| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | ELECTRONIC CIRCUITRY INTEGRATED IN FABRICS | US12516664 | 2007-11-28 | US20100163283A1 | 2010-07-01 | Mahiar Hamedi; Olle Inganäs; Maria Asplund; Robert Forchheimer |
| The following invention discloses a type of electronic circuits that is realized directly on textile. The circuit has opto-electronic functions that are realized with a number of components integrated into the textile. These components comprise electronically and/or optically active material, that are supported by fabric elements. The components furthermore include an electrolyte. The components have lest two separated structures of an active material, and the electrolyte is in direct contact with the two separated active structures in that component. The separated structures can control their electrical and optical character through the electrolyte. These types of devices are very suitable for implementation in textile, since they are quite insensitive to the spacing between the separated active structures. | ||||||
| 142 | UNDERPAD FOR PREVENTING AND REDUCING SKIN WOUNDS | US12501772 | 2009-07-13 | US20090312684A1 | 2009-12-17 | W. Allen Leonard; Neil Blanton; Terry Montgomery; Jones McCall |
| An underpad including a top fabric layer constructed of a therapeutic fabric for the prevention and treatment of skin wounds, and pressure wounds in particular, is disclosed. The underpad also includes an absorbent middle layer and liquid impermeable bottom layer. The therapeutic fabric includes warp yarns and filling yarns woven to provide a smooth fabric surface. One of the warp or filling yarns is at least about 40% by weight of the therapeutic fabric of continuous filament nylon, and the other of the warp or filling yarns is from about 0% to about 60% by weight of the therapeutic fabric of continuous filament polyester or nylon having non-round filament cross sections. The therapeutic fabric includes a conductive yarn at about 1% to about 2% by weight to control static dissipation, and an antimicrobial substance is topically applied or inherently available in the therapeutic fabric. A method of preventing and treating skin wounds, and pressure wounds in particular, is also disclosed. | ||||||
| 143 | Woven electronic textile, yarn and article | US10366441 | 2003-02-13 | US07592276B2 | 2009-09-22 | Ian Gregory Hill; Seth Trotz; George Herbert Needham Riddle; Ponnusamy Palanisamy; Joseph M. Carpinelli; Dennis L. Matthies |
| A woven article comprises a plurality of electrically insulating and/or electrically conductive yarn in the warp and a plurality of electrically insulating and/or electrically conductive yarn in the weft interwoven with the yarn in the warp. A functional yarn in the warp and/or the weft comprises an elongate substrate including at least one electrical conductor and at least one electronic device thereon, wherein the at least one electrical conductor provides directly and/or indirectly an electrical contact for connecting to the electronic device. | ||||||
| 144 | FABRIC AND METHOD OF MAKING THE SAME | US12334682 | 2008-12-15 | US20090163099A1 | 2009-06-25 | Dennis D. Ackroyd; Francis Lai |
| A fabric for thermal management including the cooling of an object, such as a person's skin. The fabric is formed of a plurality of materials including at least one liquid transport enhancing material and at least one evaporative transport impeding material. When the fabric is in use, the transport enhancing material is located near an object to be cooled, while the evaporation impeding material is spaced away from the object. The fabric is peached so that there is an entanglement of the two materials. Peaching is performed on both sides of the fabric, but initially on the side with the transport enhancing material such that a portion of the evaporation impeding material is pulled into the fabric core. A method of making the fabric is also described. | ||||||
| 145 | Pressure sensing fabric | US11127142 | 2005-05-12 | US07544627B2 | 2009-06-09 | Xiao-ming Tao; Hui Zhang |
| Existing pressure sensing fabrics may involve two portions, i.e., insulating and conductive portions in the fabric, which increases the complexity of the fabric system and more important, and the instablization of the resistance-strain relationship during dynamic deformation which limits the application fields due to intrinsic properties difference between the two portions. These fabrics commonly employ two or more layers to accomplish the detecting functions. Such arrangements increase the thickness, weight, and cost of the sensors with some other disadvantages such as low accuracy, instability, etc. This invention describes a pressure sensing fabric have a general structure as simple as a plurality of electrically conducting yarns forming interlocking loops of yarns. The pressure sensing fabric is found not only be able to sense pressure but also the magnitude of the pressure. | ||||||
| 146 | Conductive Monofilament and Fabric | US12132092 | 2008-06-03 | US20080318483A1 | 2008-12-25 | Joseph Salitsky; Joseph G. O'Connor; Maurice R. Paquin; Jonathan S. Barish |
| A conductive monofilament and static dissipative fabric having the same wherein the monofilament includes electrically conductive material and binder and has static dissipation properties. | ||||||
| 147 | Hygro materials for use in making yarns and fabrics | US11581722 | 2006-10-16 | US20070087162A1 | 2007-04-19 | Rajesh Mandawewala |
| A process is described wherein pile yarn is woven with cotton weft and warp yarns to produce terry fabrics, such as towels. The fabric is then washed in warm water to dissolve the PVA fibers. The amount of fibers dissolved, depends upon the count of the yarn or yarns used. By dissolving the PVA fibers, a hollow air space is produced throughout the pile yarn, corresponding to an increase in the air space in the pile yarn. By increasing the air space in the pile yarn, the resulting towels are softer and bulkier than standard cotton towels. The present invention further relates to pile yarn in terry woven fabric (warp yarn), or weft yarn, in the case of flat fabrics. | ||||||
| 148 | Surface functional electro-textile with functionality modulation capability, methods for making the same, and applications incorporating the same | US11150525 | 2005-06-10 | US20060281382A1 | 2006-12-14 | Eleni Karayianni; Eduardo Munoz; George Coulston; Stacey Burr; Thomas Micka |
| A surface functional electro-textile fabric incorporates energy-active, electrically conductive or optically conductive fibers and nonconductive fibers in a woven or knitted textile fabric. The weave or knit pattern is selected so as to form floats of the electrically conductive fibers on at least one surface of the electro-textile fabric. The electro-textile fabric can be incorporated into an antenna structure that interacts with high frequency electromagnetic radiation, particularly in the frequency range of DC to 100 GHz. | ||||||
| 149 | Substrate incorporating non-woven elements | US11388504 | 2006-03-24 | US20060213234A1 | 2006-09-28 | Harry Gladfelter; Timothy Sellis; Benoit Laurent; Angela Baer |
| The invention provides a substrate. The substrate includes a plurality of first filamentary members oriented in a first direction. The first filamentary members are arranged in spaced apart relation to one another. The substrate also includes a plurality of second filamentary members oriented in a second direction transverse to the first direction. The second filamentary members are spaced apart from one another. The second filamentary members are interlaced with the first filamentary members to define an open mesh. The substrate also includes a plurality of elongated strips of non-woven material oriented in the first direction. Each of the non-woven strips is positioned between at least two of the first filamentary members and interlaced with the second filamentary members. | ||||||
| 150 | Textile fabric structure | US11207599 | 2005-08-19 | US20060035554A1 | 2006-02-16 | Rupert Glaser; Stefan Jung; Christl Lauterbach |
| A textile fabric structure having a plurality of microelectronic components, which are arranged in the textile fabric structure, electrically conductive threads, which couple the plurality of microelectronic components to one another, conductive data transmission threads, which couple the plurality of microelectronic components to one another, and electrically nonconductive threads. The conductive threads and the conductive data transmission threads at the edge of the textile fabric structure are each provided with an electric interface and a data transmission interface. | ||||||
| 151 | Display having addressable characters | US10939668 | 2004-09-13 | US20050081944A1 | 2005-04-21 | Joseph Carpinelli; George Riddle; Ian Hill |
| An addressable display comprises a woven article including functional yarn woven therein, each functional yarn having an addressable device for controlling display elements thereon. Addressing signals applied via conductive yarn of the woven article address the addressable devices of the functional yarn for selectively energizing the display elements. | ||||||
| 152 | Construction and connection technique in textile structures | US10868501 | 2004-06-14 | US20040259391A1 | 2004-12-23 | Stefan Jung; Christl Lauterbach |
| Method for electrically connecting an electrical conductor to an electronic component including the steps of providing a textile material in which at least one flexible, wire-like and/or thread-like electrical conductor is arranged, providing the electrical conductor relative to an electrically conductive contact point of the electronic component, and electrically connecting the conductor to the contact point comprising the steps of electrically connecting an at least partly electrically conductive auxiliary contact to the conductor, and electrically connecting the auxiliary contact to the contact point, wherein the auxiliary contact is a metal lamina. | ||||||
| 153 | Method for manufacturing a fabric and an apparatus for manufacturing a fabric | US10685458 | 2003-10-16 | US20040079432A1 | 2004-04-29 | Tazaemon Kobayashi; Izumi Takemoto; Yoko Kobayashi; Tsumugi Fujita |
| The present invention provides a method for manufacturing a fabric and an apparatus for manufacturing a fabric that enable weaving of weak fibers including monofilaments of noble metal such as 24-carat gold. The present invention provides a method for manufacturing a fabric using a power loom driven by driving means, comprising the steps of: (a) separating a warp into an upper part and a lower part to form a shed by means of rotation of said driving means; (b) accelerating a weft thread toward said shed by means of rotation of said driving means; (c) passing said weft thread through said shed by means of rotation of said driving means; (d) decelerating said weft thread passed through said shed by means of rotation of said driving means; (e) returning said warp to close said shed by means of rotation of said driving means; and (f) beating said weft thread inserted into said warp in said step (c) to draw up said weft thread into near side by means of rotation of said driving means; rotational speed of said driving means during said steps (b) and (d) being lower than rotational speed of said driving means during said step (c). | ||||||
| 154 | Electrically active textiles and articles made therefrom | US08935466 | 1997-09-24 | US06210771B1 | 2001-04-03 | E. Rehmi Post; Margaret Orth; Emily Cooper; Joshua R. Smith |
| Fabrics are used as integral elements of electrical circuitry—to facilitate control over the operation of external components connected thereto, to serve as substrates onto which electrical components are connected, or as the electrical components themselves. In one aspect, selective, anisotropic electrical conductivity is achieved using conductive fibers running along one weave direction and non-conductive fibers running along the opposite direction. The conductive fibers, which may be continuous or arranged in lanes, serve as electrical conduits capable of carrying data signals and/or power, and may be connected, for example, to electrical components soldered directly onto the fabric. In a second aspect, passive electrical components are integrated directly textiles using threads having selected electrical properties. | ||||||
| 155 | Textile fabric with integrated sensing device and clothing fabricated thereof | US69591 | 1998-04-29 | US6080690A | 2000-06-27 | Michael S. Lebby; Karen E. Jachimowicz; Jamal Ramdani |
| A textile fabric including a plurality of electrically conductive fibers and at least one electronic sensor or a plurality of sensing fibers. The textile fabric is intended for fabrication into a functional article of clothing or other item made of the woven textile fabric, so as to increase functionality of the article of clothing or item made thereof. The fabric is intended to assist a wearer in the monitoring of biomedical information and/or environmental conditions existent upon the wearer. The plurality of electrically conductive fibers and sensing devices are characterized as creating an interconnect to a portable electronic monitoring device, integrated components such as heating and cooling bands, electronics, or the like, or for serving as an antenna for signals received and transmitted between an integrated electronic component and a remote monitoring device. | ||||||
| 156 | Fencing jackets made from electrically conductive threads | US546474 | 1995-10-20 | US5802607A | 1998-09-08 | Walter W. Triplette |
| A garment for use in electronically-scored, contact-sports competitions is described. The garment is in the form of a fencing jacket or vest, is substantially wireless, and is woven from electrically conductive threads which cooperate with an electric sports implement to register a score when the implement contacts the electrically conductive garment. The fabric can be woven with the electrically-conductive threads extending in only one of the warp and weft directions, and preferably only in the weft direction. | ||||||
| 157 | EDELMETALLDRAHT ENTHALTENDES, INSBESONDERE TEXTILES FLÄCHENGEBILDE | EP13701611.9 | 2013-01-23 | EP2807295A1 | 2014-12-03 | LUKAS, Annette; LANG, Stefan; WACHTER, Hans-Jürgen; KOOPS, Ulrich |
| Known textile flat structures contain precious metal wire or they are composed completely thereof. In order to achieve high flexural and tensile strength with, at the same time, high flexibility of the flat structure, it is proposed according to the invention that the precious metal wire is configured as a precious metal cord (1) which comprises a plurality of braids (3) or a plurality of individual precious metal wires (2) or a combination of braids and individual precious metal wires which are in each case laid around one another and/or twisted around one another. | ||||||
| 158 | Electrically conductive structure | EP12174286.0 | 2012-06-29 | EP2540625A3 | 2014-12-03 | Retz, Kevin M.; Prichard, Alan K. |
An electrically conductive structure (100) includes a plurality of carbon fiber layers (101,102) and at least one electrically conductive filament (110) three-dimensionally woven among the carbon fiber layers. The plurality of carbon fiber layers and the at least one electrically conductive filament are operable to conduct electrical current throughout the structure. |
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| 159 | Verfahren zur Herstellung eines elektrisch leitfähigen Garns, textile Struktur für einen transdermalen Wirkstoffspeicher und Verfahren zur Wirkstoffspeicherung | EP13153309.3 | 2008-05-29 | EP2589380A2 | 2013-05-08 | Neudeck, Andreas; Möhring, Uwe; Scheibner, Wolfgang |
Die Erfindung betrifft eine Vorrichtung zum Ausführen eines Verfahrens zum Speichern und elektrochemischen Freisetzen eines Wirkstoffes in einem transdermalen Wirkstoffreservoir mit einer Verwendung eines Wirkstoffspeichers aus einem zu einem Anionenaustausch neigenden Redoxpolymer und einem anionischen Wirkstoff, wobei diese eine Anordnung zur transdermalen Wirkstoffübertragung in Verbindung mit einer Anordnung zum Ausführen einer Iontophorese aufweist, umfassend einen Speicherabschnitt (130) mit einem aus dem Redoxpolymer bestehenden Wirkstoffspeicher und einem von dem Speicherabschnitt entfernt angeordneten iontophoretischen Abschnitt (132) im Kontakt mit einer Epidermis in Verbindung mit einer mit variablen Potentialen beaufschlagbaren Anschlussanordnung (133) aus einem ersten Anschluss (134) zur Kontaktierung der Gegenelektrode des Speicherabschnittes, einem zweiten Anschluss (135) zur Kontaktierung einer mit dem Redoxpolymer beladenen Redoxpolymerelektrode des Speicherabschnittes und einem Anschluss (136) einer Elektrode des iontophoretischen Abschnittes. |
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| 160 | HYGRO MATERIALS FOR USE IN MAKING YARNS AND FABRICS | EP06827946.2 | 2006-10-16 | EP2004892B8 | 2013-04-17 | Mamdawewala, Rajesh R |
| A process is described wherein pile yarn is woven with cotton weft and warp yarns to produce terry fabrics, such as towels. The fabric is then washed in warm water to dissolve the PVA fibers. The amount of fibers dissolved, depends upon the count of the yarn or yarns used. By dissolving the PVA fibers, a hollow air space is produced throughout the pile yarn, corresponding to an increase in the air space in the pile yarn. By increasing the air space in the pile yarn, the resulting towels are softer and bulkier than standard cotton towels. The present invention further relates to pile yarn in terry woven fabric (warp yarn), or weft yarn, in the case of flat fabrics. | ||||||
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