序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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321 | Machine à tisser sans navette à grande vitesse | EP83400026.7 | 1983-01-05 | EP0084471B1 | 1985-04-17 | Juillard, Yves |
322 | AUTOMATIC SEAMING MACHINE | EP83902816.0 | 1983-08-19 | EP0134214A1 | 1985-03-20 | EGLIN, Steven |
Procédé et dispositif de couture automatique d'extrémités de tissu permettant de former des tissus de papeterie sans fin et analogues. L'élargissement du pas d'une feuille de fils, commandé par un mécanisme jacquard (93) au moyen de doigts de pas (98, 113) s'engageant dans le pas (20) transversalement aux fils de trame le composant, permet de faciliter l'introduction successive de fils de chaîne libres individuel (28) s'étendant depuis les extrémités respectives de manière à être reliés par des organes d'insertion (123) qui s'engagent dans le pas à partir des côtés opposés de celui-ci. | ||||||
323 | Wide fabric manufacturing method and apparatus | EP82630040.2 | 1982-05-07 | EP0065475A1 | 1982-11-24 | Long, Barry Walter; Roush, David Henry |
Wide woven fabric (10) having dipped and treated cords (19, 20, 23, 24) is made by first connecting warp cords (19, 20) of relatively strong material in at least two narrow sheets (11, 12). The narrow sheets (11, 12) are dipped and treated after which they are positioned in loom letoff rolls (17,18) adjacent a loom (26) where they are joined to form a wide fabric (10) having a width greater than the width of eigher of the narrow sheets (11,12). The warp cords (19, 20) from the narrow sheets (11,12) are guided from the letoff rolls (17, 18) into the loom (26) and during the process the narrow sheets (11,12) may be run through a cord separating apparatus (29) to separate the warp cords (19, 20). The warp cords (19, 20) may be woven in the loom (26) with a dipped and treated weft cord (31) to provide a wide reinforcing sheet (10) with a heavy woven construction having a width greater than the width of any one of the narrow sheets (11, 12). |
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324 | ELEVATOR SUSPENSION AND/OR DRIVING ASSEMBLY HAVING AT LEAST ONE TRACTION SURFACE COMPRISING EXPOSED WEAVE FIBERS | US15822419 | 2017-11-27 | US20180087195A1 | 2018-03-29 | John P. Wesson; Gopal R. Krishnan; Timothy D. DeValve; Vijay Jayachandran; Daniel Rush |
An exemplary elongated elevator load bearing member includes a plurality of tension elements that extend along a length of the load bearing member. A plurality of weave fibers transverse to the tension elements are woven with the tension elements such that the weave fibers maintain a desired spacing and alignment of the tension elements relative to each other. The weave fibers at least partially cover the tension elements. The weave fibers are exposed and establish an exterior, traction surface of the load bearing member. | ||||||
325 | CONTROL METHODS FOR ADDITIVE MANUFACTURING SYSTEM | US15603328 | 2017-06-02 | US20180065322A1 | 2018-03-08 | Kenneth Lyle Tyler; Blake L. Alfson; Josiah D. Coad; Kaleb Forrest Beebout |
A method is disclosed for controlling an additive manufacturing system. The method may include causing a head to discharge composite material along a first trajectory, and activating a cure enhancer to at least partially cure composite material discharging from the head along the first trajectory. The method may also include selectively deactivating the cure enhancer as the head nears a corner location, moving the head to a second trajectory after the head reaches the corner location, and reactivating the cure enhancer after moving the head to the second trajectory. | ||||||
326 | ADDITIVE MANUFACTURING SYSTEM HAVING SHUTTER MACHANISM | US15611430 | 2017-06-01 | US20180065320A1 | 2018-03-08 | KENNETH LYLE TYLER |
A system is disclosed for use in additively manufacturing a composite structure. The system may include a head configured to discharge a composite material including a matrix and continuous reinforcement. The system may also include a shutter mechanism mounted to the head and configured to grasp the continuous reinforcement after discharge from the head. | ||||||
327 | ADDITIVE MANUFACTURING SYSTEM HAVING MULTI-CHANNEL NOZZLE | US15623529 | 2017-06-15 | US20180065318A1 | 2018-03-08 | KENNETH LYLE TYLER |
A system is disclosed for use in additively manufacturing a composite structure. The system may include a matrix reservoir, and a fiber guide configured to separately receive a plurality of matrix-wetted reinforcements from the matrix reservoir. The system may also include a die configured to receive the plurality of matrix-wetted reinforcements from the fiber guide and to cause the plurality of matrix-wetted reinforcements to converge into a ribbon. The system may additionally include a cure enhancer configured to cure the matrix in the composite material during discharge of the ribbon from the die, and a support configured to move the die in multiple dimensions during discharge of the ribbon. | ||||||
328 | ADDITIVE MANUFACTURING SYSTEM HAVING IN-SITU FIBER SPLICING | US15599649 | 2017-05-19 | US20180065317A1 | 2018-03-08 | Kenneth Lyle Tyler |
A system is disclosed for use in additively manufacturing a composite structure. The system may include a head configured to discharge a composite material, including a matrix and a first reinforcement. The system may also include a splicing mechanism configured to selectively swap out the first reinforcement with a second reinforcement. | ||||||
329 | ADDITIVE MANUFACTURING SYSTEM HAVING IN-HEAD FIBER WEAVING | US15608017 | 2017-05-30 | US20180065144A1 | 2018-03-08 | KENNETH LYLE TYLER |
A system is disclosed for use in additively manufacturing a composite structure. The system may include a head configured to discharge a composite material including a matrix and a plurality of continuous reinforcements. The system may also include a weave mechanism configured to selectively adjust a pattern of weaving of the plurality of continuous reinforcements occurring inside of the head. | ||||||
330 | AN ELECTRICALLY CONDUCTIVE TEXTILE | US15539537 | 2015-12-18 | US20170362747A1 | 2017-12-21 | Andrzej Stanislaw KRAJEWSKI; Laurence Michael STAYNES; Ilias Louis KYRATZIS; Douglas James DOWER; Peter Ralph HERWIG |
Embodiments relate to conductive textiles and methods of their production, as well as systems for electronically connecting devices through conductive textiles. An example textile comprises a first electrically conductive track; a second electrically conductive track; and at least one non-conductive portion. At least a portion of the first electrically conductive track overlaps or is in close proximity to at least a portion of the second electrically conductive track. At least said portions of the respective tracks are separated by an insulating material so that there is no electrical coupling between the first and second tracks. | ||||||
331 | Method for forming a fabric preform for a composite material by separately tensioning tows | US13333596 | 2011-12-21 | US09662807B2 | 2017-05-30 | Christopher John Feeney; John M. Philcox; Steven Robert Hayse |
Disclosed are methods and devices for the formation of fabric preforms that may be subsequently impregnated with a resin to form a composite component. One end of the fabric is received on the form such that the axial tows of the fabric extend in a direction generally perpendicular to a central axis of the form. At least some of the plurality of axial tows are separately tensioned on an end of the fabric not attached to the form and the fabric is wrapped around the form by rotating the fabric and form relative to one another about the central axis. | ||||||
332 | Loom for weaving fabric with two types of tissue, shoe upper woven using the same, and shoe | US14733809 | 2015-06-08 | US09609916B2 | 2017-04-04 | Soo Bok Song; Jae Woo Lee |
Disclosed herein are a loom for weaving a fabric with two types of tissue, a shoe upper woven using the loom, and a shoe including such a shoe upper. The loom includes a first heddle stack formed by arranging a plurality of first heddles in one or more rows, and a second heddle stack formed by arranging a plurality of second heddles in one or more rows, the second heddles being different in kind from the first heddles. The first heddle stack and the second heddle stack are sequentially arranged in a warp feeding direction. | ||||||
333 | METHOD FOR WEAVING A FABRIC, NEAR-NET SHAPE FABRIC WOVEN VIA SUCH A METHOD AND WEAVING LOOM FOR IMPLEMENTING THIS METHOD | US15216079 | 2016-07-21 | US20170022638A1 | 2017-01-26 | Andreas SCHNABEL; Karsten SIEBERT; Jens IGNATZY |
A method for weaving a fabric (F), with warp yarns (412, 414, 422, 424) and inwoven weft yarns (61, 62, W1-W5), on a loom (2) which comprises a warp delivery unit (8); heddles (14) for moving warp yarns in order to form a shed; a mechanism (12) for moving (F1) each heddle vertically along a vertical path; weft insertion means (21, 22) for inserting each weft yarn in a shed (S1, S2) and for releasing the weft yarn at a given location along a weft axis (Y1, Y2); and weft delivery means (28) for delivering weft yarns (61, 62, W1-W5) to the weft insertion means, this method comprising, for at least two consecutive picks, at least the following steps consisting in a) opening the shed (S1, S2); b) picking, by the weft insertion means (21, 22), of a first end (612, 622) of a weft yarn (61, 62, W1-W5) presented by the weft delivery means (28); c) drawing (A3) the weft yarn into the shed, along the weft axis (Y1, Y2); d) releasing the weft yarn at the predetermined position along the weft axis; e) withdrawing the insertion means from the shed; and f) beating-up the weft yarn wherein, during step c), the shed is closed around the inserted weft yarn (61, 62), by moving warp yarns (412, 414, 422, 424) of a predetermined group (G4, G4′) of warp yarns to a semi-closed position. | ||||||
334 | Bead weaving tool | US14704277 | 2015-05-05 | US09506171B2 | 2016-11-29 | Kumiko Nitta; Mariko Yamaguchi |
A bead weaving tool includes a plate member having a planar bead mounting surface for bead placement. The plate member has a pair of thread holding portions mutually spaced across the bead mounting surface for holding a plurality of threads separately. The plate member also has a pair of thread support walls protruding from the bead mounting surface at positions close to the thread holding portions, respectively. To hook one end and the other end of the respective threads, first and second thread hanging portions are provided. | ||||||
335 | SYSTEMS AND METHODS FOR CREATING THREE-DIMENSIONAL WOVEN TEXTILE PRODUCTS | US14974408 | 2015-12-18 | US20160281277A1 | 2016-09-29 | Elizabeth ESPONNETTE; Griffin HOVORKA |
Described herein are techniques for creating a three-dimensional woven textile products. A method includes rotating strands of warp yarns, where each strand of warp yarn is in a direction away from a surface, in a circular motion while moving a strand of weft yarn forwards and backwards in a direction parallel to the surface so as to cause the strand of weft yarn to alternately weave in and out of the strands of warp yarn. The method includes moving the strand of weft yarn in a direction away from the surface so as to cause the strand of weft yarn to alternately weave in and out of the strands of warp yarn at a different height to create a three-dimensional woven textile product. The method includes supplying at least one of the strand of warp yarn or the strand of weft yarn with a yarn generator. | ||||||
336 | METHOD FOR PRODUCING A WOVEN FABRIC | US14888922 | 2014-05-07 | US20160083875A1 | 2016-03-24 | Frank THIEL; Alexander EHRLICH; Christian HARTMANN |
The invention relates to a method for producing a woven fabric by means of a device, wherein in one weaving step respectively one shed is formed by means of warp threads, through which shed a weft thread is introduced and the weft thread is pushed in the direction of a woven fabric edge by means of a weaving reed. An angle for entering a weft thread is variably adjusted by means of a weft thread entering device. According to the invention, the angle of the weft thread to be entered in relation to the warp threads is adjusted between 40° and 90° by means of an adjustment unit, wherein the weft thread entering device is positioned by means of an electric drive via a gear with respect to the predetermined angle. | ||||||
337 | Multiple layer weaving | US13748762 | 2013-01-24 | US08839824B2 | 2014-09-23 | Tory M. Cross; Bhupesh Dua |
A weaving apparatus is provided herein for simultaneously weaving fine denier panels and coarse denier panels. The weaving apparatus includes a first warp beam that holds in tension a first number of small denier warp threads and a second warp beam that holds in tension a second number of large denier warp threads. The first number of small denier warp threads is greater than the second number of large denier warp threads. | ||||||
338 | Natural polymeric yarn and its fabrication method as well as application | US13673530 | 2012-11-09 | US08776490B2 | 2014-07-15 | Teeming Tsao |
A method for fabricating natural polymer yarn comprises the following steps: (a) forming a natural polymeric long fiber by wet spinning or electro spinning from a natural polymer solution; (b) combining the natural polymeric long fiber and at least one polymeric fiber by a false twist texturing process to form a natural polymeric yarn. A natural polymer yarn relates to the method. A natural polymer fabric includes said natural polymer yarn. A method of using said natural polymer fabric for medical dressing. By means of a false twist texturing process, the natural polymer yarn with enhanced tensile strength and elongation could reduce the drawback of conventional wound dressing products which lack strength and stretchiness in a wet condition. | ||||||
339 | BALLOON WITH DIVIDING FABRIC LAYERS AND METHOD FOR BRAIDING OVER THREE-DIMENSIONAL FORMS | US14143709 | 2013-12-30 | US20140182738A1 | 2014-07-03 | Charles L. Simpson |
A medical balloon with a variable diameter that is reinforced with continuous fibers woven to form a fabric with a varying number of layers and fiber densities. Portions of the balloon having a relatively smaller diameter are reinforced with a fabric having a reduced fiber density and an increased number of layers to facilitate the placement of the layers. The fabric also includes a braiding pattern that facilitates the transition from a single layer fabric to a multiple layer fabric. Also described is a manufacturing method for the braiding and layering. | ||||||
340 | SPIRAL TEXTILE AND SYSTEM FOR WEAVING THE SAME | US13706168 | 2012-12-05 | US20140150922A1 | 2014-06-05 | Jean-Francois Lecostaouec; Felix Binder |
Loom configurations and methods for efficiently manufacturing unique spiral-shaped fabrics. The loom introducing two weft yarn segments in the form of a continuous loop in each shed may be configured with one or two weft needles and is equipped with a knitting system to form a knitted selvedge along the outside circumference of the fabric. The knitted edge is used as reference to form weft yarn loops of different lengths. The opposite weft yarn loops are permanently secured around selected warp yarns. Alternatively intermediate length weft yarn loops may be created where the extremity of the loop is not bound to any warp yarn. Fiber architectures may be designed and woven which exhibit uniform fiber volume across the width of the fabric. Fiber architectures with greater fiber volume along the outside circumference of the fabric may also be prepared. |