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Небесная энциклопедия

Космические корабли и станции, автоматические КА и методы их проектирования, бортовые комплексы управления, системы и средства жизнеобеспечения, особенности технологии производства ракетно-космических систем

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Мониторинг СМИ

Мониторинг СМИ и социальных сетей. Сканирование интернета, новостных сайтов, специализированных контентных площадок на базе мессенджеров. Гибкие настройки фильтров и первоначальных источников.

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Форма поиска

Поддерживает ввод нескольких поисковых фраз (по одной на строку). При поиске обеспечивает поддержку морфологии русского и английского языка
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Применить Всего найдено 309. Отображено 100.
02-01-2020 дата публикации

WOVEN FABRIC

Номер: US20200002852A1
Автор: Qiang Song Guo
Принадлежит: Dongguan Shichang Metals Factory Ltd.

A woven fabric for seats is made of warps and wefts woven into a pattern with a ratio of 1:1, wherein the warps density is 8 strips per unit length and the wefts density is 9.2 strips per unit length. The warps and wefts are both made of polyester and linen, wherein the polyester comprises 94% by weight and the linen comprises 6% by weight. 1. A woven fabric comprising warps and wefts woven into a pattern with a ratio of 1:1 , wherein the warps have a density of 8 strips per unit length , and the wefts have a density of 9.2 strips per unit length.2. The woven fabric according to having a surface density of 320 grams per square meter.3. The woven fabric according to claim 1 , wherein the warps are made of polyester and linen claim 1 , and the wefts are made of polyester and linen claim 1 , and wherein the polyester comprises 94% by weight and the linen comprises 6% by weight.4. The woven fabric according to claim 1 , wherein a back surface of the fabric is coated with wool.5. A woven fabric comprising:warps made of polyester and linen and woven at a density of 8 strips per unit length; andwefts made of polyester and linen and woven at a density of 9.2 strips per unit length,wherein the polyester comprises 94% by weight of the woven fabric, andthe linen comprises 6% by weight of the woven fabric.6. The woven fabric according to claim 5 , wherein a surface density of the woven fabric is 320 grams per square meter.7. The woven fabric according to claim 5 , wherein a back surface of the fabric is coated with wool. This invention relates to the field of fabrics. More particularly, this invention relates to a woven fabric for seats, such as seats for furniture.At present, fabrics used in automobile seats, furniture seats and so on are mostly linen fabrics or cotton-linen fabrics. As people sit down on, get up from, and generally move around on a seat during daily use, it is inevitable that there is friction between the fabric on the surface of the seat and people's ...

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Номер записи: 1
07-01-2021 дата публикации

Method for manufacturing a stretch fabric comprising plant fibres and stretch fabric manufactured by such method

Номер: US20210002798A1
Автор: Andrea Baggiani, Francesca SOSTER
Принадлежит: Loro Piana SpA

A method includes the operating steps of providing a stretch twisted yarn including a plurality of single threads twisted together. A pair of mixed threads has substantially inextensible plant fibers mixed with water-soluble fibers, and an elastic single thread includes synthetic elastic fibers. The method further includes providing a further yarn, manufacturing a fabric through weaving by interlacing the twisted yarn with the further yarn, and dissolving the water-soluble fibers from the fabric.

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Номер записи: 2
02-01-2020 дата публикации

SUBSTRATE ASSEMBLY REGION WITH CERAMIC OR BORON FIBER

Номер: US20200006211A1
Автор: BROWN Andrew J., CHATTERJEE Prithwish, Chen Lisa, Link Lauren A., Vadlamani Sai
Принадлежит:

Apparatuses, systems and methods associated with substrate assemblies for computer devices are disclosed herein. In embodiments, a core for a substrate assembly includes a first metal region, a second metal region, and a dielectric region located between the first metal region and the second metal region. The dielectric region includes one or more fibers, wherein each of the one or more fibers includes aluminum, boron, silicon, or oxide. Other embodiments may be described and/or claimed. 1. A core for a substrate assembly , comprising:a first metal region;a second metal region; anda dielectric region located between the first metal region and the second metal region, wherein the dielectric region includes one or more fibers, wherein each of the one or more fibers includes aluminum, boron, silicon, or oxide.2. The core of claim 1 , wherein each of the one or more fibers comprises aluminoborosilicate claim 1 , aluminosilicate claim 1 , or alumina.3. The core of claim 1 , wherein each of the one or more fibers further includes:a nucleus formed of an electrically non-conductive material; andan outer layer that encircles the nucleus, the outer layer formed of boron.4. The core of claim 3 , wherein the electrically non-conductive material comprises aluminoborosilicate claim 3 , aluminosilicate claim 3 , or alumina.5. The core of claim 1 , wherein the one or more fibers comprise a plurality of fibers claim 1 , wherein the plurality of fibers are woven to produce a fabric.6. The core of claim 5 , wherein the dielectric region further includes resin claim 5 , and wherein the fabric is impregnated with the resin.7. The core of claim 6 , wherein the resin comprises a dielectric material or a ceramic-based material.8. The core of claim 5 , wherein the fabric has a tensile modulus between 240 gigapascals (GPa) and 400 GPa.9. The core of claim 5 , wherein the fabric has a tensile strength between 3.6 gigapascals (GPa) and 4 GPa.10. A substrate assembly claim 5 , comprising:one or ...

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Номер записи: 3
10-01-2019 дата публикации

Fabric and liquid absorbing article

Номер: US20190008687A1
Автор: Nobuhito Tsubaki, Satoshi Takeshima, Yutaka Ishiura
Принадлежит: Murata Manufacturing Co Ltd

A fabric that includes a first yarn and a second yarn which generate electric charges having different polarities with the application of external energy thereto. The fabric includes a low-density portion and a high-density portion having a lower porosity than the low-density portion.

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Номер записи: 4
10-01-2019 дата публикации

LACROSSE HEAD POCKET AND RELATED METHOD OF MANUFACTURE

Номер: US20190009153A1
Автор: Currier Zachary W., Morrow David K., Tse Tina
Принадлежит:

A lacrosse head pocket and a related method of manufacture are provided to facilitate consistent, repeatable and/or custom manufacture of lacrosse equipment. The pocket can be knitted, weaved or otherwise assembled on an automated assembly machine from strands, and/or can be formed as a unitary textile material having regions/sections with different physical and/or mechanical properties. The pocket can be integrally molded within portions of a lacrosse head to eliminate manually constructed connections between the pocket and lacrosse head. The pocket can include a perimeter flange constructed from special materials and/or a perimeter flange including intermittent voids along an outer edge so that the perimeter flange stretches when the pocket is in a loaded state with the lacrosse ball therein, thereby providing dampening to the pocket when a lacrosse ball exerts force upon the pocket in the loaded state. 1. A method of making a lacrosse pocket comprising:mechanically manipulating a plurality of first strands and a plurality of second strands with an automated pocket assembly machine during an automated process to form a lacrosse pocket body during the automated process, the lacrosse pocket body including a predefined, three dimensional, concave shape, the lacrosse pocket body having a lower pocket portion, an upper pocket portion and a middle pocket portion therebetween;forming a perimeter flange in the lacrosse pocket body during the automated process, the perimeter flange including the plurality of first strands interlooped with one another; andforming at least one of the lower pocket portion, the upper pocket portion, and the middle pocket portion of the lacrosse pocket body with the plurality of second strands interlooped with one another, and with ones of the plurality of first strands, so that the perimeter flange and at least one of the lower pocket portion, the upper pocket portion, and the middle pocket portion form a unitary textile material,wherein the ...

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Номер записи: 5
09-01-2020 дата публикации

REAR FAIRING FOR A TURBOJET ENGINE PYLON MADE OF COMPOSITE MATERIALS

Номер: US20200010206A1
Автор: DELEHOUZE Arnaud, Desjoyeaux Bertrand, SENTIS Sylvain, TAILLARD François
Принадлежит: Safran Nacelles

An rear fairing for a pylon supporting an aircraft turbojet engine forms an aerodynamic surface covering the base of the pylon. The rear fairing is elongated in a longitudinal direction and includes a floor arranged opposite the hot gases exiting the turbojet engine and side walls constituting aerodynamic surfaces. The floor and the side walls include ceramic matrix composite materials made from preforms formed by layers of superimposed warp and weft yarns, the preforms have interlayer weaving yarns connecting the layers to one another. 2. The rear fairing according to claim 1 , wherein the warp or weft threads forming the preform are disposed in columns extending in the longitudinal direction claim 1 , and the superimposed layers of the warp or weft threads forming the preform are connected to each other with different transversely disposed inter-layer weaving threads claim 1 , which connect different columns of the warp or weft threads claim 1 , along the longitudinal direction.3. The rear fairing according to claim 1 , wherein:the different superimposed layers of warp or weft threads forming the edges are connected to each other and the floor by transverse inter-layer weaving threads, andthe superimposed layers of warp or weft threads of the floor are connected to the superimposed layers of warp or weft threads of the lateral walls by inter-layer weaving threads such that the warp or weft threads of the floor, the lateral walls, and the edges form a single preform.4. The rear fairing according to further comprising transverse partitions fastened on the floor.5. The rear fairing according to claim 4 , wherein the transverse partitions are made from a preform integrally formed with the preform of the floor.6. The rear fairing according to claim 5 , wherein on a top of the preform of the floor includes transverse partitions claim 5 , which are connected to the preform of the floor by transverse folding lines.7. The rear fairing according to claim 1 , wherein the ...

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Номер записи: 6
10-01-2019 дата публикации

ANISOTROPIC TATAMI COVER

Номер: US20190010634A1
Автор: AOTANI Hiroshi, INATSU Akira, SHIMADA Hayato, UEINUI Satoru, YOKOTA Yuuji
Принадлежит:

An anisotropic tatami cover can provide different hues depending on the angle from which it is viewed, and is therefore highly aesthetically valuable. The anisotropic tatami cover is made of weft yarns made of rush grass or artificial rush grass and warp yarns, is woven in such a manner that the warp yarns are exposed on the surface, and has a color difference ΔE of 6.0 or more between the weft and warp yarns. 1. An anisotropic tatami cover , which is made of weft yarns made of rush grass or artificial rush grass and warp yarns , the weft yarns having a diameter of 0.5 to 2 mm , the warp yarns having a diameter which is 5 to 80% of the diameter of the weft yarns , and which is woven in such a manner that the warp and weft yarns are exposed on the surface of the anisotropic tatami cover , wherein a color difference ΔE between the weft and warp yarns is 6.0 or more.2. (canceled)3. The anisotropic tatami cover according to claim 1 , wherein the weft yarns have of one or more colors.4. The anisotropic tatami cover according to claim 1 , wherein the warp yarns are hemp yarns claim 1 , cotton yarns claim 1 , polyester yarns or yarns made of a mixture of cotton and polyester.5. The anisotropic tatami cover according to claim 1 , wherein the warp yarns have of one or more colors.6. The anisotropic tatami cover according to claim 1 , wherein the anisotropic tatami cover is woven in a plain or twill weave pattern.7. The anisotropic tatami cover according to claim 1 , wherein the weft yarns adjacently arranged are in close contact with each other and the warp yarns adjacent to each other are arranged at an interval of 5 to 30 mm.8. The anisotropic tatami cover according to claim 1 , wherein the anisotropic tatami cover further has a backing sheet bonded to the underside of the anisotropic tatami cover. The present invention relates to an anisotropic tatami cover that can provide different hues depending on the angle from which it is viewed, and is therefore highly ...

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Номер записи: 7
10-01-2019 дата публикации

Fabric With Embedded Electrical Components

Номер: US20190013274A1
Автор: Crews Kathryn P., Drzaic Paul S., Hsu Yung-Yu, Kim Hoon Sik, Kindlon David M., Podhajny Daniel A., Sunshine Daniel D.
Принадлежит: Apple Inc.

A fabric-based item may include fabric such as woven fabric having insulating and conductive yarns or other strands of material. The conductive yarns may form signal paths. Electrical components can be embedded within pockets in the fabric. Each electrical component may have an electrical device such as a semiconductor die that is mounted on an interposer substrate. The electrical device may be a light-emitting diode, a sensor, an actuator, or other electrical device. The electrical device may have contacts that are soldered to contacts on the interposer. The interposer may have additional contacts that are soldered to the signal paths. The fabric may have portions that form transparent windows overlapping the electrical components or that have other desired attributes. 1. A fabric-based item comprising:fabric having a pocket and having conductive paths; andan electrical component embedded in the pocket, wherein the electrical component has pads that are coupled to the conductive paths.2. The fabric-based item defined in wherein the pads comprise solder pads and wherein the solder pads are soldered to the conductive paths.3. The fabric-based item defined in wherein the fabric has opaque yarns and has transparent yarns that are patterned to form a transparent window in the fabric that is aligned with the electrical component.4. The fabric-based item defined in wherein the electrical component comprises:an interposer; andan electrical device soldered to the interposer.5. The fabric-based item defined in wherein the electrical device comprises a semiconductor die.6. The fabric-based item defined in wherein the conductive paths comprise conductive yarns.7. The fabric-based item defined in wherein the interposer has first solder pads that are soldered to the solder pads of the electrical component and has second solder pads that are soldered to the conductive yarns.8. The fabric-based item defined in wherein the electrical device comprises a light-emitting diode.9. The ...

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Номер записи: 8
17-01-2019 дата публикации

WOVEN OR BRAIDED TUBULAR METAL CONSTRUCT

Номер: US20190015142A1
Автор: Michael Mark, Mitchell Robert A.
Принадлежит: Fort Wayne Metals Research Products Corp

Multi-filament microcables are used in place of the traditional monofilament wires as the constituent elements of a woven or braided band. This enhances the function and manufacturability of such bands for various applications, such as orthopaedic applications including sternotomy closures. 1. A multifilament tubular construct , comprising: 'a plurality of metal filaments having respective longitudinal axes running substantially parallel to one another.', 'a plurality of constituent elements woven or braided into a tubular construct defining an inner diameter, an outer diameter and an axial length in the absence of external forces, the constituent elements each comprising2. The multifilament tubular construct of claim 1 , wherein the constituent elements are twisted cables in which the longitudinal axes of the plurality of metal filaments each define helices running substantially parallel to one another.3. The multifilament tubular construct of claim 1 , wherein the plurality of metal filaments of the constituent elements comprises between 2 filaments and 343 filaments.4. The multifilament tubular construct of claim 1 , wherein the inner diameter of the tubular construct is between 0.010 inches and 0.200 inches.5. The multifilament tubular construct of claim 4 , wherein the outer diameter of the tubular construct is between 0.014 inches and 0.208 inches.6. The multifilament tubular construct of claim 1 , wherein the plurality of constituent elements comprises between 8 and 128 constituent elements.7. The multifilament tubular construct of claim 1 , wherein the plurality of constituent elements define a plurality of picks at respective points of intersection between neighboring constituent elements claim 1 , the picks numbering between 1 and 50 per inch of axial distance along an outer surface of the tubular construct.8. The multifilament tubular construct of claim 1 , further comprising at least one friction-fit fitting formed on an end of the tubular construct.9. ...

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Номер записи: 9
17-01-2019 дата публикации

THERMOPLASTIC PREPREG PRODUCTION METHOD

Номер: US20190016015A1
Автор: BILGE Egemen, CAKAL SARAC Elcin, KORKMAZ Deniz
Принадлежит: KORDSA TEKNIK TEKSTIL ANONIM SIRKETI

The present invention relates to a thermoplastic prepreg production method which is developed in order to be used as structural and visual material in all industrial fields, mainly aviation, defense industry and automotive, and which enables the thermoplastic resin to be impregnated into the weave formed with a reinforcing yarn (A). The objective of the present invention is to provide a thermoplastic prepreg production method which enables to apply more accurate resin amount to the weavings comprising reinforcing yarn (A) and thermoplastic yarn (B), and to be processed more easily. Discloses is a thermoplastic prepreg production method characterized by the steps of i) obtaining a weave by weaving a thermoplastic yarn and a reinforcing yarn to each other, ii) impregnating of the said thermoplastic yarn into the said weave by melting or softening of said thermoplastic yarn. 1. A thermoplastic prepreg production method comprising:obtaining a weave by weaving a thermoplastic yarn and a reinforcing yarn with each other wherein a weight ratio of the thermoplastic yarn to the reinforcing yarn is at least 10%;impregnating the thermoplastic yarn into the weave by heating the thermoplastic yarn to a temperature above a melting or softening temperature of the thermoplastic yarn;applying a pre-tensioning on the weave at the melting or softening temperature;applying a pressure in a range of 0-100 bar on the weave during a melting or softening process of the thermoplastic yarn;cooling a impregnated weave which is obtained at a temperature below a glass transition temperature (Tg);applying the pressure in the range of 0-100 bar on the impregnated weave in step of cooling the thermoplastic yarn impregnated into the weave.2. The thermoplastic prepreg production method according to claim 1 , wherein the thermoplastic yarn is made of a thermoplastic material selected from the group consisting of polyamide claim 1 , polyolefin claim 1 , polyether ketone claim 1 , polyether ether ketone ...

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Номер записи: 10
17-01-2019 дата публикации

WOVEN FABRIC HAVING A PLURALITY OF WOVEN FABRIC LAYERS

Номер: US20190017885A1
Автор: CALISKAN Metin, GÖNNER Karl, Hofmann Paul, Horter Hansjürgen, IBROCEVIC Onedin, KUCZERA Matthias
Принадлежит:

A woven fabric having at least three layers that are arranged one above the other. Two of the layers form a first and a second woven fabric layer that each comprises electrically conductive warp threads and/or weft threads. Another one of the layers forms an intermediate layer that is arranged between the first and second woven fabric layers. The first and the second woven fabric layers, together with the intermediate layer, form a sensor arrangement that comprises an electrical characteristic that changes when a force is acting upon the layers. The first and second woven fabric layers each comprises electrically conductive strips and electrically non-conductive strips that extend in a warp direction (K) or in a weft direction (S), with the strips being arranged adjacent to one another in an alternating manner. The strips of the second woven fabric layer extend in a transverse manner with respect to the strips of the first woven fabric layer. 1. A woven fabric having at least three layers that are arranged one above the other ,wherein one of the layers forms a first woven fabric layer that comprises electrically conductive warp threads and/or weft threads,wherein a further one of the layers forms a second woven fabric layer that comprises electrically conductive warp threads and/or weft threads,wherein another further one of the layers forms an intermediate layer that is arranged between the first woven fabric layer and the second woven fabric layer,wherein the first woven fabric layer, the second woven fabric layer and the intermediate layer form a sensor arrangement that comprises an electrical characteristic that changes while a force is acting upon the layers,wherein the first woven fabric layer comprises electrically conductive strips and electrically non-conductive strips that extend in a warp direction (K) or in a weft direction (S), said strips being arranged adjacent to one another in an alternating manner, and wherein the second woven fabric layer ...

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Номер записи: 11
21-01-2021 дата публикации

LIGHT-TRANSMISSIVE CONDUCTOR WITH DIRECTIONAL CONDUCTIVITY

Номер: US20210018813A1
Автор: ANSETH Jay William, JR. Richard J., Paolini
Принадлежит:

Light-transmissive conductors including oriented conductors disposed in a light-transmissive polymer having a volume resistivity between 1×10ohm-cm and 1×10ohm-cm. The oriented conductors typically have very high conductivity along their length. Light-transmissive conductors described herein are well-suited for front electrodes for electro-optic displays, especially elongated displays in the shape of ribbons, stripes, or rulers. 1. A light-transmissive conductor comprising:{'sup': 10', '4, 'a light-transmissive polymer having a volume resistivity between 1×10ohm-cm and 1×10ohm-cm; and'}an oriented conductive element having an aspect ratio of greater than 10:1 (length:width).2. The light-transmissive conductor of claim 1 , wherein the light-transmissive polymer is flexible.3. The light-transmissive conductor of claim 2 , wherein the light-transmissive polymer is doped with a conductive additive.4. The light-transmissive conductor of claim 3 , wherein the dopant is a salt claim 3 , a polyelectrolyte claim 3 , a polymer electrolyte claim 3 , or a solid electrolyte.5. The light-transmissive conductor of claim 1 , wherein the oriented conductive element is a wire or conductive fiber.6. The light-transmissive conductor of claim 1 , wherein the oriented conductive element comprises a plurality of conductive flakes claim 1 , threads claim 1 , slivers claim 1 , whiskers claim 1 , nanowires claim 1 , or nanotubes oriented to achieve an aspect ratio greater than 10:1.7. The light-transmissive conductor of claim 6 , wherein the oriented conductive element comprises carbon nanotubes claim 6 , silver claim 6 , tungsten claim 6 , iron claim 6 , copper claim 6 , nanoparticles claim 6 , metallic grids claim 6 , or graphene.8. The light-transmissive conductor of claim 1 , wherein the oriented conductive element has an aspect ratio of greater than 100:1.9. The light-transmissive conductor of claim 1 , wherein the visible light transmission of the light-transmissive polymer is greater ...

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Номер записи: 12
28-01-2016 дата публикации

FABRIC BLEND CONTAINING BAMBOO AND MERINO WOOL

Номер: US20160024694A1
Автор: Woods Craig Robert Moffitt, Woods Jessica Lynne
Принадлежит:

Some embodiments of the present disclosure include a fabric blend for insulating, wicking moisture, and preventing bacterial growth. The fabric blend may include bamboo yarn, merino wool yarn, and elastane thread, wherein the bamboo yarn, the merino wool yarn, and the elastane thread are blended together to form a fabric. The materials may be woven or knitted together. In a particular embodiment, the fabric blend may include about 67% bamboo, about 28% merino wool, and about 5% elastane. 2. The fabric blend of claim 1 , wherein the fabric blend comprises from about 60 to about 75% bamboo yarn.3. The fabric blend of claim 1 , wherein the fabric blend comprises from about 15 to about 30% merino wool yarn.4. The fabric blend of claim 1 , wherein the fabric blend comprises from about 1 to about 8% elastane thread.5. The fabric blend of claim 1 , wherein the fabric blend comprises:about 67% bamboo yarn;about 28% merino wool yarn; andabout 5% elastane thread.6. The fabric blend of claim 1 , wherein the bamboo yarn claim 1 , the merino wool yarn claim 1 , and the elastane thread are woven together to form the fabric.7. The fabric blend of claim 1 , wherein the fabric blend has a weight of from about 150 grams per square meter (gsm) to about 280 gsm. This application claims priority to provisional patent application U.S. Ser. No. 62/027,674 filed on Jul. 22, 2014, the entire contents of which is herein incorporated by reference.The embodiments herein relate generally to textiles, and more particularly, to a fabric blend comprising bamboo and merino wool.The human body is inefficient at protecting itself from the elements. The body's inability to insulate itself leads to shivering or sweating as a way of regulating its core temperature. Side effects of sweating include bacteria build-up on clothing, odors, dampness, feeling too hot or too cold, itchiness, and chafing. Shivering interrupts motor skills and causes the body to exert extra energy in an effort to generate warmth. ...

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Номер записи: 13
23-01-2020 дата публикации

Phototherapy Anti-Smog Cloth Structure

Номер: US20200022430A1
Автор: Wang Man-Ching
Принадлежит:

A cloth structure includes a first weaving layer, a second weaving layer interwoven with the first weaving layer, an intermediate connecting layer located between the first weaving layer and the second weaving layer, and a sun protection layer applied on the first weaving layer. The cloth structure presents a single-cloth fabric. The sun protection layer covers pores of the first weaving layer and forms a first protection layer to filter the smog. The first weaving layer is formed with inverted V-shaped cloth patterns, so that the first weaving layer forms a second protection layer to filter the smog. The intermediate connecting layer forms a third protection layer to filter the smog. The second weaving layer obstructs the thread openings of the first weaving layer and forms a fourth protection layer to filter the smog. 1. A cloth structure comprising:a first weaving layer;a second weaving layer;an intermediate connecting layer located between the first weaving layer and the second weaving layer; anda sun protection layer mounted on the first weaving layer;wherein:a method for forming the cloth structure comprises a first step of preparing material, a second step of weaving, a third step of shaping cloth, a fourth step of dyeing and finishing, a fifth step of tension-free full-out layering coloring, a sixth step of tension-free and dust-free drying, and a seventh step of shaping and dispersing;the first step includes providing a first texture material polymer, a second texture material polymer and a third texture material polymer;the first texture material polymer is made of polyester fiber nylon and elastic yarn;the second texture material polymer is made of polyester fiber and elastic yarn;the third texture material polymer is made of polyester fiber;the third texture material polymer is processed by fine grinding;the second step includes performing double-sided weaving to weave the first texture material polymer for forming the first weaving layer, to weave the ...

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Номер записи: 14
24-01-2019 дата публикации

INDUSTRIAL WOVEN FABRIC, IN PARTICULAR TRANSPORT BELT

Номер: US20190024270A1
Автор: Kuckart Dieter, Monnerie Jean-Louis
Принадлежит:

An industrial fabric namely a conveyor belt configured to transport a web made from a non-woven material, the industrial fabric including an product side that is in contact with the woven material, and a machine side, which is in contact with conveying devices of an arrangement to produce the non woven material, wherein the fabric includes longitudinal threads that extend in a running direction of the web of the non-woven material and transversal threads perpendicular to the longitudinal threads which are woven together, wherein at least a portion of the longitudinal threads and/or transversal threads at least in a portion of a surface that is oriented towards the product side of the fabric are made from a polymeric material which includes at least a portion of a thermoplastic elastomeric material. 1. An industrial fabric in a conveyor belt configured to transport a web made from a non-woven material , the industrial fabric comprising:an product side that is in contact with the non woven material, anda machine side that is in contact with conveying devices of an arrangement to produce the non woven material,wherein the industrial fabric includes longitudinal threads that extend in a running direction of the web of the non-woven material and transversal threads perpendicular to the longitudinal threads,wherein the longitudinal threads and the transversal threads are woven together, andwherein at least a portion of the longitudinal threads or the transversal threads at least in a portion of a surface that is oriented towards the product side of the industrial fabric is made from a polymeric material which includes at least a portion of a thermoplastic elastomeric material.2. The industrial fabric according to claim 1 , wherein at least two layers of the longitudinal threads are provided which are stacked in pairs above or below one another and which form product side longitudinal threads and non-product side longitudinal threads.3. The industrial fabric according to ...

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Номер записи: 15
28-01-2021 дата публикации

FULLY-FORMED VOLUMETRICALLY WOVEN ARTICLE

Номер: US20210025086A1
Автор: Hagan Brooks W., Harvey Claire E., Holtzman Emily K.
Принадлежит:

A volumetric weaving approach employs a vertical aspect of woven warp and weft fibers to generate volumetric structures through formation of tie-downs. Tie downs define warp and weft fibers that take a vertical path or component extending perpendicular to a weave plane. Independently controlled heddles provide selective warp fibers control, and a two-dimensional creel that dispenses the warp fibers at differing feed rates allows manipulation of the fibers into three dimensional structures or portions. As a shuttle draws the weft fiber, different layers are raised and lowered to lend a vertical axis to the resulting volumetric structure. Interconnections between the portions include the use of the tie downs to connect multiple portions to define 3-dimensional panels of a finished article such as a shoe. A single pass defining all the interconnected portions of the shoe generates the fully formed shoe without subsequent cutting and seaming of different textile panels. 1. In an automated weaving apparatus responsive to a file of weaving instructions , the file of weaving instructions including commands for directing heddles of a plurality of warp fibers from a creel of fibers having independent delivery rates , a method for single pass weaving of a footwear appliance , comprising:drawing a plurality of warp fibers from a creel;extending each fiber of the plurality of warp fibers through a respective heddle of a plurality of heddles, each heddle disposable in a vertical direction independently of the other heddles in the plurality of heddles for elevating the warp fiber extending therethrough;drawing a shuttle across the plurality of warp fibers in a directions substantially perpendicular to the warp fibers, the warp fibers defining a weave plane, the shuttle drawing a continuous weft fiber in a pass across the warp fibers;generating a plurality of portions, each of the portions based on a woven area of a finished 3 dimensional structure;joining each of the plurality of ...

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Номер записи: 16
31-01-2019 дата публикации

RATTAN WEAVING STRUCTURE, RATTAN CHAIR MADE WITH THE STRUCTURE AND A METHOD FOR FORMING A CONVEX KNOT THEREOF

Номер: US20190029431A1
Автор: Li Hongguang
Принадлежит:

The present invention discloses a plastic rattan weaving structure, a rattan chair made with the structure and a method for forming a convex knot. The convex knot has a cross section that is greater than the middle cross section of the rattan piece used for making the rattan weaving structure. The rattan weaving structure has the convex knots on its edge. The rattan chair has a chair seat, a skeleton, an armrest and a base. The chair seat has the convex knots on its edge. The method for forming the convex knot comprises pressing and fixing the edge of the plastic rattan piece with a mold, setting up heating elements around the edge, heating the edge of the plastic rattan with the heating elements to cause shrinkage and accumulation of the rattan inside the mold, and finally formation of the convex knot. 17-. (canceled)8. A method for forming a convex knot , wherein the method comprises:pressing and fixing edge of the rattan piece with a mold;setting a plurality of heating elements around the edge of the rattan piece;heating the edge of the rattan piece with the heating elements via thermal radiation to cause shrinkage;accumulation of the rattan on the mold; andfinal formation of the convex knot.9. The method for forming the convex knot according to claim 8 , wherein the mold has a mold cavity claim 8 , and the convex knot is molded in the mold cavity when the edge of the plastic rattan piece is heated for shrinkage.10. The method for forming the convex knot according to claim 8 , wherein an initial distance between the heating element and the edge of the rattan piece is in a range of 3-8 cm.11. The method for forming the convex knot according to claim 8 , wherein the heating element has a heating temperature of 130-180° C.12. The method for forming the convex knot according to claim 8 , wherein the heating element and the edge of the rattan have an initial distance of 5 cm claim 8 , and the heating element has a heating temperature of 150° C.13. (canceled) This ...

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Номер записи: 17
31-01-2019 дата публикации

Durable Thermoregulating Textile Structures and Methods of Manufacture

Номер: US20190032273A1
Автор: Kandhasamy Mohan Meiyappan, Mittal Khushboo
Принадлежит:

A textile structure including one or more layers of warp yarns interwoven with one or more layers of weft yarns, a durable thermoregulating coating, and a binder that chemically bonds the durable thermoregulating coating to the textile structure. The warp yarns and/or weft yarns include polyester yarns. A method for manufacturing a textile structure includes weaving one or more layers of warp yarns with one or more layers or weft yarns to form a woven textile structure, brushing the textile structure at least two times, applying a binder to the textile structure, and applying a durable thermoregulating coating to the textile structure such that the binder chemically bonds the durable thermoregulating coating to the textile structure. The method may also include heat setting and curing the textile structure to fix the durable thermoregulating coating permanently onto the textile structure. 1. A textile structure comprising:one or more layers of warp yarns interwoven with one or more layers of weft yarns, wherein the warp yarns or weft yarns comprise polyester yarns; anda thermoregulating coating applied on at least a portion of the textile structure.2. The textile structure of claim 1 , wherein the thermoregulating coating comprises at least one of an adaptive agent claim 1 , a cleaning agent claim 1 , a fabric softener claim 1 , an antistatic agent claim 1 , and citric acid.3. The textile structure of claim 1 , wherein the thermoregulating coating comprises about 30-50 gram per liter of the adaptive agent.4. The textile structure of claim 1 , wherein the thermoregulating coating comprises about 1-10 gram per liter of the cleaning agent.5. The textile structure of claim 1 , further comprising a binder that chemically bonds the thermoregulating coating to the textile structure.6. The textile structure of claim 1 , wherein the binder may include at least one of latex claim 1 , elastomeric claim 1 , acrylic binders claim 1 , vinyl acrylic binders claim 1 , vinyl acetate ...

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Номер записи: 18
30-01-2020 дата публикации

TOWEL FABRIC AND METHOD OF MANUFACTURE

Номер: US20200032431A1
Автор: Burns Jack Paul, Guo Yuehua Allen
Принадлежит:

A fabric has first material yarns and second material yarns woven together to form a ground, The first material yarns are synthetic yarns, and the second material yarns are cotton pile yarns. A coloring process is performed which colors the second material yarns, but which does not take to the first material yarns. A second coloring or printing process is performed on the technical front. 1. A fabric , comprising:a plurality of first material yarns; anda plurality of second material yarns, in which the plurality of first material yarns and the plurality of second material yarns are woven or knitted together to form a ground;wherein the plurality of first material yarns comprise yarns having a linear mass density between 50 Denier (D) and 300 D and a filament count (F) of 36 F-576 F and the plurality of second material yarns comprise cotton yarns having a thickness (s) of 6 s-40 s.2. The fabric of claim 1 , wherein the plurality of second material yarns are 100% cotton.3. The fabric of claim 1 , wherein the plurality of first material yarns are polyester.4. The fabric of claim 1 , wherein the plurality of first material yarns comprises about 52% of the ground.5. The fabric of claim 1 , wherein the plurality of second material yarns comprises about 48% of the ground.5. The fabric of claim 1 , in which the plurality of first material yarns resists a first coloring process while the plurality of second material yarns accept the first coloring process.6. The fabric of claim 5 , in which the first coloring process is selected from a group comprising reactive dying claim 5 , reactive print claim 5 , and bleach white.7. The fabric of claim 5 , in which the plurality of first material yarns accepts a second coloring process performed after the first coloring process.8. The fabric of claim 7 , in which the second coloring process is selected from a group comprising a coloring process claim 7 , a dispersive dying process claim 7 , dispersive dye printing claim 7 , heat ...

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Номер записи: 19
04-02-2021 дата публикации

MULTI-LAYER PAPERMAKER'S FORMING FABRIC WITH AUXILIARY BOTTOM MD YARNS

Номер: US20210032815A1
Автор: Ward Kevin
Принадлежит:

A papermaker's fabric includes a series of repeat units, wherein each of the repeat units includes: a set of top machine direction (MD) yarns having a first diameter; a set of bottom MD yarns having a second diameter larger than the first diameter; a set of auxiliary bottom MD yarns having the first diameter; a set of top cross machine direction (CMD) yarns interwoven with the top MD yarns to form a top fabric layer; a set of bottom CMD yarns interwoven with the bottom MD yarns and the auxiliary bottom MD yarns to form a bottom fabric layer; and a set of stitching yarns arranged in pairs, wherein at least one of the stitching yarns of the pair interweaves with the top and bottom fabric layers. 1. A papermaker's fabric , comprising a series of repeat units , each of the repeat units comprising:a set of top machine direction (MD) yarns;a set of bottom MD yarns;a set of auxiliary bottom MD yarns;a set of top cross machine direction (CMD) yarns interwoven with the top MD yarns to form a top fabric layer;a set of bottom CMD yarns interwoven with the bottom MD yarns and the auxiliary bottom MD yarns to form a bottom fabric layer; anda set of stitching yarns arranged in pairs, wherein at least one of the stitching yarns of the pair interweaves with the top and bottom fabric layers;wherein each of the auxiliary bottom MD yarns follows the same weaving sequence with the bottom CMD yarns as an adjacent bottom MD yarn.2. The papermaker's fabric defined in claim 1 , wherein the top MD yarns claim 1 , the top CMD yarns claim 1 , and the stitching yarns form a plain weave surface.3. The papermaker's fabric defined in claim 1 , wherein the stitching yarns are CMD stitching yarns.4. The papermaker's fabric defined in claim 1 , wherein the number of top MD yarns is equal to the sum of the number of bottom MD yarns and the number of auxiliary bottom MD yarns.5. The papermaker's fabric defined in claim 1 , comprising twice as many top CMD yarns as stitching yarn pairs.6. The ...

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Номер записи: 20
18-02-2021 дата публикации

Fabric-Based Items With Stretchable Bands

Номер: US20210045685A1
Автор: Grena Benjamin J., Guterman Jerzy S., Keating Steven J., Kindlon David M., Lu Jessica J., Podhajny Daniel A., Sunshine Daniel D.
Принадлежит:

A fabric-based item may be provide with a stretchable band. The stretchable band may be formed from a ring-shaped strip of stretchable fabric having an opening configured to fit around a body part of a user. Circuitry may be coupled to strands of material in the stretchable band. The circuitry may include sensor circuitry for making measurements on the body part such as electrocardiogram measurements, blood pressure measurements, and respiration rate measurements. Wireless communications circuitry in the fabric-based item may be used to communicate wirelessly with external electronic equipment. A wireless power transmitting device may transmit wireless power. A coil formed from conductive strands in the fabric-based item may be used by wireless power receiving circuitry in the fabric-based item to receive the wireless power. The coil may have one or more turns that run around the ring-shaped strip of stretchable fabric. 1. An apparatus configured to be worn on a body part of a user , the apparatus comprising:a band of fabric having configured to at least partially surround the body part; and 'at least one conductive line in the band of fabric that is configured to form an inductive wireless power receiving coil that runs along the band of fabric.', 'power receiving circuitry in the band of fabric that is configured to receive wireless power, wherein the power receiving circuitry comprises'}2. The apparatus defined in wherein the band of fabric is a watch band claim 1 , the apparatus further comprising a metal portion.3. The apparatus defined in wherein the metal portion and the band of fabric surround a central opening that receives the body part of the user.4. The apparatus defined in wherein the at least one conductive line runs along the entire band of fabric.5. The apparatus defined in further comprising:an electrical component coupled to the band of fabric.6. The apparatus defined in wherein the electrical component is a blood pressure sensor.7. The apparatus ...

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Номер записи: 21
18-02-2021 дата публикации

STABILIZED FABRIC MATERIAL FOR MEDICAL DEVICES

Номер: US20210045868A1
Автор: Ashworth Paul E., Reimer Jay
Принадлежит: ABBOTT LABORATORIES

A stabilized fabric composed of a mesh or a woven fabric is disclosed as are methods of their manufacture, the manufacture of medical devices made using a stabilized fibers and stabilized medical devices are all disclosed. Fabrics can be stabilized by several techniques including: using mechanical, chemical and/or energetic fasteners at warp and weft intersections in the weave; by using various weaving techniques and fibers. Meshes can be stabilized when properly dimensioned and arranged junctions and struts of the necessary properties are used. All of these stabilized fabrics can be made of synthetic polymer materials such as ultrahigh molecular weight PE or PP and expanded PTFE. 1. A stabilized replacement heart valve comprising: a self-expandable , balloon-expandable stent or a frame; and a valve assembly attached to the stent or frame , the valve assembly comprising a cuff and 2 to 4 leaflets , said leaflets composed of a woven polymer fabric having a thickness of between about 5 μm and about 500 μm and having a plurality of warp and weft fibers that meet at and define intersections , said leaflets having a free edge , an attachment end and a movement area subject to movement during operation , said movement area including the free edge and intermediate portions of the leaflet between the free edge and the attachment end , a subset of said intersections being disposed in said movement area and being mechanically fastened , chemically fastened or energetically fastened and thereby stabilized.2. The stabilized replacement heart valve of claim 1 , wherein said subset comprises at least about 25% of said intersections in said movement area.3. The stabilized replacement heart valve of claim 1 , wherein said subset comprises at least about 50% of said intersections in said movement area.4. The stabilized replacement heart valve of claim 1 , wherein said subset comprises at least about 75% of said intersections in said movement area.5. The stabilized replacement heart ...

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Номер записи: 22
07-02-2019 дата публикации

HEAT SPREADING CLOTHS

Номер: US20190040554A1
Автор: MacDonald Mark, Pidwerbecki David
Принадлежит: Intel Corporation

Heat spreading cloths, associated devices, systems, and methods can include a plurality of attached polymeric fibers that are thermally conductive and electrically insulative. The heat spreading cloth can be configured to couple an electronic component thereto in a heat spreading relationship. 1. A heat spreading cloth , comprising:a plurality of attached polymeric fibers, said polymeric fibers being thermally conductive and electrically insulative; andan electronics area configured to thermally couple to an electronic device in a heat spreading relationship.2. The heat spreading cloth of claim 1 , wherein the plurality of polymeric fibers includes a thermoplastic polymeric fiber.3. The heat spreading cloth of claim 2 , wherein the thermoplastic polymer fiber includes polyamide claim 2 , polybenzimidazole claim 2 , polycarbonate claim 2 , polyethylene claim 2 , polypropylene claim 2 , polyvinyl chloride claim 2 , or a combination thereof.4. The heat spreading cloth of claim 1 , wherein the plurality of polymeric fibers includes aligned polymeric fibers having a high degree of molecular alignment to provide the aligned polymeric fibers with a thermal conductivity of at least 10 times the thermal conductivity of the unaligned polymeric fibers.5. The heat spreading cloth of claim 1 , wherein the polymeric fibers have a linear mass density of from 10 denier to 6000 denier.6. The heat spreading cloth of claim 1 , wherein the polymeric fibers are attached by interweaving the polymeric fibers.7. The heat spreading cloth of claim 1 , further comprising a plurality of carrier fibers.8. The heat spreading cloth of claim 7 , wherein the carrier fibers are either natural fibers or synthetic fibers.9. The heat spreading cloth of claim 7 , wherein the plurality of polymeric fibers comprises at least 20 wt % of the heat spreading cloth.10. The heat spreading cloth of claim 1 , wherein the polymeric fibers are attached by fusing a portion of the plurality of polymeric fibers ...

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Номер записи: 23
19-02-2015 дата публикации

MULTI-DIMENSIONAL FIBER COMPOSITES AND ARTICLES USING THE SAME

Номер: US20150050440A1
Автор: Albers Tracy, Hawthorne Joel, Loper David Royal, Rosenow Malcolm Werner Kurt
Принадлежит:

A composite down-hole tool for use in oil and gas wells includes plurality of fibers which extend along at least a first fiber plane and a second fiber plane. The first fiber plane and the second fiber plane are arranged perpendicular. A matrix material substantially fills the area between and around the plurality of fibers. The down-hole tool is spherical or cylindrical and substantially all of the plurality of fibers extend substantially straight and uninterrupted between opposed sides of the spherical or cylindrical shape down-hole tool. 1. A composite down-hole tool comprising:a plurality of fibers, said fibers extending along at least a first fiber plane and a second fiber plane, said first fiber plane and said second fiber plane being arranged perpendicular;a matrix material substantially filling the area between and around the plurality of fibers; andwherein the down-hole tool is spherical or cylindrical and substantially all of said plurality of fibers extend substantially straight and uninterrupted between opposed sides of the spherical or cylindrical shape down-hole tool.2. The down-hole tool according to having a density less than about 1.8 g/cc.3. The down-hole tool according to having a density of from between about 1.0 g/cc and about 1.8 g/cc.4. The down-hole tool according to having uniform compressive strength.5. The down-hole tool according to wherein the compressive strength of the down-hole tool is different in the direction of said first fiber plane from said second fiber plane.6. The down-hole tool according to further comprising a third fiber plane arranged parallel to said first fiber plane and having a third fiber direction claim 1 , said first fiber plane having a first fiber direction being 90 degrees offset from said third fiber direction.7. The down-hole tool according to further comprising a third fiber plane and a fourth fiber plane arranged parallel to said first fiber plane claim 1 , said first fiber plane having a first fiber ...

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Номер записи: 24
25-02-2021 дата публикации

Strap for sling and method for manufacturing such a strap and use of such strap

Номер: US20210052452A1
Автор: Jørgen GULDMANN, Morten Rathke
Принадлежит: V Guldmann AS

A strap is provided, intended for a sling for persons, where the strap is elongated with short end edges and longer lateral edges and comprises a first belt and a second belt. Each belt includes an inside and an outside, where the insides are turned towards one another, and the outsides are turned away from one another. The first belt and the second belt include warps and wefts. The strap has a longitudinal direction that is parallel to the warps, and a transverse direction that is parallel to the wefts. In the longitudinal direction of the strap there are a number of first sections, where the first belt and the second belt are interwoven, and second sections are provided between them, where the first belt and the second belt are not interwoven, so that an eye is formed in each of the second sections.

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Номер записи: 25
25-02-2021 дата публикации

Medical Fabric

Номер: US20210054545A1
Автор: Ryo Fukuda, Tokio Okuno
Принадлежит: Asahi Kasei Corp

Provided is a high-density medical fabric that can be suitably used as a graft for a branched stent graft, can accommodate diameter changes, has the burst strength required of a material to be implanted in a body, and has a seamless tubular shape that can narrow in diameter.

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Номер записи: 26
03-03-2016 дата публикации

FOLDED COMPOSITE PREFORMS WITH INTEGRATED JOINTS

Номер: US20160059513A1
Автор: Hollander Jonathan Marc
Принадлежит: Seriforge, Inc.

Systems and methods fabricate composite preforms in a flat or unfolded format. Following fabrication, the preform is folded and placed in or around a mold for curing. To facilitate folding and produce strong parts, the preform is fabricated with integrated, 3D woven joints at preform edges. These joints connect the folded preform portions to other parts of the preform, such as other unfolded or folded preform portions or internal features. Integrated joints may be flexible to facilitate assembly prior to curing. The unfolded preform design may be generated from a preform model by splitting the preform model at an initial joint location, unfolding the preform model into an unfolded preform, creating joint connectors in the unfolded preform at the initial joint location, determining a fiber layup of the unfolded preform, and generating fabrication data. 1. A composite preform comprising:a foldable section;a first joint connection section connected with the foldable section and including a first joint connector; anda second joint connection section including a second joint connector adapted to interlock with at least a portion of the first joint connector;wherein the first joint connection section and the foldable section are constructed at least in part from first fibers; andwherein the second joint connection section is constructed at least in part from second fibers.2. The composite preform of claim 1 , wherein the first fibers are three-dimensionally woven to form at least portions of the first joint connection and the foldable section.3. The composite preform of claim 1 , wherein the second joint connector is connected with the foldable section and the foldable section is constructed at least in part from the second fibers.4. The composite preform of claim 1 , wherein composite preform includes at least one non-foldable section.5. The composite preform of claim 4 , wherein the second joint connector is connected with the non-foldable section and the non-foldable ...

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Номер записи: 27
04-03-2021 дата публикации

STRONG, FLEXIBLE, AND THROMBUS-FREE WOVEN NANOTEXTILE BASED VASCULAR GRAFTS, AND METHOD OF PRODUCTION THEREOF

Номер: US20210059807A1
Автор: JOSEPH JOHN, MENON DEEPTHY, NAIR SHANTIKUMAR, VARMA PRAVEEN
Принадлежит:

The present invention relates to woven tubular nanotextiles, fabrication thereof using a weaving apparatus, and use thereof in vascular graft applications. The woven nanotextile conduit is 0.1 to 50 mm in diameter and includes a multitude of hierarchically arranged nanofibers. They are made from low strength bundled nanoyarns containing thousands of nanofibers with improved mechanical strength. The weaving apparatus interweaves the warp and weft yarns in longitudinal and transverse directions, resulting in a flexible and strong woven product. The physical and biological properties of the woven nanotextile were significantly enhanced when compared to non-woven nanofibrous form and conventional medical textiles. The nanotextile displayed superhydrophilic behavior in an otherwise hydrophobic material and when implanted as a vascular graft was robust, suturable, kink-proof and non-thrombogenic, with complete endothelialization of the graft luminal area. 1. A vascular graft , comprising: a tubular woven nanotextile conduit in the diameter range of 0.1 to 50 mm comprising a plurality of warp yarns interwoven with a weft yarn , wherein each of the plurality of the warp yarns comprises a first set of polymeric yarn fibers with a diameter in the range of 1 to 1000 μm , wherein the weft yarn comprises a second set of polymeric yarn fibers with a diameter in the range of 1 to 5000 μm.2. The graft of claim 1 , wherein the first and second set of polymeric yarn fibers comprises a polymer selected from the group of polyesters claim 1 , polyether claim 1 , polyanhydrides claim 1 , polycarbonates claim 1 , polyphosphazenes claim 1 , poly(amino acids) claim 1 , polypeptides claim 1 , glycosaminoglycan claim 1 , polysaccharides claim 1 , polydioxanone (PDO) claim 1 , poly(lactide-coglycolide) (PLGA) claim 1 , polyglycolic acid (PGA) claim 1 , polylactic acid (PLA) claim 1 , and polycaprolactone (PCL).3. The graft of claim 1 , wherein the first and second set of polymeric yarn fibers ...

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Номер записи: 28
21-02-2019 дата публикации

YARN, FABRIC, AND FIBER PRODUCT

Номер: US20190055674A1
Автор: Tanaka Akira, TANAKA Kengo
Принадлежит: TEIJIN FRONTIER CO., LTD.

The problem addressed by the present invention is to provide yarn, which includes an ultrafine filament, and that has superior handling properties, elongation and contraction properties, and with which a fabric and a fiber product of high quality can be obtained, a fabric using this yarn, and a fiber product using this yarn or fabric. The solution is imparting a binder to yarn that includes a filament A-1 with a single fiber diameter of 10 to 3000 nm and a fiber A-2 with a single fiber diameter greater than the filament A-1, and obtaining a fabric or fiber product using the yarn as necessary. 1. A yarn comprising a filament A-1 having a single fiber diameter of 10 to 3000 nm and a fiber A-2 having a single fiber dimeter greater than the filament A-1 , wherein a binder is imparted to the yarn.2. The yarn according to claim 1 , wherein the binder comprises a sizing agent and/or an oiling agent.3. The yarn according to claim 1 , wherein the application amount of the binder is 0.1 to 15 wt % with respect to the weight of the yarn.4. The yarn according to claim 1 , wherein the number of filaments of the filament A-1 included in the yarn is not less than 500.5. The yarn according to claim 1 , wherein the filament A-1 is obtained from a sea-island type composite fiber composed of a sea component and an island component by dissolving and removing the sea component.6. The yarn according to claim 1 , wherein after combining a sea-island type composite fiber composed of a sea component and an island component with the fiber A-2 claim 1 , the filament A-1 is obtained by dissolving and removing the sea component of the sea-island type composite fiber.7. The yarn according to claim 1 , wherein the filament A-1 is made of polyester fibers.8. The yarn according to claim 1 , wherein the fiber A-2 is a crimped fiber having a single-fiber diameter of not less than 5 μm and an apparent crimp rate of not less than 2%.9. The yarn according to claim 8 , wherein the crimped fiber is a ...

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Номер записи: 29
04-03-2021 дата публикации

APPARATUS FOR MANUFACTURING TEXTILE GRID WITH INCREASED ADHESION AND METHOD THEREOF

Номер: US20210062374A1
Автор: AN Gi Hong, JIN Seung Seop, KIM Hyeong Yeol, KOH Kyung Taek, RYU Gum Sung, SEO Dong Woo
Принадлежит: KOREA INSTITUTE OF CIVIL ENGINEERING AND BUILDING TECHNOLOGY

Provided are an apparatus for manufacturing a textile grid with increased adhesion and a method thereof capable of integrating the textile grid with a concrete structure by increasing the adhesion of the textile grid when the concrete structure is built, repaired, or reinforced, increasing structural safety and durability of the concrete structure, increasing a working speed by coating a surface of the textile grid with an abrasive material powder that is a surface coating material in an automatic series of processes immediately after the textile grid is manufactured, and increasing coating performance by automatically inspecting and adjusting the amount of the coating material applied to the surface of the textile grid using a camera. 1. An apparatus for manufacturing a textile grid with increased adhesion , which is a manufacturing apparatus for manufacturing a textile grid for building , repairing , or reinforcing a concrete structure , the apparatus comprising:a fabric yarn supplying unit that supplies textile grid fabric yarn in a form of a bundle of yarn;a weaving-knitting machine that forms a woven-knitted textile grid in a lattice form through a manner in which the fabric yarn is woven and knitted so that wefts and warps cross to be coupled to each other;a resin impregnation tank that impregnates the woven-knitted textile grid with a resin to form a resin impregnated textile grid;a coating chamber that comprises a first coating material spraying nozzle and a second coating material spraying nozzle installed in the coating chamber, before the resin impregnated textile grid is cured, allows a surface of the resin impregnated textile grid to be coated with an abrasive material powder that is a surface coating material, and forms a coated textile grid;a camera that is installed at a rear end of the coating chamber and captures a coating-image to inspect a coating state of the coated textile grid; anda controlling device that adjusts a spraying amount of the ...

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Номер записи: 30
28-02-2019 дата публикации

GRAFT MATERIAL AND METHOD OF USE THEREOF

Номер: US20190060528A1
Автор: Skender Davorin Kevin, Spindler Ralf
Принадлежит: Cook Medical Technologies LLC

The present disclosure relates to woven and knitted fabrics including boron nitride nanotubes and to methods of manufacturing and using such materials. In one embodiment, these materials are incorporated into implantable medical devices such as stent graft devices and the like. 1. A fabric comprising a knitted or woven textile material and a plurality of boron nitride nanotubes , wherein the boron nitride nanotubes are present in a matrix between strands of the knitted or woven textile material or in the strands of the knitted or woven textile material.2. The fabric of claim 1 , wherein the knitted or woven textile material is a woven textile material.3. The fabric of claim 1 , wherein the knitted or woven textile material is a knitted textile material.4. The fabric of claim 1 , wherein the textile material comprises a material selected from the group consisting of a polyester claim 1 , polyethylene terephthalate claim 1 , a fluorinated polymer claim 1 , polytetrafluoroethylene (PTFE) claim 1 , expanded PTFE claim 1 , a polyurethane claim 1 , polyethylene claim 1 , polypropylene claim 1 , polyaram id claim 1 , polyacrylonitrile claim 1 , nylon and cellulose.5. The fabric of claim 4 , wherein the textile material comprises polyethylene terephthalate.6. The fabric of claim 1 , wherein the boron nitride nanotubes are present in the strands of the knitted or woven textile material.7. The fabric of claim 6 , wherein the strands comprise a plurality of filaments of the textile material claim 6 , wherein the filaments are twisted and wherein the boron nitride nanotubes are continuously integrated along the filaments.8. The fabric of claim 6 , wherein the strands comprise a plurality of filaments of the textile material claim 6 , wherein the filaments are twisted and wherein the boron nitride nanotubes are discontinuously integrated along the filaments.9. The fabric of claim 6 , wherein the strands comprise a plurality of twisted filaments of the textile material and the ...

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Номер записи: 31
28-02-2019 дата публикации

HIGH TEMPERATURE MONOFILAMENT ARTICLES

Номер: US20190062959A1
Автор: LEWIS Barton Roy, LEWIS William Christopher, Lewis William James
Принадлежит: ADVANCED FLEXIBLE COMPOSITES, INC.

A fabricated part for a high temperature operation including a non-metallic substrate formed of a polymer fabric of woven non-absorbent polymer filament. The substrate is heat-resistant and heat set at a temperature that is above a predetermined operating temperature of an operation of the fabricated part. The heat setting pre-shrinks/heat stabilizes the material, thereby reducing failure during use in high temperature and/or wet applications. The substrate is useful as an endless belt and other applications. The invention further includes an apparatus with a heating device configured to operate at the predetermined operating temperature, and the fabricated part within or extending through the heating device. 1. A fabricated part for a high temperature operation , comprising:a non-metallic substrate formed of a polymer fabric of woven non-absorbent polymer filament, wherein the substrate is heat-resistant and heat set at a temperature that is above a predetermined operating temperature of an operation of the fabricated part.2. The fabricated part of claim 1 , wherein the substrate is pre-shrunk at the temperature.3. The fabricated part of claim 1 , wherein the substrate is pre-shrunk such that the product will not further shrink or destabilize in the operation at or above 212° F.4. The fabricated part of claim 1 , wherein the polymer fabric comprises monofilament or multifilament PPS claim 1 , PAI claim 1 , PPSU claim 1 , PES claim 1 , PE claim 1 , LCP claim 1 , or PEEK.5. The fabricated part of claim 4 , wherein the polymer fabric is free of continuous fiber reinforcement of fiberglass claim 4 , but the monofilament or multifilament includes chopped or milled fiberglass therein.6. The fabricated part of claim 1 , wherein the substrate is connected at opposing ends to form an endless belt.7. The fabricated part of claim 1 , wherein the substrate is heat set at a temperature of at least 212° for at least 15 minutes claim 1 , and preferably at least 30 minutes claim 1 ...

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Номер записи: 32
28-02-2019 дата публикации

Multiple Woven Gauze Fabric

Номер: US20190062961A1
Автор: HOZUMI Shuichi
Принадлежит: UCHINO CO., LTD.

Provided is a multiple woven gauze fabric capable of controlling the degree of wrinkling according to use. A double woven gauze fabric is formed by stacking a front surface gauze structure A and a back surface gauze structure B. The front surface gauze structure A and the back surface gauze structure B are formed, and the front surface gauze structure A and the back surface gauze structure B are joined, as appropriate. The front surface gauze structure A is composed of a non-twist yarn, and the back surface gauze structure B is composed of a hollow yarn. That is, a gauze structure composed only of twisted yarn (solid yarn) is not included. The degree of wrinkling is controlled by considering the hollow rate of the hollow yarn. 1. A multiple woven gauze fabric , comprising:at least a first gauze weave construction and a second gauze weave construction; anda plurality of connection parts joining the first gauze weave construction and the second gauze weave construction;wherein the first gauze weave construction comprises a non-twisted yarn; andwherein the second gauze weave construction comprises a hollow twisted yarn.2. The multiple woven gauze fabric according to claim 1 ,wherein a hollow ratio of the hollow twisted yarn is 20-50%.3. The multiple woven gauze fabric according to claim 1 ,wherein the first gauze weave construction and the second gauze weave construction cross to each other at the connection parts to be alternately replaced between the front surface and the back surface.4. The multiple woven gauze fabric according to claim 3 , wherein the first gauze weave construction and the second gauze weave construction cross to each other at the connection parts irregularly to be alternately replaced between the front surface and the back surface.5. The multiple woven gauze fabric according to claim 1 , wherein the multiple woven gauze fabric is a double woven gauze fabric.6. The multiple woven gauze fabric according to claim 1 , wherein the non-twisted yarn and ...

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Номер записи: 33
28-02-2019 дата публикации

Installation and a method for fabricating a fiber texture in the form of a strip presenting a profile that varies in cross-section

Номер: US20190062962A1
Автор: Hubert Jean Marie FABRE, Jeremy Hellot
Принадлежит: Safran Aircraft Engines SAS

An installation for fabricating a fiber texture in the form of a strip presenting a profile that varies at least in cross-section includes a loom, one or more take-up rollers, and a storage mandrel, each take-up roller and the storage mandrel presenting a radius that varies across its axial width so as to define an outer surface having a profile in relief. One or more take-up rollers include a plurality of sectors releasably fastened on the outer surface of the take-up roller. Each sector extends over a fraction of the circumference of the take-up roller and over all or part of the axial width of the take-up roller. Each sector also presents at least one thickness that is determined in such a manner as to modify locally the thickness of the profile in relief of the outer surface of the take-up roller.

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Номер записи: 34
11-03-2021 дата публикации

Projecting Finishing Pattern with Correction onto Three-Dimensional Surface

Номер: US20210068487A1
Автор: Bell Benjamin, Mahanty Debdulal, Schultz Christopher, Schultz Jennifer, Sights James Barton
Принадлежит:

A system allows a user to create new designs for apparel and preview these designs before manufacture. Software and lasers are used in finishing apparel to produce a desired finishing pattern or other design. The system provides three-dimensional previews of their designs on a mannequin, using light projection techniques. 1. A method comprising:providing a garment previewing tool that allows previewing on a computer screen of a garment base customized by a user with a finishing pattern, wherein the garment previewing tool includesproviding an option for the user to select the garment base and upon the user's selection, showing a first garment preview image on the computer screen comprising a jeans base image for the selected garment base,providing an option for the user to select a wear pattern from a menu of wear patterns, wherein each wear pattern is associated with a laser input file to be used by a laser to produce that wear pattern onto a jeans garment,after the wear pattern is selected, showing a second garment preview image on the computer screen comprising the selected wear pattern in combination with the jeans base image,in the second garment preview image, allowing the user to modify a sizing of the wear pattern relative to the jeans base image,in the second garment preview image, allowing the user to modify a position of the wear pattern relative to the jeans base image, andshowing a third garment preview image on the computer screen comprising the jeans base image and selected wear pattern, with modified sizing or modified positioning, or a combination;determining a correction to the selected wear pattern of the third garment preview image, wherein the correction approximates how selected wear pattern is to be modified to appear on a three-dimensional mannequin; andusing a light projector, projecting onto the three-dimensional mannequin the selected wear pattern with the correction.2. The method of comprising:receiving a first captured image of the ...

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Номер записи: 35
09-03-2017 дата публикации

AIRBAG BASE FABRIC AND MANUFACTURING METHOD THEREFOR

Номер: US20170067189A1
Автор: Yokoi Daisuke
Принадлежит:

An airbag base fabric satisfying characteristics A to D: 19-. (canceled)10. A non-coated airbag base fabric satisfying characteristics A to D: {'br': None, 'i': 'WR=', '(major axis of warp thread cross section in textile)/(minor axis of warp thread cross section in textile) \u2003\u2003(1)'}, '(A) a cross-sectional deformation (WR), calculated by formula (1), of multifilament warp threads constituting a textile is 4.0 to 6.0,'} {'br': None, 'i': 'FR=', '(major axis of weft thread cross section in textile)/(minor axis of weft thread cross section in textile) \u2003\u2003(2)'}, '(B) a cross-sectional deformation (FR), calculated by formula (2), of multifilament weft threads constituting the textile is 2.4 to 4.0,'}(C) a single fiber cross-sectional shape of the multifilament threads constituting the textile is substantially circular, and(D) the multifilament threads constituting the textile have total fineness of 145 to 720 dtex, single fiber fineness of 2 to 7 dtex, and tensile strength of 6.5 to 8.5 cN/dtex.11. The airbag base fabric according to claim 10 , wherein the warp thread cross-sectional deformation (WR) calculated by formula (1) is 4.3 to 5.7 claim 10 , and the weft thread cross-sectional deformation (WR) calculated by formula (2) is 2.6 to 3.7.12. The airbag base fabric according to claim 10 , wherein static air permeability measured under a test differential pressure of 500 Pa according to a fragile form method of JIS L 1096 is 0.1 to 5.0 L/dm/min claim 10 , and dynamic air permeability measured according to ASTM D 6476-02 is 100 to 1000 mm/sec.13. The airbag base fabric according to claim 10 , wherein a warp thread cover factor (WCF) is calculated by formula (3) claim 10 , a weft thread cover factor (FCF) is calculated by formula (4) claim 10 , and a sum (CF) of WCF and FCF claim 10 , calculated by formula (5) claim 10 , is 2000 to 2400:{'br': None, 'i': 'WCF=', 'sup': '1/2', '(total fineness of warp threads constituting textile (dtex))×(Warp thread ...

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Номер записи: 36
11-03-2021 дата публикации

FABRIC INCLUDING REPAIRABLE POLYMERIC LAYER WITH SEAM FOR PAPERMAKING MACHINE

Номер: US20210071365A1
Автор: Begin Marc Paul, CARLSON Andrew James, II James E., IV Byrd Tyler, Korkowski Zachary John, MILLER, Peterson Nathaniel Michael, Sealey, Simon Robert Earl, Tikh Mikhail
Принадлежит:

The present invention provides for manufacturing processes of structuring fabrics that contain a web contacting layer with seams that do not cause defects in the sheet that can result in sheet breaks during the paper machine process. Structuring fabrics with a web contacting layer that can have damaged sections replaced rather than replacing the entire structuring fabric, which is costly and time consuming, are also provided. Additionally, a process for manufacturing the web contacting layer by laying down polymers of specific material properties in an additive manner under computer control (3-D printing) is provided. 1. A method of forming a structured papermaking fabric , comprising:printing a thermosetting polymer blend onto a non-stick film in a pattern;curing the thermosetting polymer blend;removing the cured thermosetting polymer blend from the non-stick film, the removed and cured thermosetting polymer blend forming a web-contacting layer of the structured papermaking fabric; andlaminating the web-contacting layer to a woven fabric to form the structured papermaking fabric.2. The method according to claim 1 , wherein the thermosetting polymer blend comprises from 10% to 85% by weight photopolymer and the step of curing comprises use of ultraviolet light.3. The method according to claim 2 , wherein the thermosetting polymer blend comprises a polymer selected from the group consisting of polyester claim 2 , polyamide claim 2 , polyurethane claim 2 , polypropylene claim 2 , polyethylene claim 2 , polyethylene terephthalate claim 2 , polyether ether ketone resins and combinations thereof.4. The method according to claim 1 , wherein the non-stick film is biaxially-oriented polyethylene terephthalate.5. The method according to claim 1 , wherein the step of laminating comprises at least one of adhesive or welding.6. The method according to claim 5 , wherein the welding is laser welding.7. The method according to claim 6 , wherein the step of laminating comprises ...

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Номер записи: 37
07-03-2019 дата публикации

FILTER ELEMENT

Номер: US20190070539A1
Автор: BARON Dominic
Принадлежит:

A filter element comprising two layers of weft () interlaced with warp (). Additionally laid-in () yarns are provided in-between the two weft layers. The laid-in yarns () are not interlaced with the weft. 1. A filter belt comprising interlaced weft and warp yarns , and laid-in yarns , wherein:the filter belt comprises two layers of weft yarns, with the laid-in yarns located between said layers of weft yarns;the laid-in yarns do not interlace with the weft yarns and run substantially parallel to the warp yarns, the laid-in yarns having a linear density of 150 to 4400 dtex (grams/10,000 m);the weft yarns run substantially perpendicular to the warp yarns, and wherein;the ratio of the laid-in yarns to warp yarns is at least 1:4 and the weft yarns comprise an abrasion resistant material.2. A filter belt according to claim 1 , wherein the abrasion resistant material comprises polyamide.3. A filter belt according to claim 1 , wherein the weft yarns are the predominant yarn on both the top and bottom surfaces of the filter belt.4. A filter belt according to claim 1 , wherein the weft yarns are woven in a double-faced sateen construction.5. A filter belt according to claim 1 , wherein the ratio of laid-in yarns to warp yarns is approximately 1:1.6. A filter belt according to claim 1 , wherein the laid-in claim 1 , warp and/or weft yarns comprise any of the following either alone or in combination:—PP claim 1 , PET claim 1 , PE claim 1 , PBT claim 1 , PPS and/or aramid materials.7. A filter belt according to claim 1 , wherein the weft yarns consists essentially of polyamide.8. A filter belt according to claim 1 , wherein the filter belt additionally comprises an abrasion resistant coating.9. A horizontal chamber filtration apparatus claim 1 , such as a tower press claim 1 , comprising a filter belt according to .10. Use of a filter belt according to in a horizontal chamber filtration apparatus such as a tower press.11. A filter belt according to claim 1 , wherein the laid-in ...

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Номер записи: 38
14-03-2019 дата публикации

Woven Shoe Upper

Номер: US20190075888A1
Автор: "OHaire Tom", HENWOOD Thomas, Yip Andrew
Принадлежит:

The present invention concerns a shoe upper comprising a woven portion, wherein the woven portion comprises a plurality of warp yarns; a plurality of weft yarns; at least one stitching yarn, wherein the stitching yarn is integrally woven into the fabric during the weaving process by laterally displacing the stitching yarn substantially along the weft direction and moving the stitching yarn in and out of at least one open reed gap in a reed. 1. A shoe upper comprising a woven portion , wherein the woven portion comprises:a plurality of warp yarns;a plurality of weft yarns;at least one stitching yarn, wherein the stitching yarn is integrally woven into the fabric during the weaving process by laterally displacing the stitching yarn substantially along the weft direction and moving the stitching yarn in and out of at least one open reed gap in a reed.2. The shoe upper according to claim 1 , wherein the stitching yarn has a tensile modulus greater than the tensile modulus of the warp yarns and/or the weft yarns.3. The shoe upper according to claim 1 , wherein the stitching yarn comprises a meltable component.4. The shoe upper according to claim 1 , wherein the stitching yarn is located in a midfoot region of the shoe.5. The shoe upper according to claim 1 , wherein the stitching yarn is located within 2 cm from at least one lace eyelet.6. The shoe upper according to claim 1 , wherein the stitching yarn is located in a sole region of the shoe upper.7. The shoe upper according to claim 1 , wherein at least one stitching yarn makes an angle of between 30° and 60° with the warp or weft yarns between at least two different interlacing points.8. The shoe upper according to claim 1 , wherein at least one stitching yarn and/or one weft yarn and/or one warp yarn is dissolvable in a solvent.9. The shoe upper according to claim 8 , wherein the solvent is water.10. The shoe upper according to claim 1 , wherein at least one stitching yarn comprises carbon fiber.11. A method of ...

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Номер записи: 39
14-03-2019 дата публикации

THREE DIMENSIONAL MEDICAL WOVEN FABRIC CONFIGURATION

Номер: US20190078240A1
Автор: TANDOGAN Gökhan
Принадлежит:

A medical fabric obtained by a rapier loom such, having an upper fabric layer, a lower fabric layer and a hollow part defined between the lower fabric layer and the upper fabric layer in such a way to form a three dimensional structure in order to decrease the pressure exerted on the body parts of patients. The fabric has a dimensional surface which allows the upper fabric layer to form a textured structure by defining the hollow part due to the tension exerted on the lower fabric layer at the end of the loom. 1. A medical fabric obtained by means of a rapier loom such , comprising an upper fabric layer , a lower fabric layer and a hollow part defined between the said lower fabric layer and the upper fabric layer in such a way to form a three dimensional structure in order to decrease the pressure exerted on the body parts of patients , wherein , it comprises a dimensional surface which allows the upper fabric layer to form a textured structure by defining the said hollow part due to the tension exerted on the lower fabric layer at the end of the loom.2. A medical fabric according to claim 1 , wherein; it comprises first weft yarns and first warp yarns formed according to a draft plan obtained by drafting with a weaving repeat comprising plied yarns in order to define the said dimensional surface of the said upper fabric layer.3. A medical fabric according to claim 2 , wherein; the said first weft yarns and first warp yarns are Ne 50/2 pes and 78 dtex elastane blended elastane polyester.4. A medical fabric according to claim 1 , wherein; it comprises second weft yarns and second warp yarns formed according to 1/1 weaving repeat such that the said lower fabric layer defines a flat surface.5. A medical fabric according to claim 4 , wherein; the said weft yarns and second warp yarns are Ne 50/2 cotton.6. A medical fabric according to claim 1 , wherein claim 1 , a probiotic application process is applied to the said medical fabric.7. A medical fabric according to claim ...

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Номер записи: 40
24-03-2016 дата публикации

WOVEN FABRIC HAVING THE ASPECT OF A SCUBA FABRIC, AND METHOD FOR PRODUCING THE SAME

Номер: US20160083877A1
Автор: ERKUS Ertug, KALFA KILICKAN Esin, Korkmaz Fatma, ZEYREK Mustafa
Принадлежит: SANKO TEKSTIL ISLETMELERI SAN. VE TIC. A.S.

A woven fabric that has the appearance of a neoprene fabric is obtained with a double face fabric in which the warp yarns passes at least three weft yarns on each side of the fabric. 1123235432534222535. A woven double face fabric () having warp yarns () and weft yarns () providing a pattern whereby a warp yarn () floats over one or more weft yarns () to provide a corresponding over portion () and floats under one or more weft yarns to provide under portions ( , at least part of the weft yarns () being elastic yarns , characterized in that in a repeat unit a first warp yarn (′) floats over at least three weft yarns on said first side of the fabric to provide a corresponding warp over portion () , said warp yarn successively floating under one single weft yarn () to provide an under portion () , whereby in said first warp yarn the total length of over portions is greater than the length of under portions , and further characterized in that each of the two warp yarns (″ , ′″) arranged adjacent to said first warp yarn (′) floats under at least three weft yarns to provide a corresponding warp over portion () on said second side of the fabric , said warp yarn successively floating over one single weft yarn () to provide an over portion () on said first side of the fabric.254. A woven fabric according to claim 1 , wherein the maximum length of each over portion () or each under portion () of a warp yarn is corresponding to 10 weft yarns.3524. A woven fabric according to claim 1 , wherein each said over portions () of said first warp yarn (′) passes at least three weft yarns and is followed by an under portion () passing one weft yarn in an N/1/N scheme claim 1 , where N is an integer within 3 and 10 claim 1 , included.442225. A woven fabric according to claim 1 , wherein each under portion () of said adjacent warp yarns (″ claim 1 , ′″) passes at least three weft yarns and is followed by an over portion () passing one weft yarn in a 1/M/1 scheme claim 1 , where M is an ...

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Номер записи: 41
30-03-2017 дата публикации

Wowen fabric product

Номер: US20170087796A1
Автор: BANG Song-Hyuk
Принадлежит: Jung Shin Co., Ltd.

A woven fabric protective covering to ensure long lasting and reliable product and also reliable and easy operation when installing the covering. The woven fabric comprises a sheet layer, a reinforcement layer and at least one film layer. A plurality of strip formed weft elements and warp elements are woven together to form the sheet fabric. The sheet fabric comprises at least two different types of weaves, a basic weave for a main sheet fabric area having substantially equal number of orthogonally woven weft elements and warp elements, and a relief weave to form a fastening region where the number of warp elements per width unit is reduced when compared to the number of weft elements. The reinforcement layer is a woven band and is laminated on at least one side of the sheet layer. The reinforcement layer comprises openings for fastening the product when in use. At least one film layer is laminated on the sheet layer. 1. A woven fabric product comprising:a sheet layer wherein a plurality of strip formed weft elements and warp elements are woven together to form a sheet fabric,a reinforcement layer that is a woven band comprising openings for fastening the product when in use; andat least one film layer laminated on the sheet layer,wherein, the reinforcement layer is laminated on at least one side of the sheet layer and the sheet fabric comprises at least two different type of weaves: a basic weave for a main sheet fabric area having substantially equal number of orthogonally woven weft elements and warp elements, and a relief weave to form a fastening region where number of warp elements per width unit is reduced when compared to number of weft elements.2. The woven fabric product of claim 1 , wherein the weft elements in the relief weave are continuous from the basic weave to the relief weave.3. The woven fabric product of claim 1 , wherein in the relief weave ratio of the number of warp elements to the number of weft elements is between 3/10 and 8/10 such that ...

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Номер записи: 42
21-03-2019 дата публикации

COMPOSITE YARN, FABRIC THEREOF AND BRASSIERE

Номер: US20190085485A1
Автор: Lin Yi-Chen, Shih Po-Jen
Принадлежит:

A fabric includes an inner textile layer, an outer textile layer, and a middle textile layer. The inner textile layer includes a plurality of microfiber yarns and a plurality of elastic fiber yarns. The outer textile layer includes a plurality of composite yarns. The middle textile layer is between the inner textile layer and the outer textile layer and has a plurality of wave-like polyester fiber yarns. Further, the outer textile layer includes a first weaving region and a second weaving region. The content of the composite yarns in the first weaving region is greater than the content of the composite yarns in the second weaving region. 1. A composite yarn , comprising:a first yarn, wherein the first yarn is a thermo-fusible yarn;a second yarn winded and intermingled with the first yarn; andwherein, a melting point of the first yarn is lower than a melting point of the second yarn, and an offset rate of the second yarn relative to the first yarn is between 5% and 300%.2. The composite yarn according to claim 1 , wherein the melting point of the first yarn is between 160 Celsius and 190 Celsius.3. The composite yarn according to claim 2 , wherein the first yarn is polypropylene or low temperature based polyethylene terephthalate.4. The composite yarn according to claim 1 , wherein the melting point of the second yarn is between 200 Celsius and 260 Celsius.5. The composite yarn according to claim 4 , wherein the second yarn is polyethylene terephthalate.6. The composite yarn according to claim 1 , wherein the offset rate is between 20% and 40%.7. The composite yarn according to claim 1 , further comprising:a third yarn, wherein the third yarn is an elastic yarn;wherein, the first yarn, the second yarn, and the third yarn are uniformly intermingled and cohered with each other.8. A fabric claim 1 , comprising:an inner textile layer comprising a plurality of microfiber yarns and a plurality of elastic fiber yarns; a first yarn, wherein the first yarn is a thermo-fusible ...

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Номер записи: 43
05-05-2022 дата публикации

ABSORBENT ECOLOGICAL FABRIC

Номер: US20220132749A1
Автор: Chien Wei-Ting
Принадлежит:

An absorbent ecological fabric is provided, including: at least one first fiber element, each of the at least one first fiber element being absorbent and elongate, each of the at least one first fiber element being woven by a plurality of filaments. The absorbent ecological fabric can provide a large region for plants to attach and climb.

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Номер записи: 44
25-03-2021 дата публикации

Fabric With Embedded Electrical Components

Номер: US20210091007A1
Автор: Daniel A. Podhajny, Daniel D. Sunshine, David M. Kindlon, Hoon Sik Kim, Kathryn P. Crews, Paul S. Drzaic, Yung-Yu Hsu
Принадлежит: Apple Inc

A fabric-based item may include fabric such as woven fabric having insulating and conductive yarns or other strands of material. The conductive yarns may form signal paths. Electrical components can be embedded within pockets in the fabric. Each electrical component may have an electrical device such as a semiconductor die that is mounted on an interposer substrate. The electrical device may be a light-emitting diode, a sensor, an actuator, or other electrical device. The electrical device may have contacts that are soldered to contacts on the interposer. The interposer may have additional contacts that are soldered to the signal paths. The fabric may have portions that form transparent windows overlapping the electrical components or that have other desired attributes.

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Номер записи: 45
05-05-2022 дата публикации

HYDROPHILIC FABRIC AND MANUFACTURING METHOD THEREOF

Номер: US20220136143A1
Автор: Shinn Ted Hong
Принадлежит: NanoTubeTec Co., LTD

Provided are a hydrophilic fabric and a manufacturing method thereof. The hydrophilic fabric has a structure in which warp yarns and weft yarns are interwoven with each other, wherein at least one of the warp yarns and the weft yarns includes carbon nanotube fibers, the carbon nanotube fibers contain N-doped carbon nanotubes, the nitrogen content in each of the N-doped carbon nanotubes is between 1 at. % and 10 at. %, and the content of the N-doped carbon nanotubes in the hydrophilic fabric is at least 1 wt. % based on the total weight of the hydrophilic fabric.

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Номер записи: 46
05-05-2022 дата публикации

FLAME RETARDANT FABRIC AND MANUFACTURING METHOD THEREOF

Номер: US20220136144A1
Автор: Shinn Ted Hong
Принадлежит: NanoTubeTec Co., LTD

Provided are a flame retardant fabric and a manufacturing method thereof. The flame retardant fabric has a structure in which warp yarns and weft yarns are interwoven with each other, wherein at least one of the warp yarns and the weft yarns includes carbon nanotube fibers, and the content of carbon nanotubes in the flame retardant fabric is at least 0.02 wt. % based on the total weight of the flame retardant fabric.

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Номер записи: 47
05-04-2018 дата публикации

GLASS CLOTH

Номер: US20180094110A1
Автор: Nakanishi Kenichi, SOMEYA Makoto, TACHIBANA Shinichiro
Принадлежит: ASAHI KASEI KABUSHIKI KAISHA

A glass cloth obtained by weaving a glass yarn including a plurality of glass filaments, wherein the compositional amount of BOis 20% by mass to 30% by mass in the glass filaments and the compositional amount of SiOis 50% by mass to 60% by mass in the glass filaments, and the loss on ignition of the glass cloth is 0.25% by mass to 1.0% by mass. 1. A glass cloth obtained by weaving a glass yarn comprising a plurality of glass filaments , wherein a compositional amount of BOis 20% by mass to 30% by mass in the glass filaments and a compositional amount of SiOis 50% by mass to 60% by mass in the glass filaments , and a loss on ignition of the glass cloth is 0.25% by mass to 1.0% by mass.2. The glass cloth according to claim 1 , wherein the loss on ignition of the glass cloth is 0.3% by mass to 0.9% by mass.3. The glass cloth according to claim 1 , wherein the loss on ignition of the glass cloth is 0.35% by mass to 0.8% by mass.4. The glass cloth according to claim 1 , wherein an average filament diameter of the glass filaments is 5 μm or less claim 1 , and the loss on ignition of the glass cloth is 0.5% by mass to 1.0% by mass.5. The glass cloth according to claim 1 , wherein an air permeability of the glass cloth is 50 cm/cm/sec or less.6. The glass cloth according to claim 1 , wherein a tensile strength of the glass cloth is 20 N/inch or more.7. The glass cloth according to claim 1 , wherein an amount of carbon on the glass cloth is 1 mol/cmor more.11. A prepreg comprising the glass cloth according to claim 1 , and a matrix resin with which the glass cloth is impregnated.12. A printed wiring board comprising the prepreg according to . The present invention relates to a glass cloth.Currently, as information terminals such as a smartphone are improved in performance and increased in the communication speed thereof, a printed wiring board to be used is remarkably advanced in terms of a reduction in dielectric constant and a reduction in dielectric dissipation factor.As ...

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Номер записи: 48
05-04-2018 дата публикации

INDUSTRIAL FABRIC

Номер: US20180094366A1
Автор: Chen Fujun, CHEN Xiaolei, Ding Qijun, Xie Peng, Yuan Lingjun, Yuan Xingran
Принадлежит: ANPING XINPENG MESH BELT LIMITED COMPANY

An industrial fabric is a web woven from warp yarns made of monofilaments and weft yarns made of monofilaments. The warp yarns are of a double-layer structure. One of warp yarn basic units comprises four sub-units, two sub-units being located on an upper layer, the other two sub-units being located on a lower layer. The warp yarns on the upper layer and the warp yarns on the lower layer are vertically overlapped, wherein at least two sub-units comprise two parallel narrow warp yarns. Upper warp yarns and lower warp yarns are identical in texture structure, or one surface is identical to the other surface after rotating by 180 degrees. The industrial fabric is stable in structure and good in overall consistency. The upper surface is good in flatness, the surface is free from defects, and the quality and intensity of the fabric are improved. 1. An industrial fabric which is a web woven from warp yarns made of monofilaments and weft yarns made of monofilaments , wherein , the structure or texture of the warp yarns are of a double-layer structure , i.e. , an upper layer in which upper layer warp yarns interlace with the weft yarns , and a lower layer in which lower layer warp yarns interlace with the weft yarns , wherein the upper layer warp yarns do not intersect with the lower layer warp yarns; one of warp yarn basic units comprises four sub-units , wherein two sub-units being located on the upper layer , the other two sub-units being located on the lower layer , the warp yarns on the upper layer and the warp yarns on the lower layer are vertically overlapped , wherein at least two sub-units comprise two parallel narrow warp yarns; and wherein the warp yarns have flat cross-sections respectively;upper warp yarns and lower warp yarns, namely front warp yarns and back warp yarns, are identical in texture structure, or one surface is identical to the other surface after being rotated by 180 degrees.2. The industrial fabric of claim 1 , wherein the web is of a web with ...

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Номер записи: 49
06-04-2017 дата публикации

DRAINAGE LINER WITH INTEGRAL DRAINAGE FEATURE AND GEOMEMBRANES INCLUDING SAME

Номер: US20170095992A1
Автор: Arthurs Trevor, Gourichon Boris, Patton Sherryl
Принадлежит:

Drainage liners and geomembranes including the drainage liners are disclosed herein. The drainage liners have a woven scrim made of warp tapes and weft tapes, and have a plurality of high-denier strands each superimposed upon a warp tape or each superimposed upon a weft tape and each interwoven into the woven scrim by oppositely oriented tapes. The warp tapes or the weft tapes with superimposed high-denier strands thereon are spaced apart within the woven scrim by at least one tape of a same orientation, thereby defining a plurality of parallel channels for fluid flow between nearest neighboring high-denier strands. 1. A drainage liner comprising: a plurality of warp tapes and a plurality of weft tapes woven together; and', 'a plurality of high-denier strands each superimposed upon a warp tape or each superimposed upon a weft tape that form the first major surface and each interwoven with the woven scrim by oppositely oriented tapes;', 'wherein the warp tapes or the weft tapes with superimposed high-denier strands thereon are spaced apart within the woven scrim by at least one tape of a same orientation, thereby defining a plurality of parallel channels for fluid flow between nearest neighboring high-denier strands., 'a woven scrim having a first major surface and an opposing second major surface, the woven scrim comprising2. The drainage liner of claim 1 , further comprising a film layer applied to the second major surface.3. The drainage liner of claim 2 , wherein the film layer is a film layer laminated to the woven scrim or is a film layer applied to the second major surface as a coating layer.4. The drainage liner of claim 2 , wherein the film layer comprises polyethylene claim 2 , polypropylene claim 2 , ethylene copolymers claim 2 , propylene copolymers claim 2 , polyvinyl chloride claim 2 , and combinations thereof.5. The drainage liner of claim 1 , wherein the plurality of high-denier strands are multi-filament yarns.6. The drainage liner of claim 5 , ...

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Номер записи: 50
01-04-2021 дата публикации

Integrated Thermoelectric Film Based Woven Power Generator

Номер: US20210098673A1
Автор: Yazawa Kazuaki
Принадлежит:

A thermoelectric module includes two insulating substrates supporting a plurality of thermoelectric fingers. Each thermoelectric finger has alternating strips of n-type doped material and p-type doped material, wherein adjacent n-type doped strips and p-type doped strips are separated by and electrically coupled to conductive regions. The thermoelectric fingers run in a first direction and are spaced apart from each other. A plurality of holes in the insulating substrates are disposed between adjacent thermoelectric fingers, and area aligned with each other. A length of fabric yarn woven is in and out of substantially aligned holes in each substantially aligned set of holes. 1. A thermoelectric module , comprising:a first insulating substrate and a second insulating substrate;a plurality of thermoelectric fingers formed on the first insulating substrate, each thermoelectric finger comprising alternating strips of n-type doped strips and p-type doped strips, wherein adjacent n-type doped strips and p-type doped strips are separated by and electrically coupled to conductive regions, each of the plurality of thermoelectric fingers running in a first direction and spaced apart from each other;a plurality of holes in the first insulating substrate disposed between adjacent thermoelectric fingers, the plurality of holes between adjacent thermoelectric fingers substantially aligned with each other, such that each hole is a part of a substantially aligned set of holes;a length of fabric yarn woven in and out of substantially aligned holes in each substantially aligned set of holes.2. The thermoelectric module of claim 1 , wherein the substantially aligned holes of each substantially aligned set of holes run in a second direction claim 1 , and wherein each length of fabric yarn runs in the second direction.3. The thermoelectric module of claim 2 , wherein the first direction and second direction are substantially perpendicular.4. The thermoelectric module of claim 2 , ...

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Номер записи: 51
19-04-2018 дата публикации

NON-SEAMED SHEETING FABRIC HAVING A COOL PORTION AND A WARM PORTION

Номер: US20180103783A1
Автор: Danaher Thomas
Принадлежит:

A non-seamed sheeting fabric, such as a bed sheet, including a cool portion and a warm portion that is integral with the cool portion. The warm portion is configured to provide greater thermal insulation than the cool portion. 1. A woven non-seamed sheeting fabric comprising:a cool portion comprising a plain weave;a warm portion comprising a complex weave;wherein each of the warm portion and the cool portion have different densities; andwherein there is at least one common warp yarn or weft yarn in the cool portion and the warm portion to reduce a puckering effect.2. The sheeting fabric of claim 1 , wherein there is at least one common warp yarn in the cool portion and the warm portion.3. The sheeting fabric of claim 1 , wherein there is at least one common weft yarn in the cool portion and the warm portion.4. The sheeting fabric of claim 1 , wherein there is at least one common warp yarn and at least one common weft yarn in the cool portion and the warm portion.5. The sheeting fabric of claim 1 , wherein yarns in the warm portion are heavier than yarns in the cool portion.6. The sheeting fabric of claim 1 , wherein yarns of the warm portion are less dense than the yarns of the cool portion.7. The sheeting fabric of claim 1 , wherein the warm portion further comprises a warp pile.8. The sheeting fabric of claim 1 , wherein the warm portion further comprises a weft pile.9. The sheeting fabric of claim 1 , wherein the plain weave is a 1/1 plain weave.10. The sheeting fabric of claim 1 , wherein the complex weave is a 4/1 complex weave.11. The sheeting fabric of claim 1 , wherein the fabric is selected from the group consisting of a brushed fabric claim 1 , a sueded fabric claim 1 , a sheared fabric and combinations thereof.12. The sheeting fabric of claim 1 , wherein the cool portion further comprises at least one additional weaving pattern selected from the group consisting of a twill weave claim 1 , a lappet weave claim 1 , a swivel weave claim 1 , a clip-spot weave ...

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Номер записи: 52
29-04-2021 дата публикации

IMPACT RESISTANT, WRAPPABLE MULTILAYERED WOVEN SLEEVE AND METHOD OF CONSTRUCTION THEREOF

Номер: US20210123168A1
Автор: Gao Tianqi, Mehbubani Ritesh, Qiu Xiaodan, Winters Danny, Yoneshige Yuki
Принадлежит:

A wrappable, woven sleeve includes a wall having opposite edges extending lengthwise between opposite ends, with the opposite edges being wrappable into overlapping relation to bound a central cavity. The wall has a plurality of layers extending from one edge to the opposite edge and from one end to the opposite end in overlying relation with one another. Each of the layers include warp yarns and fill yarns woven together. The wrapped wall has a radially outermost layer and a radially innermost layer. The radially outermost layer has at least one of a first tightness and/or first width and the radially innermost layer has at least one of a second tightness and/or second width, with the first tightness and first width being greater than the second tightness and second width. 1. A wrappable , multilayered woven sleeve for routing and protecting elongate members , comprising:an elongate wall having opposite edges extending lengthwise between opposite ends, said opposite edges being wrappable about a central axis into overlapping relation with one another to bound a central cavity, said wall having a plurality of layers extending between said opposite ends in overlying relation with one another, each of said layers including warp yarns extending generally parallel to the central axis woven with fill yarns extending generally transversely to said warp yarns, upon wrapping said opposite edges into overlapping relation with one another, one of said plurality of layers, forming a radially outermost layer, and one of said plurality of layers, forming a radially innermost layer, said radially outermost layer having a first tightness and said radially innermost layer having a second tightness, said first tightness being greater than said second tightness.2. The wrappable claim 1 , multilayered woven sleeve of claim 1 , wherein said radially outermost layer has a first width extending between said opposite edges and said radially innermost layer has a second width extending ...

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Номер записи: 53
29-04-2021 дата публикации

MODULAR FLEXIBLE HAND LOOM

Номер: US20210123169A1
Автор: HARVEY Renita, NOVAK Kim, ZIGLER ZIEGLER Bill
Принадлежит:

A modular hand loom includes a plurality of links having pegs extending from the links. The plurality of links may be connectable with one another to form a plurality of loom configurations for knitting and/or weaving. When the plurality of links are assembled into a desired loom configuration, some links may be configured to remain rotatable relative to an adjacent link thereby causing the loom to be flexible during use. 1. A modular hand loom , comprising:a plurality of links having pegs thereon, the plurality of links being connectable with one another to form a plurality of loom configurations for knitting and/or weaving,wherein each link has a first end with a first connector and a second end with a second connector, each first connector being removably connectable to the second connector of an adjacent link,wherein the plurality of links includes a first link and a second link, the first link being rotatable relative to the second link when directly connected to the second link, andwherein, when the plurality of links are assembled into a desired loom configuration, the first link is configured to remain rotatable relative to the second link such that the relative positioning of the pegs on the first link is continuously changeable relative to the positioning of the pegs on the second link thereby causing the loom to be flexible during use.2. The modular loom of claim 1 , wherein claim 1 , due to relative rotation of the first link with respect to the second link claim 1 , a shape of the loom configuration is continuously changeable during use.3. The modular loom of claim 1 , wherein each link is configured to be directly removably connectable to each other link.4. The modular loom of claim 1 , wherein the first connector is a male connector comprising a protruding member and the second connector is a female connector comprising a receptacle for receiving the male connector.5. The modular loom of claim 1 , wherein each link has four or less pegs thereon claim ...

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Номер записи: 54
11-04-2019 дата публикации

INVENTION OF THE HOLLOW STRETCH YARN

Номер: US20190106813A1
Автор: Koo Kam Cheung
Принадлежит:

A substantially hollow structured elastic core-spun yarn has a dissoluble core and main stretch core covered with single or multiple slivers. The dissoluble core would be partially or totally removed in yarn processing, or fabric finishing, or garment finishing, and removed with combination of different stages' processing. 1. A process for producing a composite main stretch core with substantially formed with hollow structure after removed the dissolvable core. The process comprising feeding of composite core and covered with sliver or slivers (shown as ).2. The process of claim 1 , wherein the main stretch core is chosen from the group consisting multiple filaments claim 1 , spun yarn and composite thereof.3. The process of claim 1 , wherein the fiber covering is made of materials chosen from the group of natural fibers claim 1 , artificial fibers and synthetic fibers.4. The process of claim 1 , wherein the composite core is made of main stretch core and dissolvable core chosen from the group of natural fibers claim 1 , artificial fibers and/or filaments claim 1 , synthetic fibers and/or filaments and composite thereof.5. The process of claim 1 , wherein the composite core is fed in the way chosen from parallel feeding claim 1 , ply yarn form claim 1 , or core spun and composite thereof (shown as FIGS. A & B).6. The process of removing the dissolvable core of composite core in chosen from yarn stage claim 1 , fabric stage claim 1 , garment stage and composite thereof (shown as FIG. C). This application claims priority under 35 U.S.C. 119(a-d) to CN 201811097773.0, filed Sep. 20, 2018.This invention relates to an elastic yarn structure with substantial hollow structure. The core is composed of dissolvable part (dissolvable core) and elastic part (main elastic core) covered with single or multiple slivers, as well as fabrics containing such yarns and garments made use of such fabric.The invention is particularly concerned with improvements of core-spun elastic yarns ...

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Номер записи: 55
11-04-2019 дата публикации

METHOD FOR CONTROLLING THE CONSUMPTION OF YARN IN A WEAVING PROCESS

Номер: US20190106818A1
Автор: GOTTI Luca, ZENONI Pietro
Принадлежит:

A textile machine receives a plurality of yarns from respective feeders, each provided with a control unit that calculates, for each garment produced, the amount of yarn consumed (YCmeas) and compares it with a reference consumption value (YCref). If the difference exceeds a preset limit value (% max) that indicates an anomaly, then an alarm is generated. Periodically, the control unit calculates an average consumption value (YCmed) on the basis of a preset number (Nmed) of already-finished garments, and compares it with the reference consumption value (YCref). If the difference exceeds a preset threshold value (% maxmed), then the reference consumption value (Yref) is set to the average consumption value (Ymed). 1. A method for controlling the consumption of yarn in a weaving process , wherein a textile machine receives a plurality of yarns from respective feeders each provided with a control unit , said control unit being adapted to calculate , for each garment produced , the amount of yarn consumed (YCmeas) , compare it with a reference consumption value (YCref) and , if the difference is greater than a preset limit value (% max) that indicates an anomaly , generate an alarm , wherein said control unit periodically carries out the following steps:calculating an average consumption value (YCmed) on the basis of a preset number (Nmed) of already-finished garments, andcomparing said average consumption value (YCmed) with said reference consumption value (YCref) and, if the difference is greater than a preset threshold value (% maxmed), setting said reference consumption value (YCref) to said average consumption value (YCmed).2. The method according to claim 1 , wherein said steps are carried out at the end of each garment.4. The method according to claim 3 , wherein said average consumption value (YCmed) is calculated on the basis of the last Nmed already-finished garments.5. The method according to claim 4 , wherein said preset number is comprised between 1 and 10. ...

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Номер записи: 56
09-06-2022 дата публикации

Ceramic component

Номер: US20220177378A1
Автор: Afshin Bazshushtari, Andrew J. Lazur, Kathryn S. Read
Принадлежит: Raytheon Technologies Corp

A ceramic matrix composite includes at least one ply of ceramic fibers and a a ceramic matrix material deposited on the ceramic fibers. A fiber volume fraction is between about 35-45% and an areal weight fibers is between about 150-450 g/m2. A method of fabricating a ceramic matrix composite component is also disclosed.

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Номер записи: 57
18-04-2019 дата публикации

Strong, flexible, and thrombus-free woven nanotextile based vascular grafts, and method of production thereof

Номер: US20190110883A1
Автор: Deepthy Menon, John Joseph, Praveen Varma, Shantikumar Nair
Принадлежит: AMRITA VISHWA VIDYAPEETHAM

The present invention relates to woven tubular nanotextiles, fabrication thereof using a weaving apparatus, and use thereof in vascular graft applications. The woven nanotextile conduit is 0.1 to 50 mm in diameter and includes a multitude of hierarchically arranged nanofibers. They are made from low strength bundled nanoyarns containing thousands of nanofibers with improved mechanical strength. The weaving apparatus interweaves the warp and weft yarns in longitudinal and transverse directions, resulting in a flexible and strong woven product. The physical and biological properties of the woven nanotextile were significantly enhanced when compared to non-woven nanofibrous form and conventional medical textiles. The nanotextile displayed superhydrophilic behavior in an otherwise hydrophobic material and when implanted as a vascular graft was robust, suturable, kink-proof and non-thrombogenic, with complete endothelialization of the graft luminal area.

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Номер записи: 58
13-05-2021 дата публикации

ELECTRICALLY CONDUCTIVE AND ELASTIC TEXTILE BAND CAPABLE OF TRANSMITTING ELECTRICAL SIGNAL WITHOUT DISTORTION

Номер: US20210140075A1
Автор: HWANG Jinnyun, JEON Sanghoo, JUNG Sangwook, KIM Hongjae
Принадлежит:

Disclosed is an electrically conductive and elastic textile band capable of transmitting an electrical signal by interconnecting wearable smart devices. The textile band can precisely transmit an electrical signal without distortion because there is almost no change in resistance according to extension although the textile band is extended in one direction. 1. An electrically conductive and elastic textile band in which a first direction fiber and the second direction fiber are orthogonal to each other , wherein the first direction fiber comprises an extensible yarn and a conductive yarn having electrical conduction , the extensible yarn and conductive yarn are orthogonal to the second direction fibers , respectively , the extensible yarn has a greater size of fiber than the conductive yarn , and the conductive yarn is positioned within a marginal space orthogonally formed by the second direction fiber.2. The textile band of claim 1 , wherein the marginal space is formed between the extensible yarn arranged in the first direction.3. The textile band of claim 2 , wherein the marginal space is formed by the extensible yarn protruded to a top and bottom of the second direction fiber.4. The textile band of claim 2 , wherein the conductive yarn is extended in the first direction within the marginal space by a height difference formed by the conductive yarn before and after the extensible yarn.5. The textile band of claim 1 , wherein a single or a plurality of the conductive yarns is alternately arranged along with one or more extensible yarns in the first direction.6. The textile band of claim 1 , wherein a ratio of sizes of fiber of the conductive yarn and the extensible yarn is 1:4 to 1:8.7. The textile band of claim 1 , wherein the electrically conductive textile band has a rate of change in resistance of 3% or less according to extension in the first direction.8. The textile band of claim 6 , wherein the electrically conductive textile band has a rate of change in ...

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Номер записи: 59
09-04-2020 дата публикации

DENIM BASED FABRIC

Номер: US20200109494A1
Автор: Gress Scott
Принадлежит:

A denim based fabric is provided. The denim based fabric is made from a blended yarn of denim and polypropylene fibers. Strings of the blended yarn are woven in plain, 2×1 twill, 3×1 twill, satin, or basket weave patterns, among others to produce the denim based fabric. The blended yarn is made from 15% to 50% polypropylene fiber and 85% to 50% cotton fiber by weight. In a preferred embodiment, the blended yarn is made from 30% polypropylene fiber and 70% cotton fiber by weight. 1. A denim based fabric comprising:a blended yarn of about 15% to about 50% polypropylene fiber and about 85% to about 50% cotton fiber by weight.2. The fabric of claim 1 , wherein the blended yarn comprises about 30% of the polypropylene fiber and about 70% of the cotton fiber.3. The fabric of claim 1 , wherein the polypropylene fiber includes a hollow fiber.4. The fabric of claim 1 , wherein the blended yarn is dyed with a coloring solution.5. The fabric of claim 1 , wherein a weight of the denim based fabric is between 6 oz. to about 15 oz. per square yard.6. The fabric of claim 1 , wherein a repeatable section of the denim based fabric in a plain weave pattern includes:a first horizontal string of the blended yarn placed below a first vertical string of the blended yarn and above a second vertical string of the blended yarn, anda second horizontal string of the blended yarn placed above the first vertical string and below the second vertical string.7. The fabric of claim 1 , wherein a repeatable section of the denim based fabric in a 2×1 twill weave pattern includes:a first horizontal string of the blended yarn placed below a first vertical string of the blended yarn and above second and third vertical strings of the blended yarn,a second horizontal string of the blended yarn placed below the first and second vertical strings and above the third vertical string, anda third horizontal string of the blended yarn placed above the first vertical string and below the second and third vertical ...

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Номер записи: 60
25-04-2019 дата публикации

Deformation detecting device comprising a multi-functional fabric with flocked conductive weft yarns

Номер: US20190120607A1
Автор: Antonino Domenico VECA, Bartolomeo PLACENZA, Vito Guido Lambertini
Принадлежит: Centro Ricerche Fiat SCpA

A deformation detecting device includes weft yarns and warp yarns woven together. At least some of the weft yarns, or some weft yarns, and some warp yarns, are electrically conductive. The weft yarns include a flocking made up of non-electrically conductive fibers protruding substantially radially from the weft yarns. The electrically conductive yarns are connected to conductive ends for applying an electrical voltage, such that yarns that are connected to conductive ends with different polarities define respective plates of a capacitive sensor, while the fibers of the flocking of the weft yarns define a dielectric material interposed between the capacitive sensor plates. The device comprises an electronic control and processing unit configured to detect a deformation of the fabric based on a capacitance variation of the capacitive sensor.

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Номер записи: 61
27-05-2021 дата публикации

Reflective Fabric and Manufacturing Method Thereof

Номер: US20210156055A1
Автор: Chi-Hsiang Chen
Принадлежит: CHIA HER INDUSTRIAL Co Ltd

A reflective fabric and a manufacturing method thereof are provided. The reflective fabric includes a plurality of warps, a plurality of wefts, and a plurality of reflective yarns. Each of the reflective yarns is arranged between the plurality of warps or the plurality of wefts, and is interleaved with the plurality of warps and the reflective yarns to form the reflective fabric.

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Номер записи: 62
10-05-2018 дата публикации

Breathable Fire Resistant Fabrics

Номер: US20180127903A1
Автор: Thatcher Tyler M.
Принадлежит:

Lightweight, flexible protective fabrics for protecting a person, animal or other object from hot burning materials, hot high heat capacity and/or hot corrosive materials, such as hot molten metal, hot oily liquids (e.g., heating oil), hot gels, hot solids, hot sparks, and hot acids. The lightweight protective fabrics can be used to protect a person, animal or other object from hot molten metals, such as liquid metal zinc heated to a temperature of about 950° F. (510° C.) or greater, hot molten aluminum heated to a temperature of about 1150° F. (620° C.) or greater, burning phosphorus at temperature of about 1550° F. (843° C.) or greater, hot solid iron having a temperature of about 500° F. (260° C.) or greater, hot heating oil having a temperature of about 500° F. (260° C.) or greater, and hot hydrochloric acid having a temperature of about 300° F. (150° C.) or greater. 1. A protective fabric that is lightweight , breathable , and flexible , the protective fabric comprising:flexible yarn strands woven, knitted or otherwise joined together so as to form a protective fabric that is lightweight, breathable, and flexible,the fabric comprising about 40% to about 95% by weight of oxidized polyacrylonitrile fibers,the fabric comprising about 5% to about 60% by weight of organic strengthening fibers, including at least aramid fibers and rayon fibers,{'sup': 2', '2, 'wherein the protective fabric is free of strengthening filaments and has a weight in a range of about 2 oz/ydto about 20 oz/yd.'}2. The protective fabric of claim 1 , the fabric comprising about 50% to about 90% by weight oxidized polyacrylonitrile.3. The protective fabric of claim 1 , wherein the fabric consists of the oxidized polyacrylonitrile fibers claim 1 , aramid fibers claim 1 , and rayon fibers.4. The protective fabric of claim 1 , wherein the fabric is free of metallic claim 1 , ceramic or O-Pan filaments.5. The protective fabric of claim 1 , wherein the fabric has a weight that is in a range of about ...

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Номер записи: 63
03-06-2021 дата публикации

Collaboration in an Apparel Design System

Номер: US20210161235A1
Автор: Benjamin Bell, Christopher Schultz, Debdulal Mahanty, Jennifer Schultz, Ozgur Taylan Kuzucu
Принадлежит: Levi Strauss and Co

A system allows a user to create new designs for apparel and preview these designs before manufacture. Software and lasers are used in finishing apparel to produce a desired wear pattern or other design. Users may communicate with other users on how wear patterns should be applied onto base garments and make changes to the wear patterns or other garment features, while sharing with other users their progress.

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Номер записи: 64
23-04-2020 дата публикации

NATURAL FABRICS COMPRISING ROSE FIBER

Номер: US20200123685A1
Автор: BENOMAR Omar, POLANCO Regina
Принадлежит: PYRATES SMART FABRICS SL

The present invention provides a composition of a fabric. The fabric comprises a proportion of 20% to 50% rose fiber yarn and a proportion of at least one structural yarn. Proportions of soft and/or elastic yarns may be added. 1. A fabric comprising a proportion of 20% to 50% rose fiber yarn and a proportion of at least one structural yarn.2. The fabric according to claim 1 , wherein the fabric comprises 20% to 45% rose fiber yarn claim 1 , in particular 20% to 40% claim 1 , more particularly 25% to 40%.3. The fabric according to claim 1 , wherein the fabric comprises 30 to 45% rose fiber claim 1 , in particular 35 to 40% rose fiber.4. The fabric according to claim 1 , wherein the fabric comprises 20 to 35% rose fiber claim 1 , in particular 25 to 30% rose fiber.5. The fabric according to claim 1 , wherein the fabric comprises additionally a proportion of at least one soft yarn.6. The fabric according to claim 1 , wherein the fabric comprises additionally a proportion of at least one elastic yarn.7. The fabric according to claim 1 , wherein said proportion of the at least one soft yarn is 1-20% claim 1 , in particular 1-15% claim 1 , more particularly 6-12%.8. The fabric according to claim 1 , wherein said proportion of the at least one elastic yarn is 1-10% claim 1 , in particular 1-5% claim 1 , more particularly 2-4%.9. The fabric according to claim 1 , wherein the proportion of the at least one structural yarn Pis calculated according to equation (1) claim 1 ,{'br': None, 'i': 'P=P', 'sub': 'str', '100%−\u2003\u2003(1),'}{'sub': str', 'str, 'wherein P is the sum all of yarn proportions except of the proportion Pand Pis the proportion of one or more structural yarns.'}10. The fabric according to claim 1 , comprising 25% to 40% rose fiber yarn claim 1 , in particular 35% to 40% and said proportion Pof the at least one structural yarn claim 1 , in particular comprising additionally 6-12% of the at least one soft yarn claim 1 , and/or 3% of the at least one elastic ...

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Номер записи: 65
23-04-2020 дата публикации

METHOD FOR PREPARING CAPACITIVE STRESS SENSING INTELLIGENT FABRIC

Номер: US20200123689A1
Автор: WEN Qi, Zhang Kun
Принадлежит:

A method for preparing a capacitive stress sensing intelligent fabric. Conductive yarn serves as an electrode of a capacitive sensor, and the conductive yarn is obtained by means of direct preparation, coating, doping, etc.; an insulating elastomer is coated on the conductive yarn as a dielectric material; and the conductive yarn, which has been subjected to insulation processing, is interlaced among common yarns by using interweaving and overlapping structures among fabric yarns. A fabric sensing array is formed by means of a common manufacturing technique, and the method can be widely applied to force monitoring, etc., for intelligent garments, intelligent homes, touch-control screens, electronic skin and three-dimensional fabric composite materials. 1. A method of manufacturing a capacitive stress sensing intelligent fabric , the method comprising:1) preparing conductive yarns from metal, carbon or conductive polymers by doping or coating;2) coating an insulation polymer elastomer with dielectric properties on the surface of the conductive yarn obtained in 1), to yield electrode yarns integrating a dielectric material and the conductive yarns; and3) weaving the electrode yarns obtained in 2) using traditional textile technology, to obtain a stress-sensing intelligent fabric.2. The method of claim 1 , wherein in 1) claim 1 , a conductive component of the conductive yarns is a metal claim 1 , carbon claim 1 , conductive polymer claim 1 , or a mixture thereof; the preparation method of the conductive yarns comprises direct preparation claim 1 , doping claim 1 , coating or in-situ polymerization claim 1 , or a combination thereof.3. The method of claim 1 , wherein in 1) claim 1 , a preparation method of the conductive yarns comprises direct preparation claim 1 , doping claim 1 , coating or in-situ polymerization claim 1 , or a combination thereof.4. The method of claim 1 , wherein in 2) claim 1 , the insulation polymer elastomer with dielectric properties is ...

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Номер записи: 66
09-05-2019 дата публикации

CLOTHING AND METHOD FOR PRODUCING A CLOTHING

Номер: US20190136452A1
Автор: Eberhardt Robert, GRASER SIEGFRIED
Принадлежит:

A clothing, in particular a press belt for a machine for producing or processing a fibrous material web, includes a paper side, a backing side, a base fabric and at least one additional structure. The at least one additional structure is formed of or includes a layer of polymer foam which provides the paper side of the clothing. A method for producing a clothing, and a machine for producing a fibrous material web, are also provided. 115-. (canceled)16. A clothing or a press belt for a machine for producing or processing a fibrous material web , the clothing comprising:a paper side;a backing side;a base fabric; andat least one further structure formed of or including a layer of polymer foam, said layer of polymer foam providing said paper side of the clothing.17. The clothing according to claim 16 , wherein said layer of polymer foam has an anisotropic pore structure.18. The clothing according to claim 16 , wherein:said base fabric has a side facing away from said paper side; andat least one additional functional structure is disposed at least one of:between said base fabric and said layer of polymer foam, oron said side of said base fabric facing away from said paper side.19. The clothing according to claim 18 , wherein said at least one additional functional structure includes or is formed of nonwoven fibers.20. The clothing according to claim 16 , wherein said layer of polymer foam is configured to be compressed in a thickness direction by more than 30% under a compressive loading of the clothing of 3 MPa as compared with an initial thickness under a compressive loading of 0.1 MPa.21. The clothing according to claim 16 , wherein said layer of polymer foam is configured to be compressed in a thickness direction by more than 40% under a compressive loading of the clothing of 3 MPa as compared with an initial thickness under a compressive loading of 0.1 MPa.22. The clothing according to claim 16 , wherein said layer of polymer foam is configured to be compressed in a ...

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Номер записи: 67
10-06-2021 дата публикации

Flame Retardant Fiber with Preservative and Products Formed Therefrom

Номер: US20210172095A1
Автор: Norman H. Chapman, William C. Hightower, III
Принадлежит: Inman Mills

A fire-retardant and antimicrobial rayon fiber includes a preservative, e.g., zinc pyrithione, as an antimicrobial agent. The present invention is further directed to a yarn that includes the fire-retardant and antimicrobial rayon fiber. The yarn may be a sheath-and-core yarn where the fire-retardant and antimicrobial rayon fiber is incorporated into the sheath, and the core is formed from fiberglass or any other suitable material. The present invention is further directed to a fabric formed from the fire-retardant and antimicrobial rayon fiber, such as a nonwoven fabric, a knit fabric, or a woven fabric. Moreover, the present invention is further directed to an article such as one or more layers of a mattress or bedding formed from the fire-retardant and antimicrobial rayon fiber.

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Номер записи: 68
10-06-2021 дата публикации

Flame resistant fabrics formed of long staple yarns and filament yarns

Номер: US20210172098A1
Автор: Brian John Walsh, Charles S. Dunn, Michael A. Laton, Scott RITENOUR
Принадлежит: Southern Mills Inc

Embodiments of the invention relate to flame resistant fabrics formed of a combination of filament and long staple yarns that exhibit excellent physical and thermal properties at relatively light weights.

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Номер записи: 69
16-05-2019 дата публикации

HEATED ARTICLES OF CLOTHING AND DEVICES

Номер: US20190142086A1
Автор: Dunlop Even
Принадлежит:

Articles of clothing, such as thermally conductive gloves, are provided. In some embodiments, a glove includes a fabric, a battery, and a fibrous material. The fabric battery may be electrically coupled to the material such that the material becomes thermally conductive when coupled to the battery, and loses its thermal conductivity when no longer coupled to the battery. In some embodiments, the battery couples to the fibrous material via a magnetic attraction. 1. A glove , comprising:a material suitable for clothing;a battery; anda thermally conductive material electrically coupled to the battery, wherein the battery is configured to transfer energy to the thermally conductive material such that the thermally conductive material rapidly increases temperature when coupled to the battery, and wherein the battery is magnetically coupled to the thermally conductive material.2. The glove of claim 1 , further comprising an analog to digital converter having a first end and a second end claim 1 , wherein the converter is electrically coupled to the thermally conductive material at the first end claim 1 , and wherein the converter is electrically coupled to the battery at the second end.3. The glove of claim 1 , further comprising an electric cord having a first end and a second end claim 1 , wherein the battery being electrically coupled to the thermally conductive material comprises the thermally conductive material being electrically coupled to the cord at the first end and the battery being electrically coupled to the cord at the second end.4. The glove of claim 3 , wherein the thermally conductive material is magnetically coupled to the cord at the first end claim 3 , and the battery is electrically coupled to the cord at the second end via a universal serial bus connection.5. The glove of claim 3 , wherein the battery generates a voltage output of 3.7 volts and the thermally conductive material comprises an electrical resistance of 4 ohms claim 3 , such that the ...

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Номер записи: 70
07-05-2020 дата публикации

METALLIZED FABRIC THAT ENHANCES THERMAL INSULATION

Номер: US20200139689A1
Автор: Aghanouri Abolfazl, Lau Cindy Y., Ly John, Mayer Kirk Michael
Принадлежит:

Disclosed is a textile comprising a woven fabric and a layer of a low emissivity material disposed on the woven fabric, wherein the layer of low emissivity material is vapor deposited. The woven fabric has a yarn size of no greater than 30D and a weight no greater than 55 gsm. At least one coating layer vapor may be deposited adjacent the low emissivity layer. The woven fabric may comprise one or more of a nylon or a polyester. The textile may exhibit an increase in insulation ability of at least 10% compared to a substantially similar woven fabric in the absence of the low emissivity layer when tested together with a fibrous sheet insulation and another untreated woven fabric in accordance with ASTM-F1868 Part A. 1. A textile comprising:a woven fabric comprising one or more of a nylon or a polyester, wherein the woven fabric has a yarn size of no greater than 30D and a weight no greater than 55 gsm;a layer of a low emissivity material disposed on the woven fabric, wherein the layer of low emissivity material is vapor deposited; andat least one coating layer vapor deposited adjacent the low emissivity layer,wherein the textile exhibits an increase in insulation ability of at least 10% compared to a substantially similar woven fabric in the absence of the low emissivity layer when tested together with a fibrous sheet insulation and another untreated woven fabric in accordance with ASTM-F1868 Part A.2. The textile of claim 1 , wherein the textile exhibits an emissivity difference of at least 0.25 compared to a substantially similar woven fabric in the absence of the layer of low emissivity material when tested by emissometer.3. The textile of claim 1 , wherein the woven fabric has a surface waviness of less than about 35 μm claim 1 , when tested in accordance with a Surface Metrology Algorithm Testing System.4. The textile of claim 1 , wherein the woven fabric has a yarn denier size from 5D to 30D.5. The textile of claim 1 , wherein the at least one coating layer ...

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Номер записи: 71
16-05-2019 дата публикации

Warp Yarn of Woven Textiles

Номер: US20190145029A1
Автор: Nicole Casey
Принадлежит: Sq-Peg LLC

A woven textile is provided that includes a plurality of at least about 300-denier warp yarns and a plurality of weft warns woven together. The plurality of at least about 300-denier warp yarns each include at least two fibers having a resin filament infused with minerals. The woven textile may have thermoreactive properties and may be used in furniture, clothing, and houseware. The woven textile may be manufactured by providing at least two fibers having a resin filament infused with minerals; texturizing the at least two fibers having a resin filament infused with minerals to create a warp yarn of at least about 300-denier; providing a plurality of at least about 300-denier warp yarns and a plurality of weft yarns; and weaving the plurality of at least about 300-denier warp yarns and the plurality of weft yarns.

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Номер записи: 72
07-05-2020 дата публикации

FIBER STRUCTURE AND FIBER-REINFORCED COMPOSITE MATERIAL

Номер: US20200141032A1
Автор: YOSHIKAWA Genki
Принадлежит: KABUSHIKI KAISHA TOYOTA JIDOSHOKKI

A fiber structure includes a plurality of fiber layers stacked in a stacking direction and a plurality of binding yarns that bind the fiber layers together in the stacking direction. Each of the binding yarns is engaged with the first fiber bundles that configure two fiber layers located at opposite ends of the fiber structure in the stacking direction. Each first fiber bundle has an engagement portion as a section that is engaged with the binding yarn and a non-engagement portion as a section that is not engaged with the binding yarns. Regarding the engagement portion and the non-engagement portion, the dimension of the non-engagement portion in the stacking direction is greater than the dimension of the engagement portion in the stacking direction. 1. A fiber structure comprising:a plurality of fiber layers stacked in a stacking direction; anda plurality of binding yarns that bind the fiber layers together in the stacking direction, wherein two or more first fiber layers each configured by a plurality of first fiber bundles arranged in a first direction, and', 'a second fiber layer configured by a plurality of second fiber bundles arranged in a second direction perpendicular to the first direction,, 'the fiber layers include'}each of the binding yarns is engaged with two of the first fiber bundles that are located at opposite ends of the fiber structure in the stacking direction,those of the first fiber bundles configuring the two of the first fiber layers located at the opposite ends have engagement portions as sections that are engaged with the binding yarns and non-engagement portions as section that are not engaged with the binding yarns, andregarding any pair of an engagement portion and a non-engagement portion that are adjacent to each other in the first direction, the dimension of the non-engagement portion in the stacking direction is greater than the dimension of the engagement portion in the stacking direction.2. The fiber structure according to claim 1 ...

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Номер записи: 73
23-05-2019 дата публикации

CIRCULAR WEAVING MASCHINE AND METHOD FOR PRODUCING A HOLLOW PROFILE-LIKE FABRIC

Номер: US20190153637A1
Автор: Hufenbach Werner
Принадлежит:

The invention relates to a circular weaving machine for weaving a weaving core (), comprising at least one shuttle () which has a weft yarn bobbin () and can be moved along a circular continuous track around the weaving core (), and warp coil devices (), each of which having a warp yarn bobbin (). According to the invention, the warp coil devices () are designed to be movable, the travel path of the warp coil devices () with the warp yarn bobbin () extending through a weaving plane () enclosed by the circular continuous track (). 123.-. (canceled)24. A circular weaving machine for weaving a weaving core , wherein the weaving machine comprises (i) at least one shuttle comprising a weft yarn bobbin and being movable along a circular continuous track around the weaving core and (ii) warp coil devices each of which comprises a warp yarn bobbin , the warp coil devices being configured to be movable , with a travel path of the warp coil devices with a warp yarn bobbin extending through a weaving plane enclosed by the circular continuous track.25. The circular weaving machine of claim 24 , wherein the circular continuous track and the weaving plane enclosed by the circular continuous track are arranged quasi-radially (at an angle different from 90° in relation to the weaving axis.26. The circular weaving machine of claim 24 , wherein multiple circular continuous tracks are provided along which the at least one shuttle may be moved claim 24 , the travel path of the warp coil device with the warp yarn bobbin extending through the weaving planes enclosed by the circular continuous tracks.27. The circular weaving machine of claim 24 , wherein the circular continuous track is formed by a circular guide track in or on which at least one shuttle is guided.28. The circular weaving machine of claim 27 , wherein the guide track comprises multiple sub-tracks.29. The circular weaving machine of claim 24 , wherein the shuttle(s) is/are each driven by a direct drive.30. The circular ...

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Номер записи: 74
24-06-2021 дата публикации

FLAME RESISTANT FABRICS WITH INCREASED STRENGTH

Номер: US20210189611A1
Автор: Morrison Christopher Roy, Pickering Keith Edward
Принадлежит:

Embodiments are directed to flame resistant fabrics formed of a plurality of spun body yarns and rip stops that extend between at least some of the spun body yarns in at least one of the warp or fill direction of the fabric. In some embodiments, the rip stops include at least two relatively tough yarns, and the relatively tough yarns include a core and a sheath. 1. A flame resistant fabric having a warp direction and a fill direction , the fabric comprising:(a) a plurality of spun body yarns each formed of a body yarn fiber blend and provided in both the warp direction and the fill direction of the fabric; and(b) a plurality of rip stops extending between at least some of the spun body yarns in at least one of the warp direction or the fill direction of the fabric, wherein each rip stop comprises at least two relatively tough yarns and wherein each relatively tough yarn comprises a core and a sheath, wherein the core comprises an 100% aramid spun yarn and the sheath comprises a sheath fiber blend.2. The flame resistant fabric of claim 1 , wherein the core comprises an 100% para-aramid spun yarn.3. The flame resistant fabric of claim 1 , wherein the sheath fiber blend comprises FR rayon fibers claim 1 , aramid fibers claim 1 , and nylon fibers.4. The flame resistant fabric of claim 3 , wherein the sheath fiber blend comprises 50-80% FR rayon fibers claim 3 , 15-40% aramid fibers claim 3 , and 5-20% nylon fibers.5. The flame resistant fabric of claim 3 , wherein the aramid fibers are para-aramid fibers.6. The flame resistant fabric of claim 1 , wherein the body yarn fiber blend and the sheath fiber blend are identical.7. The flame resistant fabric of claim 1 , wherein the body yarn fiber blend and the sheath fiber blend each comprises 50-80% FR rayon fibers claim 1 , 15-40% aramid fibers claim 1 , and 5-20% nylon fibers.8. The flame resistant fabric of claim 7 , wherein the body yarn fiber blend and the sheath fiber blend are identical.9. The flame resistant fabric of ...

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Номер записи: 75
14-06-2018 дата публикации

Fabric with Enhanced Response Characteristics for Laser Finishing

Номер: US20180160756A1
Автор: Aydemir Berke, Benefiel Jennifer, Sights James Barton, St. Onge-Simpson Susanne
Принадлежит:

A fabric has enhanced response characteristics for laser finishing. The fabric can be denim for denim apparel such as jeans. Software and lasers are used to finish apparel made of the fabric to produce a desired wear or distressing pattern or other design. The fabric allows for relatively fast color change in response to the laser, color changes in hue from indigo blue to white, many grayscale levels, and maintains strength and stretch properties. A method used to make the fabric includes spinning, dyeing, and weaving yarns in such a way to obtain the desired enhanced response characteristics for laser finishing. 1. A method comprising:processing a cotton yarn using an indigo dye to have a cross section comprising an outer ring and an inner core, wherein a thickness of the outer ring is from about 7.5 percent to about 12.5 percent of a total thickness of the yarn, and the outer ring is indigo colored due to being penetrated through by the indigo dye while the inner core is white or off-white colored due to not being penetrated to by the indigo dye; andweaving the dyed cotton yarn into a denim fabric, wherein the warp yarns comprise dyed cotton and the weft yarns comprise undyed cotton, and the denim fabric is to be finished by exposing the dyed cotton yarn to a laser, andwhen exposed to the laser, the laser creates a finishing pattern on a surface of the garment based on a laser input file provided to the laser, and the laser input file comprises a plurality of laser exposure values, each for a different laser pixel location,for each laser exposure value, the laser removes a depth of material from the surface of the denim material that corresponds to the laser exposure value, andfor lighter pixel locations of the finishing pattern, a greater depth of the indigo ring-dyed cotton yarn is removed, revealing a greater width of an inner core of the dyed yarn, as compared to darker pixel locations of the finishing pattern, where a lesser depth of the indigo ring-dyed ...

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Номер записи: 76
14-06-2018 дата публикации

Multiple Apparel Products by Using Fabric Templates and Laser Finishing

Номер: US20180160757A1
Автор: "ONeill Liz", Love David, Sights James Barton, Zens Jeff
Принадлежит:

Laser finishing of apparel products allows an operating model that reduces finishing cost, lowers carrying costs, increases productivity, shortens time to market, be more reactive to trends, reduce product constraints, reduces lost sales and dilution, and more. Improved aspects include design, development, planning, merchandising, selling, making, and delivering. The model uses fabric templates, each of which can be used to produce a multitude of laser finishes. Operational efficiency is improved. 1. A method comprising:manufacturing a plurality of garments made from denim fabric panels, wherein the denim fabric panels are sewn together using thread;using a first base wash recipe to wash a first subset of the garments to obtain a plurality of first garment templates;using a second base wash recipe to wash a second subset of the garments to obtain a plurality of second garment templates, wherein the first and second wash recipes are different;using a laser finishing machine, burning a first finishing pattern on one of the first garment templates to obtain a first finished garment;indicating the first finished garment as a first garment product, identifiable by a first product code identifier;using the laser finishing machine to burn the first finishing pattern on one of the second garment templates to obtain a second finished garment;indicating the second finished garment as a second garment product, identifiable by a second product code identifier.2. The method of comprising:storing a first inventory of the first garment templates; andstoring a second inventory of the second garment templates.3. The method of wherein the first and second inventories are stored in a first facility that also houses the laser finishing machine.4. The method of wherein the manufacturing of the garments are washing of garments is performed at a different facility from the first facility.5. The method of comprising:using the laser finishing machine to burn a second finishing pattern on ...

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Номер записи: 77
14-06-2018 дата публикации

SKIN MATERIAL FOR VEHICLE INTERIOR

Номер: US20180162268A1
Автор: EGAWA Kousei, ITO Atsuhiko, SAKAI Hirohiko, YAMADA Takamasa, YAMAMOTO Takayoshi
Принадлежит:

There is provided a skin material for vehicle interior, which is woven from a side emission type optical fiber and a synthetic resin fiber, forms a design surface in a vehicle compartment and functions as an illumination. The skin material for vehicle interior is a skin material for vehicle interior including a woven fabric woven by using a synthetic resin fiber and a side emission type optical fiber as warp or weft, wherein the ratio (d/d) of the fineness (d) of the synthetic resin fiber to the fineness (d) of the side emission type optical fiber ranges from 1.5 to 7.0. When the synthetic resin fiber is a multifilament the ratio (d/d) of the fineness (d) thereof to the fineness (d) of the side emission type optical fiber ranges from 2.0 to 7.0. Also, when the synthetic resin fiber is a monofilament, the ratio (d/d) of the fineness (d) thereof to the fineness (d) of the side emission type optical fiber ranges from 1.5 to 6.0. 1. A skin material for vehicle interior , which is joined to a substrate for vehicle interior made of a resin ,{'sub': S', 'f', 'S', 'f, 'the skin material for vehicle interior comprising a woven fabric woven by using a synthetic resin fiber and a side emission type optical fiber as warp or weft, wherein the ratio (d/d) of the fineness (d) of the synthetic resin fiber to the fineness (d) of the side emission type optical fiber ranges from 1.5 to 7.0.'}2. The skin material for vehicle interior according to claim 1 , wherein the synthetic resin fiber is a multifilament claim 1 , and the ratio (d/d) of the fineness (d) of the multifilament to the fineness (d) of the side emission type optical fiber ranges from 2.0 to 7.0.3. The skin material for vehicle interior according to claim 2 , wherein the 2 to 5 side emission type optical fibers are woven between the adjacent multifilaments.4. The skin material for vehicle interior according to claim 1 , wherein the synthetic resin fiber is a monofilament.5. The skin material for vehicle interior according ...

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Номер записи: 78
30-05-2019 дата публикации

THREAD BIDIRECTIONAL INTERLOCKING OF ELECTRODE LEAD

Номер: US20190160279A1
Автор: FARAH Maroun
Принадлежит: Senso Medical Labs, Ltd.

The present invention provides interlocked thread electrode leads, methods of fabrication thereof, and thread interlocking machines. 1. A medical thread structure , comprising:a. a proximal end and a distal end, with a progression axis from the proximal end to the distal end; andb. a plurality of threads aligned vertically, in parallel to the progression axis, at said proximal end, structured to each have horizontal portions, perpendicular to the progression axis, and vertical portions, parallel to the progression axis, such that a horizontal portion of one thread is configured to pass between vertical portions of other threads, thereby interlocking therewith, 'and wherein at least one of said plurality of threads comprises electrically conductive portions coated with an electrically isolative layer, and electrically conductive portions exposed at predetermined locations for achieving a contact thereat.', 'wherein a horizontal portion of one or more threads passing between vertical portions of other threads is a beat, and each beat determines a vertical distance along the progression axis between said proximal end and said distal end;'}2. The medical thread structure of claim 1 , wherein a vertical portion of a thread is a warp portion claim 1 , and a horizontal portion of a thread is a weft portion claim 1 , and at least some of the threads are configured to be warps at certain locations claim 1 , and wefts at other locations.3. The medical thread structure of claim 1 , wherein when threads pass from being warp to being weft they form a directional contact; during weft portions of threads the one weft beat can: (i) form a full circle claim 1 , i.e. wrap around the entire fabricated interlocked lead or lead core; or (ii) does not form a full circle claim 1 , i.e. does not wrap around the entire fabricated interlocked lead or lead core claim 1 , but rather wrap only a portion of the warp(s) at a specific area of the fabricated electrode claim 1 , and optionally ...

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Номер записи: 79
15-06-2017 дата публикации

ULTRA-HIGH-QUALITY TOWEL AND YARN USED TO WEAVE IT

Номер: US20170167060A1
Автор: Daley Jennifer, Goody Rabbit
Принадлежит:

An ultra-high-quality towel having unique sensory characteristics and manufactured from renewable resources is woven from a yarn spun from 50% washable merino-type wool fiber and 50% rayon fiber from bamboo. The towel is lustrous, luxuriously smooth and warm, highly absorbent, resistant to pilling, and durable. 1. A multi-ply yarn for use in toweling , comprising 45%-55% wool fiber.2. The yarn of claim 1 , further comprising cellulosic rayon fiber.3. The yarn of claim 2 , comprising 50% wool fiber and 50% cellulosic rayon fiber.4. The yarn of claim 2 , wherein the cellulosic rayon fiber is rayon fiber from bamboo.5. The yarn of claim 1 , wherein the yarn is four-ply.6. The yarn of claim 1 , wherein the wool fiber is washable merino-type wool fiber.7. A yarn for use in toweling claim 1 , comprising a four-ply yarn made up of 50% washable merino-type wool fiber and 50% rayon fiber from bamboo.8. A towel claim 1 , comprising a yarn that includes wool fiber.9. A towel claim 1 , comprising a yarn that includes wool fiber and cellulosic rayon fiber.10. The towel of claim 8 , wherein the yarn is multi-ply.11. The towel of claim 9 , wherein the cellulosic rayon fiber is rayon fiber from bamboo.12. The towel of claim 8 , wherein the wool fiber is washable merino-type wool fiber.13. The towel of claim 9 , wherein the yarn is 45%-55% wool fiber.14. A towel claim 9 , comprising a four-ply yarn that includes 45%-55% wool fiber and rayon fiber from bamboo.15. A towel claim 9 , comprising a four-ply yarn that includes 50% washable merino-type wool fiber and 50% rayon fiber from bamboo.16. The towel of claim 14 , wherein the towel has an unbalanced weave.17. The towel of claim 16 , wherein the towel has a weft-facing weave.18. A towel having warp threads and weft threads claim 16 , comprising:a. a four-ply yarn that is used for the warp threads and for the weft threads, the yarn including 50% washable merino-type wool fiber and 50% rayon fiber from bamboo; andb. the warp threads ...

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Номер записи: 80
30-05-2019 дата публикации

FLAME-RETARDANT FABRIC HAVING HIGH VISIBILITY

Номер: US20190161893A1
Автор: ENDO Ryokei, IKEDA Takayuki, Tsunofuri Shohei, Washitake Yosuke
Принадлежит: KURARAY CO., LTD.

Provided is a flame-retardant fabric having a color that satisfies the criteria required by the international standard for high visibility ISO20471. The fabric includes polyetherimide-based fibers that contain a white pigment. 1. A flame-retardant fabric comprising polyetherimide-based fibers containing a white pigment , the fabric having a color that satisfies the criteria required by the international standard for high visibility ISO20471.2. The flame-retardant fabric according to claim 1 , wherein the fabric after dyeing has a color that has CIE chromaticity coordinates (x claim 1 , y) within a color space delimited by (0.624 claim 1 , 0.374) claim 1 , (0.589 claim 1 , 0.366) claim 1 , (0.609 claim 1 , 0.343) and (0.655 claim 1 , 0.345) claim 1 , and a luminosity coefficient β equal to or greater than 0.40.3. The flame-retardant fabric according to claim 1 , wherein the fabric after dyeing has a color that has CIE chromaticity coordinates (x claim 1 , y) within a color space delimited by (0.450 claim 1 , 0.549) claim 1 , (0.420 claim 1 , 0.483) claim 1 , (0.375 claim 1 , 0.528) and (0.395 claim 1 , 0.602) claim 1 , and a luminosity coefficient β equal to or greater than 0.70.4. The flame-retardant fabric according to claim 1 , wherein the fabric comprises polyetherimide-based fibers having a fiber tenacity retention rate of 65% or higher.5. The flame-retardant fabric according to claim 1 , wherein the polyetherimide-fiber contains the white pigment at a concentration of 0.5 to 5.0% owf.6. A method for producing a polyetherimide-based fiber claim 1 , the method comprising dyeing a polyetherimide-based fiber containing a white pigment at a temperature from 100° C. to 125° C. to give the fiber a color that satisfies the criteria required by the international standard for high visibility ISO20471.7. The method according to claim 6 , wherein the given fiber satisfies a fiber tenacity retention rate of 65% or higher. This application is a continuation application, ...

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Номер записи: 81
14-06-2018 дата публикации

Using Fabric Templates to Obtain Multiple Finishes by Laser Finishing

Номер: US20180165736A1
Автор: "ONeill Liz", Love David, Sights James Barton, Zens Jeff
Принадлежит:

Laser finishing of apparel products allows an operating model that reduces finishing cost, lowers carrying costs, increases productivity, shortens time to market, be more reactive to trends, reduce product constraints, reduces lost sales and dilution, and more. Improved aspects include design, development, planning, merchandising, selling, making, and delivering. The model uses fabric templates, each of which can be used to produce a multitude of laser finishes. Operational efficiency is improved. 1. A system comprising:a first garment product, identifiable by a first product code identifier, wherein the first garment product is made from a first garment template washed using a first base wash recipe, the first garment template is an assembled garment made from fabric panels of a woven first material comprising a warp yarn comprising indigo-dyed cotton yarn, and the fabric panels are sewn together using thread;a second garment product, identifiable by a second product code identifier, wherein the second garment product is made from a second garment template washed using a second base wash recipe, different from the first base wash recipe, the second garment template is an assembled garment made from fabric panels of the woven first material comprising a warp yarn comprising indigo-dyed cotton yarn, and the fabric panels are sewn together using thread;a digital design tool, generating at least a first laser file including a first finishing pattern, wherein the digital design tool generates a visualization of a finishing pattern on a computer screen and allows editing of the finishing pattern;a laser finishing machine, receiving as input the first laser file that is generated by the digital design tool,when the first garment template is used as a target garment for a laser head of the laser finishing machine and the first laser file controls operation of the laser head, the laser finishing machine burns the first finishing pattern on the target garment, which results ...

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Номер записи: 82
14-06-2018 дата публикации

Custom Apparel Products by Using Fabric Templates and Laser Finishing

Номер: US20180165737A1
Автор: "ONeill Liz", Love David, Sights James Barton, Zens Jeff
Принадлежит:

Laser finishing of apparel products allows an operating model that reduces finishing cost, lowers carrying costs, increases productivity, shortens time to market, be more reactive to trends, reduce product constraints, reduces lost sales and dilution, and more. Improved aspects include design, development, planning, merchandising, selling, making, and delivering. The model uses fabric templates, each of which can be used to produce a multitude of laser finishes. Operational efficiency is improved. 1. A method comprising:obtaining first base templates by washing denim garments using a first wash recipe;obtaining second base templates by washing denim garments using a second wash recipe, wherein the first wash recipe differs from the second wash recipe by at least one of a different concentration of chemical oxidizers or a different amount of abrasive particles that result in the second base templates being a lighter shade of indigo that the first base templates; andusing a laser finishing machine to burn laser finishing patterns on the first base templates and second base templates to obtain laser-finish garments.2. The method of comprising:storing an inventory of the first base templates in a facility that houses the laser finishing machine.3. The method of comprising:storing an inventory of the first and second base templates in a facility that houses the laser finishing machine, wherein the facility is a retail store.4. The method of wherein the laser finishing machine is part of a kiosk that includes a display claim 1 , design tool software claim 1 , and network interface.5. The method of wherein the denim garments are jeans and the laser finishing patterns are representative of jeans wear patterns.6. A system comprising:a laser finishing machine comprising a laser head, wherein the laser finishing machine is capable of burning a first finishing pattern onto a target garment blank;a holder for the target garment blank, wherein the holder is coupled to the laser ...

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Номер записи: 83
21-05-2020 дата публикации

ANTI-PILLING CLOTH AND METHOD FOR MANUFACTURING SAME

Номер: US20200157712A1
Автор: SUEOKA Toshitada
Принадлежит:

Provided are: a cloth including thermoplastic synthetic staple fibers, especially a woven or knitted fabric in which occurrence of pilling is suppressed and a reduction of the strength or deterioration of the texture of the cloth is suppressed; and a method for manufacturing the cloth. An anti-pilling cloth including thermoplastic synthetic staple fibers, wherein the anti-pilling cloth is characterized by having, on the surface of at least one side of the cloth, melt balls at ends of the staple fibers and polishing traces of melt balls at fluff tip ends of the staple fibers; and a method for manufacturing the anti-pilling cloth. 1. An anti-pilling cloth containing thermoplastic synthetic staple fibers , having melt balls on the ends of the staple fibers and polishing traces of the melt balls on the fluff tips of the staple fibers on at least one side of the cloth.2. The anti-pilling cloth according to claim 1 , wherein the thermoplastic synthetic staple fibers are fibers selected from the group consisting of polyester-based claim 1 , polyamide-based claim 1 , polyacrylic-based claim 1 , polyvinyl chloride-based claim 1 , polyvinylidene chloride-based claim 1 , polyvinyl alcohol-based claim 1 , polyolefin-based and polyurethane-based fibers.3. The anti-pilling cloth according to or claim 1 , which is a woven or knitted fabric.4. The anti-pilling cloth according to claim 3 , wherein the anti-pilling grade as determined in accordance with Method A of JIS L1076 (method using an ICI-type tester) after washing 10 times and 30 times in accordance with Method C4M of JIS L1930 (using tumble drying) is grade 3 or higher.5. A method for manufacturing an anti-pilling cloth comprising the steps of:using filament yarn and/or staple fibers of thermoplastic synthetic fibers as raw yarn and weaving or knitting a cloth having fluff on the cut ends of the filament yarn or fluff on the staple fibers,forming melt balls on the cut ends of the filament yarn or on the ends of the staple ...

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Номер записи: 84
21-06-2018 дата публикации

FABRIC AND METHOD OF WEAVING A FABRIC, IN PARTICULAR A CARPET

Номер: US20180171517A1
Автор: DEBAES Steven, Maes Dominique, VANDERJEUGT Bram
Принадлежит:

A fabric, in particular carpet, having a shadow effect, comprises a backing fabric (BF) having binding warp yarns (B, B) repeatedly crossing each other for providing weft receiving openings (O) between crossings (C, C) thereof following each other in a warp direction (WA) and weft yarns (E, E) substantially extending in a weft direction through the weft receiving openings (O), and pile warp yarns (PY, PY, PY, PY) interlaced with weft yarns (E, E) of the backing fabric (BF) for providing piles (P) extending out of the backing fabric (BF) at a pile side (PS), wherein, through at least one weft receiving opening (O), preferably the majority of the weft receiving openings (O), most preferably each weft receiving opening (O), two weft yarns (E, E) extend, wherein in at least one weft receiving opening (O), preferably the majority of the weft receiving openings (O), one of the weft yarns (E, E) is positioned at a back side (BS) relative to at least one weft separating warp yarn (PY, PY, PY, PY, T) extending in the backing fabric (BF) substantially in the warp direction (WA) and the other one of the weft yarns (E, E) is positioned at the pile side (PS) relative to the at least one weft separating warp yarn (PY, PY, PY, PY, T), wherein, for providing a pile (P) in association with this weft receiving opening (O), a pile warp yarn (PY, PY, PY) is interlaced with the weft yarn (E, E) of this weft receiving opening (O) positioned at the back side (BS) relative to the at least one weft separating warp yarn (PY, PY, PY, PY, T), such as to extend out of the backing fabric (BF) between this weft yarn (E, E) and the other weft yarn (E, E) of this weft receiving opening (O), wherein, for changing the direction of inclination of the piles (P), at least one transition zone (Z) is provided, wherein, in at least one transition zone (Z), two transition weft yarns (TE, TE) provided immediately adjacent to each other in the warp direction (WA) extending through at least one weft receiving ...

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Номер записи: 85
28-06-2018 дата публикации

Weaving Machine

Номер: US20180179675A1
Автор: Rutz Andreas
Принадлежит:

A weaving machine with a shedding arrangement () for forming loom sheds () between warp threads () drawn off from a thread supply (), a weft insertion arrangement () for inserting weft threads () in the form of tapes into the formed loom sheds (), and a drawing-off arrangement () for drawing off the woven fabric () formed by warp and weft threads () after a weft thread insertion. The weaving machine encompasses a measuring arrangement () for detecting geometric parameters, especially the width, of a weft thread () before its insertion in the loom shed (), as well as an evaluating arrangement () for evaluating the detected measurement results. A control arrangement () for controlling a motion of the woven fabric (), including the drawing-off, based on the evaluated measurement results, is present on the weaving machine and is connected with the drawing-off arrangement (). 1. A weaving machine comprising:{'b': 10', '3', '1', '9, 'a shedding arrangement () for forming loom sheds () between warp threads () pulled off from a thread supply (),'}{'b': 20', '2', '3, 'a weft insertion arrangement () for inserting weft threads () in the form of tapes into the formed loom sheds (),'}{'b': 30', '4', '1', '2, 'a drawing-off arrangement () for drawing-off the woven fabric () formed of warp and weft threads (, ) after a weft thread insertion,'}{'b': 40', '2', '3, 'a measuring arrangement () for detecting geometric parameters, especially the width, of a weft thread () before its insertion into the formed loom shed (),'}{'b': '45', 'an evaluating arrangement () for evaluating the detected measurement results, and'}{'b': 50', '30', '4, 'a control arrangement () connected with the drawing-off arrangement () for controlling a motion of the woven fabric () including the drawing-off based on the evaluated measurement results.'}210. The weaving machine according to claim 1 , characterized in that the measuring arrangement () is based on at least one of the following measuring methods:{'b ...

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Номер записи: 86
05-07-2018 дата публикации

CERAMIC PLATE AND REFRIGERATOR INCLUDING SAME

Номер: US20180187958A1
Автор: KANG Jung Hye, KIM Bum Soo, Koh Young Deog, KWAK Jin O, PARK Noh Cheol
Принадлежит:

Disclosed herein are a ceramic plate to which an industrial fiber is attached to one surface thereof in order to reinforce the strength of a material and a refrigerator including the same. In accordance with one aspect of the present disclosure, a ceramic plate includes a porous ceramic substrate, an adhesive layer bonded to one surface of the porous ceramic substrate, and a reinforcement material layer bonded on the adhesive layer and formed of a fabric woven from at least one industrial fiber selected from the group consisting of an aramid fiber and a carbon fiber. 1. A ceramic plate comprising:a porous ceramic substrate;an adhesive layer bonded to one surface of the porous ceramic substrate; anda reinforcement material layer bonded on the adhesive layer and formed of a fabric woven from at least one industrial fiber selected from the group consisting of an aramid fiber and a carbon fiber.2. The ceramic plate according to claim 1 , wherein the fabric is surface-treated with a surface treatment agent.3. The ceramic plate according to claim 2 , wherein the fabric is surface-treated with a surface treatment agent including a surface treatment component in the range of 1 to 3 wt % with respect to the total weight of surface treatment agent.4. The ceramic plate according to claim 2 , wherein the fabric is formed of a fabric woven from the aramid fiber and surface-treated with a vinylester-based surface treatment agent.5. The ceramic plate according to claim 2 , wherein the fabric is formed of a fabric woven from the carbon fiber and surface-treated with a silane-based surface treatment agent.6. The ceramic plate according to claim 1 , wherein the aramid fiber includes a p-aramid fiber produced by polymerizing p-phenylene diamine (PPD) and terephthaloyl chloride (TPC).7. The ceramic plate according to claim 1 , wherein the fabric is woven from an aramid fiber in the range of 2000 to 6000 denier.8. The ceramic plate according to claim 1 , wherein the fabric is formed of ...

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Номер записи: 87
20-06-2019 дата публикации

HEAT INSULATION FABRIC AND HEAT INSULATION CURTAIN

Номер: US20190186058A1
Автор: MA Yingjun
Принадлежит: HANGZHOU CHINA HOME TEXTILES INDUSTRY CO., LTD.

A heat insulation fabric includes a base cloth interwoven via a warp thread and a weft thread. The warp thread is a flat aluminized polyester continuous filament. The weft thread is a polyester yarn or a polyester filament, and the base cloth is woven by the warp thread and the weft thread in a satin weave or a twill weave. A heat insulation curtain is also disclosed. 1. A heat insulation fabric , comprising a base cloth interwoven via a warp thread and a weft thread , wherein the warp thread is a flat aluminized polyester continuous filament , the weft thread is a polyester yarn or a polyester filament , and the base cloth is woven by the warp thread and the weft thread in a satin weave or a twill weave.2. The heat insulation fabric according to claim 1 , wherein a warp-direction density of the base cloth is 26 claim 1 , and a weft-direction density of the base cloth is 18 to 25.3. The heat insulation fabric according to claim 1 , wherein the polyester filament is a polyester continuous filament.4. The heat insulation fabric according to claim 1 , wherein the satin weave is a 5/3 weft-faced satin.5. The heat insulation fabric according to claim 2 , wherein the satin weave is a 5/3 weft-faced satin.6. The heat insulation fabric according to claim 3 , wherein the satin weave is a 5/3 weft-faced satin.7. The heat insulation fabric according to claim 1 , wherein the twill weave is a 1/3 twill.8. The heat insulation fabric according to claim 2 , wherein the twill weave is a 1/3 twill.9. The heat insulation fabric according to claim 3 , wherein the twill weave is a 1/3 twill.10. A heat insulation curtain claim 3 , comprising a base cloth interwoven via a warp thread and a weft thread claim 3 , wherein the warp thread is a flat aluminum thread claim 3 , the weft thread is a polyester yarn or a polyester filament claim 3 , and the base cloth is woven by the warp thread and the weft thread in a satin weave or a twill weave; and a light-facing surface of the base cloth is a ...

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Номер записи: 88
20-06-2019 дата публикации

WOVEN FABRIC

Номер: US20190186059A1
Автор: IKEDA Junnji, SAKOH Mitsutaka, YAMADA Takamasa, YAMAMOTO Takayoshi
Принадлежит:

A woven fabric including: a first region where a first fiber as an optical fiber is woven with a second fiber as a non-optical fiber; a second region adjacent to the first region, in which the first fiber is not woven; and a third region adjacent to the second region, in which the first fiber is connected to a light source. 1. A woven fabric comprising:a first region where a first fiber as an optical fiber is woven with a second fiber as a non-optical fiber to emit light;a second region adjacent to the first region, in which the first fiber is not woven; anda third region adjacent to the second region, in which the first fiber is connected to a light source.2. The woven fabric according to claim 1 , wherein a plurality of light sources are included claim 1 , which are light sources emitting light in different colors.3. The woven fabric according to claim 1 , wherein the second fiber is also an optical fiber.4. The woven fabric according to claim 2 , wherein a plurality of first fibers are arranged and are connected to different light sources in an arrangement order.5. The woven fabric according to claim 1 , wherein in the first region claim 1 , two second fibers intersect with the first fiber and then positions of both are switched in a leno weave.6. The woven fabric according to claim 1 , wherein a structure of the first region claim 1 , the second region claim 1 , and the third region has two layers claim 1 ,a layer on a front portion is a layer including the first fiber and the second fiber, anda layer on a rear portion is a layer not including the first fiber.7. The woven fabric according to claim 1 , comprising:a first layer in which the second fiber is woven with a third fiber,a second layer in which the second fiber is woven with the third fiber, andthe first fiber located between the first layer and the second layer.8. The woven fabric according to claim 1 , comprising a fixing region where the first fiber is fixed.9. The woven fabric according to claim 8 , ...

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Номер записи: 89
20-06-2019 дата публикации

WEAVING METHOD EMPLOYED BY MULTICOLOR WATER-JET LOOM

Номер: US20190186060A1
Автор: Tsujimoto Koichi
Принадлежит: KABUSHIKI KAISHA TOYOTA JIDOSHOKKI

A multicolor water-jet loom has a first nozzle and a second nozzle, a water supply unit for supplying water to the first and second nozzles, length-measuring devices for storing wefts, locking pins for locking the wefts stored in the length-measuring devices, and grippers for gripping the wefts drawn out from the length-measuring devices. The water supply unit executes an operation to supply one of the first and second nozzles that has been paused for at least a predetermined period with preparatory water only for a preparatory water supply period, the preparatory water supply period including a point one pick before weft insertion is executed by the nozzle that has been paused for at least the predetermined period, in a state where the wefts are locked by the locking pins and gripped by the grippers. 1. A weaving method employed by a multicolor water-jet loom having:at least two weft insertion nozzles;a water supply unit for supplying water to the weft insertion nozzles;length-measuring devices for respectively storing wefts ejected respectively from the weft insertion nozzles;locking pins for locking the wefts stored in the respective length-measuring devices; andgrippers for gripping the wefts drawn out from the respective length-measuring devices,the weaving method comprising:providing a preparatory water supply period for a weft insertion nozzle that has been paused for at least a predetermined period, the preparatory water supply period being provided within the period for which the weft insertion nozzle is paused and being set to include at least a point one pick before weft insertion is executed by the weft insertion nozzle and to be shorter than the period for which the weft insertion nozzle has been paused; andhaving the water supply unit execute an operation to supply the weft insertion nozzle that has been paused for at least the predetermined period with preparatory water only for the preparatory water supply period in a state where the weft is locked ...

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Номер записи: 90
23-07-2015 дата публикации

INDUSTRIAL TWO-LAYER FABRIC

Номер: US20150203994A1
Автор: Egawa Toru, Takahashi Fumihito
Принадлежит:

The object of the present invention is to form a joint loop structure using warps which form a surface of an industrial two-layer fabric of the contact-yarn binding type without independent binding yarns, at its both ends. 1. The industrial two-layer fabric includes at least one upper surface side fabric constituted by upper surface side warps and upper surface side wefts , at least one lower surface side fabric constituted by lower surface side warps and lower surface side wefts , and lower surface side warps constituted by a pair of an upper surface side warp serving as a warp fabric yarn-contact binding yarn and a lower surface side warp serving as a warp fabric yarn-contact binding yarn. The upper surface side warp serving as the warp fabric yarn-contact binding yarn is not woven into the upper surface side weft at one or more points of a complete structure , and extends toward the lower surface side instead and is woven into the lower surface side weft at the lower surface side , and then , extends toward the upper surface sides to be woven into other upper surface side weft , while , the lower surface side warp is not woven into the lower surface side weft at a point where the upper surface side warp serving as the warp fabric yarn-contact binding yarn is woven into the lower surface side weft at the lower surface side , and extends toward the upper surface side instead to be woven into the upper surface side weft which is not woven into the upper surface side warp , at the upper surface side , and then extends toward the lower surface side to be woven into other lower surface side weft. The industrial two-layer fabric forms a joint loop by at least one end portion of the warp being turned back at both end portions in its longitudinal direction , and at least a longitudinal yarn in a complete structure includes at least one warp which forms a pair arranged to be opposite to the warp which is turned back for forming the joint loop , and , in a longitudinal ...

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Номер записи: 91
12-07-2018 дата публикации

Active Woven Materials

Номер: US20180195213A1
Автор: Laucks Jared Smith, Mairopoulos Dimitrios, Tibbits Skylar J.E.
Принадлежит:

Active fabrics typically include a plurality of fibers. At least one of the fibers exhibits a change in length or width upon exposure to an external stimulus, such as heat, moisture, or light. The active woven materials can exhibit local transformation, such as creating areas that are tighter or more open, or global transformation, such as changing from flat to curled. The effect is a precise and repeatable change in shape upon exposure to an external stimulus. Embodiments can be employed, for example, in sportswear, compression garments, furniture, and interior products. 1. An active fabric , comprising:a plurality of fibers including active and passive fibers in an arrangement that forms a shape of an article, at least one of the active fibers exhibiting a change in dimension responsive to exposure to a stimulus, a differential between the change in dimensions producing an autonomous, predefined physical transformation as a function of the arrangement to the shape of the arrangement or the article.2. The active fabric of claim 1 , wherein the fibers are woven claim 1 , knitted claim 1 , or braided.3. The active fabric of claim 1 , wherein the external stimulus is heat claim 1 , moisture claim 1 , light claim 1 , cold.4. The active fabric of claim 1 , wherein the external stimulus is a change in temperature.5. The active fabric of claim 1 , wherein the active fibers are present at a portion of the active fabric to produce a local physical transformation.6. The active fabric of claim 5 , wherein the local physical transformation produces a change in porosity.7. The active fabric of claim 1 , wherein the active fabric exhibits a predefined change of porosity at a location of the plurality of fibers.8. The active fabric of claim 1 , wherein the active fiber is present substantially throughout the active fabric claim 1 , and wherein the active fabric exhibits global transformation responsive to the stimulus.9. The active fabric of claim 8 , wherein the active fabric ...

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Номер записи: 92
27-06-2019 дата публикации

GAUZE FABRIC

Номер: US20190191801A1
Автор: HOZUMI Shuichi
Принадлежит: UCHINO CO., LTD.

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. 1. A gauze fabric comprising:a surface layer;a back layer; andat least one middle layer provided between the surface layer and the back layer,wherein the surface layer is non-twisted yarns,wherein the back layer is non-twisted yarns,wherein the at least one middle layer is twisted yarns that shrink more than the surface layer and the back layer to form a concave and convex structure in the surface layer and the back layer,wherein the surface layer and the back layer are directly and/or indirectly joined with each other, andwherein the yarns of each of the surface layer, back layer and middle layer are cotton yarns made entirely of cotton fiber.2. The gauze fabric according to claim 1 , wherein the surface layer and the back layer are joined together via the twisted yarns composing the middle layer.3. The gauze fabric according to claim 1 , wherein the twisted yarn is a yarn made by twisting two or more yarns.4. The gauze fabric according to claim 1 , wherein the twisted yarn is a double yarn.5. The gauze fabric according to claim 1 ,wherein the non-twisted yarn is selected from yarn count of 30 to yarn count of 80; andwherein yarns composing the twisted yarn are selected from yarn count of 60 to yarn count of 160.6. The gauze fabric according to claim 1 , wherein the gauze fabric is an N (N is an integer equal to or greater than 3) woven fabric.7. The gauze fabric according to claim 6 , wherein the gauze fabric is a triple woven fabric.8. The gauze fabric according to claim 1 , wherein the gauze fabric is a gauze fabric for garment.9. ...

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Номер записи: 93
18-06-2020 дата публикации

Carbon fiber composite artificial bone and preparation method thereof

Номер: US20200188117A1
Автор: Xu Yi, Zhoujian TAN
Принадлежит: Hunan Tankang Biotech Co Ltd

The invention discloses a carbon fiber composite artificial bone and a preparation method thereof. The artificial bone includes a carbon fiber composite spring-like frame or includes a carbon fiber composite spring-like frame and a carbon fiber composite plate dowel, and the carbon fiber composite plate dowel is inserted into one end or both ends of a cavity of the spring-like frame or penetrates through the cavity of the carbon fiber composite spring-like frame. The preparation method includes: preparing a spring-like carbon fiber preform through a weaving technology by using carbon fibers as a raw material, performing densification and high-temperature purification treatment and preparing a wear-resistant coating to obtain the carbon fiber composite spring-like frame; and combining the carbon fiber composite spring-like frame with the carbon fiber composite plate bowel to obtain the artificial bone.

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Номер записи: 94
27-06-2019 дата публикации

Unidirectional sight-transmission fabric and unidirectional sight-transmission curtain

Номер: US20190194838A1
Автор: Yingjun Ma
Принадлежит: Hangzhou China Home Textiles Industry Co Ltd

A unidirectional sight-transmission fabric includes a base cloth interwoven via a warp thread and a weft thread. The warp thread is a flat aluminum thread. The weft thread is a polyester yarn or a polyester filament. The base cloth is woven by the warp thread and the weft thread in a plain weave. Adjacent two of the warp threads and adjacent two of the weft thread enclose a light-transmission sight-transmission hole. A unidirectional sight-transmission curtain is also disclosed.

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Номер записи: 95
27-06-2019 дата публикации

A stretchable fabric and a method, a wrinkle-free fabric and garments thereof

Номер: US20190194839A1
Автор: Rajarshi Ghosh, Venkatesan Kaliyaperumai
Принадлежит: Arvind Ltd

Described here in various embodiments is a stretchable yarn, a stretchable fabric made of the stretchable yarn, and a wrinkle-free stretchable garments having the stretchable fabric or manufactured from the stretchable fabric. Said stretchable yarn comprises a core yarn and staple fibres wherein the core yarn manufactured by intermingling a filament and an elastomeric yarn and said core yarn is bleded with the staple fibers.

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Номер записи: 96
27-06-2019 дата публикации

ACTIVE TEXTILE STRUCTURES WITH SELECTIVELY VARIABLE SURFACE FRICTION CHARACTERISTICS

Номер: US20190194840A1
Автор: Alexander Paul W., Johnson Nancy L.
Принадлежит: GM GLOBAL TECHNOLOGY OPERATIONS LLC

Presented herein are active textile structures with selectively variable surface friction characteristics, methods for making/using such structures, and vehicle components fabricated with electronically controlled textile structures with modifiable surface friction characteristics. An active textile system for governing frictional force levels at an interface with a user or object is presented. The system includes a textile structure that is fabricated from interlaced first and second textile filaments. Each textile filament has a respective texture that exhibits a distinct coefficient of friction. The textile structure has an outer and/or upper contact surface at the interface with the user/object. An actuating element, which is connected to the textile structure, is operable to selectively transition the textile structure between first and second states. The first state includes the first textile filament defining the textile structure's outer contact surface, whereas the second state includes the second textile filament defining the outer contact surface. 1. An active textile system for governing frictional force levels at an interface with a user or object , the active textile system comprising:a textile structure including a first textile filament interlaced with a second textile filament, the first textile filament having a first texture with a first coefficient of friction, and the second textile filament having a second texture with a second coefficient of friction different than the first coefficient of friction, the textile structure having an outer contact surface at the interface with the user or object; andan actuating element operatively connected to the textile structure and configured to selectively transition the textile structure between first and second states, the first state including the first textile filament defining the outer contact surface of the textile structure, and the second state including the second textile filament defining the ...

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Номер записи: 97
27-06-2019 дата публикации

COVERING FOR A MACHINE FOR PRODUCING A FIBROUS WEB AND METHOD FOR PRODUCING A COVERING OF THIS TYPE

Номер: US20190194869A1
Автор: JOHANSSON HANS-JOERGEN, MALMQUIST JOHAN
Принадлежит: VOITH PATENT GMBH

A covering is particularly suited for use in a machine for producing and/or finishing a paper, cardboard, tissue or pulp web. The covering has a basic structure formed as a part of a flat woven material, which flat woven material is designed as a woven material by interlacing warp threads and weft threads. The portion of the flat woven material has a plurality of sections that are formed integrally with each other, with at least one property of one of the sections differing from the respective property of at least one adjacent section. 115-. (canceled)16. A clothing , comprising:a basic structure being a portion of a flat woven material, said flat woven material being formed of mutually intersecting warp threads and weft threads;a portion of said flat woven material having a plurality of sections that are integrally formed in one piece with one another, wherein at least one property of one of said sections is different from the respective property of at least one adjoining section.17. The clothing according to claim 16 , wherein said at least one property is selected from the group consisting of a weave pattern claim 16 , a number of web layers claim 16 , a material of the weft threads and/or a material of the warp threads claim 16 , a material thickness of the weft threads and a density of the weft threads.18. The clothing according to claim 16 , wherein at least one of said sections is woven in one layer and at least one other section is woven in two or more layers.19. The clothing according to claim 16 , wherein a thickness of said weft threads of at least one of said sections is different from a thickness of said weft threads of at least one other section.20. The clothing according to claim 16 , wherein a material of said weft threads of at least one of said sections is different from a material of the weft threads of at least one other section.21. The clothing according to claim 16 , wherein said portion has three successive sections that extend one behind ...

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Номер записи: 98
21-07-2016 дата публикации

Touch Sensor Fabric

Номер: US20160209964A1
Автор: McDermid William James
Принадлежит:

A method and apparatus are provided for a touch sensor made from a combination of conductive and non-conductive fibers. The fibers are woven into a fabric wherein non-conductive fibers keep horizontal conductive fibers from contacting vertical conducting fibers unless a touch is applied. The conductive fibers are grouped into horizontal and vertical strips and the fibers in a strip are connected together throughout the fabric. The ends of the strips are connected to control electronics that drive signals to the sensor fabric and measure signals from the sensor fabric to determine touch locations and touch contact areas. 1. A fabric woven from a combination of conductive and non-conductive fibers wherein conductive signal fibers running in a largely horizontal direction cross conductive signal fibers running a largely vertical direction wherein said signal fibers are interwoven with non-conductive fibers such that the crossing conductive signal fibers are held apart when at rest , but come into contact responsive to a touch applying a pressure normal to the plane defined by the horizontal and vertical conductive signal fibers.2. The fabric of claim 1 , wherein horizontal conductive connecting fibers connect vertical conductive signal fibers throughout the weave claim 1 , and vertical conductive connecting fibers connect horizontal conductive signal fibers throughout the weave.3. The fabric of where the resistance of connecting fibers is substantially lower than the resistance of signal fibers.4. The fabric of claim 2 , wherein the horizontal conductive signal fibers are grouped into horizontal strips and the vertical conductive signal fibers are grouped into vertical strips and where vertical conductive connecting fibers are broken in the gap between horizontal strips and horizontal conductive connecting fibers are broken in the gap between vertical strips such that conductive signal fibers within a strip remain connected to one another via the conductive connecting ...

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Номер записи: 99
25-06-2020 дата публикации

SLIDE FASTENER TAPE

Номер: US20200196718A1
Автор: Gabutti Pier Marco, La Rocca Giovanni, Meiwa Yusuke
Принадлежит:

A slide fastener tape is provided. The slide fastener tape extends in a longitudinal direction. The slide fastener includes a weave structure formed with warp threads arranged in the longitudinal direction, and weft threads arranged along a transversal direction perpendicular to the longitudinal direction. The slide fastener tape includes a cord arranged along one side edge portion of the fastener tape. The weft threads are made from filament yarns and the warp threads comprise a plurality of threads made from spun yarn. 1. A slide fastener tape , the tape extending in a longitudinal direction and having a weave structure formed with warp threads arranged in the longitudinal direction , and weft threads arranged along a transversal direction perpendicular to the longitudinal direction , the tape including a cord arranged along one side edge portion of the fastener tape;wherein the weft threads are made from filament yarns and the warp threads comprise a plurality of threads made from spun yarn.2. A slide fastener tape according to claim 1 , whereinthe weft threads are made only from filament yarns and the warp threads made only from spun yarn.3. A slide fastener tape according to claim 1 , whereinthe warp threads comprise a mixture of spun yarns and filament yarns.4. A slide fastener tape according to claim 1 , whereinsaid weave structure is provided with an inner side edge portion which encloses the cord and a main body portion other than the side edge portion, and whereinthe warp threads in the inner side edge portion comprise a plurality of spun yarns.5. A slide fastener tape according to claim 1 , whereinsaid weave structure is provided with an inner side edge portion enclosing the cord and a main body portion extending away from the side edge portion, and whereinthe warp threads in the main body portion comprise a plurality of spun yarns.6. A slide fastener tape according to claim 1 , whereinthe spun yarns contain only short fibres.7. A slide fastener tape ...

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Номер записи: 100