子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 281 | APPARATUS, SYSTEM, AND METHOD FOR FILAMENTARY COMPOSITE LATTICE STRUCTURE MANUFACTURING | PCT/US2006031903 | 2006-08-16 | WO2007022218A3 | 2009-04-09 | JENSEN DAVID W; DAVIS KEITH; GUNNELL BOYD; LARSON GREGORY; BLUNCK DAVID L; EVANS TYLER; HANSEN STEVE; KESLER SARITA; BOYCE JENNIFER; PATE EVE; AYERS JAMES T |
| An apparatus, system, and method are disclosed for the manufacture of composite lattice structures comprising a weaving mechanism (104) configured to position fibers in a lattice structure and a shape retention structure (108) configured to hold the fibers in the lattic structure. The weaving mechanism (104) includes one or more bobbins (304), each of the one or more bobbins (304) configured to carry fiber. The weaving mechanism (104) includes a plurality of horn gears (302) configured to move the one or more bobbins (304) across the face of the weaving mechanism (104) to control the position of the fiber in the lattice structure. Beneficially, such an apparatus, system, and method would automate the process of manufacturing composite lattice structures and reduce the costs associated with the existing methods for manufacturing such structures. | ||||||
| 282 | METHOD AND APPARATUS FOR WARPING AND METHOD OF DYEING OF HIGH TWISTED FINE COUNT YARN | PCT/IN2007000281 | 2007-07-09 | WO2008044241A2 | 2008-04-17 | AGNIHOTRI KISHOR GAJANAN |
| The present invention provides embodiments comprising an apparatus for warping yarns, a comb, method of direct warping of the high twisted fine count yarns and method for dyeing of high twisted fine count yarns on slasher dyeing machine. The apparatus comprises a narrow width warp beam, a comb having flexible pins and is configured to high tension which enable direct warping of the high twisted fine count yarns such as voile yarns. The method of direct warping comprises warping of the yarns at high tension onto a narrow width beam. The method of dyeing of the high twisted yarn includes preparing of the beams having high density of high twisted fine count yarns on narrow width of the beam, and dyeing and separating at high tension. | ||||||
| 283 | UNWIND AND FEED SYSTEM FOR ELASTOMERIC THREAD | PCT/US2006049672 | 2006-12-29 | WO2007079264A3 | 2008-04-03 | HARTZHEIM RICHARD J |
| An overend unwind system (10) for unwinding tacky elastomeric fiber threads (12) such as uncoated spandex thread, capturing the ballooning affect of the thread (12) as the thread (12) leaves the spool (22), applying a first-stage tension control on the thread adjacent where the thread leaves the spool (22), feeding the unwound thread (12) to a nip (14) in a downstream process, and applying a final tension increment to the thread (12) adjacent where the thread (12) enters the downstream process. All thread guide surfaces (66, 70, 88) encountered by the thread (12) after leaving the spool (22), and while the thread (12) is under designed operating tension, are moving surfaces, such that the tensioned thread (12) thereby experiences a reduced level of drag as the thread (12) traverses its path of travel from the spool (22) to the downstream process. | ||||||
| 284 | 用于操作形成纱线气圈的纺织机的工位的装置 | CN201720281347.7 | 2017-01-26 | CN206457574U | 2017-09-01 | M·海普; W·佩德-沃格勒; 亚历山大·塞勒 |
| 本实用新型涉及用于操作形成纱线气圈的纺织机的工位(1)的装置,该装置具有多个彼此相邻设置的工位,其中形成纱线气圈的纺织机的每个工位具有用于探测纱线气圈(B)直径的传感装置(33)。本实用新型还提出,每个传感装置(33)产生依赖于纱线气圈(B)的实际直径的信号(i),具有对传感装置(33)的信号(i)进行评估的调整电路(18)以及配设有连接至该调整电路(18)的机构(6),该机构用于影响形成环绕纱线气圈(B)的纱线(5)的纱线张力。 | ||||||
| 285 | PORTABLE CREELS WITH INSERTABLE YARN TRAYS AND IMPROVED HEADERS AND YARN HANDLING METHODS | PCT/US2011041088 | 2011-06-20 | WO2011160121A3 | 2012-02-16 | INGRAM WILLIAM OSCAR III; JONES WILLIAM N; BRADLEY HORACE EDDIE JR |
| Creels having frames configured to receive one or more trays of yarn packages. The trays of yarn packages are removable from the frame and can be loaded with packages of yarn when not inserted into the frame. Separately loading trays with yarns can simplify and provide other benefits with respect to the process of loading a creel with yarn packages. Also disclosed is an assembly that is positioned with respect to a detachable header and a stationary header on a creel and that comprises an air flow unit that causes yarns to move through to an alignment mechanism that aligns the yarns for attachment to yarns already feeding into a tufting machine. | ||||||
| 286 | APPLICATION OF ANTIMICROBIAL TO WARP YARN | PCT/US0209247 | 2002-03-26 | WO02077346A3 | 2003-04-10 | ESCHE SUSAN PARK; BENNETH ERIN G; SHOE MICHAEL S |
| A process for imparting antimicrobial properties to textile fabrics (Fig. 1) by applying an antimicrobial substance to the fibers from which the textile is woven, knit or constructed. Preferably the antimicrobial substance is applied, prior to weaving, to wrap yarns on a slasher or warper or similar coating or finish application device before the warp ends are rolled up onto a loom or selection beam. The warp yarns are then woven with fill yarns, not treated with the antimicrobial, into a cloth which is then sold in the loom state or subjected to subsequent finishing. A preferred cloth end use is mattress ticking. | ||||||
| 287 | A PROCESS FOR MAKING A WARP BEAM OF UNTWISTED FIBERGLASS STRANDS | PCT/US0207182 | 2002-03-08 | WO02074711A8 | 2002-12-19 | BURTON KEVIN R; BEER KENNETH D; KUHN JOHN J; CULP LEWIS J; BUSS ROBERT P |
| A package of fiberglass is unwound such that the revolution of the unwinding is controlled relative to linear payout speed of the package. A strand of fiber is pulled from the package while simultaneously rotating the package about a longitudinal axis of the package. | ||||||
| 288 | METHOD FOR OPERATING A CONE SECTIONAL WARPING MACHINE, AND CONE SECTIONAL WARPING MACHINE | PCT/CH0000548 | 2000-10-09 | WO0127367A3 | 2001-10-18 | BOLLEN MANFRED; ULBRICH HORST; ZELLER HANS-PETER; HAENE STEFAN; MARCHI RICCARDO |
| Threads are wound onto a warping drum (3) at a constant winding tension by a warp creel (C) and via a deviating roller (1), forming a warp section (M). The increase in the winding diameter is preferably determined based on the ratio of rotations of the deviating roller and the warping drum. The advance of the coning slide is determined or continuously controlled or regulated after the first rotation of the warping drum according to the coning ratio and according to the current measured values of the increase in the winding diameter. The appropriate measured values are registered in a table and stored. As a result, it is possible to work without inputting data relevant to the advance. It is possible to work with or without the equalising roller in order to compensate material-specific properties. | ||||||
| 289 | APPARATUS FOR HIGH SPEED BEAMING OF ELASTOMERIC YARNS | PCT/US9926453 | 1999-11-09 | WO0028119A3 | 2001-01-11 | MYCIELSKI JACEK ZYGMUNT; VAN DEN HOVEN GERARDUS; GROOT FREDERIK JAN; BROUWERS JOHANNES LEONARDUS JO |
| A beaming apparatus that includes a creel (65) and warper head (67), the creel (65) being positioned adjacent to the warper head (67), the creel (65) having elastomeric yarn unwinder assemblies (68) which include a guide support (69) that supports rotating guides (41) and stationary wound cakes (39) of elastomeric yarn, a thread guide (51) for orienting the unwound yarn towards the warper head (67), a front guide and tension bar (53) positioned near the end of the creel (65), and a pivoting reed (57) positioned before the warper head (67) for orienting the yarn onto a beam (61) are provided. | ||||||
| 290 | METHOD AND DEVICE FOR WARPING USING A CONE SECTIONAL WARPING MACHINE | PCT/DE9901152 | 1999-04-17 | WO9958750A9 | 2000-10-05 | KREMER HUBERT |
| The invention relates to a method for warping with a cone sectional warping machine, which winds the threads (10) in bands on a warping drum (11), wherein a support for a thread directing sley and the warping drum are displaced in relation to each other in correspondence with the increasing thickness of winding and predetermined warping data. The first band is scanned during a first measuring phase by a cylinder exerting contact pressure and the scanned setting range is registered depending on the number of rotations of the warping drum. Cylinder pressure on the winding during the measuring phase is continuously monitored using measuring techniques. Displacement of the support is corrected especially if monitoring results differ from a predetermined set value. In order to even out the formation of the wind, the cylinder (15) is arranged at a given distance from the warping drum (11) when warping of the first band is started. The measuring phase is automatically started when the thickness of the winding increases as soon as the winding causes the cylinder (15) to rotate. | ||||||
| 291 | THREAD WARPING PROCESS AND MACHINE | PCT/EP9400826 | 1994-03-16 | WO9425652A3 | 1995-04-06 | LENZEN JOSEF; WISNIEWSKI HERBERT; HEUERMANN JOSEF |
| A process is disclosed for warping threads on a warping drum (2) of a warping machine. Once a temporary feed speed for a warping reed (25) is set in synchronism with the speed of rotation of the warping drum (2), the winding thickness of the warp lap is detected several times and the feed speed is corrected depending on the number of revolutions of the warping drum (2) and the winding thickness that results therefrom. The warp lap is then completely wound at said corrected feed speed. During a starting phase, a theoretically correct feed speed for at least the first revolution of the warping drum (2) is derived from warp parameters, such as the total number of threads, the width of the warp and the yarn count. The winding thickness of the first warp section is continuously and contactlessly measured during a learning phase that follows the starting phase, or during the starting phase. For that purpose, a winding thickness measurement arrangement (55) is held at a predetermined, substantially constant distance from the surface of the warp layer that has just been wound. The winding thickness is determined from the signals produced by the winding thickness measurement arrangement (55) and the feed speed is regulated on the basis of the winding thickness on the second revolution of the warping drum (2) at the earliest from. After the learning phase is finished, the regulated feed speed is stabilised in a working phase and a constant feed speed for the rest of the warping process is determined from the latest data obtained. | ||||||
| 292 | PROCESS AND DEVICE FOR PARALLELING A TRANSPORT CARRIAGE | PCT/EP9400527 | 1994-02-24 | WO9420659A3 | 1994-10-13 | GRASER HELMUT |
| A process and device are disclosed for paralleling a yarn or cloth roller transport carriage (10) which may be positionable in front of a mechanical weaving loom (32). The automobile carriage body (169) has two motor-driven, steerable driving wheels (12) which are mutually spaced apart in the longitudinal direction. In order to parallel the transport carriage (10), the carriage is at first positioned in the longitudinal direction in the yarn or cloth feeding path with respect to the weaving loom (32), then its driving wheels (12) are turned transversely to the moving direction. The transverse distances between two distance sensors (40) fixed to the carriage body and mutually spaced apart in the longitudinal direction on the one hand and two opposite reflecting surfaces (42) fixed to the loom on the other hand are measured without contact and compared in order to generate a difference signal. The difference signal may be optically displayed as a steering or driving indication and/or may be converted into a control signal for driving and/or steering the driving wheels (12) so as to parallel the transport carriage (10). | ||||||
| 293 | 经轴架装置的断纱传感器 | CN201720218100.0 | 2017-03-07 | CN206624506U | 2017-11-10 | 野村拓右; 奥纯一 |
| 本实用新型公开了一种用于经轴架装置的断纱传感器,特别是,以从供纱体引出的纱线在由设置成在上下方向上相对的一对相对面限定的纱线行进路径内行进的方式对应于每个供纱体设置,并且包括设置成在一个相对面露出的投光器和设置成在另一个相对面露出并与投光器相对的受光器的断纱传感器,所述断纱传感器的特征在于,具备导纱器,该导纱器设置在相对于纱线行进路径的上游侧和下游侧中的至少上游侧,且具有在上下方向上相对的一对限制面,导纱器的一对限制面的间隔为一对相对面的间隔的1/2以下。本实用新型尽可能地防止了由于在纱线行进路径内的上下方向上的纱线振动(位移)而导致的投光器的投光面和受光器的受光面的污垢,从而防止断纱的误检测。(ESM)同样的发明创造已同日申请发明专利 | ||||||
| 294 | 用于调节纱线张力的装置 | CN200920005852.4 | 2009-02-13 | CN201442777U | 2010-04-28 | M·富尔; R·科恩 |
| 一种用于调节纱线(2)的张力的装置(1),具有被所述纱线(2)至少部分地包绕的旋转体(3),所述旋转体与可作为发电机工作的电的机器(14)连接。这种装置可以以小的工作成本来工作。为此规定,所述机器(14)与能量回收装置(15)连接。一种整经设备,具有整经装置和筒子架,所述筒子架具有多个纱线张力器,其中能量回收装置(15)与所述整经装置的能量供应装置连接。此点降低了整经装置的能量消耗,因此降低了工作成本。 | ||||||
| 295 | 补偿式纱线张力器和筒子架 | CN200920006192.1 | 2009-03-13 | CN201420143Y | 2010-03-10 | M·富尔; R·科恩 |
| 本实用新型提供了一种补偿式纱线张力器(1),其带有纱线入口(4),纱线出口(5),位于纱线入口(4)和纱线出口(5)之间的补偿装置(6),该补偿装置可通过从纱线入口(4)移动至纱线出口(5)的纱线(11)而对着补偿力运动,并由此改变其与纱线(11)的接合几何结构,还带有在纱线入口(4)和补偿装置(6)之间的稳定装置(19),该稳定装置(19)具有两个彼此贴靠的稳定元件(21),纱线(11)在该两个稳定元件之间穿行。人们希望纱线张力能保持得尽可能均匀。为此,作如下设置,即,使得稳定元件中的至少一个具有运动驱动装置。 | ||||||
| 296 | 織物製造方法 | JP2017165426 | 2017-08-30 | JP2018035494A | 2018-03-08 | ウボルディ,アンドレア |
| 【課題】洗い流し処理及び同様のものに続いて、織物の表面に実質的に構成されたままである金属化されたスレッドを含む織物を得ることを可能にする織物の製造方法を提供する。 【解決手段】厚さ0.7mm未満の少なくとも1つのリボンであって、少なくとも1本のサポートスレッドで好ましくは渦巻状に巻きつけられるリボンを備える金属化されたヤーンを使用することと、金属化されていない主ヤーンを使用することと、金属化されたヤーンと前記主ヤーンとを備えるワープビームを作ることであって、ワープビームが好ましくは40スレッド/cmより大きい糸線密度を有する、作ることと、織るステップであって、チューブ状織物がワープ上に排他的に配置された金属ヤーンを有するビームワープによって作られる、織るステップとを含むチューブ状織物を作る方法が提供される。 【選択図】図5 |
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| 297 | 部分整経サンプリング機及び該部分整経サンプリング機を作動させる方法 | JP2016001592 | 2016-01-07 | JP6192750B2 | 2017-09-06 | フール, マルティン |
| 298 | 節取り装置及びクリール | JP2017004147 | 2017-01-13 | JP2017141113A | 2017-08-17 | パオリ, エンツォ |
| 【課題】糸束の節取り装置。さらに、少なくとも1つの整経ビーム台と、このタイプの節取り装置が配置される1つのクリール出口とを有するクリールを提供する。 【解決手段】第1の糸束16の端のための第1のウェブ経路と、第2の糸束22のリードのための第2のウェブ経路21とを有する節取り装置13を記載している。第2のウェブ経路21は、中空であって吸込口を有するマンドレル17の周りを延び、第1のウェブ経路は、吸込口の前に配置され、吸込口は、吸込装置20へ接続され、かつマンドレル17は、第1のウェブ経路と相対的に変位可能である。 【選択図】図3 |
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| 299 | クリール用モジュラーユニット | JP2015541272 | 2013-11-05 | JP2015533750A | 2015-11-26 | チツイアノ バレア |
| 糸のパッケージ又はボビン(B)を支持するための少なくとも1個の支持体(6)を有する構造体(2)であって、複数の糸を繊維機械に供給することができるよう、別の同様の構造体(2)とモジュール式に連結可能な構造体(2)と、前記ボビンから糸を引き出し、その糸を前記繊維機械に供給するための糸の供給装置(18)を備えたクリール用モジュラーユニットであって、前記支持体(6)が、構造体(2)の後面(2b)から前面(2a)に向かって設定された運動の方向(M)と平行に、構造体(2)の内側の位置と構造体(2)の外側の位置との間を移動することができるクリール用モジュラーユニット。【選択図】図1 | ||||||
| 300 | For the pattern warp sectional warping machine rotary creel and handle warp for sectional warping machine | JP2008335623 | 2008-12-29 | JP5363096B2 | 2013-12-11 | フール マルティン, |
| The rotating creel (5) has a carrier rotatable around a rotation axis (4), where reel mounts are arranged on the carrier. A sensor arrangement is provided for determining a filling degree of reels arranged in the reel mounts. The sensor arrangement comprises a sensor e.g. laser sensor, for each reel mount. The sensor is arranged at a machine frame, where the carrier is rotatably supported at the machine frame. The reel mounts are consecutively arranged in two groups along the rotation axis. The sensor arrangement determines a reel diameter. An independent claim is also included for a sample warper comprising a warping drum and a rotating creel. | ||||||
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