| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 221 | Enhanced thickness fabric and method of making same | US11155129 | 2005-06-16 | US20060014457A1 | 2006-01-19 | Mark Newton; Mark 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. | ||||||
| 222 | Enhanced thickness fabric and method of making same | US10742087 | 2003-12-19 | US20050136758A1 | 2005-06-23 | Mark Newton; Mark 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, resulting 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 during weaving operations, or using unbalanced yarns. | ||||||
| 223 | Fabric-reinforced belt for conveying food | US10780483 | 2004-02-17 | US20040161990A1 | 2004-08-19 | 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. | ||||||
| 224 | Textile | US10365594 | 2003-02-12 | US06684911B2 | 2004-02-03 | Douglas John Salway; Jan L. Williams; Daniel P. Gillig |
| A textile with first grouping of yarns separated from a second grouping of yarns, and displacement yarns disposed between the first grouping of yarns and the second grouping of yarns such that the displacement yarns progress in a sinusoidal manner to alternately contact the adjacent displacement yarn. | ||||||
| 225 | Woven fabrics particularly useful in the manufacture of occupant support structures | US10291206 | 2002-11-08 | US20030124933A1 | 2003-07-03 | Doug Salway; Jan L. Williams; Anthony R. Waldrop; Dan P. Gillig |
| A fabric particularly useful in the manufacture of occupant support structures is described. The fabric is desirably leno woven to have a high degree of openness and such that at least a plurality of the yarn intersections are stabilized from relative motion. The fabric includes elastomeric synthetic yarns in at least one fabric direction. At least some of the points of yarn intersection can be supplementally stabilized from relative motion, such as through the use of bicomponent yarns having a sheath which is melted to secure intersecting yarns together. The fabric is also resistant to ultraviolet irradiation so that it retains its physical properties after accelerated exposure to UV irradiation. The fabric provides good support and ventilation, and is suitable for use as a surface fabric in automotive and seating applications. | ||||||
| 226 | Anti-mold and anti-bacteria air filter | US09698962 | 2000-10-26 | US06540807B1 | 2003-04-01 | Ei Kawaguchi; Hidco Shiozawa |
| The present invention provides an air filter that is excellent in anti-molding and anti-bacterial functions. The anti-mold and anti-bacteria air filter is formed from fabric knitted and woven with a warp and/or a weft made of filiform thermoplastic resin including the organic anti-molding agent and filiform thermoplastic resin including the inorganic anti-bacterial agent. It is also possible to form multi-woven fabric knitted and woven with a warp made of filiform thermoplastic resin including the organic anti-molding agent and the filiform thermoplastic resin including the inorganic anti-bacterial agent. | ||||||
| 227 | Low abrasion elastomeric fabric | US10078184 | 2002-02-19 | US06435221B1 | 2002-08-20 | Anthony R. Waldrop; Bernhard Zeiler; Steven W. Josey |
| An elastomeric fabric woven in a leno weave, with the warp yarns being elastomeric yarns. The elastomeric warp yarns have a minor axis disposed in the direction perpendicular to the fabric surface. The fabric is calendered to reduce the thickness of the elastomeric yarns along the minor axis at the cross-over of the warp yarns in the leno weave. | ||||||
| 228 | WOVEN FABRICS PARTICULARLY USEFUL IN THE MANUFACTURE OF OCCUPANT SUPPORT STRUCTURES | US09449789 | 1999-11-26 | US20020098759A1 | 2002-07-25 | DOUG SALWAY; JAN L. WILLIAMS; ANTHONY R. WALDROP; DAN P. GILLIG |
| A fabric particularly useful in the manufacture of occupant support structures is described. The fabric is desirably leno woven to have a high degree of openness and such that at least a plurality of the yarn intersections are stabilized from relative motion. The fabric includes elastomeric synthetic yarns in at least one fabric direction. At least some of the points of yarn intersection can be supplementally stabilized from relative motion, such as through the use of bicomponent yarns having a sheath which is melted to secure intersecting yarns together. The fabric is also resistant to ultraviolet irradiation so that it retains its physical properties after accelerated exposure to UV irradiation. The fabric provides good support and ventilation, and is suitable for use as a surface fabric in automotive and seating applications. | ||||||
| 229 | Antislip fabric and strips of such fabric | US09808034 | 2001-03-15 | US20020071939A1 | 2002-06-13 | Tadoru Tomiyasu; Keisuke Tomiyasu |
| An improved antislip strip or band is disclosed which can maintain shirt or blouse in place with respect to slacks, pants, trousers or skirt while being worn. The strip includes a body portion formed of an elastic, antislip fabric comprising two different warp threads of polyurethane double covered yarn and polyurethane bare yarn interlaced with weft threads in the form of leno weave, and two opposed edge portions in the form of plain weave. The weaving is done in the antislip fabric to provide a roughened or irregular surface having a plurality of spaced-apart nubs formed on both sides of each gap between two adjacent weft threads. The antislip strip may be sewn into the waist portion of a garment with the roughened or irregular surface facing inside. | ||||||
| 230 | Woven sleeve with integral monofilament fasteners | US09671430 | 2000-09-27 | US06328080B1 | 2001-12-11 | Danny E. Winters |
| A woven sleeve is used for bundling elongated substrates. The illustrative embodiment is interwoven of monofilament warp members and fill yarns comprised of compliant material such as bulky multifilament yarn. Supplement monofilaments extending lengthwise of the fabric are separated into individual pieces, each including a section cradled in the compliant material of a fill yarn and are locked in the cradle position by at least one of the warp members. End sections of the individual pieces project outwardly and terminate in hooks which interlock with an exposed section of the compliant material to effect closure of the sleeve around the elongated substrates. A sleeve of the type described may also be provide with integral hooks to attach the sleeve to loop-type other loop material on a support surface. | ||||||
| 231 | GEOTEXTILE FABRIC | US09162973 | 1998-09-29 | US20010002971A1 | 2001-06-07 | MARK KITTSON |
| A unidirectional geotextile fabric for use in reinforcement of earthen retaining walls, embankments, slopes and related structures. The fabric is an open grid of high modulus of elasticity strands extending in the weft direction and strands of comparatively lower modulus of elasticity material extending in the warp direction. The fabric is preferably coated with a curable resinous material of sufficient thickness to protect the glass strands from breaking as the fabric is rolled onto cores and unrolled at the job site. When laying the fabric, a roll of the fabric is placed at one end of the face of the earthen structure being constructed and simply unrolled in a direction generally parallel to the structure's face. Because the high modulus strands of the fabric are the weft strands they extend and inhibit soil movement in a direction substantially perpendicular to the face of the structure. | ||||||
| 232 | Anti-mold and anti-bacteria air filter | US336979 | 1999-06-21 | US6165243A | 2000-12-26 | Ei Kawaguchi; Hideo Shiozawa |
| The present invention provides an air filter that is excellent in anti-molding and anti-bacterial functions. The anti-mold and anti-bacteria air filter is formed from fabric knitted and woven with a warp and/or a weft made of filiform thermoplastic resin including the organic anti-molding agent and filiform thermoplastic resin including the inorganic anti-bacterial agent. It is also possible to form multi-woven fabric knitted and woven with a warp made of filiform thermoplastic resin including the organic anti-molding agent and the filiform thermoplastic resin including the inorganic anti-bacterial agent. | ||||||
| 233 | Device for controlling warp threads for the production of leno fabrics on a textile machine | US230621 | 1999-03-23 | US6092559A | 2000-07-25 | Josef Dvorak; Jiri Mylnar; Miroslav Rydval; Petr Karel |
| A device for controlling warp threads in weaving of leno fabrics on a weaving device, such as a loom, has a guide mechanism for stationary warp threads and rotating warp threads. The guide mechanism includes a system of reversibly movable needles with eyes for passage of the stationary warp threads and a reversibly movable guide member for the stationary warp threads that is driven in association with the needles. The guide mechanism also has a vertically adjustable member with a plurality of oblique slots for the rotating warp threads for effecting side-to-side movement thereof as a result of vertical movement of the rotating warp threads within the slots, and an adjustably mounted compensation mechanism. | ||||||
| 234 | Metallized mesh fabric panel construction for RF reflector | US184460 | 1994-01-21 | US5421376A | 1995-06-06 | Agit K. Sinha |
| A metallized mesh fabric construction for use as the individual reflector panels of a radio frequency (RF) deployable parabolic reflector of the type which includes a plurality of panel supporting rib members which, upon deployment, unfurl in a spiral manner from a central hub to form the parabolic reflector surface. The mesh fabric includes silver coated nylon strands and stretch resistant plastic or synthetic strands interwoven in a "Marquisette" or "Leno" style weave. The stretch resistant strands of the mesh fabric are oriented along the chordal direction (i.e., transverse to the radial direction of the unfurlable ribs) in order to withstand the tension placed on the mesh fabric during deployment of the reflector and hence maintain the shape and accuracy of the reflector surface and resist creep. The weave has openings sized sufficiently large to minimize the effects of wind load yet sufficiently small to provide good reflective performance of radio frequencies up to and including X-Band frequencies. | ||||||
| 235 | Woven geotextile grid | US402971 | 1989-09-05 | US5091247A | 1992-02-25 | Gary L. Willibey; John W. Hawkins; Russell P. Harp; David M. Wilkinson |
| Woven geotextile grid for earth reinforcement applications. The grid is formed of woven fabric which is coated with a suitable polyvinylchloride or other plastic coating. The fabric is formed of a plurality of spaced-apart pick yarn bundles which are interwoven with a plurality of spaced-apart warp yarn bundles. The pick yarn bundles are held in place in the warp yarn bundles with locking yarns which run parallel to the pick yarns and which are positioned adjacent to the edges of the pick yarn bundles. The warp yarns extend between the pick yarn bundles and locking yarns to lock the pick yarn bundles into place. A plurality of pairs of leno yarns oriented parallel to the warp yarns additionally strengthen the fabric by interlocking with one another in the spaces between pick yarn bundles and locking yarns. The result is a grid which has wide lateral and longitudinal members that lock together to form large interstices through which soil and water may penetrate. Strength of the grid may be adjusted laterally or longitudinally by varying (1) the number, size and composition of pick yarns and warp yarns; (2) the spacing between pick yarn bundles and warp yarn bundles and (3) the number, position and composition of the leno yarns. Coatings may be independently formulated to suit particular applications without detracting from strength properties of the grid. | ||||||
| 236 | Woven elastic fabric and process for making | US768614 | 1977-02-14 | UST966012I4 | 1978-01-03 | Alexis Reicher |
| a slip-resistant woven elastic fabric is made of hard weft yarns and paired fusible elastomer leno warp yarns, the individual warp yarns of each pair crossing and recrossing each other at intervals throughout the fabric and being fused to each other at the crossover points. | ||||||
| 237 | Lenoweave substrate construction | US3595730D | 1967-11-08 | US3595730A | 1971-07-27 | RICHARDSON RALPH L JR; HORNE WILLIAM L |
| A LOW-TEXTURE BACKING OR SUPPORT FABRIC SUCH AS SCRIM IS WOVEN BY THE LENOWEAVE METHOD. A SYSTEM OF PAIRS OF DIFFERENT STRENGTH WARP YARNS ARE INTERLACED (I.E. CROSSED AND TWISTED) AT EACH POINT OF CONTACT WITH AN INTERWOVEN SYSTEM OF FILLING YARN. THE RELATIVELY STRONG OR PRIMARY WARP YARNS AND THE FILLING YARNS HAVE IDENTICAL TEAR OR RUPTURE STRENGTHS. WHEN PRESSURE CAUSES THE FILLING YARNS TO MOVE OR RIDE UP AND/OR DOWN THE WARP SYSTEM, THE RELATIVELY WEAK OR SECONDARY WARP YARNS RUPTURE, WHILE THE RELATIVELY STRON PRIMARY WARP YARNS REMAIN INTACT,
THUS MAINTAINING A BALANCED OR UNIFORM SUBSTRATE CONSTRUCTION PRIOR TO LAMINATION. THE LENOWEAVE FABRIC MAY BE EMPLOYED AS A CHAFER OR FINISHING STRIP IN THE LAMINATION OF ELASTOMERIC MATERIAL USED FOR RUBBER TIRES. THE FOREGOING ABSTRACT IS NOT INTENDED TO DEFINE THE SCOPE OF THE INVENTION AND IS ONLY PROVIDED TO PERMIT A CURSORY REVIEW OF THE GIST OF THE INVENTION. |
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| 238 | Double-ply leno fabric | US4183648 | 1948-07-31 | US2559341A | 1951-07-03 | SAM BRIERLEY |
| 239 | Open-mesh fabric selvage | US67211846 | 1946-05-24 | US2461240A | 1949-02-08 | SCRUGGS THOMAS M |
| 240 | Process for producing fabric and the fabric | US69903533 | 1933-11-21 | US2145858A | 1939-02-07 | BORHO ERNEST R |
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