| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | Weave structure for preventing woven tape selvedge from fraying | US213062 | 1994-03-15 | US5454404A | 1995-10-03 | Mitsuhisa Okawa |
| A woven structure for preventing selvedges of a woven tape with a back surface covered by a coating of synthetic resin from fraying, wherein at least the cut portion of the woven tape, which is obtained by cutting a large-width woven fabric longitudinally along its width, has an interlaced woven structure along a predetermined width. | ||||||
| 122 | Shaped fabric products and methods of making same | US787900 | 1991-11-05 | US5413149A | 1995-05-09 | 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. Also disclosed are methods for forming such shaped product. | ||||||
| 123 | Method and weaving machine for producing multi-axial fabric | US117939 | 1993-09-08 | US5375627A | 1994-12-27 | Shigenobu Iida; Chikaji Ohmori; Takao Ito |
| A weaving machine having opposite arrays of first heddles which are subjected to an alternative weft-wise movement. The weaving machine is also provided with opposite arrays of second heddles which are arranged on one side of the respective arrays of the first heddles adjacent the cloth fell. The weaving machine is operative to manufacture a multi-axial fabric constructed by a triaxial fabric including oblique warp yarns of different direction which are interwoven in weft yarns, and straight warp yarns interwoven with the weft yarns constructing the triaxial 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, and the straight warp yarns are interwoven with the weft yarns which are interwoven with the oblique warp yarns. | ||||||
| 124 | Tetraxial fabric and weaving machine for its manufacture | US168582 | 1993-12-16 | US5351722A | 1994-10-04 | Dini Mamiliano |
| A tetraxial fabric and a weaving machine for manufacturing the fabric. The tetraxial fabric is formed by the crisscross of warp yarns, weft yarns, and bias yarns having two different diagonal directions. A first set of warp yarns is overlaid by the weft yarns and, in turn, overlies the bias yarns. A second set of warp yarns, which alternate with the warp yarns in the first set, overlies the weft yarns and is, in turn, overlaid by the bias yarns. Due to the yarn formation, the fabric has a constant isotropy and evenness and can be made with a fill coefficient of up to 100%. The weaving machine for the manufacture of the tetraxial fabric can alternately produce, in the fabric formation area, two sheds between the warp yarns for passing the weft yarns at opposite sides with respect to the bias yarns. | ||||||
| 125 | Woven material with filling threads at angles other than right angles | US578372 | 1975-05-19 | US4055697A | 1977-10-25 | Donald W. Schmanski |
| A woven material wherein the woof or cross filling threads are disposed at a predetermined angle other than a right angle to the warp or lengthwise threads. | ||||||
| 126 | Triaxial fabric | US28155D | 1973-06-18 | USRE28155E | 1974-09-10 | |
| FABRICES OF THIS INVENTION COMPRISE THREE ANGULARLY DISPLACED SETS OF PARALLEL COURSES OF YARN, INTERWOVEN TO PREVENT SLIPPAGE OF AT LEAST ONE YARN COURSE SET ALONG ANY OTHER YARN COURSE SET. THE INTERWEAVING MAY BE SUCH AS TO PREVENT SLIPPAGE OF ALL THREE YARN COURSE SETS. EACH YARN COURSE MAY COMPRISE ONE OR MORE INDIVIDUAL STRANDS OF YARN. FABRICS WOVEN IN THIS MANNER ARE SUBSTANTIALLY ISOTROPIC, I.E. THEIR STRENGTH AND RESISTANCE TO STRETCHING OR SHEARING FORCES IN A PLANE OF THE FABRIC IS RELATIVELY CONSTANT REGARDLESS OF THE DIRECTION OF FORCE APPLICATION.
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| 127 | Continuous carbon fiber tapes | US3669158D | 1970-03-06 | US3669158A | 1972-06-13 | PHILLIPS LESLIE NATHAN |
| Tape containing continuous high strength high modulus carbon fibers and optionally also glass fibers suitable for use as preimpregnated tape in mechanical winding processes is disclosed wherein there is a light cross-weave of 1-10 filaments of fine glass fiber at a frequency of about 10-2 threads per inch.
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| 128 | Coated fabric insulation tape and process | US47065842 | 1942-12-30 | US2355038A | 1944-08-01 | BARNARD KENNETH H |
| 129 | Means for the manufacture of fabrics with bias weft | US5817436 | 1936-01-08 | US2113492A | 1938-04-05 | EUGENE PHILIPPE |
| 130 | Woven fabric | US40512120 | 1920-08-21 | US1368215A | 1921-02-08 | STEWART FRANK H |
| 131 | Island | US579312D | US579312A | 1897-03-23 | ||
| 132 | METHOD FOR THE MANUFACTURE OF A FABRIC WITH THREADS CONFIGURING A RHOMBUS OR RHOMBOID AND THE OBTAINED FABRIC | PCT/IB2006055067 | 2006-10-03 | WO2007072465A2 | 2007-06-28 | DESMOND CAPEYRON ROGER FRANCK |
| It comprises: a first phase in which warp threads and weft threads are interwoven and either the warp or the weft is disposed in an oblique manner with respect to the other, a second phase in which a fabric is woven in which, when woven, said threads form rhombuses or rhomboids between them, characterised in that in a third phase, the resultant fabric from the second phase is made up, so that the minor diagonal of the rhombus or rhomboid coincides with: either the direction of the force of gravity and the resultant of the forces originated in said fabric zone, or with the direction of the force of gravity or the resultant of the forces originated in said fabric zone. | ||||||
| 133 | PROLIFERATED THREAD COUNT OF A WOVEN TEXTILE BY SIMULTANEOUS INSERTION WITHIN A SINGLE INSERTION EVENT OF A LOOM APPARATUS MULTIPLE ADJACENT PARALLEL YARNS DRAWN FROM A MULTI YARN PACKAGE | US15824073 | 2017-11-28 | US20180298529A1 | 2018-10-18 | Sachin JHUNJHUNWALA |
| A method, a device and/or a system of proliferating a thread count of a woven textile by simultaneous insertion within a single insertion event of a loom apparatus. In one or more embodiments, multiple texturized polyester weft yarns of denier between 7 D and 200 D are wound on a single bobbin in a parallel adjacent fashion such that they may be fed into an Sulzer/projectile insertion apparatus to weave a textile that has between 90 to 250 ends per inch cotton warp yarns and between 100 and 1200 polyester weft yarns. | ||||||
| 134 | Plexus of Filaments with Linked Members | US15644762 | 2017-07-08 | US20180020762A1 | 2018-01-25 | Bradford C. Jamison |
| Disclosed herein is a plexus of filaments which is composed of paired filaments which travel extensively around one another to form a double helix structure, where each pair of filaments belongs to a group of filaments, traverse at crossing angles to other filaments which belong to at least another group of filaments, thus repetitively crossing the paths of the filament pairs in at least another group of filaments. Also defined within the specifications and claims herein is the linking of the filaments between the different paired groups of filaments, which facilitates the distribution of tension between the filaments within a plexus of filaments. Herein described are plexuses which exhibit greater conformal and constrictive qualities in comparison to the prior art. Also disclosed is a method of producing filament structures for a variety of uses including composite structures, with enhanced structural properties, including but not limited to; tension displacement properties, for use in applications requiring conformal load distribution with minimal weight. | ||||||
| 135 | WOVEN OR EXTRUDED NET, USE OF THE NET FOR MAKING A BAG AND BAG FOR CONTAINING PRODUCTS | US15326710 | 2014-07-23 | US20170203880A1 | 2017-07-20 | Ezequiel GIRO AMIGO |
| A woven or extruded net for forming bags, with threads or bands which are linked or firmly bonded together to make up meshes. The meshes of the net are not homogeneous and the net has at least one main portion in which the threads or bands are linked or bonded to form a first mesh structure, suitable for the net to fulfill its role; and at least one smaller portion wherein the threads or bands form a second mesh structure, more readily breakable than the first mesh structure, intended to make it easier to open the bag which is to be made with the net. | ||||||
| 136 | Method and means for producing textile materials comprising tape in two oblique orientations | US13979714 | 2012-01-20 | US09506170B2 | 2016-11-29 | Nandan Khokar |
| A novel method and means for directly producing a variety of textile materials comprising tapes oriented in two opposite oblique orientations relative to the textile's length and width directions, called Oblique Fiber Textile (OFT), are disclosed. The described method and means for producing OFT provide secondary structural integrity/stability to OFTs, in addition to primary structural integrity/stability. The process is especially advantageous for producing OFTs comprising tapes, including Spread Fiber and Highly Drawn Polymeric types. Such OFTs are needed in a number of applications such as ballistic mitigation, composite materials, safety products etc. for their improved performance, functions and aesthetics. Several different types of OFTs are producible by the novel OFT forming process which is technically unlike weaving and braiding processes. | ||||||
| 137 | GAUZE FABRIC | US14767775 | 2013-08-29 | US20160281276A1 | 2016-09-29 | Shuichi HOZUMI |
| A gauze fabric having good touch feeling and capable of being sewn. The gauze fabric includes surface layer, back layer, and at least one middle layer, wherein the surface layer is composed of non-twisted yarns, wherein the back layer is composed of non-twisted yarns, wherein the at least one middle layer is composed of twisted yarns, and wherein the surface layer and the back layer are directly and/or indirectly joined together. | ||||||
| 138 | HEAT TREAT FURNACE JIG | US14896027 | 2014-06-04 | US20160123670A1 | 2016-05-05 | Syuhei Tomita; Hiroshi Machino; Toshiharu Hiraoka; Shingo Bito |
| The present invention improves the strength of the bottom (net) of the jig and makes it more difficult and unlikely for deviation of the mesh to occur.A workpiece is loaded on the net (2) of the heat treat furnace jig (hereinafter, heat treatment furnace jig). In the net (2), a first strand (10), a second strand (20) and a third strand (30) are in contact at a contact point (X1). Near the contact point (X1), the second strand (20) overlaps the first strand (10) from above and the third strand (30) overlaps the first strand (10) from below. As a result, the first strand (10) is held between the second strand (20) and the third strand (30) in the up/down directions. | ||||||
| 139 | DEVICE FOR PRODUCING A FABRIC AND FABRIC | US14888902 | 2014-05-07 | US20160083876A1 | 2016-03-24 | Frank THIEL; Alexander EHRLICH |
| The invention relates to a device for producing a fabric, wherein, in each weaving step, a shed can be formed by means of warp threads, through which a weft thread can be led, and the weft thread can be pushed in the direction of a fabric edge by means of a reed. Here, a weft thread insertion device is provided, by means of which an angle of insertion of the weft thread and/or beating up the same at the edge of the fabric can be adjusted variably in relation to the weft thread. The invention further relates to such a fabric. According to the invention, the weft thread insertion device for adjusting the angle of insertion of the weft thread has at least one adjusting unit, which is coupled to the reed, wherein the adjusting unit comprises two piston-cylinder units, which are each coupled to one end of the reed. | ||||||
| 140 | Belt | US13139776 | 2009-09-17 | US09074306B2 | 2015-07-07 | Stephan Preus |
| The fabric structure of a belt intended for use as a vehicle safety belt is characterized by warp (1) and weft (3) threads, wherein the warp threads (1) extend in the lengthwise direction of the belt (2) and the weft threads (3) extend in the transverse direction thereto, wherein in the load-free state the warp threads (1) are looped around the weft threads (3) which extend in a straight line and wherein at least in a lengthwise section of the belt the weft threads (3) are formed in such a manner that they can extend in length in comparison to the warp threads (1). In this manner, the risk of injury to vehicle occupants during an accident, thus when a load is applied in the lengthwise direction of the belt, is reduced by virtue of the fact that the warp threads which are not able to extend in length relative to the weft threads starting from their shape looped around the weft threads (3) are aligned in a straight line in accordance with the applied load, so that a displacement force is exerted on the weft threads (3) and these are stretched to form a shape which is now looped around the warp threads (1), so that the warp threads are moved away from each other and the belt band width is increased. | ||||||
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