| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | 由多层织物组成的织物模(壳)和用织物模(壳)制作的复合物结构 | CN86101091 | 1986-01-30 | CN86101091A | 1986-08-27 | 福森郁彦; 菊田宏 |
| 一种含有多层不同性质的织物的多层织物,每层织物都由地经线、地纬线、连接不同织物的连接经线和编织后能被外部作用破坏的暂时纬线所组成。例如,这些暂时纬线可用比其它纱更弱的纱来制作,这样当外部作用施加于多层织物时,外部作用不损伤连接经纱。因此,多层织物能容易地膨胀至很大厚度。此外还有用多层织物作成的织物模,以及用织物模和填料做成的复合物结构件。 | ||||||
| 42 | System and method for textile positioning | US14297414 | 2014-06-05 | US09890484B2 | 2018-02-13 | Jean-Francois Lecostaouec |
| In various embodiments, the present disclosure relates generally to a method for needling a spiral textile to create a needled preform, the method comprising receiving the spiral textile on a bed plate of a circular needle loom, engaging a positional structure of the spiral textile, rotating the spiral textile around the circular needle loom, depositing a predetermined number of layers of the spiral textile on the bed plate, and needling the spiral textile to create the needled preform. Moreover, the present disclosure also provides, in various embodiments, a method for creating a circular needled preform from a spiral textile, comprising attaching sacrificial fibers to at least one of the weft tow and the plurality of warp tows proximate at least one of the inside diameter and the outside diameter, and engaging the sacrificial fibers with an engagement mechanism on a circular needle loom. | ||||||
| 43 | PILE WOVEN FABRIC AND MANUFACTURING METHOD | US14914509 | 2014-03-31 | US20160208420A1 | 2016-07-21 | Shuichi HOZUMI |
| A pile woven fabric that has both of lightness and thinness almost equivalent to a typical clothing fabric and water absorbency property, heat-retaining property, breathability, good touch feeling, etc. of towel cloth. The pile woven fabric has pile height lower than a typical comparison example towel cloth. The pile woven fabric has a pile formed of a cotton yarn that has a yarn count finer than that of the comparison example. The pile woven fabric has pile density higher than that of the comparison example. In the pile woven fabric, the cotton yarn is twisted together with a water-soluble yarn such that the water-soluble yarn is twisted in a direction opposite to a twisting direction of the cotton yarn, and, after weaving processing, the water-soluble yarn is removed to induce reverse twisting of the cotton yarn. | ||||||
| 44 | Bulked yarn and wound yarn for production of woven or knit fabric, woven or knit fabric, and method for producing the same | US13642382 | 2011-04-20 | US09353465B2 | 2016-05-31 | Koichi Teshima; Masami Asano |
| Provided is a bulked yarn, comprising a bulked single spun yarn obtained from a composite twisted yarn comprising a single spun yarn and a water-soluble yarn, which are twisted together in a direction opposite to a twisting direction of the single spun yarn, by dissolving and removing the water-soluble yarn in a hydrophilic solvent from the composite twisted yarn. When the bulked yarn having a length of 100 cm is hung down in a state where both ends of the yarn are fixed at a distance of 10 cm from each other in a direction perpendicular to the direction of gravitational force, twisting does not occur or an average value of the distances from the uppermost end of a twisting section to the first and second fixed ends of the yarn is 30 cm or more. | ||||||
| 45 | System and method for textile positioning | US13888097 | 2013-05-06 | US08752255B2 | 2014-06-17 | Jean-Francois Lecostaouec |
| In various embodiments, the present disclosure relates generally to a method for needling a spiral textile to create a needled preform, the method comprising receiving the spiral textile on a bed plate of a circular needle loom, engaging a positional structure of the spiral textile, rotating the spiral textile around the circular needle loom, depositing a predetermined number of layers of the spiral textile on the bed plate, and needling the spiral textile to create the needled preform. Moreover, the present disclosure also provides, in various embodiments, a method for creating a circular needled preform from a spiral textile, comprising attaching sacrificial fibers to at least one of the weft tow and the plurality of warp tows proximate at least one of the inside diameter and the outside diameter, and engaging the sacrificial fibers with an engagement mechanism on a circular needle loom. | ||||||
| 46 | Hygro materials for use in making yarns and fabrics | US11581722 | 2006-10-16 | US08733075B2 | 2014-05-27 | Rajesh R. Mandawewala |
| A process is described wherein pile yarn is woven with cotton weft and warp yarns to produce terry fabrics, such as towels. The fabric is then washed in warm water to dissolve the PVA fibers. The amount of fibers dissolved, depends upon the count of the yarn or yarns used. By dissolving the PVA fibers, a hollow air space is produced throughout the pile yarn, corresponding to an increase in the air space in the pile yarn. By increasing the air space in the pile yarn, the resulting towels are softer and bulkier than standard cotton towels. The present invention further relates to pile yarn in terry woven fabric (warp yarn), or weft yarn, in the case of flat fabrics. | ||||||
| 47 | Method of weaving, processing and finishing a pile fabric | US13525426 | 2012-06-18 | US08596305B2 | 2013-12-03 | Kannappan Govindaswamy |
| Disclosed is a method of weaving, processing and finishing a pile fabric whose pile height (H) after processing and finishing is substantially increased, thus obtaining increased pile height (H) which may be multiple of the original pile height (H) of the woven fabric. Specifically, the pile fabric is manufactured with multiple loop heights combining the original woven pile heights and/or different multiples of the original pile heights. Further, a process results in a fabric having a combination of pile heights, and designs by weaving repeats in the conventional way without soluble yarns (Y) in conjunction with repeats woven with multiple soluble yarns (Y). | ||||||
| 48 | SYSTEMS AND METHODS FOR REDUCED CRIMP CARBON FIBER HELICAL FABRIC | US13412321 | 2012-03-05 | US20130231024A1 | 2013-09-05 | Jean-Francois Lecostaouec; Paul Perea |
| Systems and methods for weaving helical carbon fabrics with minimum fiber crimp are provided herein. In various embodiments, small denier natural or synthetic yarns are used in the warp direction to interlace the carbon fiber wefts with minimum deformation. Specific weave designs are used in combination with the small denier yarn to maintain the primary carbon fiber weft and warp un-crimped. | ||||||
| 49 | METHOD OF WEAVING, PROCESSING AND FINISHING A PILE FABRIC | US13525426 | 2012-06-18 | US20120247608A1 | 2012-10-04 | Kannappan GOVINDASWAMY |
| Disclosed is a method of weaving, processing and finishing a pile fabric whose pile height (H) after processing and finishing is substantially increased, thus obtaining increased pile height (H) which may be multiple of the original pile height (H) of the woven fabric. Specifically, the pile fabric is manufactured with multiple loop heights combining the original woven pile heights and/or different multiples of the original pile heights. Further, a process results in a fabric having a combination of pile heights, and designs by weaving repeats in the conventional way without soluble yarns (Y) in conjunction with repeats woven with multiple soluble yarns (Y). | ||||||
| 50 | Opal-finished fabric | US12084097 | 2006-10-26 | US08076253B2 | 2011-12-13 | Masahiko Sakai; Takuya Suehiro; Katsuhiko Yanagi |
| An opal-finished fabric having a stereoscopic pattern is provided, in which both the fiber-decomposed part and the non-decomposed fiber part are rich in color expression, and the fiber-decomposed part having a sufficient strength with a thin material having highly transparent appearance in the fiber-decomposed part. The fabric is an opal-finished fabric obtained with two or more kinds of fibers and formed with a fiber-decomposed part showing a transparent appearance by removing at least one kind of the fibers and a non-decomposed fiber part, in which for solving the problems, the fiber-decomposed part contains mainly nylon fibers, and the non-decomposed fiber part contains mainly colored polyester fibers and non-colored nylon fibers. The non-decomposed fiber part is preferably constituted by a layer containing mainly polyester fibers and a layer containing mainly nylon fibers. The stretchability thereof can be improved by using the fabric further containing polyurethane fibers or weaving the fiber-decomposed part with an atlas stitch structure or a two-needle stitch structure. | ||||||
| 51 | SYSTEM AND METHOD FOR TEXTILE POSITIONING | US12774119 | 2010-05-05 | US20110275266A1 | 2011-11-10 | Jean-Francois Lecostaouec |
| A circular needle loom comprises a stationary bed plate for receiving a spiral textile. Engagement members may be disposed next to the stationary bed plate, such that the engagement members interface with a positional structure of the spiral textile that is used to position and rotate the spiral textile around the stationary bed plate. A conical roller deploys the spiral textile on the stationary bed plate. The engagement members rotate the spiral textile around the stationary bed plate until a predetermined number of layers are deposited on the stationary bed plate.A spiral textile comprises a weft tow that extends from an inside diameter to an outside diameter, and a positional structure, such as a sacrificial edge and/or loop, is located next to and/or is attached to the weft tow. The positional structure facilitates positioning the spiral textile in a desired manner with respect to the circular needle loom in order to create a needled preform. | ||||||
| 52 | Fabric having a removable guide | US12189978 | 2008-08-12 | US07823522B2 | 2010-11-02 | Nancy Sue Hardwig; Ronald B. Hardwig |
| The use of guide line to form a grid in the cross stitch fabric corresponding to the grid in a cross stitch pattern to facilitate the cross stitching process, after which the guide line can be easily removed. | ||||||
| 53 | Method to manufacture tubular woven fabric | US656978 | 1991-02-19 | US5060350A | 1991-10-29 | Philip G. Harris; Tom M. Reid |
| The method of providing an impression fabric in which the fill yarns do not protrude from the plane of the fabric. The impression fabric is a tubular woven fabric in which a plurality of warp yarns is woven in one edge thereof and dissolved by washing after the fabric has been formed. | ||||||
| 54 | Parallel thread supply system | US562032 | 1983-12-15 | US4761864A | 1988-08-09 | Johann Berger; Josef Berger |
| A textile material for supplying parallel threads to a machine for manufacturing two-dimensional textile fabrics. The material is loosely woven and has a low number of withdrawable weft loops 3 per unit length. Immediately prior to entering an end-product machine weft thread 2 is withdrawn to the side, so that the remaining group 1 of threads enters the machine. The material passes over braked rollers 31,32 and a bar 35. Retainer stitches 7 are unravelled and the weft thread 2 is passed through a guide 55 onto a transport device 57. | ||||||
| 55 | A plurality of different disposable and / or reusable made of a material capable of textile substrate, a method of treating such use of textile substrates, and such fabric substrate | JP2014513874 | 2012-06-06 | JP2014516124A | 2014-07-07 | バウメラー,アルフレート |
| 本発明は経糸群と横糸群を含み複数の異なる処理可能なおよび/または再利用可能な材料を含む織物基材(1A)に関する。 全ての経糸と横糸の全体の第1部分は、1本以上の経糸(K1(1),K2(1),K3(1))と1本以上の横糸(S1(1))を含み、第1部分の各経糸と各横糸は第1の様々に処分可能な材料で形成される。 全ての経糸と横糸の全体(K1(2),K2(2),K3(2))の第2部分は1本以上の経糸および/または1本以上の横糸を含み、第2の部分の各経糸と各横糸は第2の処分可能な材料で形成される。 全ての経糸と横糸の全体の第3部分は1本以上の経糸および/または1本以上の横糸 (S1(3)) を含み、第3部分の各経糸と各横糸は化学的および/または物理的方法で破壊可能な材料(Z)からなる。 第1と第2部分の経糸と横糸(K1(1),K2(1),K3(1),K1(2),K2(2),K3(2))は、経糸と横糸が結合せず、第3部分の各経糸および/または横糸 (S1(3)) が破壊された場合に分離可能な形態で、配置される。
【選択図】図3 |
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| 56 | 織編物製造用の膨化糸及び巻き糸並びに織編物及びその製造方法 | JP2012511686 | 2011-04-20 | JPWO2011132708A1 | 2013-07-18 | 宏一 手島; 雅己 浅野 |
| 紡績単糸と水溶性糸とを前記紡績単糸の撚方向と逆の方向に撚り合わせた複合撚糸から水溶性糸を親水性溶媒で溶解除去して得られた膨化紡績単糸を含む膨化糸を調製する。この膨化糸は、100cm長の糸の両端を重力と直交する方向に10cm離した状態で固定して糸を垂らしたとき、ねじりが発生しないか、又はねじり部の最上端から糸の左右両端までの距離の平均値が30cm以上である。この膨化糸は、風合いや軽量性、耐ピリング性に優れ、かつ織編性及び生産性に優れる。さらに、この膨化糸を用いて得られた織編物は、軽量でボリュームがあり、より柔らかくて触感に優れ、より保温性、通気性に優れ、しかもピリングが生じにくく、毛羽落ちがなく、その上吸水性が大きいにも拘わらず、速乾性に優れている。 | ||||||
| 57 | Three-dimensional product having nanoporous surface and method for producing the same | JP2009014258 | 2009-01-26 | JP2010180482A | 2010-08-19 | KUSUURA TAKAHISA |
| PROBLEM TO BE SOLVED: To provide a method for producing a three-dimensional product having a nanoporous surface in which the pore density, pore size or pore size distribution can be easily and readily controlled. SOLUTION: The invention combines two techniques: a method for producing a three-dimensional product in which a yarn is knitted or woven to finish into an arbitrary three-dimensional shape, and a method for transforming a surface consisting of a material in which nanoparticles are dispersed in a matrix to a nanoporous surface by immersing the surface in a liquid which dissolves the nanoparticles but does not dissolve the matrix. COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 58 | 等方性ピッチ系炭素繊維紡績糸、それを用いた複合糸及び織物、並びにそれらの製造方法 | JP2006511281 | 2005-03-22 | JPWO2005090664A1 | 2008-05-22 | 章 竹内; 辰男 小林 |
| 下記の工程を包含する等方性ピッチ系炭素繊維紡績糸織物の製造方法:等方性ピッチ系炭素繊維紡績糸の表面に水溶性高分子繊維を巻き付けて複合糸を得る工程、前記複合糸を製織して複合糸織物を得る工程、及び前記複合糸織物から前記水溶性高分子繊維を溶解除去して等方性ピッチ系炭素繊維紡績糸織物を得る工程。 | ||||||
| 59 | Nubuck textile and a method of manufacturing the same | JP51673196 | 1995-11-17 | JP3187842B2 | 2001-07-16 | 典雄 吉田; 幸二郎 嶋田; 二三男 柴田; 誠二 田近 |
| 60 | Method for producing a suede-like fabric | JP50373995 | 1995-12-27 | JPH10505390A | 1998-05-26 | ゾン マン イ; ヨン スウ オ; ヨン テク グォン; ボオ ユン チォイ; ビョン イン ホン |
| (57)【要約】 アルカリへの溶解度が著しく異なる海成分と島成分を含む極細フィラメントヤーンと、同極細ヤーンよりも細い高収縮性中空ヤーンとを混合して、弾性とバルキネスに優れたスエード状織物を製造することができる。 上記混合ヤーンをタテ糸および/またはヨコ糸に使用して得た生機を処理して極細フィラメントヤーンから易溶性成分を除去する。 この微細化処理の後、生機をサンディングおよび染色を含む連続プロセスで処理する。 | ||||||
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