| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Three-dimensional weaving machine | US82194 | 1998-05-21 | US6003563A | 1999-12-21 | Hiroshi Uchida; Takumi Yamamoto; Hiroki Takashima; Hirao Otoshima; Tetsuya Yamamoto; Shigeru Nishiyama; Masahiro Shinya |
| A three-dimensional weaving machine that enables biased yarn guide blocks to be reduced in size and their movement to be simplified and that reliably feeds biased yarns is described. A three-dimensional mechanism contains 2N guide blocks (13), each including a biased yarn through-hole (15) extending along the length direction. A guide block receiving and supporting device (18) forms guide block arrangement spaces (S1), (S2), and (S3) in a bottom stage, a middle stage, and a top stage wherein N of the 2N guide blocks can be arranged in each stage parallel with, and adjacent to, one another. A guide block moving device (22) is provided for moving the guide blocks in each stage in opposite directions along the respective stages, and a shifting device (44) operates for simultaneously shifting two adjacent sets of guide blocks movably arranged in the respective guide block arrangement spaces, each by one stage. | ||||||
| 162 | Shaped fabric products | US549456 | 1995-10-27 | US5613522A | 1997-03-25 | Michael A. Ford; Richard A. Barlow; Martin I. Jacobs |
| Disclosed are flexible, kink-resistant shaped fabric products which are particularly well adapted for protecting and/or covering elongate substrates, such as cables, conduits, wiring and the like. The shaped fabric products include a wall portion comprising a filament resiliently set in a spiral configuration with respect to the longitudinal axis of the shaped product. The wall portion may also preferably comprise a filament in the form of circumferential hoops substantially conforming in shape and size to the cross-sectional configuration of the shaped product. | ||||||
| 163 | Multi-axial yarn structure and weaving method | US295887 | 1994-11-07 | US5540260A | 1996-07-30 | Geoffrey I. Mood |
| In a method of and machine for forming a non-woven bias yarn assembly comprising two superposed non-woven bias yarn sub-assemblies each yarn is transferred by a yarn transfer member from an opening it occupies in a yarn guide member to another opening in the yarn guide member in such a manner that each yarn is caused in a succession of forward transfer steps to follow the yarn preceding it from one opening to another along a non-intersecting path until the yarn at a first end opening in the path arrives at a second end opening in the path located at the opposite end of the path and the yarn at the second end opening in the path arrives at the first end opening and then in a succession of return transfer steps to follow the yarn preceding it from one opening to another along the non-intersecting path in the opposite direction until the yarn from the second end opening in the path arrives at the first end opening and the yarn from the first end opening arrives at the second end opening. The forward and return transfer steps are then successively repeated. A three dimensional yarn structure is also disclosed comprising a non-woven first yarn assembly which has a first face and an opposite second face and which comprises two or more superposed non-woven warp yarn sub-assemblies in which the warp yarns of one sub-assembly are inclined to the warp yarns of the other sub-assembly and in both of which the warp yarns are inclined to a reference warp feed direction. | ||||||
| 164 | Multi-axial fabric with triaxial and quartaxial portions | US304488 | 1994-09-12 | US5472020A | 1995-12-05 | Shigenobu Iida; Chikaji Ohmori; Takao Ito |
| A multi-axial fabric constructed as a triaxial fabric including oblique warp yarns running of different directions which are interwoven with weft yarns, and straight warp yarns at selected fabric locations interwoven with the weft yarns to form a quart axial fabric. At all of the locations where the oblique warp yarns are crossed with each other, the oblique warp yarns and the weft yarns are interwoven with each other. In addition, the straight warp yarns which are interwoven with the weft yarns are also interwoven with the oblique warp yarns. | ||||||
| 165 | Multi-axial weaving with two part reed and traversing warps | US104114 | 1993-08-13 | US5431193A | 1995-07-11 | Geoffrey I. Mood; Malcolm G. B. Mahboubian-Jones |
| A process for weaving using a reed having vertically aligned upper and lower reed portions with the reed portions being relatively movable in a weft direction. The process includes transferring warp yarns between the reed portions, moving the transferred warp yarns in the weft direction to define a selected array of warp yarns, and then shedding the array of warp yarns for insertion of weft yarn. A weaving loom head is also provided including a reed having vertically aligned upper and lower reed portions, a plurality of healds each releasably engagable with an individual warp yarn for moving selected warp yarns from one reed portion to the other, and a selectively operable drive mechanism for causing relative movement between the reed portions by a predetermined spacing in the weft direction. Weaves may accordingly be produced including warp threads extending parallel to and/or inclined to the fabric take-off direction. Inclination of the warp threads may be in a horizontal and/or vertical plane. The warp yarns are woven with weft yarns that may extend in a direction generally perpendicular to the take-off direction and/or may be inclined in horizontal and/or vertical plane. Also, complex weaves may be produced wherein the weave pattern can be selectively changed as the weaving process progresses. | ||||||
| 166 | Reinforcing woven fabric and preformed material, fiber reinforced composite material and beam using it | US532678 | 1990-06-04 | US5100713A | 1992-03-31 | Kiyoshi Homma; Akira Nishimura |
| A reinforcing woven fabric comprising warps of reinforcing filamentary yarns arranged to form a high-density portion of warps and low-density portion of warps in the transverse direction and wefts of reinforcing filamentary yarns extending obliquely to the warps, a preformed material formed using a plurality of the reinforcing woven fabrics, a fiber reinforced composite material formed using the preformed material and a beam particularly suitable as the fiber reinforced composite material. The high-density portion of warps in the reinforcing woven fabric can satisfy the strength and rigidity against bending or tensile stress required for the flange of the beam and the obliquely extending wefts in the low-density portion of warps can satisfy the strength against shear stress required for the web of the beam, when a plurality of the reinforcing woven fabrics are laminated to form the preformed material for the beam. The mechanical properties required for the beam can be efficiently obtained. | ||||||
| 167 | Triaxially woven fabrics of uniform compliancy and porosity | US45073574 | 1974-03-13 | US3874422A | 1975-04-01 | DOW NORRIS F |
| Triaxial fabrics with weave patterns which provide relatively uniform porosity and uniform, isotropic compliancy with unstabilized lengths of yarn courses in each of the three yarn course sets. Three particular such weaves include two which are relatively non-porous and which include locked intersections to stabilize the woven structure, uniformly dispersed throughout the weave. A third weave includes no stabilized intersections and unlimited variation in the spacing between adjacent yarn courses and resulting porosity. In this third weave, a minimum thickness fabric is provided with optimum nesting characteristics of the three yarn courses.
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| 168 | Necktie fabric | US66507723 | 1923-09-27 | US1542589A | 1925-06-16 | CHARLES SEIDMAN |
| 169 | Loom. | US22271818 | 1918-03-15 | US1280461A | 1918-10-01 | HEILIG CYRUS HOYT |
| 170 | Machinery for weaving metal fabric. | US1911605366 | 1911-01-30 | US1065561A | 1913-06-24 | SMITH JAMES D |
| 171 | Loom. | US1905264424 | 1905-06-09 | US811597A | 1906-02-06 | VOLAND FRANCISQUE; DIEDERICHS LOUIS; MONNET JEAN BAPTISTE |
| 172 | CONVEYOR STRUCTURE | US16101082 | 2018-08-10 | US20190047791A1 | 2019-02-14 | Jia-Tian LIN; Cheng-Tsung SU |
| A conveyor structure includes a first conveyor structure layer, a core structure layer, and a second conveyor structure layer. The core structure layer is provided on the first conveyor belt structure and includes a rope layer, a plurality of first wefts, a plurality of second wefts and a cloth layer. The rope layer may be provided on the first conveyor structure layer and includes a plurality of warp ropes. The cloth layer may be disposed above the rope layer. The plurality of second wefts and the plurality of first wefts may be obliquely intertwined with each other and wrapped on the rope layer, or on the cloth layer, or on the rope layer and the cloth layer. The second conveyor belt structure layer may be provided on the core structure layer. | ||||||
| 173 | TEXTILE MACHINE BELT | US15754497 | 2016-08-23 | US20180245247A1 | 2018-08-30 | Naomichi NAKAI; Toshimitsu HIGASHI |
| The present invention provides a belt for a textile machine capable of reducing running noise caused during belt running. A canvas core used in the belt is constituted by a woven fabric based on a twill weave texture in which a warp crosses a plurality of wefts and aggregates (19) of weave points at which the warp crosses the wefts are regularly shifted in one longitudinal direction (L) of the belt to form a twill line (17), and some of the aggregates (19) in the twill line (17) are shifted at a predetermined interval in the opposite direction to the one longitudinal direction. | ||||||
| 174 | ANGLED FIBERGLASS CLOTH WEAVES | US15428688 | 2017-02-09 | US20180228023A1 | 2018-08-09 | MICHAEL A. CHRISTO; JOSE A. HEJASE; ROGER S. KRABBENHOFT; DIANA D. ZUROVETZ |
| A process of forming an angled fiberglass cloth weave includes weaving a first set of fibers oriented at a first non-orthogonal angle with respect to a printed circuit board to be formed from the angled fiberglass cloth weave with a second set of fibers oriented at a second non-orthogonal angle with respect to the printed circuit board to be formed form the angled fiberglass cloth weave. | ||||||
| 175 | 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. | ||||||
| 176 | REFORMABLE RESIN FIBERS | US15518042 | 2015-10-22 | US20170247821A1 | 2017-08-31 | Patrick Siboni; Laurent Meistermann; Brandon Madaus; Alex Gutierrez |
| The present invention contemplates a method for forming a reformable epoxy resin material into a fiber format and: (i) weaving the reformable epoxy resin material (10) with a reinforcing fiber (12) to form a woven material; (ii) stitching a secondary material (14) with reformable epoxy resin material; and optionally (iii) forming a web or mesh with the reformable epoxy resin material. | ||||||
| 177 | 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. | ||||||
| 178 | WOVEN PREFORM FOR PRODUCING A CIRCUMFERENTIAL OR TOROIDAL REINFORCEMENT HAVING AN OMEGA-SHAPED CROSS-SECTION | US15262029 | 2016-09-12 | US20160376735A1 | 2016-12-29 | Julien LORRILLARD; Bertrand DESJOYEAUX; Michael ROGNANT; Benjamin PROVOST |
| The disclosure relates to a shape-woven preform which has an omega-shaped cross-section including a core and a sole. At least one part of the core and at least one part of the sole have weft yarns in common with one another. | ||||||
| 179 | 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. | ||||||
| 180 | FUNCTIONAL WEAVING VAMP FABRIC | US14474748 | 2014-09-02 | US20150129078A1 | 2015-05-14 | Ching-Ting YUN |
| A functional weaving vamp fabric is disclosed, which is formed by a two beams jacquard according to a texture composition. The two beams jacquard comprises two warp beams, a jacquard and a plurality of weft knitting mechanisms, characterized in: the warp group having a plurality of first warp units and a plurality of second wrap units, the two warp beams yarn feed roller groups respectively delivering the plurality of first warp units and the plurality of second wrap units, the weft group having a plurality of weft units, and respectively delivering the plurality of corresponding weft units; wherein the jacquard interlaces the warp group and the weft group according to the texture composition, and using diversity of yarn materials or thread diameters of the plurality of first warp units and the plurality of second wrap units to produce the functional weaving vamp fabric in the process of single weaving. | ||||||
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