で構成し、かつ、該織物に無機酸
化物微粒子を一定割合以上含有させ、開孔率と見掛け密
度を特定範囲にすることにより本発明の課題が解決され
ることを見出し、本発明に到達した。すなわち本発明
は、ポリトリメチレンテレフタレート繊維で構成された
織物であり、該織物の開孔率が3%以下、厚みが0.2
5mm以下、見掛け密度が0.7g/cm3 以下で、か
つ、該織物が無機酸化物微粒子を1.0重量%以上含有
していることを特徴とする遮光性織物である。
Means for Solving the Problems The inventors of the present invention have made intensive studies to solve the above-mentioned problems, and as a result, have made a fabric made of polytrimethylene terephthalate fiber, and added a certain percentage of inorganic oxide fine particles to the fabric. The present inventors have found that the object of the present invention can be solved by making the porosity and the apparent density in a specific range so as to achieve the present invention. That is, the present invention relates to a woven fabric composed of polytrimethylene terephthalate fibers, wherein the porosity of the woven fabric is 3% or less and the thickness is 0.2% or less.
A light-shielding woven fabric having a size of 5 mm or less, an apparent density of 0.7 g / cm 3 or less, and containing the inorganic oxide fine particles in an amount of 1.0% by weight or more.

【0008】以下、本発明について詳細に説明する。本
発明において、ポリトリメチレンテレフタレート繊維と
は、トリメチレンテレフタレート単位を主たる繰り返し
単位とするポリエステル繊維をいい、トリメチレンテレ
フタレート単位を約50モル%以上、好ましくは70モ
ル%以上、さらには80モル%以上、さらに好ましくは
90モル%以上のものをいう。従って、第三成分として
他の酸成分及び/又はグリコール成分の合計量が、約5
0モル%以下、好ましくは30モル%以下、さらには2
0モル%以下、さらに好ましくは10モル%以下の範囲
で含有されたポリトリメチレンテレフタレートを包含す
る。
Hereinafter, the present invention will be described in detail. In the present invention, the polytrimethylene terephthalate fiber refers to a polyester fiber having a trimethylene terephthalate unit as a main repeating unit, and the trimethylene terephthalate unit has about 50 mol% or more, preferably 70 mol% or more, and more preferably 80 mol%. Above, more preferably 90 mol% or more. Therefore, the total amount of the other acid component and / or glycol component as the third component is about 5%.
0 mol% or less, preferably 30 mol% or less, and more preferably 2 mol% or less.
The polytrimethylene terephthalate contained in a range of 0 mol% or less, more preferably 10 mol% or less is included.

【0009】ポリトリメチレンテレフタレートは、テレ
フタル酸又はその機能的誘導体と、トリメチレングリコ
ール又はその機能的誘導体とを、触媒の存在下で、適当
な反応条件下に縮合せしめることにより製造される。こ
の製造過程において、適当な一種又は二種以上の第三成
分を添加して共重合ポリエステルとしてもよいし、又、
ポリエチレンテレフタレート等のポリトリメチレンテレ
フタレート以外のポリエステルとポリトリメチレンテレ
フタレートを別個に製造した後、ブレンドしたり、複合
紡糸(鞘芯、サイドバイサイド等)してもよい。
[0009] Polytrimethylene terephthalate is produced by condensing terephthalic acid or a functional derivative thereof with trimethylene glycol or a functional derivative thereof in the presence of a catalyst under appropriate reaction conditions. In this production process, an appropriate one or two or more third components may be added to form a copolymerized polyester, or
Polyester other than polytrimethylene terephthalate, such as polyethylene terephthalate, may be separately produced from polytrimethylene terephthalate, and then blended or composite-spun (sheath core, side-by-side, etc.).

【0010】添加する第三成分としては、脂肪族ジカル
ボン酸(シュウ酸、アジピン酸等)、脂環族ジカルボン
酸(シクロヘキサンジカルボン酸等)、芳香族ジカルボ
ン酸(イソフタル酸、ソジウムスルホイソフタル酸
等)、脂肪族グリコール(エチレングリコール、1,2
−プロピレングリコール、テトラメチレングリコール
等)、脂環族グリコール(シクロヘキサンジメタノール
等)、芳香族を含む脂肪族グリコール(1,4−ビス
(β−ヒドロキシエトキシ)ベンゼン等)、ポリエーテ
ルグリコール(ポリエチレングリコール、ポリプロピレ
ングリコール等)、脂肪族オキシカルボン酸(ω−オキ
シカプロン酸等)、芳香族オキシカルボン酸(P−オキ
シ安息香酸等)、等が挙げられる。又、1個又は3個以
上のエステル形成性官能基を有する化合物(安息香酸等
又はグリセリン等)も重合体が実質的に線状である範囲
内で使用出来る。
The third components to be added include aliphatic dicarboxylic acids (oxalic acid, adipic acid, etc.), alicyclic dicarboxylic acids (cyclohexane dicarboxylic acid, etc.), and aromatic dicarboxylic acids (isophthalic acid, sodium sulfoisophthalic acid, etc.). ), Aliphatic glycols (ethylene glycol, 1,2
-Propylene glycol, tetramethylene glycol, etc.), alicyclic glycols (cyclohexane dimethanol, etc.), aliphatic glycols containing aromatics (1,4-bis (β-hydroxyethoxy) benzene, etc.), polyether glycols (polyethylene glycol) , Polypropylene glycol and the like), aliphatic oxycarboxylic acids (such as ω-oxycaproic acid), and aromatic oxycarboxylic acids (such as P-oxybenzoic acid). Compounds having one or more ester-forming functional groups (such as benzoic acid or glycerin) can also be used as long as the polymer is substantially linear.

【0011】本発明においてポリトリメチレンテレフタ
レート繊維の紡糸については、1500m/分程度の巻
取り速度で紡糸して未延伸糸を得た後、2〜3.5倍程
度で延撚する方法、紡糸−延撚工程を直結した直延法
(スピンドロー法)、巻取り速度5000m/分以上の
高速紡糸法(スピンテイクアップ法)の何れを採用して
も良い。又、繊維の形態は、長繊維でも短繊維でもよ
く、長さ方向に均一なものや太細のあるものでもよく、
断面形状においても丸型、三角、L型、T型、Y型、W
型、八葉型、偏平、ドッグボーン型等の多角形型、多葉
型、中空型や不定形なものでもよい。さらに、糸条の形
態としては、マルチフィラメント原糸(極細糸を含
む)、甘撚糸〜強撚糸、混繊糸、仮撚糸(POYの延伸
仮撚糸を含む)、流体噴射加工糸、紡績糸等が挙げら
れ、単糸繊度は0.1〜5デシテックス程度を用いるこ
とができる。該繊度は、織物のソフト性をより向上させ
るために0.1〜2.2デシテックスがより好ましい。
In the present invention, the polytrimethylene terephthalate fiber is spun at a take-up speed of about 1500 m / min to obtain an undrawn yarn and then twisted at a rate of about 2 to 3.5 times. Any of a direct drawing method (spin draw method) in which the drawing and twisting step is directly connected and a high-speed spinning method (spin take-up method) with a winding speed of 5000 m / min or more may be adopted. In addition, the form of the fiber may be a long fiber or a short fiber, may be uniform in the length direction or may be thick and thin,
Round, triangular, L-shaped, T-shaped, Y-shaped, W
It may be a polygonal type such as a mold, an eight-leaf type, a flat shape, a dogbone type, etc., a multi-leaf type, a hollow type or an irregular shape. Further, as the form of the yarn, multifilament raw yarn (including ultrafine yarn), sweet twisted yarn to strong twisted yarn, mixed yarn, false twisted yarn (including drawn false twisted yarn of POY), fluid jet processed yarn, spun yarn, etc. And the fineness of single yarn can be about 0.1 to 5 dtex. The fineness is more preferably 0.1 to 2.2 dtex to further improve the softness of the woven fabric.

【0012】尚、本発明に用いるポリトリメチレンテレ
フタレート繊維は遮光性を高める上で、無機酸化物微粒
子を1重量%以上含有することが好ましく、2重量%以
上含有するとより好ましい。無機酸化物微粒子の含有方
法は、繊維内部に均一分散させて含有させても良いが、
鞘芯の重量比が1/4〜4/1の鞘芯型繊維として、芯
部に3.0以上20.0重量%以下、鞘部に1.0重量
%以下の無機酸化物微粒子を含有させる方法が繊維の製
織等の加工性の点でより好ましい。
The polytrimethylene terephthalate fiber used in the present invention preferably contains inorganic oxide fine particles in an amount of 1% by weight or more, more preferably 2% by weight or more, in order to enhance light-shielding properties. The method of containing the inorganic oxide fine particles may be uniformly dispersed and contained in the fiber,
As a sheath-core type fiber having a sheath-core weight ratio of 1/4 to 4/1, the core contains 3.0 to 20.0% by weight of inorganic oxide fine particles in the sheath and 1.0% by weight or less. This method is more preferable in view of workability such as weaving of fibers.

【0013】尚、ポリトリメチレンテレフタレート繊維
は本発明の目的を損なわない様に、好ましくは50重量
%以下の範囲内で、他の繊維を交絡混繊(高収縮糸との
異収縮混繊糸等)、交撚、複合仮撚(伸度差仮撚等)、
2フィード流体噴射加工等の手段で混用してもよい。混
用する繊維はいかなる繊維でも構わないが、ポリエステ
ル、ポリアミド、ポリアクリルニトリル、ポリビニル、
ポリプロピレン、ポリウレタン等の合成繊維を好ましく
混用することができる。本発明の織物は、前述のポリト
リメチレンテレフタレート繊維により構成されているこ
とが必要であり、ポリトリメチレンテレフタレート繊維
は織物の経糸及び又は緯糸に用いられる。この際、ポリ
トリメチレンテレフタレート繊維は織物の40重量%以
上を構成することが好ましく、より好ましくは50重量
%以上である。
The polytrimethylene terephthalate fiber is preferably entangled and mixed with another fiber (different shrinkage mixed yarn with high shrinkage yarn) in an amount of 50% by weight or less so as not to impair the object of the present invention. Etc.), alternate twist, composite false twist (elongation difference false twist, etc.),
They may be mixed by means such as two-feed fluid jet processing. The fibers to be mixed may be any fibers, but polyester, polyamide, polyacrylonitrile, polyvinyl,
Synthetic fibers such as polypropylene and polyurethane can be preferably mixed. The woven fabric of the present invention needs to be composed of the above-mentioned polytrimethylene terephthalate fiber, and the polytrimethylene terephthalate fiber is used for the warp and / or weft of the woven fabric. At this time, the polytrimethylene terephthalate fiber preferably constitutes at least 40% by weight of the woven fabric, and more preferably at least 50% by weight.

【0014】本発明の織物をポリトリメチレンテレフタ
レート繊維で構成することにより、織物の遮光性を向上
させるために織物の開孔率を下げても、ポリトリメチレ
ンテレフタレート繊維の柔軟性により、織物がソフトな
風合いを維持できるものとなる。本発明の織物はポリト
リメチレンテレフタレート繊維とその他の繊維を交織し
ても良い。交織する繊維としては、ポリエステル、ポリ
アミド、ポリアクリロニトリル、ポリビニル、ポリプロ
ピレン、ポリウレタン等の合成繊維や、綿、羊毛、絹、
麻等の天然繊維、キュプラ、レーヨン、アセテート、ポ
リノジック、リヨセル等の人造セルロース繊維等と交織
することができるが、より好ましくは、無機酸化物微粒
子を1.0重量%以上繊維内部に含有させることができ
る、合成繊維、人造セルロース繊維と交織すると良い。
さらに好ましくは、鞘芯の重量比が1/4〜4/1の鞘
芯型繊維で芯部に3.0以上20.0重量%以下、鞘部
に1.0重量%以下含有したポリエステル系、ポリアミ
ド系等の合成繊維であると良い。
[0014] By constructing the woven fabric of the present invention with polytrimethylene terephthalate fibers, even if the porosity of the woven fabric is reduced in order to improve the light shielding property of the woven fabric, the woven fabric can be formed by the flexibility of the polytrimethylene terephthalate fibers. A soft texture can be maintained. In the woven fabric of the present invention, polytrimethylene terephthalate fibers and other fibers may be interwoven. As the fibers to be interwoven, synthetic fibers such as polyester, polyamide, polyacrylonitrile, polyvinyl, polypropylene, and polyurethane, cotton, wool, silk,
It can be interwoven with natural fibers such as hemp and artificial cellulose fibers such as cupra, rayon, acetate, polynosic, lyocell, etc. More preferably, the inorganic oxide fine particles are contained in the fiber at 1.0% by weight or more. It is good to interweave with synthetic fibers and artificial cellulose fibers.
More preferably, a polyester-based fiber in which the weight ratio of the sheath core is 1/4 to 4/1 and the core portion contains 3.0 to 20.0% by weight and the sheath portion contains 1.0% by weight or less. And a synthetic fiber such as polyamide.

【0015】又、交織する繊維の形態は、マルチフィラ
メント原糸(極細糸を含む)、甘撚糸〜強撚糸、混繊
糸、仮撚糸(POYの延伸仮撚糸を含む)、流体噴射加
工糸、紡績糸等を用いることができ、又、断面形状は丸
型、三角、L型、T型、Y型、W型、八葉型、偏平、ド
ッグボーン型等の多角形型、多葉型、中空型や不定形な
ものでもよい。単糸繊度は0.1〜5デシテックス程度
を用いることができるが、織物のソフト性を向上させる
ために0.1〜2.2デシテックスがより好ましい。交
織の方法は経糸又は緯糸のみにポリトリメチレンテレフ
タレート繊維を用いる方法、経糸及び又は緯糸をポリト
リメチレンテレフタレート繊維と他の繊維で1本交互や
2本交互等の様に引き揃えて混用する方法等で交織する
ことができる。
The fibers to be interwoven include multifilament raw yarns (including ultrafine yarns), sweet twisted yarns to strong twisted yarns, mixed yarns, false twisted yarns (including drawn false twisted yarns of POY), fluid jet processed yarns, A spun yarn or the like can be used, and the cross-sectional shape is a polygonal shape such as a round shape, a triangular shape, an L shape, a T shape, a Y shape, a W shape, a Yaba shape, a flat shape, a dog bone shape, a multi-leaf shape, It may be hollow or irregular. The fineness of the single yarn can be about 0.1 to 5 dtex, but 0.1 to 2.2 dtex is more preferable in order to improve the softness of the woven fabric. The method of weaving is to use polytrimethylene terephthalate fiber only for the warp or weft, or to mix and mix the warp and / or weft with polytrimethylene terephthalate fiber and other fibers one by one or two alternately. Etc. can be interwoven.

【0016】本発明の織物は無機酸化物微粒子を1重量
%以上含有することが必要である。より好ましくは2重
量%以上である。無機酸化物微粒子の含有量が1重量%
未満では遮光性が著しく劣るものとなる。含有する無機
酸化物微粒子は、原糸製造に障害を及ぼさなければ、そ
の種類は特に限定されないが、例えば、酸化チタン、酸
化亜鉛、酸化マグネシウム、炭酸カルシウム、硫酸バリ
ウム等を用いることができる。これらの無機酸化物微粒
子は、単独もしくは2種以上を併用して用いてもよい。
使用される無機酸化物微粒子の平均粒径は、一般に、約
1ミクロン以下であることが好ましい。約2ミクロン以
上の粗大粒子になると、紡糸時の糸切れにつながり好ま
しくない。より好ましくは0.5ミクロン以下、最も好
ましくは0.2ミクロン以下である。
The woven fabric of the present invention needs to contain 1% by weight or more of inorganic oxide fine particles. It is more preferably at least 2% by weight. Content of inorganic oxide fine particles is 1% by weight
If it is less than 1, the light-shielding property is remarkably inferior. The type of the inorganic oxide fine particles to be contained is not particularly limited as long as it does not hinder the production of the raw yarn. For example, titanium oxide, zinc oxide, magnesium oxide, calcium carbonate, barium sulfate and the like can be used. These inorganic oxide fine particles may be used alone or in combination of two or more.
Generally, the average particle size of the inorganic oxide fine particles used is preferably about 1 micron or less. Coarse particles of about 2 microns or more undesirably lead to yarn breakage during spinning. More preferably it is less than 0.5 micron, most preferably less than 0.2 micron.

【0017】無機酸化物微粒子を1重量%以上含有させ
る方法は、繊維内部に均一分散して練り込まれるか、あ
るいは鞘芯構造の形態で繊維の芯部に高濃度に練り込ま
れる方法が好ましいが、織物の風合いを粗硬にしない程
度に織物表面にバインダーによって接着されていても良
い。又、無機酸化物微粒子は本発明の織物を構成する全
ての種類の繊維に1重量%以上含有されていることが好
ましいが、織物全体における含有量が1重量%以上であ
れば、織物を構成する一部の繊維にのみに含有されてい
ても良い。又、本発明の織物は遮光性を充分なものとす
るために、織物の開孔率を3%以下にする必要がある。
より好ましくは2%以下、さらに好ましくは1.5%以
下である。織物の開孔率が3%を超えると、防透け性、
紫外線遮蔽性が著しく低下するものとなる。
The method of containing the inorganic oxide fine particles in an amount of 1% by weight or more is preferably a method of uniformly dispersing and kneading the inside of the fiber, or kneading at a high concentration into the core of the fiber in the form of a sheath-core structure. However, the binder may be bonded to the surface of the fabric with a binder to such an extent that the texture of the fabric is not roughened. Further, it is preferable that the inorganic oxide fine particles are contained in all kinds of fibers constituting the woven fabric of the present invention in an amount of 1% by weight or more. May be contained only in some of the fibers. In addition, the woven fabric of the present invention needs to have a porosity of 3% or less in order to provide sufficient light-shielding properties.
It is more preferably at most 2%, further preferably at most 1.5%. When the porosity of the woven fabric exceeds 3%,
The ultraviolet shielding properties are significantly reduced.

【0018】本発明で云う開孔率とは、織物の一定面積
あたりに実質的にどの程度の割合の貫通孔があるかを面
積割合で示すものである。開孔率の測定方法は、例え
ば、光学顕微鏡により織物の裏面から光をあてた状態
で、開孔部が白、繊維部が黒になるような拡大写真(倍
率20〜40倍)を取り、写真の画像をCCDカメラに
よりコンピューターに取り込み、画像処理ソフトにより
取り込んだ画像を、色相差により白と黒に2値化した
後、全体面積のうち白(開孔部)の面積割合を算出した
り、あるいは、開孔部が白、繊維部が黒になるような拡
大写真において、白と黒の重量割合から得られる値であ
る。
The porosity referred to in the present invention indicates, in terms of area ratio, substantially what percentage of through holes are present in a given area of the woven fabric. The method for measuring the aperture ratio is, for example, taking an enlarged photograph (magnification: 20 to 40 times) in which the aperture is white and the fiber is black in a state where light is applied from the back of the fabric by an optical microscope. The image of the photograph is taken into the computer by the CCD camera, the image taken by the image processing software is binarized into white and black by the hue difference, and the area ratio of the white (opening portion) in the whole area is calculated. Alternatively, the value is obtained from the weight ratio of white and black in an enlarged photograph in which the opening is white and the fiber is black.

【0019】又、本発明の織物の厚みは薄手でソフト風
合いを維持するために0.25mm以下であり、織物の
見掛け密度を0.7g/cm3 以下にすることが肝要で
ある。より好ましくは織物の見掛け密度は0.6g/c
3 以下である。織物の厚みが0.25mmを越えると
遮光性は高まるが織物が地厚となりソフトな風合いが保
たれなくなる。又、見掛け密度が0.7g/cm3 を越
えると、遮光性は高まるが風合いが硬い織物となる。こ
こで、見掛け密度とは、厚み計により荷重5g/cm2
における織編物の厚み(mm)を測定し、織編物の目付
(g/m2 )と厚み(mm)の関係から以下にて算出す
る値である。 見掛け密度(g/cm3 )=目付(g/m2 )/[厚み
(mm)×1000]
The thickness of the woven fabric of the present invention is 0.25 mm or less in order to maintain a thin and soft texture, and it is important that the apparent density of the woven fabric be 0.7 g / cm 3 or less. More preferably, the apparent density of the fabric is 0.6 g / c.
m 3 or less. When the thickness of the woven fabric exceeds 0.25 mm, the light-shielding property is enhanced, but the woven fabric becomes thick and the soft texture cannot be maintained. On the other hand, when the apparent density exceeds 0.7 g / cm 3 , the light shielding property is enhanced, but the fabric has a hard texture. Here, the apparent density is a load of 5 g / cm 2 measured by a thickness gauge.
The thickness (mm) of the woven or knitted fabric is measured, and the value is calculated below from the relationship between the basis weight (g / m 2 ) and the thickness (mm) of the woven or knitted fabric. Apparent density (g / cm 3 ) = weight (g / m 2 ) / [thickness (mm) × 1000]

【0020】本発明の織物の織組織は特に限定されるも
のではなく、平織(並び平織を含む)、綾織、朱子織、
二重織等用いることができる。尚、織物の仕上加工方法
は精練、プレセット、染色、ファイナルセットの順に通
常一般に行われる染色仕上工程で加工すれば良いが、フ
ァイナルセットの前又は後に、金属ロール(80〜13
0℃)とラバーの間に織物を通し、ラバーの表面速度の
変化により織物を押し込みながら加工するカムフィット
加工や、タンブラー乾燥による柔軟加工等を行うことが
好ましい。カムフィット加工又はタンブラー乾燥による
もみほぐし効果により、織物中の単繊維の緻密性が緩和
され、よりソフト風合いになると同時に、単繊維のばら
けにより織物の開孔率が下がり遮光性が高まる。
The woven structure of the woven fabric of the present invention is not particularly limited, and may be plain weave (including side-by-side weave), twill weave, satin weave,
Double weave or the like can be used. In addition, the finishing process of the woven fabric may be performed in the order of scouring, presetting, dyeing, and final setting in a dyeing finishing process generally performed in general, but before or after the final setting, a metal roll (80 to 13) is used.
(0 ° C.) and a rubber, and it is preferable to perform a cam fitting process in which the woven fabric is pressed while the woven fabric is being pressed by a change in the surface speed of the rubber, or a flexible process by tumbler drying. The fineness of the single fibers in the woven fabric is reduced by the fibrillation effect by the cam fitting process or the tumbler drying, so that the texture becomes softer, and at the same time, the porosity of the woven fabric is reduced due to the dispersion of the single fibers, so that the light shielding property is enhanced.

【0021】[0021]

【発明の実施の形態】以下、本発明を実施例などにより
具体的に説明するが、本発明はこれら実施例などにより
何ら限定されるものではない。なお、織物特性の測定方
法を以下に説明する。 (1)防透け性(△L) 分光光度計(マクベスCE−3000)を用い、試験布
(1枚)の裏面にL値(明度)が1±0.5の黒板を置
いて測定した明度をLb 、試験布(1枚)の裏面にL値
が92±0.5の白板を置いて測定した明度をLw と
し、△L=Lw −Lb として防透け性(△L)を求め
た。尚、同一の試験布繰り返し3回測定し、3回の平均
で△Lを求めた。
DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described specifically with reference to Examples and the like, but the present invention is not limited to these Examples and the like. In addition, the measuring method of a textile characteristic is demonstrated below. (1) Transparency (ΔL) Lightness measured by placing a blackboard with an L value (lightness) of 1 ± 0.5 on the back of a test cloth (one piece) using a spectrophotometer (Macbeth CE-3000) Is Lb, the lightness measured by placing a white plate having an L value of 92 ± 0.5 on the back surface of the test cloth (one sheet) is Lw, and ΔL = Lw−Lb, and the sheer-proof property (ΔL) was obtained. In addition, the same test cloth was repeatedly measured three times, and ΔL was determined by averaging the three measurements.

【0022】(2)紫外線遮蔽性 分光光度計(島津製作所製UV−2200)を用い、波
長280〜400nmの2nm毎の紫外線遮蔽率を測定
し、280〜400nmの平均紫外線遮蔽率を求めた。 (3)風合い 織物のソフト感を5人のモニターによる官能検査によ
り、◎:非常に良好、○:良好、△:やや劣る、×:非
常に劣る、の4段階で評価した。5人の判定を平均し
た。 (4)カバーファクター 織物の経糸又は緯糸が幅1インチ(2.54cm)当た
りに並ぶ本数をそれぞれの糸密度とする時、次式で算出
される。 経糸カバーファクター=経糸密度×(経糸のデシテック
ス)0.5 緯糸カバーファクター=緯糸密度×(緯糸のデシテック
ス)0.5
(2) Ultraviolet ray shielding property The ultraviolet ray shielding rate was measured every 2 nm at a wavelength of 280 to 400 nm using a spectrophotometer (UV-2200 manufactured by Shimadzu Corporation), and the average ultraviolet ray shielding rate at 280 to 400 nm was determined. (3) Texture The softness of the woven fabric was evaluated by a sensory test using five monitors, with four levels: ◎: very good, :: good, Δ: slightly poor, ×: very poor. The judgment of five people was averaged. (4) Cover factor When the number of warp or weft yarns of the woven fabric per 1 inch (2.54 cm) width is defined as the respective yarn density, it is calculated by the following formula. Warp cover factor = warp density x (warp decitex) 0.5 Weft cover factor = weft density x (weft decitex) 0.5

【0023】[0023]

【実施例1】経糸に酸化チタンを0.5%含有するポリ
トリメチレンテレフタレート繊維(56デシテックス2
4フィラメント)、緯糸に酸化チタンを8.0重量%含
有するポリエチレンテレフタレートからなる芯部と、酸
化チタンを0.5重量%含有するポリトリメチレンテレ
フタレートからなる鞘部からなり、芯鞘重量比率1/1
である同心円状のポリエチレンテレフタレート/ポリト
リメチレンテレフタレート芯鞘型合成繊維(84デシテ
ックス36フィラメント)を用い、平組織の生機を得
た。本生機を連続精練機で糊抜き精練し、ピンテンター
型の乾熱処理機により160℃のプレセットを行った
後、液流染色機により130℃で染色を行い、続いて1
60℃の乾熱セットを行った。さらに該織物に100
℃、φ350mmの金属ロール、ラバー厚み30mmの
カムフィット加工を施して仕上た結果、得られた織物の
経密度は138本/インチ、緯密度は98本/インチで
あり、経糸と緯糸のカバーファクターの和は1931、
酸化チタン含有量は2.43重量%、開孔率は2.41
%、厚みは0.15mm、見掛け密度は0.53g/c
3 であった。該織物は紫外線遮蔽性、防透け性共に良
好で、かつ薄手、軽量で風合いも非常に良好であった。
Example 1 Polypropylene containing 0.5% titanium oxide in warp
Trimethylene terephthalate fiber (56 dtex 2
4 filaments), containing 8.0% by weight of titanium oxide in the weft
Core having polyethylene terephthalate and acid
Polytrimethylene tere containing 0.5% by weight of titanium halide
Consists of a sheath made of phthalate, with a core-sheath weight ratio of 1/1
Concentric polyethylene terephthalate / polyte
Limethylene terephthalate core-sheath type synthetic fiber (84 d
Tex 36 filament) to obtain a flat tissue greige
Was. This machine is desizing and scouring with a continuous scouring machine.
Pre-set at 160 ° C with a dry heat treatment machine
Thereafter, dyeing is carried out at 130 ° C. by a jet dyeing machine.
A dry heat set at 60 ° C. was performed. In addition, 100
° C, φ350mm metal roll, rubber thickness 30mm
As a result of cam fitting processing and finishing,
The warp density is 138 lines / inch and the weft density is 98 lines / inch.
Yes, the sum of the warp and weft cover factors is 1931,
The titanium oxide content is 2.43% by weight, and the porosity is 2.41.
%, Thickness 0.15mm, apparent density 0.53g / c
m ThreeMet. The woven fabric has good UV shielding and anti-sheer properties
It was good, thin, light and very good in texture.

【0024】[0024]

【実施例2】経糸に酸化チタンを0.5%含有するポリ
トリメチレンテレフタレート繊維(56デシテックス2
4フィラメント)、緯糸に酸化チタンを8.0重量%含
有するポリエチレンテレフタレートからなる芯部と、酸
化チタンを0.5重量%含有するポリエチレンテレフタ
レートからなる鞘部からなり、芯鞘重量比率1/1であ
る同心円状のポリエチレンテレフタレート芯鞘型合成繊
維(84デシテックス36フィラメント)を用い、平組
織の生機を得た。本生機を実施例1と同様の染色仕上加
工を行った結果、得られた織物の経密度は137本/イ
ンチ、緯密度は98本/インチであり、経糸と緯糸のカ
バーファクターの和は1923、酸化チタン含有量は
2.44重量%、開孔率は2.47%、厚みは0.15
mm、見掛け密度は0.53g/cm3 であった。該織
物は紫外線遮蔽性、防透け性共に良好で、かつ薄手、軽
量で風合いも非常に良好であった。
Example 2 Polytrimethylene terephthalate fiber containing 0.5% titanium oxide in warp (56 dtex 2)
4 filaments), a weft comprising a core made of polyethylene terephthalate containing 8.0% by weight of titanium oxide, and a sheath made of polyethylene terephthalate containing 0.5% by weight of titanium oxide. A concentric polyethylene terephthalate core-sheath type synthetic fiber (84 decitex, 36 filaments) was used to obtain a flat tissue greige. This greige machine was subjected to the same dyeing and finishing treatment as in Example 1, and as a result, the obtained fabric had a warp density of 137 yarns / inch and a weft density of 98 yarns / inch, and the sum of the warp and weft cover factors was 1923. , The titanium oxide content was 2.44% by weight, the porosity was 2.47%, and the thickness was 0.15.
mm, and the apparent density was 0.53 g / cm 3 . The woven fabric was excellent in both the ultraviolet shielding property and the sheer-proofing property, and was thin, lightweight and very good in texture.

【0025】[0025]

【実施例3】実施例2と同様の経糸及び緯糸を用い、ツ
イル組織の生機を得た。本生機を連続精練機で糊抜き精
練し、ピンテンター型の乾熱処理機により160℃のプ
レセットを行った後、液流染色機により130℃で染色
を行い、続いて160℃の乾熱セットを行って仕上た。
得られた織物の経密度は193本/インチ、緯密度は1
00本/インチであり、経糸と緯糸のカバーファクター
の和は2361、酸化チタン含有量は2.14重量%、
開孔率は0.24%、厚みは0.14mm、見掛け密度
は0.66g/cm3 であった。該織物は紫外線遮蔽
性、防透け性共に非常に良好で、かつ薄手、軽量で風合
いも良好であった。
Example 3 Using the same warp and weft as in Example 2, a green fabric having a twill structure was obtained. The greige machine was desizing and scouring with a continuous scouring machine, and after pre-setting at 160 ° C. by a pin tenter type dry heat treatment machine, dyeing was performed at 130 ° C. by a jet dyeing machine, followed by a dry heat setting at 160 ° C. I went and finished.
The resulting fabric has a density of 193 yarns / inch and a weft density of 1
00 / inch, the sum of the warp and weft cover factors is 2361, the titanium oxide content is 2.14% by weight,
The porosity was 0.24%, the thickness was 0.14 mm, and the apparent density was 0.66 g / cm 3 . The woven fabric was very good in both the ultraviolet shielding property and the sheer-proofing property, and was thin, light and good in texture.

【0026】[0026]

【実施例4】経糸に酸化チタンを0.5%含有するポリ
トリメチレンテレフタレート繊維(56デシテックス2
4フィラメント)、緯糸に酸化チタンを2.0重量%含
有するポリトリメチレンテレフタレート繊維(84デシ
テックス36フィラメント)を用い、平組織の生機を得
た。本生機を実施例1と同様の染色仕上加工を行った結
果、得られた織物の経密度は139本/インチ、緯密度
は100本/インチであり、経糸と緯糸のカバーファク
ターの和は1957、酸化チタン含有量は1.28重量
%、開孔率は2.24%、厚みは0.16mm、見掛け
密度は0.51g/cm3 であった。該織物は紫外線遮
蔽性、防透け性共に良好で、かつ薄手、軽量で風合いも
非常に良好であった。
Example 4 Polytrimethylene terephthalate fiber (0.5 dtex 2) containing 0.5% of titanium oxide in the warp
4 filaments) and a polytrimethylene terephthalate fiber (84 decitex 36 filaments) containing 2.0% by weight of titanium oxide in the weft to obtain a flat-textured green fabric. The greige machine was subjected to the same dyeing and finishing treatment as in Example 1. As a result, the obtained fabric had a warp density of 139 yarns / inch and a weft density of 100 yarns / inch, and the sum of the warp and weft cover factors was 1957. The titanium oxide content was 1.28% by weight, the porosity was 2.24%, the thickness was 0.16 mm, and the apparent density was 0.51 g / cm 3 . The woven fabric was excellent in both the ultraviolet shielding property and the sheer-proofing property, and was thin, lightweight and very good in texture.

【0027】[0027]

【実施例5】実施例2と同様の経糸及び緯糸を用い、実
施例2より高密度の平組織の生機を得た。本生機を実施
例1と同様の染色仕上加工を行った結果、得られた織物
の経密度は156本/インチ、緯密度は113本/イン
チであり、経糸と緯糸のカバーファクターの和は220
3、酸化チタン含有量は2.45重量%、開孔率は0.
5%、厚みは0.17mm、見掛け密度は0.52g/
cm3 であった。該織物は紫外線遮蔽性、防透け性共に
非常に良好で、かつ薄手、軽量で風合いも良好であっ
た。
Example 5 Using the same warp and weft as in Example 2, a green fabric having a higher density than that of Example 2 was obtained. As a result of performing the same dyeing and finishing process on this greige machine as in Example 1, the obtained fabric had a warp density of 156 yarns / inch and a weft density of 113 yarns / inch, and the sum of the warp and weft cover factors was 220.
3. The titanium oxide content is 2.45% by weight and the porosity is 0.4%.
5%, thickness 0.17mm, apparent density 0.52g /
cm 3 . The woven fabric was very good in both the ultraviolet shielding property and the sheer-proofing property, and was thin, light and good in texture.

【0028】[0028]

【比較例1】実施例2と同様の生機を連続精練機で糊抜
き精練し、ピンテンター型の乾熱処理機により160℃
のプレセットを行った後、液流染色機により130℃で
染色を行い、続いて170℃の乾熱セットを行った。さ
らに該織物に金属ロール温度160℃、圧力2450N
/cmでカレンダー加工を施して仕上た結果、得られた
織物の経密度は138本/インチ、緯密度は97本/イ
ンチであり、経糸と緯糸のカバーファクターの和は19
22、酸化チタン含有量は2.42重量%、開孔率は
2.02%、厚みは0.11mm、見掛け密度は0.7
2g/cm3 であった。該織物は紫外線遮蔽性、防透け
性共に良好であったが、風合いが硬く、ペーパーライク
なものであった。
[Comparative Example 1] A greige machine similar to that in Example 2 was desizing and scouring by a continuous scouring machine, and was heated to 160 ° C by a pin tenter type dry heat treatment machine.
After the pre-setting, dyeing was carried out at 130 ° C. by a jet dyeing machine, followed by dry heat setting at 170 ° C. Further, the fabric is subjected to a metal roll temperature of 160 ° C. and a pressure of 2450 N
The finished woven fabric has a warp density of 138 yarns / inch and a weft density of 97 yarns / inch. The sum of the warp and weft cover factors is 19.
22, the titanium oxide content was 2.42% by weight, the porosity was 2.02%, the thickness was 0.11 mm, and the apparent density was 0.7.
It was 2 g / cm 3 . The woven fabric was good in both the ultraviolet shielding property and the sheer-proofing property, but had a hard texture and was paper-like.

【0029】[0029]

【比較例2】実施例2と同様の経糸及び緯糸を用い、実
施例2より高密度の平組織の生機を得た。本生機を連続
精練機で糊抜き精練し、ピンテンター型の乾熱処理機に
より160℃のプレセットを行った後、液流染色機によ
り130℃で染色を行い、続いて170℃の乾熱セット
を行って仕上た。得られた織物の経密度は204本/イ
ンチ、緯密度は113本/インチであり、経糸と緯糸の
カバーファクターの和は2563、酸化チタン含有量は
2.2重量%、開孔率は0.1%、厚みは0.14m
m、見掛け密度は0.73g/cm3 であった。該織物
は紫外線遮蔽性、防透け性共に非常に良好であったが、
風合いが硬いものであった。
COMPARATIVE EXAMPLE 2 Using the same warp and weft as in Example 2, a green fabric having a higher density flat structure than in Example 2 was obtained. The greige machine is desizing and scouring with a continuous scouring machine, and after pre-setting at 160 ° C. by a pin tenter type dry heat treatment machine, dyeing is performed at 130 ° C. by a jet dyeing machine, followed by a dry heat setting at 170 ° C. I went and finished. The warp density of the obtained woven fabric was 204 yarns / inch, the weft density was 113 yarns / inch, the sum of the cover factors of the warp and the weft was 2563, the titanium oxide content was 2.2% by weight, and the porosity was 0%. .1%, thickness 0.14m
m, and the apparent density was 0.73 g / cm 3 . The woven fabric was very good in both UV shielding and anti-sheer properties,
The texture was hard.

【0030】[0030]

【比較例3】実施例2と同様の経糸及び緯糸を用い、実
施例2より経密度を上げ緯密度を下げた平組織の生機を
得た。本生機を連続精練機で糊抜き精練し、ピンテンタ
ー型の乾熱処理機により160℃のプレセットを行った
後、液流染色機により130℃で染色を行い、続いて1
70℃の乾熱セットを行って仕上た。得られた織物の経
密度は156本/インチ、緯密度は82本/インチであ
り、経糸と緯糸のカバーファクターの和は1919、酸
化チタン含有量は2.15重量%、開孔率は3.1%、
厚みは0.14mm、見掛け密度は0.56g/cm3
であった。該織物はかつ薄手、軽量で風合いは良好であ
ったが、紫外線遮蔽性、防透け性に劣るものであった。
Comparative Example 3 Using the same warp and weft as in Example 2, a flat-structured green fabric having a higher warp density and a lower weft density than in Example 2 was obtained. The greige machine was desizing and scouring with a continuous scouring machine, and after presetting at 160 ° C. with a pin tenter type dry heat treatment machine, dyeing was performed at 130 ° C. with a jet dyeing machine.
Finished by performing a dry heat setting at 70 ° C. The warp density of the obtained woven fabric is 156 yarns / inch, the weft density is 82 yarns / inch, the sum of the warp and weft cover factors is 1919, the titanium oxide content is 2.15% by weight, and the porosity is 3%. .1%,
The thickness is 0.14 mm and the apparent density is 0.56 g / cm 3
Met. The woven fabric was thin and lightweight, and had a good texture, but was inferior in ultraviolet shielding properties and anti-sheer properties.

【0031】[0031]

【比較例4】経糸に酸化チタンを0.5%含有するポリ
トリメチレンテレフタレート繊維(56デシテックス2
4フィラメント)、緯糸に酸化チタンを0.5重量%含
有するポリトリメチレンテレフタレート繊維(84デシ
テックス36フィラメント)を用い、実施例1と同様の
平組織の生機を得た。本生機を実施例1と同様の染色仕
上加工を行った結果、得られた織物の経密度は139本
/インチ、緯密度は99本/インチであり、経糸と緯糸
のカバーファクターの和は1947、酸化チタン含有量
は0.5重量%、開孔率は2.39%、厚みは0.15
mm、見掛け密度は0.54g/cm3 であった。該織
物はかつ薄手、軽量で風合いは良好であったが、紫外線
遮蔽性、防透け性に劣るものであった。
Comparative Example 4 Polytrimethylene terephthalate fiber (0.5 dtex 2) containing 0.5% titanium oxide in the warp
Using a polytrimethylene terephthalate fiber (84 decitex 36 filaments) containing 0.5% by weight of titanium oxide in the weft, a flat-textured greige similar to that of Example 1 was obtained. This greige machine was subjected to the same dyeing and finishing treatment as in Example 1. As a result, the warp density of the obtained woven fabric was 139 yarns / inch, the weft density was 99 yarns / inch, and the sum of the warp and weft cover factors was 1947. , The titanium oxide content is 0.5% by weight, the porosity is 2.39%, and the thickness is 0.15%.
mm, and the apparent density was 0.54 g / cm 3 . The woven fabric was thin and lightweight, and had a good texture, but was inferior in ultraviolet shielding properties and anti-sheer properties.

【0032】[0032]

【比較例5】経糸に酸化チタンを0.5%含有するポリ
エチレンテレフタレート繊維(56デシテックス24フ
ィラメント)、緯糸に酸化チタンを8.0重量%含有す
るポリエチレンテレフタレートからなる芯部と、酸化チ
タンを0.5重量%含有するポリエチレンテレフタレー
トからなる鞘部からなり、芯鞘重量比率1/1である同
心円状のポリエチレンテレフタレート芯鞘型合成繊維
(84デシテックス36フィラメント)を用い、実施例
4と同一の織密度で平組織の生機を得た。本生機を実施
例1と同様の染色仕上加工を行った結果、得られた織物
の経密度は156本/インチ、緯密度は113本/イン
チであり、経糸と緯糸のカバーファクターの和は219
3、酸化チタン含有量は2.45重量%、開孔率は0.
5%、厚みは0.17mm、見掛け密度は0.52g/
cm3 であった。該織物は紫外線遮蔽性、防透け性共に
非常に良好であったが、風合いの硬いものであった。
Comparative Example 5 A core portion made of polyethylene terephthalate fiber containing 0.5% titanium oxide in a warp (24 filaments of 56 decitex), a core portion made of polyethylene terephthalate containing 8.0% by weight of titanium oxide in a weft, and 0% titanium oxide The same weaving as in Example 4 using concentric polyethylene terephthalate core-sheath type synthetic fibers (84 decitex 36 filaments) composed of a sheath portion made of polyethylene terephthalate containing 0.5% by weight and having a core-sheath weight ratio of 1/1. A flat tissue greige was obtained at a density. This greige machine was subjected to the same dyeing and finishing treatment as in Example 1. As a result, the warp density of the obtained woven fabric was 156 yarns / inch, the weft density was 113 yarns / inch, and the sum of the warp and weft cover factors was 219.
3. The titanium oxide content is 2.45% by weight and the porosity is 0.4%.
5%, thickness 0.17mm, apparent density 0.52g /
cm 3 . The woven fabric was very good in both the ultraviolet shielding property and the anti-transparent property, but had a hard texture.

【0033】[0033]

【比較例6】経糸に酸化チタンを0.5%含有するポリ
トリメチレンテレフタレート繊維(56デシテックス2
4フィラメント)、緯糸に酸化チタンを2.0重量%含
有するポリトリメチレンテレフタレート繊維(167デ
シテックス48フィラメント)を用い、並び平組織の生
機を得た。本生機を実施例1と同様の染色仕上加工を行
った結果、得られた織物の経密度は250本/インチ、
緯密度は80本/インチであり、経糸と緯糸のカバーフ
ァクターの和は2957、酸化チタン含有量は1.25
重量%、開孔率は0.1%、厚みは0.26mm、見掛
け密度は0.53g/cm3 であった。該織物は紫外線
遮蔽性、防透け性共に非常に良好であったが、風合いの
硬いものであった。
Comparative Example 6 Polytrimethylene terephthalate fiber containing 0.5% titanium oxide in warp (56 dtex 2)
4 filaments) and polytrimethylene terephthalate fibers (167 decitex 48 filaments) containing 2.0% by weight of titanium oxide in the weft were used to obtain a lined flat greige. As a result of performing the same dyeing finish processing on this greige machine as in Example 1, the resulting fabric had a density of 250 yarns / inch.
The weft density was 80 yarns / inch, the sum of the warp and weft cover factors was 2957, and the titanium oxide content was 1.25.
The weight%, the porosity was 0.1%, the thickness was 0.26 mm, and the apparent density was 0.53 g / cm 3 . The woven fabric was very good in both the ultraviolet shielding property and the anti-transparent property, but had a hard texture.

【0034】[0034]

【比較例7】経糸に酸化チタンを全く含まないポリエチ
レンテレフタレート繊維(84デシテックス36フィラ
メント)、緯糸に酸化チタンを8.0重量%含有するポ
リエチレンテレフタレートからなる芯部と、酸化チタン
を全く含まないポリトリメチレンテレフタレートからな
る鞘部からなり、芯鞘重量比率1/1である同心円状の
ポリエチレンテレフタレート/ポリトリメチレンテレフ
タレート芯鞘型合成繊維(84デシテックス36フィラ
メント)を用い、高密度の平組織の生機を得た。得られ
た生機を連続精練機で糊抜き精練し、ピンテンター型の
乾熱処理機により160℃のプレセットを行った後、液
流染色機により130℃で染色を行い、続いて170℃
の乾熱セットを行って仕上げた。得られた織物の経密度
は130本/インチ、緯密度は130本/インチであ
り、経糸と緯糸のカバーファクターの和は2383、酸
化チタン含有量は2.09重量%、開孔率は0.2%、
厚みは0.16mm、見掛け密度は0.71g/cm3
であった。該織物は紫外線遮蔽性、防透け性共に非常に
良好であったが、風合いが硬いものであった。
Comparative Example 7 A core made of polyethylene terephthalate fiber containing no titanium oxide in the warp (84 decitex 36 filaments), a polyethylene terephthalate containing 8.0% by weight of titanium oxide in the weft, and a polyethylene containing no titanium oxide. A high-density flat tissue greige made of concentric polyethylene terephthalate / polytrimethylene terephthalate core-sheath type synthetic fibers (84 decitex 36 filaments) composed of a sheath portion made of trimethylene terephthalate and having a core-sheath weight ratio of 1/1. I got The obtained greige was desizing and scouring with a continuous scouring machine, and after presetting at 160 ° C. with a pin tenter type dry heat treatment machine, dyeing was performed at 130 ° C. with a liquid jet dyeing machine, followed by 170 ° C.
And finished by dry heat setting. The warp density of the obtained woven fabric is 130 yarns / inch, the weft density is 130 yarns / inch, the sum of the cover factors of the warp and the weft is 2383, the titanium oxide content is 2.09% by weight, and the porosity is 0. .2%,
The thickness is 0.16 mm and the apparent density is 0.71 g / cm 3
Met. The woven fabric was very good in both the ultraviolet shielding property and the sheer-proofing property, but had a hard texture.

【0035】[0035]

【表1】 [Table 1]

【0036】[0036]

【発明の効果】本発明による遮光性織物は、防透け性
や、紫外線遮蔽性等の遮光性に優れ、かつ、薄手、軽量
でソフト風合いな織物である。
The light-shielding woven fabric according to the present invention is a thin, lightweight, soft-textile woven fabric that is excellent in light-shielding properties such as light-shielding properties and ultraviolet light shielding properties.

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】 ポリトリメチレンテレフタレート繊維で
構成された織物であり、該織物の開孔率が3%以下、厚
みが0.25mm以下、見掛け密度が0.7g/cm3
以下で、かつ、該織物が無機酸化物微粒子を1.0重量
%以上含有していることを特徴とする遮光性織物。
1. A woven fabric composed of polytrimethylene terephthalate fiber, wherein the woven fabric has a porosity of 3% or less, a thickness of 0.25 mm or less, and an apparent density of 0.7 g / cm 3.
The light-shielding fabric according to claim 1, wherein the fabric contains inorganic oxide fine particles in an amount of 1.0% by weight or more.
JP2000290171A 2000-09-25 2000-09-25 Light-shielding woven fabric Pending JP2002105796A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2000290171A JP2002105796A (en) 2000-09-25 2000-09-25 Light-shielding woven fabric

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2000290171A JP2002105796A (en) 2000-09-25 2000-09-25 Light-shielding woven fabric

Publications (1)

Publication Number Publication Date
JP2002105796A true JP2002105796A (en) 2002-04-10

Family

ID=18773440

Family Applications (1)

Application Number Title Priority Date Filing Date
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Country Status (1)

Country Link
JP (1) JP2002105796A (en)

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2003072862A1 (en) * 2002-02-28 2003-09-04 Toyo Boseki Kabusiki Kaisya Full-dull high-density woven fabric with eliminated gloss
JP2006274501A (en) * 2005-03-30 2006-10-12 Toray Ind Inc Splittable conjugate fiber
JP2006336127A (en) * 2005-05-31 2006-12-14 Toray Ind Inc Splittable conjugated fiber having excellent shrinkage characteristic
JP2006336166A (en) * 2005-06-03 2006-12-14 Toray Ind Inc Splittable type conjugate fiber excellent in uniform dyeing property and method for producing the same
JP2007009396A (en) * 2005-05-31 2007-01-18 Toray Ind Inc Union cloth and method for producing the same
JP2007321279A (en) * 2006-05-31 2007-12-13 Teijin Fibers Ltd Opaque woven/knitted fabric, production method and textile thereof
JP2016186137A (en) * 2015-03-27 2016-10-27 東レ株式会社 Woven or knitted fabric having anti-transparency
KR20180036678A (en) * 2018-03-30 2018-04-09 도레이첨단소재 주식회사 The method for manufacturing palse twisted yarns for a velvet fabric

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH1181048A (en) * 1997-09-09 1999-03-26 Asahi Chem Ind Co Ltd Conjugate polyester fiber

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH1181048A (en) * 1997-09-09 1999-03-26 Asahi Chem Ind Co Ltd Conjugate polyester fiber

Cited By (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2003072862A1 (en) * 2002-02-28 2003-09-04 Toyo Boseki Kabusiki Kaisya Full-dull high-density woven fabric with eliminated gloss
JP2006274501A (en) * 2005-03-30 2006-10-12 Toray Ind Inc Splittable conjugate fiber
JP2006336127A (en) * 2005-05-31 2006-12-14 Toray Ind Inc Splittable conjugated fiber having excellent shrinkage characteristic
JP2007009396A (en) * 2005-05-31 2007-01-18 Toray Ind Inc Union cloth and method for producing the same
JP2006336166A (en) * 2005-06-03 2006-12-14 Toray Ind Inc Splittable type conjugate fiber excellent in uniform dyeing property and method for producing the same
JP4725200B2 (en) * 2005-06-03 2011-07-13 東レ株式会社 Split type composite fiber excellent in uniform dyeability and method for producing the same
JP2007321279A (en) * 2006-05-31 2007-12-13 Teijin Fibers Ltd Opaque woven/knitted fabric, production method and textile thereof
JP2016186137A (en) * 2015-03-27 2016-10-27 東レ株式会社 Woven or knitted fabric having anti-transparency
KR20180036678A (en) * 2018-03-30 2018-04-09 도레이첨단소재 주식회사 The method for manufacturing palse twisted yarns for a velvet fabric
KR101940473B1 (en) * 2018-03-30 2019-01-21 도레이첨단소재 주식회사 The method for manufacturing palse twisted yarns for a velvet fabric

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