201215721 六、發明說明: 【發明所屬之技術領域】 本發明係關於—種多層結構編織物。更詳細而言,本發 明係關於-種吸濕性優異、穿著時之舒適性優異、因運動 等而滿身出汗時難以感制㈣感,且出㈣即便於相當 大量地出汗之情形時亦難以感覺到汗水所致之黏黏感或浸 濕感、冰涼感,且觸感或外觀良好之多層結構編織物、以 及使用S玄編織物之纖維製品、例如内衣、便服、寝具等。 【先前技術】 棉、銅氨等纖維素系材料係吸濕性、吸水性優異,於用 作衣服之情形時,一般在不出汗之狀態(無感覺性水份流失 時)或少量出汗時非常舒適。然而,於夏天或運動時出汗量 超過約100 g/m2之情形時,纖維素系材料因容易保持所吸收 之汗,故而容易產生所謂黏黏感或運動後之冰涼感。尤其 於出汗量超過約200 g/m2之情形時,該黏黏感或冰涼感較為 嚴重,更使穿衣者感到非常不適。 作為用以防止此種黏黏感或冰涼感所致之不適感之方 法’係以使汗自衣服之肌膚側轉移至正面側,不使水分殘 留於肌膚側為目的,不斷深入各種纖物之研究。其大多數 情況係提出各種於肌膚側使用疏水性纖維者,且令使用之 絲之單絲細度或剖面形狀於編織物正面側與背面側不同之 纖物等。 例如,以下之專利文獻1與專利文獻2中,提出有一種編 織物,其係藉由於編織物正面側使用吸水能力優異之纖 I55152.doc 201215721 維’且於編織物背面(肌膚)側使用吸水能力較差之纖維,而 形成不使水分殘留於編織物背面側之結構’從而抑制黏黏 感或冰涼感。 專利文獻1,係於編織物背面(肌膚)側使用吸水能力較差 之纖維,故而可謂吸汗能力並不充分,又,因使用棉等短 纖維作為吸水能力優異之纖維,故而擴散所吸收之汗之能 力亦較差,因此,黏黏減輕之效果不夠充分。 另方面,專利文獻2,係使用纖維素長絲作為吸水能力 同之纖維,故而擴散能力優異,但由於在編織物背面(肌膚) 側使用疏水纖維,故吸汗能力不夠充分。 又於以下之專利文獻3中,亦揭示有一種於編織物背面 (肌膚)側設置凹凸,且於該凸部配置聚酯長絲纖維,於凹部 配置嫘縈長絲纖維的編織物,但因接觸於肌膚之凸部為疏 水性纖維而與專利文獻1或專利文獻2中記載之編織物 同樣地吸汗能力不夠充分。 進而於專利文獻4中,揭示有一種於編織物背面(肌膚) 側包含親水性纖维之編織物。專利文獻4係揭示有如下編織 物其使用包含親水性纖維與疏水性纖維之編織物,使編 織物背面(肌膚)側之緯圈密度大於編織物正面側,且對編織 物月面(肌膚)側賦予凹凸,由此具有肌膚之乾爽感。 然而’該、編織物因高密度且親水性纖維之混率非常高達 到25〜75%,故而於肌膚側得到保水,即便存在凹凸黏黏感 亦較大’作為衣料用途之肌膚DRY性不夠充分。 如此’仍然存在提供自無感覺性水份流失時或少量出汗 155152.doc 201215721 時到達大量出汗時為止,無悶熱且可抑制黏黏感或冰涼感 之舒適之編織物的必要性。 [先前技術文獻] [專利文獻] [專利文獻1]日本專利特開2001-81652號公報 [專利文獻2]日本專利特開平1〇_25643號公報 [專利文獻3]日本專利特開平ι〇_131〇〇〇號公報 [專利文獻4]日本專利特開2004· 19015 1號公報 【發明内容】 [發明所欲解決之問題] 本發明所欲解決之課題在於提供一種於無感覺性水份流 失時或少量出汗時舒適不悶熱,且即便於因運動等而大量 出汗之情形時,亦難以感覺到汗水所致之黏黏感或浸濕 感、冰涼感,質地良好,進而磨損性亦優異之編織物。 [解決問題之技術手段] 本發明者等人為了解決上述問題而進行銳意研究,且反 覆實驗,結果發現,可藉由於編織物之背面側(肌膚面)表面 附近配置特定量之纖維素系長纖維而解決上述問題,從而 完成本發明。 即,本發明係如下所述。 [1] 一種編織物,其特徵在於:於至少包含纖維素系長 纖維5〜25重量。/。及合成纖維75〜95重量%之編織物之至少一 表面A,該編織物之深度〇_ 13 mm以内之區域中之該纖維素 系長纖維之出現部分之面積相對於該編織物整體之面積為 155152.doc 201215721 〇·2〜15%’而且’該表面⑽g/m2水分給予時之觸摸冷 覺性為180〜330 W/m2.°C。 文 [2] 如上述[1]之編織物,其中厚度為〇 2 。 [3] 如上述[1]或[2]之編織物,其中於上述表面a具有深 度0.13〜0.50 mm之凹凸。 [4] 如上述[1〗至[3】中任一項之編織物,其中與上述表面 A為相反側之表面b係包含合成纖維。 [5] 如上述[1]至[3]中任一項之編織物,其中將上述編織 物整體之纖維素長纖維混率設為χ,而且將上述編織物之深 度0· 13 mm以内之區域内之纖維素長纖維的出現比率設為γ 時,X>Y 〇 [6] 如上述[1 ]至[5]中任一項之編織物,其中上述纖維素 系長纖維係為與聚酯系或聚醯胺系長纖維之複合絲。 [7] —種纖維製品,其包含如上述[丨]至中任一項之編 織物,且上述表面Α於穿著時位於肌膚面。 [發明之效果] 本發明之編織物’係於無感覺性水份流失時或少量出汗 時’舒適不悶熱,且即便於因運動等而大量出汗之情形時, 亦難以感覺到汗水所致之黏黏感或浸濕感、冰涼感,質地 良好’進而磨損性亦優異,故而可適合用作内衣、便服、 寢具用之編織物。 【實施方式】 以下,對本發明進行詳細說明。 本發明之編織物係至少包含纖維素系長纖維5〜25重量% 155152.doc 201215721 及合成纖維75〜95重量%之編織物。即,於本發明之編織物 中,包含編織物整體之5〜25重量%之纖維素系長纖維,較 佳為5〜20重量%。 本說明書中,所謂纖維素系長纖維,存在有嫘繁、銅氨、 醋酸等再生纖維素長纖維、絲網等天然纖維素長纖維等, 且無特別限制。該等,係與棉或再生纖維素短纖維等纖維 素短纖維相比,起毛較少,且絲表面較為平滑,故而水分 之擴散能力高。其中,較佳為再生纖維素長纖維,且再: 纖維素長纖維中之螺榮長纖維、銅氨長纖維與原料棉相 比,纖維之水分率亦較大,吸濕效果較大,故而更佳。尤 其’銅氨長纖維與螺縈長纖維相比一條纖維之表面形狀亦 較為平滑,細度亦較細,因此,用於編織物時非常柔軟, 質地較佳’故而尤佳。可藉由有效地將該等纖維配置於編 織物中,而製成吸濕性與黏黏減輕效果優異'無感覺性水 份流失時或少量至大量出汗時均不悶熱或黏黏之穿著時舒 適之編織物。於纖維素長纖維相對編織物整體之含量小於 5%之情形時,吸濕性較小,無感覺性水份流失時或少量出 汗時吸收氣體之汗的能力較差,又,纖維素長纖維之吸水、 果刀亦1付不充分’無法期待出汗時之黏黏減輕效 果,、、扁織物穿著時之舒適性較差。另一方面,於纖維辛長 ^之Γ量超過25%之情形時,下述出汗時之黏黏或出 “感變大,因此,編織物穿著時之舒適性較差。 纖維素系長纖維之細度並無特別限定,較佳為約22〜約84 德士⑷⑻’更佳為約33〜約56心。纖維素系長纖維之單 I55152.doc 201215721 絲細度亦無特別限定’就觸感及質地之觀點而言,較 約0.5〜約2 dtex。 於使編織物中含有纖維素系長纖維時,可與聚酯系或聚 醯胺系等合成纖維之長纖維或短纖維交編進行使用,俚纖 維素系長纖維係作為與聚酯系或聚醯胺系長纖維等合成纖 維、尤其合成長纖維之複合絲配置於編織物,就此而言, 利於汗處理之觀點。較佳為合成長纖維之細度為約22〜約料 dtex且單絲細度為約〇 5〜約2以以之複絲以使複合時不會 損及觸感。纖維素系長纖維與進行複合之合成長纖維之細 度之比較佳為1:3〜2:1。就出汗時之擴斂之汗處理之觀點而 吕,合成長纖維較佳為異形剖面,由於賈型剖面纖維為異 形且扁平,故而滿足毛細作用之汗處理與柔軟度兩者,故 而較佳。 纖維素系長纖維或纖維素系長纖維與合成纖維之長纖維 的複合絲,係與其他纖維交編地配置於編織物。交編對象 絲較佳為合成纖維之長纖維,尤佳為聚酯系或聚醯胺系長 纖維’且較佳為細度為約16〜約17〇以以且單絲細度為約 〇_5〜約2 dtex之複絲。亦可將聚胺基曱酸酯纖維適當進行交 編,對編織物賦予伸縮性。本發明所使用之複絲中,亦可 含有二氧化鈦等消光劑、磷酸等穩定劑、經基m同衍 生物等紫外線吸收劑、滑石等晶核劑、艾羅技等潤滑劑、 受阻齡衍生物等抗氧化劑、阻燃劑、抗靜電劑、顏料、榮 光增白劑、紅外線吸收劑、消泡劑等。 本發明之編織物中所用之材料亦可具有捲縮,且就觸感 155152.doc 201215721 之觀點而言,捲縮延伸率較佳為0〜丨5〇%。再者,假撚紗之 捲縮延伸率以如下條件測定。 將捲縮紗之上端固定,且於下端施加177xl〇·3 cN/dt之負 重,測定30秒後之長度(a)。其次,卸除丨77x1〇-3 eN/dt《 負重,施加0.088 cN/dt之負重,測定3〇秒後之長度(B),且 藉由下述式(1): 捲縮延伸率(%)={(B-A)/A}xl〇〇 〇) 求出捲縮延伸率。 如上所述,本發明之編織物係至少包含纖維素系長纖維 5〜25重量。/。及合成纖維75〜95重量%之編織物。即,於本發 明之編織物中’亦可包含該纖維素系長纖維與合成纖維以 外之纖維。其中,包含編織物整體之75~95重量%之該合成 纖維,較佳為80〜95重量〇/〇。 本發明之編織物之特徵在於,於一表面Α,深度〇13 _ 以内之區域中之纖維素系長纖維之出現部分的面積相對編 織物整體之面積狀2〜15%,較佳為G.5〜1G%。此處,所謂 深度0.13 mm以内之區域,係指表面八甲之最外層,該層直 接接觸於肌膚之汗水進行吸汗。可藉由製成於該層配置有 ;量之纖維素長纖維,且於編織物之内部層較多地配置有 ’截,准素長纖維之傾斜配置結構,而與合成纖維1〇〇%位於編 Λ物肌膚面之先别之編織物相比,迅速地進行吸汗,且藉 由傾斜配置之纖維素長纖維而較強地吸收至編織物内部 層進而,藉由纖維素長纖維之擴散性,使汗水廣闊地擴 政至編織物内而不會滞I如此,便使肌膚之汗水迅速且 I55152.doc 201215721 大量地進入至編織物内,從而可飛躍性地改善穿著時之黏 黏。又’纖維素系長纖維因水之擴散性亦較為優異,故而 於内部層容易使水擴散,使擴散之汗水散發至濕度低於肌 膚側之正面側。 右為了將纖維素長纖維自編織物之最外層傾斜配置於内 部層,而將編織物整體中之纖維素長纖維混率設為χ(重量 % )’將最外層中之纖維素長纖維之出現比率設為γ (面積 %),則較佳為Χ>Υ,更佳為(2/3)·Χ>Υ,尤佳為(1/2)·χ>γβ 本發明,係以此方式將最外層表面中之纖維素長纖維出現 率變得低於編織物整體中之纖維素長纖維混率表現為傾斜 配置纖維素長纖維。 再者,即便處於考慮到纖維素長纖維之比重為約15,而 合成纖維之比重通常小於此比重(―般而言,聚酯系纖維為 約1.4,聚胺基甲酸醋纖維為約丨.2,聚醯胺系纖維為約 情形之最外層中之纖維素長纖維之出現量比率γ w (重量叫 與X的關係中,亦较佳為x>Yw,更佳為(2/3).x>Yw,尤佳 為(l/2).X>Yw。 此時’ Yw係由下述式(2)求出: (2) 而且,D2為纖維素長201215721 VI. Description of the Invention: [Technical Field to Which the Invention Is Ascribed] The present invention relates to a multilayer structure woven fabric. More specifically, the present invention is excellent in hygroscopicity, excellent in comfort at the time of wearing, and it is difficult to sense (four) feeling when sweating due to exercise or the like, and (4) even in a relatively large amount of sweating. It is also difficult to feel the sticky feeling or the wet feeling, the cold feeling caused by sweat, and the multi-layer structure woven fabric having good touch or appearance, and the fiber product using S-synthesis, such as underwear, casual clothes, bedding, and the like. [Prior Art] Cellulose materials such as cotton and copper ammonia are excellent in hygroscopicity and water absorption. When used as clothes, they are generally in a state of no sweat (no sensory moisture loss) or a small amount of sweating. Very comfortable. However, in the case where the amount of sweating in the summer or exercise exceeds about 100 g/m2, the cellulose-based material is liable to maintain the absorbed sweat, so that it is easy to cause a so-called sticky feeling or a feeling of cooling after exercise. Especially when the amount of sweating exceeds about 200 g/m2, the stickiness or the chilliness is more serious, which makes the wearer feel very uncomfortable. The method of preventing the discomfort caused by such a sticky feeling or a cold feeling is to make the sweat shift from the skin side of the clothes to the front side, so that the moisture does not remain on the skin side, and the various types of the fiber are continuously penetrated. the study. In most cases, it is proposed that various types of hydrophobic fibers are used on the skin side, and the fineness or cross-sectional shape of the filament to be used is different from the front side and the back side of the knitted fabric. For example, in Patent Document 1 and Patent Document 2 below, there is proposed a woven fabric which uses water which is excellent in water absorbing ability on the front side of the woven fabric, and uses water absorbing on the back (skin) side of the woven fabric. A fiber having a poor ability to form a structure that does not leave moisture on the back side of the woven fabric, thereby suppressing a feeling of stickiness or chilliness. Patent Document 1 uses a fiber having a poor water absorption capacity on the back side (skin) side of the woven fabric, so that the sweat absorbing ability is not sufficient, and short fibers such as cotton are used as fibers having excellent water absorbing ability, so that the absorbed sweat is diffused. The ability is also poor, so the effect of viscosity reduction is not sufficient. On the other hand, in Patent Document 2, cellulose filaments are used as the water absorbing ability, so that the diffusion ability is excellent, but since the hydrophobic fibers are used on the back side (skin) side of the woven fabric, the sweat absorbing ability is insufficient. Further, Patent Document 3 below discloses a knitted fabric in which irregularities are provided on the back surface (skin) side of the knitted fabric, polyester filament fibers are disposed in the convex portion, and filament fibers are disposed in the concave portion. The convex portion that is in contact with the skin is a hydrophobic fiber, and the sweat absorbing ability is insufficient as in the case of the knitted fabric described in Patent Document 1 or Patent Document 2. Further, Patent Document 4 discloses a knitted fabric comprising a hydrophilic fiber on the back side (skin) side of the knitted fabric. Patent Document 4 discloses a knitted fabric comprising a woven fabric comprising a hydrophilic fiber and a hydrophobic fiber, such that the latitudinal density on the back (skin) side of the woven fabric is larger than the front side of the woven fabric, and the woven moon (skin) is applied to the woven fabric. The side is provided with unevenness, thereby giving the skin a dry feeling. However, since the knit fabric has a high density and a high degree of mixing of hydrophilic fibers as high as 25 to 75%, water retention on the skin side is obtained, and the unevenness of adhesion is large. The DRY property as a clothing material is insufficient. Thus, there is still a need to provide a comfortable knit fabric that is free from sultry heat and can suppress the feeling of stickiness or coolness when there is no sensation of water loss or a small amount of sweating when 155152.doc 201215721. [PRIOR ART DOCUMENT] [Patent Document 1] Japanese Patent Laid-Open Publication No. 2001-81652 [Patent Document 2] Japanese Patent Laid-Open Publication No. Hei No. Hei. [Patent Document 4] Japanese Patent Laid-Open No. 2004-19015 No. 1 SUMMARY OF THE INVENTION [Problems to be Solved by the Invention] The object of the present invention is to provide a sensory water loss. It is not sultry when sweating a small amount of sweat, and even when sweating a lot due to exercise, it is difficult to feel the sticky or soaking feeling, the cold feeling caused by sweat, the texture is good, and the wear is also good. Excellent braid. [Means for Solving the Problems] The inventors of the present invention conducted intensive studies to solve the above problems, and repeated experiments, and found that a certain amount of cellulose was disposed in the vicinity of the surface of the back side (skin surface) of the knitted fabric. The fiber solves the above problems, thereby completing the present invention. That is, the present invention is as follows. [1] A woven fabric comprising at least 5 to 25 parts by weight of a cellulose-based long fiber. /. And at least one surface A of the woven fabric of 75 to 95% by weight of the synthetic fiber, the area of the portion of the cellulose-based long fiber in the region of the woven fabric having a depth of 〇 13 mm or less relative to the entire area of the woven fabric For the 155152.doc 201215721 〇·2~15%' and 'the surface (10) g / m2 moisture when given the touch coldness is 180~330 W / m2. °C. [2] The knitted fabric according to [1] above, wherein the thickness is 〇 2 . [3] The woven fabric according to the above [1] or [2], wherein the surface a has a concavity and convexity of a depth of 0.13 to 0.50 mm. [4] The knitted fabric according to any one of [1] to [3] wherein the surface b opposite to the surface A is a synthetic fiber. [5] The woven fabric according to any one of the above [1] to [3] wherein the cellulose long fiber mixture of the entire woven fabric is set to χ, and the woven fabric has a depth of less than 0.13 mm. The woven fabric of any one of the above [1] to [5], wherein the cellulose-based long-fiber is a polyester A composite yarn of a long-fiber or polyamine-based long fiber. [7] A fibrous product comprising the woven fabric according to any one of the above [丨], wherein the surface is placed on the skin surface when worn. [Effect of the Invention] The woven fabric of the present invention is 'comfortable and not sultry when there is no loss of perceptual moisture or a small amount of sweating, and it is difficult to feel sweat even when a lot of sweat is caused by exercise or the like. The adhesiveness, the wet feeling, the cool feeling, the good texture, and the excellent abrasion resistance, so that it can be suitably used as a knitted fabric for underwear, casual clothes, and bedding. [Embodiment] Hereinafter, the present invention will be described in detail. The woven fabric of the present invention comprises at least a woven fabric of 5 to 25% by weight of the cellulose-based long fibers 155152.doc 201215721 and 75 to 95% by weight of the synthetic fibers. That is, in the knitted fabric of the present invention, the cellulose-based long fiber containing 5 to 25% by weight of the entire knitted fabric is preferably 5 to 20% by weight. In the present invention, the cellulose-based long fibers include, but are not limited to, regenerated cellulose long fibers such as copper ammonia and acetic acid, and natural cellulose long fibers such as a mesh. These are less fuzzing than the short staple fibers such as cotton or regenerated cellulose short fibers, and the surface of the yarn is relatively smooth, so that the water diffusion ability is high. Among them, it is preferred to regenerate the cellulose long fiber, and again: the long fiber of the long fiber of the cellulose long fiber and the long copper fiber of the copper ammonia have a larger moisture content than the raw material cotton, and the moisture absorption effect is large, so Better. In particular, the copper-ammonia long fiber has a smoother surface shape and a finer fineness than the long fiber of the snail, so that it is very soft and has a better texture when used for the woven fabric. By effectively disposing the fibers in the woven fabric, it is excellent in hygroscopicity and viscosity-reducing effect. When there is no sensory moisture loss or a small amount to a large amount of sweating, it is not sultry or sticky. Comfortable braid. When the content of the cellulose long fiber relative to the whole knitted fabric is less than 5%, the hygroscopicity is small, and the ability to absorb the sweat of the gas when there is no loss of sensory water or a small amount of sweat is poor, and the cellulose long fiber is further. The water absorption and the fruit knife are also insufficiently paid. 'The viscosity-reducing effect when sweating cannot be expected, and the flat fabric is less comfortable to wear. On the other hand, when the amount of the fiber is more than 25%, the stickiness or the "sensation" when sweating described below is large, and therefore the comfort of the knitted fabric is poor. The fineness is not particularly limited, and is preferably from about 22 to about 84 tex (4) (8)', more preferably from about 33 to about 56. The cellulose-based long-fiber single I55152.doc 201215721 is not particularly limited. From the viewpoint of the touch and the texture, it is about 0.5 to about 2 dtex. When the woven fabric contains cellulose-based long fibers, it can be blended with long fibers or short fibers of synthetic fibers such as polyester or polyamide. The woven cellulose-based long-fiber system is disposed as a composite yarn of a synthetic fiber such as a polyester-based or a polyamide-based long-fiber, in particular, a synthetic long-fiber, and is used in a knitted fabric, and is advantageous in terms of sweat treatment. Preferably, the fine fiber of the synthetic long fiber has a fineness of about 22 to about dtex and a fineness of the monofilament of about 〇5 to about 2 to be a multifilament so that the composite does not impair the touch. The fineness of the composite synthetic long fiber is preferably 1:3 to 2:1. From the viewpoint of sweat treatment, it is preferred that the synthetic long fibers have a profiled profile, and since the fibers of the profiled profile are irregular and flat, it is preferable to satisfy both the sweat treatment and the softness of the capillary action. The composite yarn of the long fiber of the filament and the synthetic fiber is arranged in the woven fabric in combination with other fibers. The yarn to be woven is preferably a long fiber of synthetic fiber, and more preferably a polyester or a polyamide. The long fibers 'and preferably have a fineness of from about 16 to about 17 Å and a monofilament fineness of from about 〇5 to about 2 dtex. The polyamino phthalate fibers may also be suitably blended. The multifilament used in the present invention may contain a matting agent such as titanium dioxide, a stabilizer such as phosphoric acid, a UV absorber such as a base m-like derivative, a crystal nucleating agent such as talc, or a irotech. An antioxidant, a flame retardant, an antistatic agent, a pigment, a glare brightener, an infrared ray absorbing agent, an antifoaming agent, etc., such as a lubricant or a hindered age derivative. The material used in the woven fabric of the present invention may also have a crimp. And the touch is 155152.doc 2012 From the viewpoint of 15721, the crimp elongation is preferably from 0 to 丨 5 %. Further, the crimp elongation of the false twist yarn is measured under the following conditions: The upper end of the crimped yarn is fixed, and 177 x 1 is applied to the lower end. · 3 cN/dt load, measure the length after 30 seconds (a). Secondly, remove 丨77x1〇-3 eN/dt" load, apply a load of 0.088 cN/dt, measure the length after 3 ( seconds (B And the crimp elongation is determined by the following formula (1): crimp elongation (%) = {(BA) / A} xl 〇〇〇. As described above, the woven fabric of the present invention is at least The woven fabric comprising 5 to 25 parts by weight of the cellulose-based long fibers and 75 to 95% by weight of the synthetic fibers, that is, the woven fabric of the present invention may also include fibers other than the cellulose-based long fibers and synthetic fibers. . The synthetic fiber comprising 75 to 95% by weight of the entire woven fabric, preferably 80 to 95% by weight. The woven fabric of the present invention is characterized in that the area of the appearance portion of the cellulose-based long fibers in the region of the depth 〇13 _ on the surface 2 is 2 to 15%, preferably G. 5 to 1G%. Here, the area within 0.13 mm in depth refers to the outermost layer of the surface of the top eight, which is directly in contact with the sweat of the skin to absorb sweat. A long fiber of cellulose can be disposed in the layer, and a plurality of the inner layers of the woven fabric are disposed with a slanted arrangement of 'cut-and-length fibers, and 1% of the synthetic fibers. Compared with the other knitted fabrics on the surface of the braided skin, it absorbs sweat rapidly and absorbs strongly into the inner layer of the braid by the obliquely arranged long cellulose fibers, thereby spreading the long cellulose fibers. Sexuality, so that sweat can be widely expanded into the braid without stagnation, so that the skin's sweat is swift and I enter into the braid in a large amount, which can greatly improve the stickiness when wearing. Further, the cellulose-based long fibers are also excellent in water diffusibility, so that the inner layer easily diffuses water and the diffused sweat is released to a level lower than the front side of the skin side. Right, in order to arrange the outermost layer of the cellulose long fiber from the braid to the inner layer, the cellulose long fiber mixture in the whole braid is set to χ (% by weight) 'the appearance of the cellulose long fiber in the outermost layer When the ratio is γ (area%), it is preferably Χ>Υ, more preferably (2/3)·Χ>Υ, and particularly preferably (1/2)·χ>γβ. The present invention is The occurrence rate of the cellulose long fibers in the outermost surface becomes lower than the cellulose long fiber mixture in the entire knitted fabric as the obliquely arranged cellulose long fibers. Furthermore, even if the specific gravity of the cellulose long fibers is considered to be about 15, the specific gravity of the synthetic fibers is usually smaller than the specific gravity ("Generally, the polyester fiber is about 1.4, and the polyurethane fiber is about 丨. 2, the polyamine fiber is the ratio of the amount of occurrence of the cellulose long fiber in the outermost layer of the case γ w (the relationship between the weight and the X is also preferably x > Yw, more preferably (2/3) .x>Yw, especially preferably (l/2).X>Yw. At this time, 'Yw is determined by the following formula (2): (2) Moreover, D2 is cellulose long
Yw=Y.d,/{X.D,+(1〇〇-X).d2} {式中、為纖維素長纖維之比重 纖維以外之纖維之平均比重)。 維 亦 本發明之編織物由於在接觸肌膚之表面A配置少量纖 素系長纖維而使觸感亦優異。又,因吸濕性優異,故而 可抑制悶熱感。 J55152.doc -10· 201215721 為了進一步提高本發明之編織物之黏黏減輕效果,而可 製成對表面A賦予凹凸之編織組織。凸部與凹部之高度之差 較佳為約0.13〜約〇.5〇 mm。又,凸部係均等地分佈於表面 八體而。,較佳為測定試料中任意之1⑽乂 1 範圍時, 任何範圍均存在10個以上之上述範圍之凸部,且凸部面積 較佳為表面之面積之10〜70%左右。作為賦予凹凸之方法, 可列舉對編織組織進行設計加入集圈組織及空針組織之方 法、將絲疊縫於凸部之方法、改變絲細度之方法等。 藉由對編織物之表面賦予凹凸而使接觸冷溫感變小,因 此,將該面用作肌膚面時,可進一步減輕出汗時之黏黏。 若凸邛與凹。P之尚度之差未達約〇13 mm,則與肌膚之接觸 面積,和無凹凸者相比並無不同,因此,無法認為存在有 凹凸,從而無法期待編織物之黏黏感之進一步減輕效果。 若凸部與凹部之高度之差為約0.13mm以上,則將編織物之 具有凹凸之側作為肌膚面進行穿著時肌膚與編織物之接觸 面積變少,編織物吸收水分時黏黏感之減輕效果較大。另 一方面,若凸部與凹部之高度之差超過約0 50 mm,則作為 布料厚度變大,因凹凸所致之發硬變大,除此以外,存在 因保有空氣層而變得悶熱等損及穿著感之情形,故而不宜。 又,:¾凸部與凹部之兩度之差超過〇13 mm,則存在未包 含於上述之距離表面之深度為0.13 mm以下之區域的區 域。即,於此情形時,可將表面A分為深度為〇13 mm以下 之區域(以下設為表面A中之最外層)與深度超過〇13 mm之 區域(以下設為表面A中之内層)。表面a中之最外層之編織 155152.doc • 11 201215721 P之佔有面積較佳為表面A之總面積之1 〇〜70%。 凸。卩與凹。卩之尚度之差係由電子顯微鏡等拍攝編織物之 。"、、片且對五個部位進行測定,求出平均值。凸部與 凹邓之差只要為約〇 17〜約〇 45 則更佳。 以本發明之編織物之表面A成為穿著者之肌膚側之方式 配置,戴維t’藉此,較佳地呈現出上述本發明之編織物 發揮之效果。 本發明之編織物之特徵在於,表面A之200 g/rn2水分給予 時之觸摸冷覺性為約〜約33〇 W/m2,〇c。該觸摸冷覺性 (以下亦稱為接觸冷覺值)較佳為約18〇〜28〇 w/m2^c,更佳 為約180〜約260 W/mkc ,進而更佳為約180〜約24〇 W/m2.〇C。 觸摸冷覺性之測定係使用Kat〇 Tech公司製造之 Thermolab II。該裝置係測定將加溫之熱板置於試料上時之 熱移動量。具體之測定方法如下所述。 將用於測定之試料於2(rc、65% RH(相對濕度)之環境下 增濕24小時之後’取樣8 cmx8 cm,測定將20°C、65% RH 環境下加熱至301之熱板載置於使編織物表面a置於上面 之編織物樣品之瞬間的最大熱移動量。 給予200 g/m2之水分時之水分係假設大量出汗地運動時 纖物所吸之汗水之水分量的條件。 測定時之水分之給予方法’只要為以對試料之表面A側喷 霧,使以8 cmx8 cm取樣之試料之重量成為+1.28 g之方式給 予水分即可。此時之喷霧内之水溫為20°C。 155152.doc -12· 201215721 若於編織物中殘留有水分,則因水之導熱率較高,而自 熱板奪去大量熱,使得觸摸冷覺性變大。即,觸摸冷覺性 較大之試料意味著黏黏感較大,若超過約330 W/m2·^:,則 黏黏感非常大而不宜,另一方面,若未達約180 W/m2,t, 則黏黏感較小,故而較佳,但為了使觸摸冷覺性未達約 W/m C而必需使凹凸顯著變大,就觸感之觀點而言較為不 宜。再者,先前之含有纖維素之編織物通常較大地超過約 330 W/m2,°C,而本發明’係將纖維素長纖維傾斜配置於編 織物,發揮纖維素長纖維之吸水、擴散能力,藉此,成為 即便大量給予水分之狀態下亦可改良黏黏性之編織物。 本發明之編織物之厚度較佳為約〇 5〜約12 mm。 編織物之厚度係使用Peac〇ck公司製造之厚度測定器使 Φ3.0 cm之測定部以5g之負重接觸於編織物,並測定三個部 位並求出平均值。於厚度小於約〇 5 之情形時缺乏汗處 理性,難以獲得舒適感,另一方面,於厚度超過約1.2 變大,損及觸感。本發明之編織物 1·〇 mm。本發明係藉由纖維素長纖 迅速吸收肌膚之汗水,因此,即便 之情形時,布料之硬化 之厚度更佳為約〇 · 5〜約 維之吸水、擴散性,而 比10 0 %聚酯且藉由正面與背面之密度差或細度差而實現 減輕黏黏之編織物薄之編織物,亦可發揮相同程度之效果。 於本發明之編織物中,與表面A相反之表面B較佳為主要 包含合成纖維。其原因在於’若於編織物之表面配置纖維 素系長纖維,則存在穿著時之纖維製品表面側因摩擦而容 易斷線’ X ’與其他交編或複合纖維容易產生色差或光澤 I55I52.doc •13- 201215721 差從而損及外觀之虞。表面B中之纖維素系長纖維之出現部 分之面積較佳為相對編織物整體之面積為5%以下,更佳為 1%以下,進而更佳為〇.2%以下,且較佳為小於上述之表面 之深度0.13mm以内之區域中之纖維素系長纖維之出現部 分之面積比率。最佳為表面B僅包含合成纖維。 本發明之編織物既可為經編亦可為緯編,且較佳為正反 兩層與其令間具有内層之三層以上之層結構,而即便因編 織、’且織上之制約’各層之邊界不清晰亦無問題,只要功能 性地發揮與三層同等之作用之編織物即可。 作為用以製作本發明之編織物之編織機,可使用橫編機 或雙圆編織機、經編機、拉舍爾編織機等,但為了製作具 有三層以上之層之多層編織物’較佳為雙圓編織機。作為 使用之編織機之針距,較佳為約1〇〜約4〇gg。 作為用以製作本發明之編織物之編織組織,於雙圓編織 物之情形時’可使用斜紋布、泡泡織物、蜂巢紋布、波紋 網眼等,雖不限定於此,但較佳為使用有在編織物背面側 可獲得凹凸之集圈編織的組織。經編,係只要例如利用三 片箱於中間配置纖維素系纖維,製成呈現凹凸之組織即^ 達到預期之效果。本發明之編織物正反面之緯圈方向之環 數/、要在編織上無問題則並無特別限定。 為了發揮本發明之編織物之黏黏減輕效果,於三層結構 之編織物之表面A之最外層配置少量之纖維素長纖維,且於 表面A之内層配置相較最外層為多量之纖維素長纖維,於表 面B配置合成纖維的傾斜配置結構較為有效。於此情形時, 155152.doc 201215721 例如可藉由改變供絲之批數或絲細度而控制交編對象之絲 與纖維素長纖維之供給量,藉此,便可使纖維素長纖維傾 斜。又’於兩層結構編織物中使表面A為纖維素長纖維或其 複合絲與合成纖維之鍍圈編織,將纖維素長纖維主要配置 於編織物表面A之内層側,藉此即便非明確之三層結構,亦 可較佳地使用滿足本發明之構成之方法。亦可使用如下方 法,即’於表面A使用纖維素長纖維或其複合絲與合成纖 維’並將其絲細度變更,使合成纖維之絲變粗,藉此,相 對地於内部配置纖維素長纖維,於此情形時,較佳為使表 面A中之合成纖維之細度為纖維素長纖維或該複合絲之細 度之1.5倍以上。 本發明之編織物之單位面積重量並無特別限定,較佳為 約50〜約300 g/m2,更佳為約80~約250 g/m2。 又’較理想為對本發明之編織物實施吸水加工。 本發明之編織物亦可藉由使表面B之編織密度大於表面 A之編織密度,而呈現出毛細管現象,使水分自表面a側向 表面B側移動。若將此種具有水分移動功能之本發明之編織 物表面A作為衣服之肌膚面穿著,則即便大量出汗時水分亦 難以殘留於肌膚面,從而可進一步減輕穿著時之黏黏感或 冰涼感。此種編織物可藉由圓盤側與針筒側具有不同之針 距之異針距編織機而製造。 為了呈現出毛細管現象而可使編織物表面B之井方向之 圈數為編織物表面A側之井方向之圈數之約M倍〜約4.$ 倍。表面之井方向之圈數係以密度計或織物分析鏡等測定 155152.doc -15- 201215721 每一寬度2.54 cm(l英吋)之線圈圈數。此處,所謂圈數,係 指分別於編織物之正反面確認之織圈之線圈之個數,掛圈 或沉片紗圈之類的線圈不包含於圈數中。 作為呈現毛細管現象之另一方法,可列舉使表面B側之單 絲之絲細度小於表面A側之單絲之絲細度,較佳為使表面B 側之單絲之絲細度為表面A側之單絲之絲細度的1 / 2以下。 本發明之編織物可用於穿著於人體之纖維製品。此時, 只要以本發明之編織物之表面B位於外側,表面八位於肌膚 側之方式使用,則可發揮上述效果。 本發明之編織物於纖維製品中較佳為用於衣料、尤其便 服或内衣等需要汗處理功能之衣料,但並不限於此,亦可 應用於外衣或襯料等衣料、或床單等寢具、進而失禁短褲 等衛生用品,並具有吸濕性能之舒適性’且可發揮減輕水 分之黏黏感或冰涼感之效果。 [實施例] 以下,藉由實施例對本發明進行具體說明。當然,本發 明並不限定於此。 再者,由實施例獲得之編織物係以如下方法進行評價。 (1)表面A之纖维素長纖维之出現面積 (1)使編織物試料浸渍於包含中濃色之直接染料 (s—nght Blue等)1% owm5 g/1 之Na2S〇4之染料液中^ 於 90C下加熱30分鐘,將布料之纖維素長纖維部分染色。將 染色後之試料定型為密度與染色前無變化。 μ (ϋ) 自上述(i)之試料隨機確定三處縱橫丨cm cm之範 155152.doc -16- 201215721 圍,並進行標記以可於絲等令立體地進行識別。 (⑴)利用三維表面形狀測定裝置,以測定間隔2〇 對 試料之表面Α之標記部分進行計測,且修正數據之斜率之 後,於excel之等高線圖中每隔2〇μιη改變高度之爪狀值,將 1 cmxi cm之試料中將出現無偏移之分佈之高度作為表面A 之最外面之高度,將相距該處小於〇13 mm之值作為等高線 圖中之max值,製作二維圖,藉此,可確定表面八之最外層 部(深度0.13 mm以内之區域)。此處,所謂「出現無偏移之 分佈之向度」,係指將1 cmxl cm之區域以5 mmx5爪爪為單 位分割成4個區域時,所分割之任一區域均出現表面之高 度。以如下方法計測最外層表面中之纖維素長纖維。 (iv)利用顯微鏡對相同試料之表面A之標記部分拍攝照 片,將上述(iii)與(iv)之數據疊合,計算表面A之最外層表 面中之經著色之絲所出現之部分,作為纖維素長纖維之出 現面積。再者,於(iv)之圖像處理較困難之情形時,亦可以 相同尺寸列印上述(iii)與㈣之數據,並測^⑽部 分之紙之重量之後,將兩者疊合,切除最外層部,進而切 除其中之染色絲部分,豸重量敎算出。編織物之表面八 之纖維素長纖維之出現面積係藉由下述式(3)而算出. 編織物之表面A之纖維素長纖維之出現比率(面積最 外層部表面中之纖維素長纖維之出現面積/試料面積⑺ (2)纖維素長纖維混率(重量〇/0) 編織物整體之纖維素料編織物之纖維素長纖維之 交編率,且根據編織物編織而成時之絲 、τ、月耗重置、或者 155152.doc •17- 201215721 將所得之編織物分解測定所得之纖維素長纖維重量藉由下 述式(4): χ(重量%)=(編織物中之纖維素長纖維重量/編織物重 量)X100(4) 而算出,但於使用絲量之算出較困難之情形時,亦可根 據編織物之水分率算出。 (3)穿著試驗 穿著以經染色加工之編織物之背面側成為肌膚面之方式 製作之上衣,於28°C、65%RH環境之人工氣候室内安靜10 分鐘之後,利用大武route工業公司製造之treadmillORK-3000 以時速8 km進行30分鐘之行走運動,再次安靜1〇分鐘《對 行走運動前之觸感/質地、及舒適感、以及行進運動後之黏 黏感、及冰涼感分別按照以下評價基準進行官能評價: <行進運動前之觸感/質地> 〇:觸感或質地佳。 △:觸感或質地略差。 x :觸感或質地差。 〈行進運動前之舒適感> 〇:舒適。 △:略微不適。 X :不適。 <行進運動後之黏黏感> 〇:未感覺黏黏感 △:略微感覺黏黏感。 155152.doc 201215721 x:感覺黏黏感。 <行進運動後之冰涼感> 〇:未感覺冰涼感。 △:略微感覺冰涼感。 X:感覺冰涼感。 [實施例1] 使用圓盤側為18 GG且針筒側為24 GG之雙異針距圓編 機,將聚酯圓剖面加工絲84 dtex/72 f、33 dtex/24 f之銅氨 圓剖面絲與56 dtex/72 f之聚酯圓剖面絲交織混織後假撚製 作而成之複合絲(捲縮延伸率7.4%)、及將四條聚酯圓剖面 加工絲84 dtex/72 f拉齊而成之絲(總細度3 3 6 dtex)以圖1之 編織組織(圖中之圓數字表示編織順序)所示的方式供絲,獲 得編織物胚布。利用液流染色機以8〇°C χ20分鐘對該胚布進 行精練,水洗之後’利用針梳拉幅機以拉幅率2〇%進行 1 80°C x90秒之預定型加工。其後,利用液流染色機進行 13 0 C之聚酯染色、吸水加工、水洗之後’利用針梳拉幅機 延伸至可褪去褶皺之程度’進行150°c><90秒之最終定型加 工’從而獲得單位面積重量150 g/m2、厚度0.97 mm之編織 物。於所獲得知編織物之表面A側存在所配置之絲之細度不 同造成之凸部,深度0.13 mm以内之區域(最外層部)為編織 物整體之面積中之55%。表面A最外層之纖維素長纖維之出 現面積比率為織物整體之面積之2.5%,且纖維素長纖維為 傾斜配置。表面B中之纖維素長纖維之出現面積比率為 0%。表面A之水分200 g/m2給予時之接觸冷覺值為 155I52.doc 19· 201215721 W/m2*°C ’由該編織物獲得之上衣之穿著試驗中,獲得運動 前亦舒適且出汗後亦無黏黏感或冰涼感的結果。結果示於 以下表1中。 [實施例2] 使用28針距雙圓編織機,將聚酯圓剖面加工絲56 dtex/72 f、 33 dtex/24 f之銅氨圓剖面絲與56 dtex/72 f之聚酯圓剖面絲 交織混織後假撚製作所得之複合絲、聚酯圓剖面加工絲5 6 dtex/24 f以圖2之編織組織(圖中之圓數字表示編織順序,且 同一列中所記之編織部位(例如圓數字1與13)進行相同絲種 之供絲)之方式進行供絲,在進行複合絲與聚酯圓剖面加工 絲56 dtex/24 f之供絲時,進行鍍圈並以複合絲配置於編織 物内側之方式進行編織,且以與實施例丨相同之方式進行加 工,獲得單位面積重量134 g/m2、厚度〇·69 mm之編織物。 於所獲得之編織物之表面A側中存在疊絲之凸部,且表面A 最外層之纖維素長纖維之出現面積比率為4·7%,纖維素長 纖維為傾斜配置。表面Β _之纖維素長纖維之出現面積比率 為〇%。表面Α之水分200 g/m2給予時之接觸冷覺值為22〇 W/m2,°C,由該編織物獲得之上衣之穿著試驗中,運動前亦 舒適,且出汗後亦不無黏黏感或冰涼感。結果示於以下表1 中〇 [實施例3] 使用28 GG之經編機,於前面將聚酯圓剖面加工絲% dtex/24 f作為組織丨0/23,於中間以組織2丨/丨〇交替一條地配 置聚酯圓剖面加工絲56 dtex/24 f與銅氨圓剖面絲兄 155152.doc -20· 201215721 dtex/30 f於後面配置聚酯w剖面加工絲% dtex/3〇 f作為組 織10/12自氨圓剖面絲係主要配置於編織物之中間層。以 與實施例1相同之方式進行加工處理,獲得單位面積重量 138g/m2、厚度〇.61mmi編織物。於所獲得之編織物之表 面A側存在編織組織之凹凸’且表面a最外層之纖維素長纖 維之出現面積比率為9.3%,纖維素長纖維為傾斜配置。表 面B中之纖維素長纖維之出現面積比率為〇%。表面a之水分 200 g/m2給予時之接觸冷覺值為255 w/m2·。。,由該編織物 所侍之上衣之穿著試驗中,舒適且無黏黏感或冰涼感。結 果示於以下表1中。 [實施例4] 使用26針距雙圓編織機,將聚醋圓剖面加工絲μf、 33 dtex/24 f之銅氨圓剖面絲與56 dtex/72 f之聚酯圓剖面絲 交織混織後饭撚製作而成之複合絲、及聚酯圓剖面加工絲 5 6 dtex/24 f ’以圖3之編織組織(圖中之圓數字表示編織順 序,且同一列所記之編織部位(例如圓數字丨、5、9)進行相 同絲種之供絲)之方式供絲,於複合絲與聚酯圓剖面加工絲 56 dtex/24 f進行供絲時,以進行鍍圈且將複合絲配置於編 織物内側之方式編織,且以與實施例丨相同之方式進行加 工,獲得單位面積重量M8 g/m2、厚度〇 68 mm之編織物。 所得之編織物之表面A中之凹凸較小,且表面A之纖維素長 纖維之出現面積比率為4.2%,纖維素長纖為傾斜配置。表 面B中之纖維素長纖維之出現面積比率為〇%。表面A之水分 2〇〇g/m2給予時之接觸冷覺值為229 w/m2,t,由該編織物 155152.doc -21- 201215721 所得之上衣之穿著試驗中,運動前亦舒適,且出汗後亦無 黏黏感或冰涼感。結果示於以下表1中。 [實施例5] 除了使用嫘縈84 dtex/30 f取代實施例2之鋼氨圓剖面原 絲33dtex/24f以外,製作與實施例2相同之編織物,獲得單 位面積重量H7g/m2、厚度〇.78mm之編織物。於所得之編 織物之表面A側存在疊絲所致之凸冑,且表面A最外層之纖 維素長纖維之出現面積比率為9.8%’纖維素長纖維為傾斜 配置。表面B中之纖維素長纖維之出現面積比率㈣。表 面A之水分200 g/m2給予時之接觸冷覺值為273 w/mVc, 由該編織物所得之上衣之穿荖秸敌_ 士 牙者忒驗中,舒適且無黏黏感或 冰涼感。結果示於以下表1中。 [實施例6] 將實施例2之複合絲變更A s ι文马56 dtex/30 f之銅氨圓剖面 絲,以圖2之編織組織所示之方 心万式進仃供絲,且使其他條件 與實施例2相同’獲得單位面籍 甸積重量127g/m2、厚度〇.68rnm 之編織物。於所得之編織物 〜切 < 表面A側存在疊絲所致之凸 部,且表面A最外層之镳绐表 戴維素長纖維之出現面積比率為 13.8。/〇。表面B中之纖維素長输 長織維之出現面積比率為3%。表Yw=Y.d, /{X.D, +(1〇〇-X).d2} {wherein, the specific gravity of the fiber other than the fiber is the average specific gravity of the fiber. In the knitted fabric of the present invention, a small amount of fibrin-based long fibers are disposed on the surface A of the skin contact, and the touch is also excellent. Further, since it is excellent in hygroscopicity, it can suppress the feeling of stuffiness. J55152.doc -10· 201215721 In order to further improve the adhesion-relieving effect of the woven fabric of the present invention, a woven structure in which irregularities are imparted to the surface A can be obtained. The difference between the height of the convex portion and the concave portion is preferably about 0.13 to about 〇.5 〇 mm. Further, the convex portions are equally distributed on the surface of the body. Preferably, in the range of 1 (10) 乂 1 in the measurement sample, there are 10 or more convex portions in the above range in any range, and the convex portion area is preferably about 10 to 70% of the surface area. Examples of the method of imparting unevenness include a method of designing a weaving structure to add a tuck organization and an empty needle structure, a method of sewing a wire to a convex portion, and a method of changing the fineness of the wire. By providing irregularities to the surface of the knitted fabric, the contact coldness is reduced, so that when the surface is used as a skin surface, the stickiness during sweating can be further reduced. If the convex and concave. When the difference in the degree of P is less than about 13 mm, the contact area with the skin is not different from that of the case where there is no unevenness. Therefore, it is not considered that there is unevenness, and the adhesiveness of the knitted fabric cannot be expected to be further alleviated. effect. When the difference between the height of the convex portion and the concave portion is about 0.13 mm or more, the contact area between the skin and the knitted fabric is reduced when the side having the uneven surface of the knitted fabric is worn as the skin surface, and the adhesive feeling is reduced when the knitted fabric absorbs moisture. The effect is greater. On the other hand, when the difference between the heights of the convex portions and the concave portions is more than about 0 50 mm, the thickness of the cloth becomes large, and the hardness due to the unevenness becomes large, and the air layer becomes sultry due to the air layer. It is not appropriate to damage the feeling of wearing. Further, if the difference between the two degrees of the convex portion and the concave portion exceeds 〇13 mm, there is a region which is not included in the above-mentioned distance surface having a depth of 0.13 mm or less. That is, in this case, the surface A can be divided into a region having a depth of 〇13 mm or less (hereinafter referred to as the outermost layer of the surface A) and a region having a depth exceeding 〇13 mm (hereinafter referred to as the inner layer of the surface A) . Weaving of the outermost layer of surface a 155152.doc • 11 201215721 The occupied area of P is preferably 1 〇 to 70% of the total area of surface A. Convex.卩 and concave. The difference in the degree of sputum is the result of photographing the braid by an electron microscope or the like. ",, and the measurement of five parts, the average value was obtained. The difference between the convex portion and the concave Deng is preferably as long as about 17 to about 45. The surface A of the knitted fabric of the present invention is disposed so as to be on the skin side of the wearer, and David T' preferably exhibits the effect exerted by the above-described knitted fabric of the present invention. The woven fabric of the present invention is characterized in that the touch coldness of 200 g/rn2 of the surface A is about ~ about 33 〇 W/m2, 〇c. The touch coldness (hereinafter also referred to as contact coldness value) is preferably about 18 〇 to 28 〇 w/m 2 ^ c, more preferably about 180 to about 260 W/mkc, and even more preferably about 180 to about 24 〇W/m2.〇C. The touch sensitivity measurement was performed using Thermolab II manufactured by Kats Tech. This apparatus measures the amount of heat transfer when a heated hot plate is placed on a sample. The specific measurement method is as follows. The sample used for the measurement was humidified for 24 hours in an environment of 2 (rc, 65% RH (relative humidity) for 24 hours> sampling 8 cm x 8 cm, and the hot plate was heated to 301 at 20 ° C, 65% RH. The maximum amount of thermal movement placed at the moment when the woven fabric surface a is placed on the woven fabric sample. The moisture given to the water of 200 g/m2 is assumed to be the amount of sweat absorbed by the smear when the sweat is excessively sweated. The method of administering the moisture at the time of the measurement is as long as the surface of the sample is sprayed on the side of the sample A, and the weight of the sample sampled at 8 cm x 8 cm is +1.28 g. The water temperature is 20 ° C. 155152.doc -12· 201215721 If moisture remains in the braid, the thermal conductivity of the water is high, and the heat is removed from the hot plate, which makes the touch coldness become larger. Touching a sample with a high degree of coldness means that the stickiness is large. If it exceeds about 330 W/m2·^:, the stickiness is very large, and on the other hand, if it is less than about 180 W/m2, t, The adhesiveness is small, so it is preferable, but in order to make the touch coldness less than about W/m C, it is necessary to make the unevenness remarkable. Large, it is less suitable from the point of view of touch. Moreover, the previous cellulose-containing woven fabric usually exceeds about 330 W/m2, °C, and the present invention is configured to slant the long cellulose fibers in the woven fabric. The woven fabric exhibits a water absorbing and diffusing ability of the cellulose long fibers, whereby the woven fabric can be improved in a state in which a large amount of water is imparted. The thickness of the woven fabric of the present invention is preferably from about 〜5 to about 12 Mm. The thickness of the woven fabric was measured by a thickness measuring device manufactured by Peac 〇ck, and the measuring portion of Φ 3.0 cm was brought into contact with the woven fabric with a load of 5 g, and three portions were measured to obtain an average value. The thickness was less than about 〇. In the case of 5, there is a lack of sweat treatment property, and it is difficult to obtain comfort. On the other hand, the thickness becomes more than about 1.2, which deteriorates the touch. The knitted fabric of the present invention is 1 mm. The present invention is made of cellulose long fiber. Quickly absorbs the sweat of the skin, so even in the case, the thickness of the hardened fabric is better than about 〇·5~约维, which is more than 100% polyester and the difference between the front and back. Or poorly detailed The lightly viscous woven fabric can also exert the same degree of effect. In the woven fabric of the present invention, the surface B opposite to the surface A preferably contains synthetic fibers mainly because of the woven fabric. When the cellulose-based long fibers are disposed on the surface, the surface side of the fiber product when worn is easily broken due to friction. 'X' is liable to cause chromatic aberration or gloss with other interlaced or composite fibers. I55I52.doc •13-201215721 The area of the appearance of the cellulose-based long fibers in the surface B is preferably 5% or less, more preferably 1% or less, and even more preferably 0.2% or less, relative to the entire knitted fabric. It is preferably an area ratio of the portion of the cellulose-based long fibers in the region within 0.13 mm or less of the surface depth. Preferably, surface B contains only synthetic fibers. The woven fabric of the present invention may be warp-knitted or weft-knitted, and preferably has a layer structure of three or more layers having an inner layer between the front and back layers, and even if it is woven, 'and woven on the layer' The boundary is not clear and there is no problem, as long as the braid is functionally equivalent to the three layers. As the knitting machine for producing the knitted fabric of the present invention, a flat knitting machine or a double circular knitting machine, a warp knitting machine, a raschel knitting machine or the like can be used, but in order to produce a multilayer knitted fabric having three or more layers, Jia is a double circular knitting machine. The stitch length of the knitting machine to be used is preferably from about 1 Torr to about 4 〇 gg. As the woven structure for producing the woven fabric of the present invention, in the case of a double circular woven fabric, 'twill fabric, bubble fabric, honeycomb fabric, corrugated mesh or the like can be used, and although it is not limited thereto, it is preferably used. There is a tuck weave in which the unevenness is obtained on the back side of the knitted fabric. In the warp knitting, for example, a cellulose-based fiber is disposed in the middle of a three-piece box to obtain a structure in which irregularities are formed, that is, the desired effect is obtained. The number of loops in the direction of the weft direction of the front and back sides of the knitted fabric of the present invention is not particularly limited as long as there is no problem in knitting. In order to exert the viscosity-reducing effect of the woven fabric of the present invention, a small amount of long cellulose fibers are disposed on the outermost layer of the surface A of the three-layer structure, and a larger amount of cellulose is disposed on the inner layer of the surface A than the outermost layer. The long fiber is more effective in arranging the inclined structure of the synthetic fiber on the surface B. In this case, 155152.doc 201215721, for example, can control the supply amount of the filaments and the cellulose long fibers of the blending object by changing the batch number or the fineness of the yarn supply, thereby allowing the cellulose long fibers to be inclined. . Further, in the two-layer structure woven fabric, the surface A is made of a long cellulose fiber or a composite yarn thereof and a synthetic fiber, and the cellulose long fiber is mainly disposed on the inner side of the surface A of the knitted fabric, thereby making it clear. For the three-layer structure, a method that satisfies the constitution of the present invention can also be preferably used. The method of using cellulose long fibers or composite yarns and synthetic fibers on the surface A and changing the fineness of the filaments to thicken the filaments of the synthetic fibers can be used, whereby cellulose is relatively disposed inside. In the case of a long fiber, it is preferred that the fineness of the synthetic fiber in the surface A is 1.5 times or more the fineness of the cellulose long fiber or the composite yarn. The basis weight of the woven fabric of the present invention is not particularly limited, but is preferably from about 50 to about 300 g/m2, more preferably from about 80 to about 250 g/m2. Further, it is preferable to subject the knitted fabric of the present invention to water absorbing processing. The woven fabric of the present invention can also exhibit a capillary phenomenon by causing the weave density of the surface B to be larger than the weave density of the surface A, and the moisture is moved from the surface a side to the surface B side. When the surface A of the knitted fabric of the present invention having such a moisture-moving function is worn as the skin surface of the garment, moisture is hard to remain on the skin surface even when sweating a lot, and the feeling of stickiness or coldness during wearing can be further alleviated. . Such a braid can be manufactured by a different stitch knitting machine having a different stitch pitch on the side of the disk and the side of the barrel. In order to exhibit capillary action, the number of turns in the direction of the well surface B of the braid may be about M times to about 4.. times the number of turns in the direction of the well on the A side of the braid. The number of turns in the direction of the well is measured by a densitometer or a fabric analysis mirror. 155152.doc -15- 201215721 The number of turns of each width of 2.54 cm (l inch). Here, the number of turns refers to the number of stitches of the weaving ring which are confirmed on the front and back sides of the knitted fabric, and the stitches such as the hanging loop or the sinker loop are not included in the number of turns. As another method of exhibiting the capillary phenomenon, the fineness of the monofilament on the surface B side is smaller than the fineness of the monofilament on the surface A side, and it is preferable that the fineness of the monofilament on the surface B side is the surface. The fineness of the monofilament of the A side is less than 1/2. The woven fabric of the present invention can be used for a fiber product that is worn on a human body. In this case, the above effect can be exerted by using the surface B of the knitted fabric of the present invention on the outer side and the surface eight on the skin side. The woven fabric of the present invention is preferably used for the clothing, especially the casual clothes or underwear, and the like, which is required for the sweat treatment function, but is not limited thereto, and can also be applied to clothes such as outer clothes or lining materials, or bedding such as bed sheets. And incontinence shorts and other sanitary products, and has the comfort of moisture absorption performance' and can play the effect of reducing the sticky or cold feeling of moisture. [Examples] Hereinafter, the present invention will be specifically described by way of examples. Of course, the present invention is not limited to this. Further, the woven fabric obtained in the examples was evaluated in the following manner. (1) The area where the cellulose long fibers of the surface A are present (1) The woven fabric sample is immersed in a dye containing a neutral dye (s-nght Blue, etc.) of 1% owm5 g/1 of Na2S〇4 The medium was heated at 90 C for 30 minutes to dye the long fiber portion of the cloth. The dyed sample was shaped to have no change in density and before dyeing. μ (ϋ) From the above (i) sample, three vertical and horizontal 丨 cm cm 155152.doc -16- 201215721 are randomly determined and marked so that they can be stereoscopically recognized by silk. ((1)) Using a three-dimensional surface shape measuring device, measuring the mark portion of the surface Α of the sample at a measurement interval of 2 ,, and correcting the slope of the data, and changing the claw value of the height every 2 〇 μηη in the contour map of excel In the sample of 1 cmxi cm, the height of the distribution without offset is taken as the outermost height of the surface A, and the value less than 〇13 mm from the point is taken as the max value in the contour map to make a two-dimensional map. Thus, the outermost portion of the surface eight (the area within 0.13 mm in depth) can be determined. Here, the term "the degree of deviation of the distribution without offset" means that when a region of 1 cm x 1 cm is divided into four regions by 5 mm x 5 claws, the height of the surface appears in any of the divided regions. The cellulose long fibers in the outermost surface were measured in the following manner. (iv) taking a photograph of the marked portion of the surface A of the same sample with a microscope, superimposing the data of the above (iii) and (iv), and calculating the portion of the outermost surface of the surface A where the colored yarn appears, as The area in which cellulose long fibers are present. Furthermore, when the image processing of (iv) is difficult, the data of (iii) and (4) above may be printed in the same size, and the weight of the paper of (10) is measured, and then the two are superposed and cut off. The outermost layer portion, and then the portion of the dyed silk therein, is cut out and the weight is calculated. The appearance area of the cellulose long fibers on the surface of the woven fabric is calculated by the following formula (3). The appearance ratio of the cellulose long fibers on the surface A of the woven fabric (the long cellulose fibers in the outermost surface of the area) Area of occurrence/sample area (7) (2) Cellulose long fiber mixture (weight 〇/0) The interlacing rate of the cellulose long fiber of the cellulose fabric woven fabric as a whole, and the yarn is woven according to the woven fabric. , τ, monthly consumption reset, or 155152.doc • 17- 201215721 The weight of the cellulose long fiber obtained by decomposing the obtained braid is determined by the following formula (4): χ (% by weight) = (in the woven fabric) The cellulose long fiber weight/knitted weight) X100(4) is calculated. However, when the calculation of the amount of silk is difficult, the moisture content of the knitted fabric can be calculated. (3) Wearing a test and dyeing The back side of the knitted fabric is made into a skin surface, and the top is made to be in the artificial climate of the environment of 28 ° C and 65% RH. After 10 minutes, the treadmillORK-3000 manufactured by Daewoo Route Industrial Co., Ltd. is used for 30 minutes at a speed of 8 km per hour. Walking movement Quiet once again for 1 minute "The touch/texture and comfort before walking, and the sticky feeling and the feeling of coldness after running, respectively, were evaluated according to the following evaluation criteria: <Tactile feeling before traveling/ Texture> 〇: Good touch or texture. △: The touch or texture is slightly worse. x : The touch or texture is poor. <Comfort before moving forward> 〇: Comfortable △: Slightly discomfort X: Uncomfortable. <stickiness after traveling> 〇: no feeling of stickiness △: slightly felt sticky. 155152.doc 201215721 x: feeling sticky. <cooling feeling after traveling> 〇:未Feeling a cold feeling △: A slight feeling of coldness. X: A feeling of coldness. [Example 1] A circular cross section of a polyester was used with a double eccentric circular knitting machine with a disc side of 18 GG and a syringe side of 24 GG. The composite wire made of false wire is woven with 84 dtex/72 f, 33 dtex/24 f copper-ammonia cross-section wire and 56 dtex/72 f polyester circular cross-section. The crimp elongation is 7.4%. ), and four filaments of round cross-section processed wire 84 dtex/72 f (total fineness 3 3 6 dtex) as shown in Figure 1. The woven fabric is obtained by a method of weaving the structure (the circle number in the figure indicates the knitting order), and the woven fabric is obtained by a liquid flow dyeing machine at 8 ° C for 20 minutes, and after washing with a needle comb The tenter performs a predetermined type of processing at 180 ° C for 90 seconds at a tenter rate of 2%. Thereafter, the polyester dyeing, water absorption processing, and water washing using a liquid flow dyeing machine are used. The machine was extended to the extent that the wrinkles were removed '150 ° c ><90 seconds final setting process' to obtain a knit fabric having a basis weight of 150 g/m 2 and a thickness of 0.97 mm. On the surface A side of the obtained known knitted fabric, there is a convex portion which is caused by the fineness of the disposed yarn, and the region (outermost layer portion) having a depth of 0.13 mm or less is 55% of the entire area of the knitted fabric. The area ratio of the cellulose long fibers of the outermost layer of the surface A was 2.5% of the area of the entire fabric, and the long cellulose fibers were in a slanted configuration. The area ratio of the cellulose long fibers in the surface B was 0%. The contact coldness value of the surface A of 200 g/m2 was 155I52.doc 19·201215721 W/m2*°C 'In the wearing test of the top of the knitted fabric, it was comfortable before sweating and after sweating. There is also no result of stickiness or chilliness. The results are shown in Table 1 below. [Example 2] Polyurethane circular cross-section yarn of 56 dtex/72 f, 33 dtex/24 f and 56 dtex/72 f polyester circular cross-section yarn were processed using a 28-pitch double circular knitting machine. After weaving and weaving, the composite yarn obtained by the false twisting and the polyester circular cross-section processing wire are 6 6 dtex/24 f in the weave structure of Fig. 2 (the circle numbers in the figure indicate the knitting order, and the knitting parts recorded in the same column ( For example, round numbers 1 and 13) are supplied in the same manner as the silk supply of the same type of silk. When the composite yarn and the polyester circular cross-section processed yarn are supplied at 56 dtex/24 f, the plating is performed and the composite yarn is arranged. The knitting was carried out on the inner side of the knitted fabric, and processed in the same manner as in Example , to obtain a knitted fabric having a basis weight of 134 g/m 2 and a thickness of 〇 69 mm. In the surface A side of the obtained knitted fabric, there was a convex portion of the overlap, and the appearance ratio of the cellulose long fibers of the outermost layer of the surface A was 4.7%, and the cellulose long fibers were in an inclined configuration. The area ratio of the appearance of the cellulose long fibers of the surface Β _ is 〇%. When the surface moisture is 200 g/m2, the contact coldness value is 22 〇W/m2, °C, and the woven fabric is used in the wearing test of the top, which is comfortable before exercise and not sticky after sweating. Sticky or cold feeling. The results are shown in Table 1 below. [Example 3] Using a 28 GG warp knitting machine, the polyester circular cross-section processed yarn % dtex/24 f was used as the structure 丨0/23 in the middle, and the structure was 2丨/丨 in the middle. 〇 Alternately arranged polyester round cross-section processing wire 56 dtex/24 f and copper ammonia round cross section silk brother 155152.doc -20· 201215721 dtex/30 f in the back configuration polyester w cross-section processing wire% dtex/3〇f as The tissue 10/12 self-ammonia cross-section silk system is mainly disposed in the middle layer of the braid. The processing was carried out in the same manner as in Example 1 to obtain a woven fabric having a basis weight of 138 g/m 2 and a thickness of 61.61 mmi. The unevenness of the weave structure was present on the surface A side of the obtained knitted fabric, and the area ratio of the cellulose long fibers of the outermost layer of the surface a was 9.3%, and the long cellulose fibers were arranged obliquely. The area ratio of the occurrence of the cellulose long fibers in the surface B was 〇%. The moisture of the surface a was 200 g/m2, and the contact coldness value was 255 w/m2·. . In the test of wearing the top of the woven fabric, it is comfortable and has no sticky or cool feeling. The results are shown in Table 1 below. [Example 4] A 26-pitch double-circle knitting machine was used to interweave a polyester round cross-section yarn of a polystyrene round cross-section, a df, a 33 dtex/24 f, and a polyester circular cross-section yarn of 56 dtex/72 f. The composite yarn made from rice cooker and the polyester circular cross-section processed wire 5 6 dtex/24 f 'weave the structure in Fig. 3 (the circle number in the figure indicates the knitting order, and the knitting part recorded in the same column (for example, a circle) The numbers 丨, 5, and 9) are supplied by the same type of silk. When the composite yarn and the polyester circular cross-section processing wire are fed at 56 dtex/24 f, the plating is performed and the composite yarn is disposed. The inner side of the knitted fabric was woven, and processed in the same manner as in Example , to obtain a knitted fabric having a basis weight of M8 g/m 2 and a thickness of 〇 68 mm. The unevenness in the surface A of the obtained knitted fabric was small, and the ratio of the area of the cellulose long fibers on the surface A was 4.2%, and the cellulose long fibers were arranged obliquely. The area ratio of the occurrence of the cellulose long fibers in the surface B was 〇%. The moisture of the surface A was 2 〇〇g/m2, and the contact coldness value was 229 w/m2, t. In the wearing test of the woven fabric obtained from the woven fabric 155152.doc -21 - 201215721, it was comfortable before the exercise, and There is no sticky or cold feeling after sweating. The results are shown in Table 1 below. [Example 5] A woven fabric similar to that of Example 2 was produced except that 嫘萦84 dtex/30 f was used instead of the steel ammonia round cross-section strand 33dtex/24f of Example 2, and the basis weight H7g/m2 was obtained. .78mm braid. On the surface A side of the obtained knitted fabric, there was a ridge due to the lamination, and the ratio of the appearance area of the long fibers of the outermost surface of the surface A was 9.8%. The cellulose long fibers were inclined. The area ratio of the occurrence of the cellulose long fibers in the surface B (four). When the moisture of the surface A is 200 g/m2, the contact coldness value is 273 w/mVc, and the woven fabric obtained from the woven fabric is sturdy and has no sticky or cold feeling. . The results are shown in Table 1 below. [Example 6] The composite yarn of Example 2 was changed to A s ι wenma 56 dtex/30 f copper-ammonia cross-section yarn, and the square-shaped skein of the woven structure shown in Fig. 2 was supplied to the yarn, and Other conditions were the same as in Example 2, and a knit fabric having a unit surface density of 127 g/m 2 and a thickness of 6868 nm was obtained. In the obtained knit fabric, the cut-to-cut < surface A side has a convex portion due to the lamination, and the outermost surface of the surface A has a ratio of the appearance area of the davidin long fiber of 13.8. /〇. The area ratio of the long-weaving cellulose in the surface B was 3%. table
面A之水分200 g/m2給予時夕祕A 了巧之接觸冷覺值為294 w/m2.t, 由該編織物所得之上衣之穿1 〇式驗中’黏黏感或冰涼感較 小。結果示於以下表1中。 [比較例1 ] 使用28 GG之雙圓編織機, 乂替一條地配置將56 dtex/24 f 155152.doc -22- 201215721 之銅氨圓刮面絲與56 dtex/72 f之聚酯圓剖面絲交織混織後 饭撤製作而成之複合絲與聚醋圓剖面加工絲84 dtex/72 f, 且以圖4所示之編織組織進行編織。與實施例丨同樣地進行 加工,獲得單位面積重量139g/m2、厚度〇 71 mm之編織物。 所得之編織物之表面A中之凹凸較小,且表面a之纖維素長 纖維之出現面積比率較大為18.8%,纖維素長纖維未傾斜配 置。表面B中之纖維素長纖維之出現面積比率為丨8%。水分 200 g/m2給予時之接觸冷覺值為355 ·ν(:,由該編織物 所得之上衣之穿著試驗中’黏黏感或冰涼感較大。結果示 於以下表1中》 [比較例2] 除了使所有絲為聚醋圓形剖面加工絲84 Μ2 f以外, 以1實施例2相同之方式進行製作,獲得單位面積重量i26 £/〇1厚度〇.66 111111之編織物。編織物係為聚醋1〇〇。/〇,水分 200 g/m、,,。予時之接觸冷覺值為,由該編織物 所得之上衣之穿輯驗時’欠缺運動前後之舒適性。結果 示於以下表1中。 155152.doc -23- 201215721 行進運 動前之 冰涼感 〇 〇 〇 < 〇 <1 X X 行進運 動前之 黏黏感 〇 〇 〇 〇 < < X X 行進運 動前之 舒適感 〇 〇 〇 〇 〇 〇 〇 X 行進運 動前之 質地 觸感 〇 〇 〇 〇 <3 〇 〇 X 200g/m2 水分給予 時之接觸 冷覺值 (w/m2〇C) «Λ ON (N *Λ <Ν o (N (N <N s (Ν *Τι r-> 穿 m 側肌凹凸 高度之差 (mm) •Λ m ο 卜 〇 ΟΟ Ο 〇 2 ο S d Ο s d «Λ <Ν 卜· m σ; (N — 00 σ; oo cn oo 〇ό o | 混牟(%) I 合成 埴維 CN Ό\ 5; OS »Λ ΟΟ oo 00 o 織維 素 οο ON 卜 卜 PO CN CN o 厚度 (mm) r*» σ\ S 〇 ο oo \〇 o οο ο s o r- o SO SO 〇 V0 与扭1足 § 5 00 η «Μ oo B On m v〇 fS 编織 组織 m ΓΝ 困 1 困 (Ν 困 (S 困 m (N 租 编織機 雙囷 编織機 1 雙圓 编織物 劲 雙囿 編織物 雙圓 編織物 雙圓 编織物 雙圓 编織物 雙圓 编織物 供絲絲種 I 表面B ιβ ·*- 咽 <s ^ S ^ Φ ^ β ϋ§ ^ 聚酯圓剖 面84 dtex/72 f 聚酯園 剖面56 dtex/72 f 聚酯1 剖面56 dtex/24 f 聚酯圓 剖面84 dtex/72 f 聚酯圆 剖面56 dtex/72 f 聚趄固 剖面56 dtex/72 f 聚酯圓 剖面84 dtex/72 f 聚酯圓 剖面84 dtex/72 f 表面A 1 ^ i〇 琢老習与$ R fti ϊη 銅氨 33 dtex/24 f 圓剖面 56 dtex/72 f 複合絲 銅氨 56 dtex/30 f ^ Θ g<〇 嫘縈 84 dtex/30 f聚酯W型剖面 56 dtex/72 f 複合絲 銅氨 56 dtex/30 f rs vR ^ 1 ^ S g <D 3谜*3球 喵g进 « s ^ T) 4 筅谜S ^ 聚酯園剖 面56 dtex/24 f 聚fi|W型 剖面56 dtex/30 f 聚酯圓 剖面56 dtex/24 f 聚酯圓 剖面56 dtex/24 f 聚酯圓 剖面56 dtex/24 f 聚酯圓 剖面84 dtex/72 f 聚酯圓 剖面84 dtex/72 f 實施例 1 實施例 2 實施例 3 資施例 4 實施例 5 實施例 6 比較例 1 比較例 2 -24· 155152.doc 201215721 [產業上之可利用性] 若使用本發明之編織物,則可製造無感覺性水份流失時 不悶熱之舒適、且少量出汗時或長時間之運動等所致之大 量出汗時亦可減輕黏黏感或冰涼感之衣服等之纖維製品, 如此製造之纖維製品例如便服'内衣、外衣等衣服或寢具 等可獲得舒適之穿著感。 【圖式簡單說明】 圖1係本發明之編織物組織圖之/例; 圖2係本發明之編織物組織圖之〆例; 圖3係本發明之編織物組織圖之/例;及 圖4係先前之編織物組織圖之一例。 155152.doc -25·The moisture of the surface A is 200 g/m2, and the cold contact value is 294 w/m2.t. The upper garment of the woven fabric is worn by the 1 〇 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' small. The results are shown in Table 1 below. [Comparative Example 1] Using a 28 GG double circular knitting machine, a copper round scraping wire of 56 dtex/24 f 155152.doc -22- 201215721 and a polyester circular cross section of 56 dtex/72 f were disposed for one place. The composite yarn and the polyacetal round cross-section processed wire 84 dtex/72 f were prepared by weaving and weaving the silk, and weaving was performed by the weave structure shown in Fig. 4. The same procedure as in Example , was carried out to obtain a woven fabric having a basis weight of 139 g/m 2 and a thickness of 〇 71 mm. The unevenness in the surface A of the obtained knitted fabric was small, and the ratio of the area of occurrence of the cellulose long fibers of the surface a was 18.8%, and the long cellulose fibers were not inclined. The area ratio of the occurrence of the cellulose long fibers in the surface B was 丨8%. The contact coldness value when the moisture was 200 g/m2 was 355 · ν (:, the feeling of stickiness or chilliness in the wearing test of the top garment obtained from the woven fabric was large. The results are shown in Table 1 below. [Comparative Example 2] A woven fabric having a basis weight of i26 £/〇1 and a thickness of 66.66 111111 was obtained in the same manner as in Example 2 except that all the filaments were processed into a round cross-section processed yarn 84 Μ 2 f. The fabric is made of vinegar 1 〇〇 〇 〇 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 水分 200 200 The results are shown in the following Table 1. 155152.doc -23- 201215721 Cold feeling before the marching movement<〇<1 XX Sticky feeling before the marching movement<< XX Before the marching movement Comfort 〇〇〇〇〇〇〇X Texture before touch. 〇〇〇〇<3 〇〇X 200g/m2 Contact coldness value when moisture is given (w/m2〇C) «Λ ON ( N *Λ <Ν o (N (N <N s (Ν *Τι r-> wear difference in the height of the m side muscles (mm) •Λ m ο 〇ΟΟ Ο 〇 2 ο S d Ο sd «Λ <Ν 卜· m σ; (N — 00 σ; oo cn oo 〇ό o | 牟 (%) I 埴 CN CN Ό 5 5 5; OS »Λ ΟΟ oo 00 o 织维素οο ON Bub PO CN CN o Thickness (mm) r*» σ\ S 〇ο oo \〇o οο ο so r- o SO SO 〇V0 and twist 1 foot § 5 00 η «Μ oo B On mv〇fS woven tissue m ΓΝ sleepy 1 sleepy (Ν sleepy (S sleepy m (N rent knitting machine double woven knitting machine 1 double round woven fabric double woven double circular braid double Circular braid double circular braid double circular braid for silk type I Surface B ιβ ·*- pharynx s ^ S ^ Φ ^ β ϋ§ ^ Polyester round section 84 dtex/72 f Polyester section 56 dtex /72 f Polyester 1 Profile 56 dtex/24 f Polyester round profile 84 dtex/72 f Polyester round profile 56 dtex/72 f Polytensive profile 56 dtex/72 f Polyester round profile 84 dtex/72 f Polyester Circular profile 84 dtex/72 f Surface A 1 ^ i〇琢老习和$ R fti ϊη Copper ammonia 33 dtex/24 f Round profile 56 dtex/72 f Composite wire copper ammonia 56 dtex/30 f ^ Θ g<〇嫘萦84 dtex/30 f polyester W profile 56 dtex/72 f Composite wire copper ammonia 56 dtex/30 f rs vR ^ 1 ^ S g <D 3 mystery *3 ball 喵g into « s ^ T) 4 筅 S S ^ polyester garden profile 56 dtex/24 f poly fi|W Profile 56 dtex/30 f Polyester round profile 56 dtex/24 f Polyester round profile 56 dtex/24 f Polyester round profile 56 dtex/24 f Polyester round profile 84 dtex/72 f Polyester round profile 84 dtex/ 72 f Example 1 Example 2 Example 3 Capital Example 4 Example 5 Example 6 Comparative Example 1 Comparative Example 2 - 24 · 155152.doc 201215721 [Industrial Applicability] If the knitted fabric of the present invention is used, Therefore, it is possible to manufacture a fiber product such as clothes which are not sultry when the moisture is lost, and which is not sultry, and which is caused by a small amount of sweating or a long period of exercise, etc., which can also reduce the stickiness or the cold feeling. The manufactured fiber products, such as casual clothes, such as underwear, outerwear, and the like, can be comfortably worn. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an example of a knit structure of the present invention; FIG. 2 is an example of a knit structure of the present invention; FIG. 3 is an example of a knit structure of the present invention; 4 is an example of a previous braided tissue diagram. 155152.doc -25·