121 |
탄소섬유 입체직조기 |
KR1020080058164 |
2008-06-20 |
KR1020090132083A |
2009-12-30 |
남한우 |
PURPOSE: A three-dimensional carbon fiber loom is provided to improve mechanical performance of a carbon fiber preform, and to increase adhesion force of carbon fiber yarn layers by reducing size or pores generated between a warp yarn strand and a weft yarn strand of the carbon fiber yarn. CONSTITUTION: A three-dimensional carbon fiber loom includes a base frame(3), a shaft direction transfer part(5) and a laminate hooking part(7). The shaft direction transfer part includes a support frame body(21), a transfer frame body(23), and a pressurization unit(25). A fixing guide plate(29) is mounted on an end of the support frame body. The transfer frame body includes a plurality of driving guide plates(33), a guide rod(35), and a plurality of reaction members(37). Each rotary arm comprises an upper arm link(51), a lower arm link(53), and a link operation unit(55). |
122 |
섬유 이송을 이용한 모서리 맞춤부재 및 그 성형 방법 |
KR1020087013383 |
2006-10-16 |
KR1020080083269A |
2008-09-17 |
고어링,조나단 |
A comer fitting and a method of forming a corner fitting including steps of providing a flat woven fabric including a first woven portion having first and second direction woven fibers, a second woven portion adjacent the first woven portion having first direction fibers and sacrificial second direction fibers and a third semi-woven portion having first direction fibers selectively engaged by the sacrificial second direction yarns. The method further comprising steps of folding the flat woven fabric in at least one direction, and removing the sacrificial second direction fibers, wherein during removal, the sacrificial second direction fibers are replaced in the second woven portion by the first direction fibers of the third semi-woven portion and form a corner fitting having continuous fibers connecting all sides. |
123 |
삼차원 조직체의 제조방법 및 그 제조장치 |
KR1020010027229 |
2001-05-18 |
KR1020020013375A |
2002-02-20 |
우치다히로시; 타카시마히로키; 야마모토타쿠미; 히루카와마사오 |
PURPOSE: A method of preparing a three-dimensional structure employing the principle of a braid composition to compose a three dimensional mesh or net and an apparatus for preparing the three dimensional structure applicable to the method are provided. Thus the obtained three dimensional structure is effectively used as a filler for mass transfer or heat exchange or the like. CONSTITUTION: The method for manufacturing a three-dimensional structure with a linear structure(1) pulled out individually from a plurality of bobbin carriers(2) comprises the steps of: supporting a plurality of bobbin carriers transferably and with loadable; jointing the linear structure to converge in nodes Tw1, Tw2 at intervals in a composing direction from at least three directions; and moving the bobbin carrier to become more distance in at least three directions. |
124 |
WNGINEERED MATERIALS AND METHODS OF FORMING |
US15757948 |
2016-06-15 |
US20180230626A1 |
2018-08-16 |
Melissa Knothe Tate |
A method of forming a substrate includes mapping a three dimensional spatial distribution of at least one structural protein fiber of extracellular matrix of biological material of interest, designing a fiber assembly pattern based on an intrinsic pattern of the at least one structural protein fiber of the extracellular matrix of the biological material, and assembling fibers based on the fiber assembly pattern to form the substrate. |
125 |
Method and means for weaving, 3D fabric items thereof and their use |
US14916460 |
2013-09-04 |
US09926651B2 |
2018-03-27 |
Nandan Khokar |
An add-on weaving method, a device based on this method, 3D fabric items producible by this method and device, and composite materials reinforced with such 3D fabric items. The 3D fabric items are produced directly by the add-on weaving process using Complementary Fabric, warp yarns and weft yarns. The interacting woven fabric produced by interlacing the warp and weft yarns is simultaneously integrated with the Complementary Fabric used. The Complementary Fabric and interacting woven fabric integrate in mutual through-thickness directions at their intersecting planes and create directly 3D fabric items which are useful for manufacturing delamination resistant and high-performance composite materials. |
126 |
WEAVING MULTILAYER PRODUCTS USING MULTIPLE WARP COLUMNS AND HEDDLE COLUMNS |
US15019137 |
2016-02-09 |
US20170226666A1 |
2017-08-10 |
Kenneth OUELLETTE; Jonathan Goering |
An apparatus for weaving a multilayer product that has one or more warp columns for placing warp fibers and one or more heddle columns for heddles for lacing the warp fibers. The weaving apparatus has a numerical ratio of warp columns and heddle columns that is a fractional number. And a portion of the warp fibers are laceable through heddles on one or more heddle columns based on the fractional number. A method for weaving a multilayer product where adjacent warp fibers are segmented and laced through heddles on the heddle columns based on the fractional number. |
127 |
Weaving multilayer products using multiple warp columns and heddle columns |
US15019137 |
2016-02-09 |
US09725832B1 |
2017-08-08 |
Kenneth Ouellette; Jonathan Goering |
An apparatus for weaving a multilayer product that has one or more warp columns for placing warp fibers and one or more heddle columns for heddles for lacing the warp fibers. The weaving apparatus has a numerical ratio of warp columns and heddle columns that is a fractional number. And a portion of the warp fibers are laceable through heddles on one or more heddle columns based on the fractional number. A method for weaving a multilayer product where adjacent warp fibers are segmented and laced through heddles on the heddle columns based on the fractional number. |
128 |
Method and apparatus for weaving a three-dimensional fabric |
US14404278 |
2013-05-30 |
US09598798B2 |
2017-03-21 |
Prasad Potluri; Dhavalsinh Jetavat; Sandeep Sharma |
A method and apparatus for weaving a three-dimensional fabric involves inserting simultaneously a parallel weft yarns into the sheds between multiple warp yarn layers and selectively inserting at least one group of binder yarns between parallel spaced warp yarns. The group of binder yarns are moved relative to the warp yarns between weft insertions. The yarns may be moved between more than two positions relative to the warp yarns during weaving of the fabric so as to insert binder yarns. In one embodiment the binder yarns are moved such that they extend in a direction that is not orthogonal to the warp yarns. |
129 |
VARIABLE DIAMETER WOVEN MEDICAL TUBE TEXTILES AND METHOD OF MAKING SAME |
US15153857 |
2016-05-13 |
US20170021141A1 |
2017-01-26 |
Ruth Osbrink; David Burton; Charlene Phillips |
A textile greige includes a plurality of woven medical tube textiles in a series that share a set of warp yarns and a first weft yarn. The medical tube textiles have different diameter segments such that less than all of the warp yarns are included in a small diameter segment of the medical tube textile. A diameter control weave of a second weft yarn is woven with segments of the warp yarns that are outside of the woven medical tube textiles. Later processing includes cutting the diameter control weave from the medical tube textile. |
130 |
WOVEN TEXTILE AND METHOD FOR MAKING A WOVEN TEXTILE |
US15130557 |
2016-04-15 |
US20160305050A1 |
2016-10-20 |
Seth A. WINNER |
Woven textiles and methods of making woven textiles provide an increased level of three-dimensional design flexibility without extensive post weaving processing. Textiles are woven to form three-dimensional shaped structures, the shapes corresponding to anatomical and other designed structures. Hollow and/or expandable woven textiles with treads or filaments integrated into the construction, wherein the weft threads pass between or interchange between layers or folded layers, define a predetermined controlled shape and retain overall control of the form and size of the woven textile when expanded. |
131 |
FIBROUS STRUCTURE HAVING VARIABLE NUMBERING YARNS |
US14364996 |
2012-12-10 |
US20140369847A1 |
2014-12-18 |
Bruno Jacques Gerard Dambrine; Dominique Coupe; Jonathan Goering; Brock Gilbertson; Jean-Noel Mahieu |
A fiber structure for reinforcing a composite material part, the structure being woven as a single piece by multilayer weaving between a first plurality of layers of yarns extending in a first direction and a second plurality of layers of yarns extending in a second direction. The second plurality of layers of yarns includes at least one layer of variable-weight yarns, each variable-weight yarn including a separable assembly of individual yarns, each having a determined weight. The fiber structure includes at least one portion of reduced thickness in which the variable-weight yarn presents a weight that is less than the weight that it presents prior to the reduced thickness portion. |
132 |
TEXTILE STRUCTURE ELEMENT AND METHOD FOR PRODUCING SAME |
US13983431 |
2012-04-02 |
US20140030455A1 |
2014-01-30 |
Jörg Ruschulte; Thomas Stegmaier; Julian Sartori |
The invention relates to a textile structure element, having textile stretch elements and integrated textile support elements, wherein, in places, the stretch elements and the support elements are interconnected and allow, at least in part, a spatial expansion of at least one fillable stretch element and/or support element. |
133 |
WEAVING METHOD AND LOOM FOR IMPLEMENTING THIS METHOD |
US14030489 |
2013-09-18 |
US20140014222A1 |
2014-01-16 |
Georges-Paul DESCHAMPS |
The loom includes a weaving area (18) into which weft threads are inserted into at least one upper channel and one lower channel, each of these weft threads being inserted between at least two warp threads by at least one weft insertion element: first element for focusing on one of these channels and determining the position of the warp threads relative to the weft thread, and second element for inserting at least one binding thread (16) above, between and below these channels. The loom includes at least one element for gripping the at least one binding thread and element for moving the at least one gripping element out of and into the weaving area (18) so as to place the at least one gripping element in contact with the at least one binding thread and to allow the drawing of the at least one binding thread. |
134 |
Weaving method and loom for implementing this method |
US12864991 |
2009-01-28 |
US08627855B2 |
2014-01-14 |
Georges-Paul Deschamps |
An enhanced weaving method and a loom for implementing this method. The loom includes a weaving area (18) into which weft threads are inserted into at least one upper channel and one lower channel, each of these weft threads being inserted between at least two warp threads by at least one weft insertion element: first element for focusing on one of these channels and determining the position of the warp threads relative to the weft thread, and second element for inserting at least one binding thread (16) above, between and below these channels. The loom includes at least one element for gripping the at least one binding thread and element for moving the at least one gripping element out of and into the weaving area (18) so as to place the at least one gripping element in contact with the at least one binding thread and to allow the drawing of the at least one binding thread. |
135 |
Three-dimensional surface weaving |
US13720033 |
2012-12-19 |
US08561649B1 |
2013-10-22 |
Xavier Legrand; Mathieu Piana; Georgi Tsarvarishki; Julien Charles; Philippe Blot; Dominique Guittard |
A weaving process for direct manufacture of three-dimensional structures with bidimensional walls with corners, without the need for sewing or other assembly between two ridges. The weaving is made by transforming weft threads into warp threads for making at least one face. The process is particularly adapted for the weaving of reinforcing elements for composite structures of corner fitting type. |
136 |
THREE-DIMENSIONAL SURFACE WEAVING |
US13720033 |
2012-12-19 |
US20130263966A1 |
2013-10-10 |
Xavier LEGRAND; Mathieu Piana; Georgi Tsarvarishki; Julien Charles; Philippe Blot; Dominique Guittard |
A weaving process for direct manufacture of three-dimensional structures with bidimensional walls with corners, without the need for sewing or other assembly between two ridges. The weaving is made by transforming weft threads into warp threads for making at least one face. The process is particularly adapted for the weaving of reinforcing elements for composite structures of corner fitting type. |
137 |
Weaving machine and method for three-dimensional weaving |
US13097652 |
2011-04-29 |
US08479778B2 |
2013-07-09 |
Thomas Kühl; Frank Durst; Eckhard Fehrenbacher |
A weaving machine and a weaving method for direct three-dimensional weaving, wherein the weft thread (32) is imparted with its desired two-dimensional course already when the weft thread is being input. The position of the warp threads (12) is adapted to the weft thread path (23). The weft thread path (23) is defined by the lamellae (44) that extend into the shed (21) in between the warp threads (12). The lamellae (44) are arranged on a common bar (45) so that they can be individually adjusted, thus enabling the adjustment of the desired weft thread path (23) by positioning the lamellae (44). The lamellae (44) and the bar (45), at the same time, form the reed (43) that is used for casting on the weft thread (32) at the fabric edge (16). |
138 |
Three-dimensional surface weaving |
US12445580 |
2007-10-25 |
US08361911B2 |
2013-01-29 |
Xavier Legrand; Mathieu Piana; Georgi Tsarvarishki; Julien Charles; Philippe Blot; Dominique Guittard |
A weaving method that makes it possible to directly produce three-dimensional structures having two-dimensional walls with corners, without requiring sewing or other joining between two edges. The weave is created by turning weft threads (24) into warp threads to create at least one face. The method is particularly suitable for weaving reinforcing pieces for composite structures such as three-dimensional corner reinforcements. |
139 |
Loom for producing a woven article with a profiled cross section, in particular a rope |
US12737421 |
2009-06-09 |
US08333222B2 |
2012-12-18 |
Klaus Leppla; Philippe Ankli; Bernhard Goossen |
The loom contains a weaving station, at which warp yarns can be interwoven by at least one weft yarn, a device for supplying the warp yarns, and a device for supplying the at least one weft yarn. A shedding device for forming a shed from the warp yarns, and a weft insertion needle for inserting a weft yarn loop into the shed, are also present. The weft yarn loop is tied off with a knitting needle and beaten with a reed. A take-down device serves to draw off the woven fabric that is produced. In order to produce a profiled woven article, the weaving station is assigned a fabric holder with a shaping aperture whose opening cross section corresponds substantially to the cross section of the profiled woven article that is to be produced with a round or polygonal cross section. |
140 |
INTEGRATED MULTIAXIAL ARTICLES: METHOD, APPARATUS AND FABRICS |
US13312217 |
2011-12-06 |
US20120076962A1 |
2012-03-29 |
Zhong-Xing Mi; Qian Zhao; Youjiang Wang; Shijie Chen |
Integrated multiaxial articles have a prescribed integration pattern formed of winding yarns arranged in multiaxial direction at prescribed angles in a plurality of layers bound together by a set of through-the-layers binding yarns with yarns of non-crimp. Methods and apparatus of making same are presented. Hollow integrated multiaxial fabric and its variants are introduced. |