| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 201 | Article, more particularly hose, more particularly again charge-air hose, with an embedded reinforcement based on a polyoxadiazole | US13675815 | 2012-11-13 | US09040133B2 | 2015-05-26 | Horst Schubert; Ulrich Brettschneider |
| An article composed of a polymeric material, especially a material having elastic properties, which has been provided with an embedded reinforcement made wholly or partly of a textile material. In a first reinforcement variant, the textile material is polyoxadiazole (POD), a POD derivative or a POD copolymer, or, in a second reinforcement variant, the textile material is a combination of POD, a POD derivative or a POD copolymer, and at least one further textile material, or, in a third reinforcement variant, the textile material comprises a material combination of POD, a POD derivative or a POD copolymer and at least one further material which is not part of any textile group. The article is particularly a hose and more particularly a charge-air hose having an inner layer and an outer layer of a polymeric material and an embedded reinforcement, for example in the form of a POD knit. | ||||||
| 202 | Device for manufacturing a fabric, and fabric | US13891564 | 2013-05-10 | US08893750B2 | 2014-11-25 | Kurt Hockemeyer; Christoph Schwemmlein |
| A device for manufacturing a fabric has a plurality of automatically working apparatus arranged next to one another on at least one carrier for manufacturing a leno weave (a leno weave apparatus). Two leno threads are fed to each leno weave apparatus. The device has at least one weft thread picking device; wherein the weft thread is introduced into the shed of leno threads raised by a plurality of leno weave apparatus. The weft thread is bound using at least two leno threads at a plurality of points behind the weft thread over the width of the fabric. At least one of the leno weave apparatus arranged in the end region of the fabric carries out a higher number of interlacings for achieving a homogenized warp tension distribution over the width of the fabric; and/or the lowering of the shed is carried out by the leno weave apparatus over the width of the fabric at different times for achieving a homogenized warp tension distribution. | ||||||
| 203 | Arrangement for creating light effects | US13388549 | 2010-08-05 | US08888334B2 | 2014-11-18 | Frauke Susanne Hänsch |
| The invention relates to an arrangement for generating light effects, particularly for decorative purposes, having a light source (10) and a textile web material (12) that can be illuminated by through light from the light source (10) toward a visible side (16) or by incident light. According to the invention, the textile web material (12) comprises a two-layer weave structure made of warp threads (18) forming a warp thread layer (26) and weft threads (20) forming a weft thread layer (24) contacting the warp thread layer (26) on one side. | ||||||
| 204 | Reinforcement mesh for architectural foam moulding | US12606362 | 2009-10-27 | US08846153B2 | 2014-09-30 | Mark Joseph Newton |
| Methods of making a reinforcement mesh, and an architectural molding reinforced by the mesh. The mesh is adhered by an adhesive to the architectural molding. In the mesh, weft yarns bend relative to warp yarns to conform to and against a curved profile of the architectural molding, and the warp yarns are unbent and adhered against the molding. | ||||||
| 205 | Reinforcement mesh for architectural foam moulding | US11759540 | 2007-06-07 | US08828894B2 | 2014-09-09 | Mark Joseph Newton |
| A reinforcement mesh, an architectural moulding reinforced by the mesh, and methods of making the architectural moulding and the mesh. The mesh is adhered by an adhesive to the architectural moulding. In the mesh, weft yarns bend relative to warp yarns to conform to and against a curved profile of the architectural moulding, and the warp yarns are unbent and adhered against the moulding. | ||||||
| 206 | NON-STEEL DISTANCE KEEPER IN IMPACT BEAM | US14346157 | 2012-06-21 | US20140220332A1 | 2014-08-07 | Hendrik Rommel; Henk Cornelus; Veerle Van Wassenhove |
| An impact beam (70) comprises a polymer matrix and a reinforcing structure, the structure further comprises a number of metal reinforcing cords (11) and non-metal elongated binding elements (13) or non-metal coated elongated binding elements arranged between the cords for holding the metal reinforcing cords together. Part of the non-metal elongated binding elements is positioned at the exterior surface of the impact beam in order to keep the metal reinforcing cords away from the surface of the part. The impact beam may also comprise a non-steel distance keeper (66) being positioned at the exterior surface of the impact beam in order to keep the metal reinforcing cords away from the surface of the part. The non-steel distance keeper can either be a non-metal coating on said metal reinforcing cords or non-metal elongated binding elements (55) arranged between the cords for holding the metal reinforcing cords together. | ||||||
| 207 | NON-ANCHORING CORDS WITH NON-CHEMICALLY BINDING WITH THE MATRIX IN IMPACT BEAM | US14346189 | 2012-06-21 | US20140217757A1 | 2014-08-07 | Erwin Lokere; Jeroen Gallens; Veerle Van Wassenhove; Hendrik Rommel |
| An impact beam (40) comprises a polymer matrix and a reinforcing structure, the structure comprises a number of metal reinforcing cords (22) and non-metal elongated binding elements (26) or non-metal coated elongated binding elements arranged between the cords for holding the metal reinforcing cords together. Each of the metal cords has a metallic cross-sectional area Ametal, and the ratio of the metallic area Ametal to the area of the circumscribed circle (TTdcord2/4) is at least 0.60. The metal cords further have a non chemically binding with the matrix, and non-metal elongated binding elements or non-metal coated elongated binding elements have a chemical bond with said polymer matrix. By not having a mechanical interlocking and a non chemically binding with the matrix, the whole metal cord is stressed and not a local point while in the latter case the metal cord would locally break due to the very high impact forces. Therefore, the structural integrity of the impact beam as subject of the invention can be improved significantly during and after impact. | ||||||
| 208 | MOVEMENT LIMITING BAND FOR AN AIRBAG MODULE AND METHOD FOR PRODUCING SAID MOVEMENT LIMITING BAND | US14233772 | 2012-07-06 | US20140183848A1 | 2014-07-03 | Daniele Aranzulla; Martina Rausch |
| Elongate woven pulling means (10) for an airbag module comprises plural longitudinal portions (12, 14, 16, 18, 20) that have different warp densities. An airbag module for a vehicle safety system comprises an airbag, pulling means (10) coupled to the airbag and an activation unit coupled to the pulling means for releasing the pulling means upon actuation of the activation unit. The pulling means (10) is an elongate woven pulling means having different warp densities which is fastened to the airbag by a first end portion (12) of low warp density, preferably by stitching, and is coupled to the activation unit by a longitudinal portion (16) of high warp density. A method of manufacturing such pulling means (10) comprises the steps of: weaving a longitudinal portion (12; 20) on a loom of low warp density; and weaving a further longitudinal portion (16; 14, 18) on the loom having high or increasing warp density in the same working step. For weaving an adjustable reed having different widths is employed. | ||||||
| 209 | FIBER REINFORCED DENTAL APPLIANCES AND PROSTHESES | US13544712 | 2012-07-09 | US20130017510A1 | 2013-01-17 | David Rudo |
| A fabric ribbon for use in dental applications. The fabric ribbon includes a transverse set of fibers aligned generally transverse to a length of the ribbon; and a axial set of fibers, intertwined around the transverse set of fibers and aligned generally axially along the length of the ribbon, each of the axial set of fibers having a thickness greater than a thickness of each of the transverse set of fibers. The fabric ribbon may be used for a dental appliance, for example in a periodontal splint, a pontic beam, a composite restoration, or to bridge a crack in teeth. | ||||||
| 210 | Enhanced thickness fabric and method of making same | US12686435 | 2010-01-13 | US08187401B2 | 2012-05-29 | Mark J. Newton; Mark W. Tucker |
| The present invention provides thickened fabrics and reinforcements for use as a spacer or reinforcement for a matrix system. The fabric includes in a first embodiment a woven fabric comprising weft and warp yarns containing glass fibers. A portion of the weft yarns are undulated into a sinusoidal path forming a generally “C” shaped bridge between adjacent warp yarns which results in an increased thickness for the fabric. The fabric is coated with a polymeric resin or bonding agent, for substantially binding the weft yarns in the undulated condition. This invention also includes methods for making such fabric by increasing the thickness of a woven or non-woven material by such methods as applying tension to warp yarns having opposite twists during weaving operations, or using unbalanced yarns, for example. | ||||||
| 211 | EXTERIOR FINISHING SYSTEM AND BUILDING WALL CONTAINING A CORROSION-RESISTANT ENHANCED THICKNESS FABRIC | US13011599 | 2011-01-21 | US20110143616A1 | 2011-06-16 | William F. Egan; Mark J. Newton; Mark W. Tucker |
| A corrosion-resistant lath is provided for use in exterior finishing systems, such as stucco systems and exterior insulation and finish systems (“EIFS”). The lath includes in a first embodiment an open, woven fabric comprising weft and warp yarns containing non-metallic fibers, such as glass fibers. A portion of the weft yarns are undulated, resulting in an increased thickness for the fabric. The fabric is coated with a polymeric resin for substantially binding the weft yarns in the undulated condition. This invention also includes methods for making an exterior finish system and building wall including an exterior finish system using such a lath. | ||||||
| 212 | Bandage with lengthwise elasticity in warp direction | US11988086 | 2006-07-08 | US07886776B2 | 2011-02-15 | Harald Jung; Frauke Haensch; Karlheinz Szombach |
| A bandage with lengthwise elasticity in the warp direction, comprising a textile expanse woven in leno weave and having weft threads, leno threads and elastically extensible warp threads. The warp threads are cotton-elastic threads. | ||||||
| 213 | Material for producing a support bandage | US11721654 | 2004-12-13 | US07750200B2 | 2010-07-06 | Helmut Leuprecht |
| A material for producing a support bandage, which comprises a support. Said support is coated and/or impregnated with a curable plastic material and at least partially configured by a leno fabric comprising warp yarns that cross between two weft yarns running in parallel. Said leno fabric comprises at least one additional warp yarn that is located between two pairs of crossing warp yarns and does not cross any other warp yarn. | ||||||
| 214 | Enhanced thickness fabric and method of making same | US11155129 | 2005-06-16 | US07632763B2 | 2009-12-15 | Mark J. Newton; Mark W. Tucker |
| The present invention provides thickened fabrics and reinforcements for use as a spacer or reinforcement for a matrix system. The fabric includes in a first embodiment a woven fabric comprising weft and warp yarns containing glass fibers. A portion of the weft yarns are undulated into a sinusoidal path forming a generally “C” shaped bridge between adjacent warp yarns which results in an increased thickness for the fabric. The fabric is coated with a polymeric resin or bonding agent, for substantially binding the weft yarns in the undulated condition. This invention also includes methods for making such fabric by increasing the thickness of a woven or non-woven material by such methods as applying tension to warp yarns having opposite twists during weaving operations, or using unbalanced yarns, for example. | ||||||
| 215 | Leno cap ply for pneumatic tire | US12154996 | 2008-05-29 | US20090294008A1 | 2009-12-03 | Dany F. Michiels; Johann Peschek; Willy Delanoy; Peter Eeckhout; Boudewijn Snauwaert |
| A pneumatic tire containing a tread, a carcass having at least one belt ply disposed below the tread, and a cap ply located between the carcass and the tread. The cap ply comprises at least one layer of an open construction leno weave tape having a pair of warp yarns in the longitudinal direction and a weft yarn in the weft direction. The pair of warp yarns comprises a first warp yarn and a second warp yarn, where the second warp yarn has a force of elongation of between about 1 and 40% the force of elongation of the first warp yarn, where the second warp yarn is in tension, and where the second warp yarn has an elongation at break of greater than 2%. The leno weave tape is disposed in a flat pattern around the circumference of the carcass in the area of the belt ply. A method of making a pneumatic tire is also disclosed. | ||||||
| 216 | Exterior Finishing System and Building Wall Containing a Corrosion-Resistant Enhanced Thickness Fabric and Method of Constructing Same | US12475652 | 2009-06-01 | US20090239430A1 | 2009-09-24 | William F. Egan; Mark J. Newton; Mark W. Tucker |
| A corrosion-resistant lath is provided for use in exterior finishing systems, such as stucco systems and exterior insulation and finish systems (“EIFS”). The lath includes in a first embodiment an open, woven fabric comprising weft and warp yarns containing non-metallic fibers, such as glass fibers. A portion of the weft yarns are undulated, resulting in an increased thickness for the fabric. The fabric is coated with a polymeric resin for substantially binding the weft yarns in the undulated condition. This invention also includes methods for making an exterior finish system and building wall including an exterior finish system using such a lath. | ||||||
| 217 | Secondary carpet backing and buckling resistant carpet made therefrom | US11343494 | 2006-01-31 | US20070178790A1 | 2007-08-02 | Hugh Gardner; Carroll Yawn |
| An improved secondary carpet backing fabric imparts increased resistance to buckling in carpets compared to conventional widely used secondary backings while providing the performance of conventional secondary carpet backings (e.g., similar peel strength, tuft bind, ease of handling). The improved backing is produced by a one-step weaving process and can be converted easily into carpet using current carpet making techniques. The inventive secondary carpet backing contains core-spun filling yarn with specific properties and is preferably woven in a leno or plain weave. Compared to carpets with conventional secondary backings, carpets with the inventive secondary backings display reduced growth in cyclic tensile testing. | ||||||
| 218 | Leno cloth as well as method and weaving machine for production thereof | US11323720 | 2005-12-29 | US20060169347A1 | 2006-08-03 | Adnan Wahhoud |
| A leno cloth is prepared, which comprises at least ground warp threads 1, leno warp threads 3 and weft threads 2, and in which the weft threads 2 and the ground warp threads 1 are arranged essentially interspace free. The weft threads are bound-off by means of the leno warp threads 3, which comprise a clearly lower titer relative to the ground warp threads 1, with such a lower tension relative to the ground warp threads, so that the crossings of the leno warp threads 3 with the ground warp threads 1 that are present due to the binding are arranged in a plane parallel to the plane of the maximum thickness of the weft threads. The leno warp threads 3 comprise a higher working-in or take-up into the woven cloth than the ground warp threads 1. According to a further aspect of the invention, a method for the production of a leno cloth as well as a loom for the carrying out of the method for the production of a leno cloth are described. | ||||||
| 219 | Fabric-reinforced belt for conveying food | US10780483 | 2004-02-17 | US07074729B2 | 2006-07-11 | Jay Philip Leighton; Natalie B. Deal |
| A composite sheet includes a fabric that is at least partially embedded in a polymeric sheet. The fabric includes longitudinally extending warp yarns and laterally extending weft yarns, with there being one or more pairs of substantially spaced apart, yet adjacent, warp yarns. For each pair, the two warp yarns are sufficiently spaced apart from one another so that the composite sheet can be longitudinally slit between and distant from the two warp yarns, to provide one or more sections of the composite sheet that can be used as conveyor belts. The warp yarns are not exposed at the cut edges. | ||||||
| 220 | Conveyor belt | US10956729 | 2004-10-01 | US20060073752A1 | 2006-04-06 | Francis Enzien; John Porter; Michael Kennedy; David Spanton; Philip Fusco; Lee Markel |
| In one particular embodiment, the disclosure is directed to a conveyor belt including a set of warp knitted yarns configured in warp-oriented wales and a set of weft insert yarns inserted in the set of warp-oriented wales. The set of weft insert yarns have a cross-sectional aspect ratio at least about 2:1. | ||||||
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