序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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161 | METHOD AND DEVICE FOR RECOVERING BULK OF NONWOVEN FABRIC | EP13778707.3 | 2013-04-18 | EP2840178A1 | 2015-02-25 | OKUDA, Jun; DETANI, Ko; OBA, Toru; MITSUNO, Satoshi; KAMEDA, Noritomo |
The present invention provides excellent recovery of bulk in nonwoven fabric. While nonwoven fabric (F) is transported so as to enter a heating chamber (3g) via an entry opening (3gi) and, after progressing within the heating chamber (3g), exit the heating chamber (3g) via an exit opening (3go), heated air is supplied at a speed higher than the transport speed for the unwoven fabric (F) so as to enter the heating chamber (3g)via the entry opening (3gi) and after progressing within the heating chamber (3g) while contacting the nonwoven fabric (F), exit the heating chamber (3g) via the exit opening (3go). |
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162 | METHOD FOR TREATMENT OF SPIDER SILK-FILAMENT FOR USE AS THREAD OR A COMPOSITION IN THE MANUFACTURE OF COSMETIC, MEDICAL, TEXTILE OR INDUSTRIAL APPLICATIONS SUCH AS BIO-ARTIFICIAL SKIN OR TISSUE BASED ON (RECOMBINANT) SPIDER SILK. | EP13723572.7 | 2013-03-27 | EP2831333A2 | 2015-02-04 | Essaidi, Jalila |
A method for the treatment of spider silk filament for use as a thread or composition in the manufacture of cosmetic, medical, textile, and industrial applications, wherein the spider silk filament, derived from genetically modified organisms, is treated with at least one component selected from the group consisting of vitamins, hormones, antioxidants, chelating agents, antibiotics, preserving agents, fragrances, dyes, pigments, magnetic nanoparticles, nanocrystals, cell adhesion enhancers, thermal insulators, shrinkage agents and cosmetic, medical or dermatological active substances. Textile fabrics obtained by this method are stronger, bio-compatible, bio-degradable and have a higher thermal conductivity. Treated spider silk filament can also be applied in an oil-in-water or water-in-oil protective cream that is hypoallergenic and ensures a firmer skin. | ||||||
163 | Processing agents for synthetic fibers, aqueous liquids thereof, processing methods for synthetic fibers and synthetic fibers | EP13186337.5 | 2013-09-27 | EP2712956B1 | 2014-09-10 | Sato, Takayuki; Murakami, Yuichiro; Ishikawa, Fumiyoshi; Fujimoto, Koji |
164 | PARTITIONED RUBBER-COATED FABRIC | EP11873531.5 | 2011-09-28 | EP2747991A1 | 2014-07-02 | SMITH, Reed, E.; GRAY, Cecil, Richard |
In a rubber-coated fabric, a plurality of warp cords is included with a spacing d between, sides of adjacent warp cords, each of the warp cords being coated with a layer of rubber compound, A cut line may further be included that separates groups of the warp cords, each group having a predetermined number of the warp cords. The cut line, may be formed by between 2 and 6 adjacent cut line warp cords, wherein a distance dc, between any two sides of adjacent cut Hue warp cords may be no more than. 50% of d. The layer of rubber compound that coats- the rubber-coated fabric is thin enough to outline the cut line on a surface of the rubber-coated woven fabric. | ||||||
165 | NOVEL POLYVINYL ALCOHOL ARTICLES | EP12814529.9 | 2012-07-17 | EP2734665A1 | 2014-05-28 | SMITH, W., Novis; ROBERSON, Charles |
The present invention relates to novel polyvinyl alcohol non- woven films and fabrics which have been modified so as to have a breathable coalesced lower porosity surface polyvinyl alcohol layer attached to a fibrous polyvinyl alcohol layer by a transition layer and to a process for their preparation. | ||||||
166 | Matières textiles impregnées et leur procédé de réalisation | EP03290866.7 | 2003-04-08 | EP1353002A3 | 2003-12-17 | Combe, Pierre; Gutierrez, Gilles |
La présente invention se rapporte au domaine de l'habillement ou de l'ameublement et notamment aux matières textiles traitées à cet effet. Elle a plus particulièrement pour objet un procédé d'imprégnation d'un article textile de toute épaisseur, de toute matière et de tout type de fils, par au moins une substance cosmétique, hygiénique, médicale ou paramédicale destinée à l'usage humain ou vétérinaire, et par un agent liant assurant l'adhésion, en utilisant le procédé dit de recul d'ionisation, permettant la restitution d'au moins un principe actif et autorisant le rechargement en principe actif au moyen du même type d'imprégnation. Utilisation en vue de la réalisation de textiles industriels, de textiles d'ameublement ou d'articles de bonneterie après imprégnation. |
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167 | Matières textiles impregnées et leur procédé de réalisation | EP03290866.7 | 2003-04-08 | EP1353002A2 | 2003-10-15 | Combe, Pierre; Gutierrez, Gilles |
La présente invention se rapporte au domaine de l'habillement ou de l'ameublement et notamment aux matières textiles traitées à cet effet. Elle a plus particulièrement pour objet un procédé d'imprégnation d'un article textile de toute épaisseur, de toute matière et de tout type de fils, par au moins une substance cosmétique, hygiénique, médicale ou paramédicale destinée à l'usage humain ou vétérinaire, et par un agent liant assurant l'adhésion, en utilisant le procédé dit de recul d'ionisation, permettant la restitution d'au moins un principe actif et autorisant le rechargement en principe actif au moyen du même type d'imprégnation. Utilisation en vue de la réalisation de textiles industriels, de textiles d'ameublement ou d'articles de bonneterie après imprégnation. |
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168 | Texilmaterial und Verfahren zum Herstellen eines solchen | EP01107351.7 | 2001-03-24 | EP1152080A2 | 2001-11-07 | Tebbe, Gerold |
Ein Textilmaterial hat eine Grundstruktur (10) und eine von dieser getragene Arbeitsschicht (18). Diese umfaßt Material (22), welches unter geringer Reibung auf der Haut gleitet. |
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169 | METHODS OF PRODUCTION OF AN AMIDATED PEPTIDE THROUGH THE USE OF A FUSION PROTEIN | EP98919369.3 | 1998-05-01 | EP0979291A1 | 2000-02-16 | COTTINGHAM, Ian, Robert |
Methods for the production of peptides, especially but not exclusively with carboxy-terminal modifications such as amidation, by recombinant means are provided. | ||||||
170 | COATED FABRIC FOR AIRBAG | PCT/KR2013008694 | 2013-09-27 | WO2014051385A3 | 2014-04-24 | JIN HYE-SEUNG; KIM KI-JEONG; KIM JAE-HYUNG; KIM HYUNG-KEUN; YOUN JUNG-HOON; LEE SANG-MOK; KWAK DONG-JIN; KIM HEE-JUN |
The present invention relates to a coated fabric for an airbag. More particularly, the present invention relates to a coated fabric for an airbag in which a coating layer containing liquid silicone rubber having an elongation of at least 1,000% as measured by the KS M 6518 method of the Korean Industrial Standards is formed on the surface of a cloth, and to a method for manufacturing same. According to the present invention, airbag expansion and deployment properties are excellent since the excellent elongation of the liquid silicone rubber minimizes damage to the airbag fabric in extreme environments of high temperature and high pressure. Also, excellent accommodation properties, form stability, and air blocking effects are provided so that a passenger can be protected safely even in the case of a vehicle collision or rollover. | ||||||
171 | METHOD FOR THE TREATMENT OF SPIDER SILK-FILAMENT FOR USE AS THREAD OR A COMPOSITION IN THE MANUFACTURE OF COSMETIC, MEDICAL, TEXTILE OR INDUSTRIAL APPLICATIONS, SUCH AS BIO-ARTIFICIAL SKIN OR TISSUE BASED ON (RECOMBINANT) SPIDER SILK | PCT/NL2013000018 | 2013-03-27 | WO2013147590A8 | 2013-10-31 | ESSAIDI JALILA |
A method for the treatment of spider silk filament for use as a thread or composition in the manufacture of cosmetic, medical, textile, and industrial applications, wherein the spider silk filament, derived from genetically modified organisms, is treated with at least one component selected from the group consisting of vitamins, hormones, antioxidants, chelating agents, antibiotics, preserving agents, fragrances, dyes, pigments, magnetic nanoparticles, nanocrystals, cell adhesion enhancers, thermal insulators, shrinkage agents and cosmetic, medical or dermatological active substances. Textile fabrics obtained by this method are stronger, bio-compatible, bio-degradable and have a higher thermal conductivity. Treated spider silk filament can also be applied in an oil-in-water or water-in-oil protective cream that is hypoallergenic and ensures a firmer skin. | ||||||
172 | ORGANIC FIBERS AND TEXTILE PRODUCTS | PCT/US0326329 | 2003-08-21 | WO2004018758A2 | 2004-03-04 | IWATO SATOKO; NAKAMURA HIDEO; KAKU MUREO; KOSUGE KAZUHIKO |
A high-strength, heat-resistant organic fiber and textile product each comprising or having coated thereon an aqueous emulsion is provided. The emulsion comprises or is produced from a fluorocarbon silane or an emulsion, said emulsion comprises or is produced from (1) a fluorocarbon silane or its hydrolyzate, (2) water, and (3) optionally a surfactant, an alkoxysilane compound, catalyst, or combinations of two or more thereof; said fluorocarbon silane having the formula Rf-(CH2)p-Si{-(O-CH2CH2)n-OR<1>}3; Rf is a C3-18 perfluoroalkyl group or combinations of two or more thereof; each R<1> is independently one or more C1-3 alkyl groups; p is 2 to 4; and n is 2 to 10. Also disclosed is a process for producing the emulsion, the fiber, and the textile product. | ||||||
173 | FACILITATING THE ASSEMBLY OF GOODS BY TEMPORARILY ALTERING ATTRIBUTES OF FLEXIBLE COMPONENT MATERIALS | US16179845 | 2018-11-02 | US20190234010A1 | 2019-08-01 | Jonathan Michael Zornow |
The invention aims to improve the manufacture of flexible goods, such as garments, through the temporary modification of the physical properties of the components to be assembled, facilitating their handling and manipulation later on in the manufacturing process. Attributes that can be affected by this process are the stiffness of the material, the presence of mechanical or physical markings, the density of the material, the air or fluid permeability of the material, the responsiveness of the material to magnetic fields, or the adhesive nature of the material. | ||||||
174 | UHMWPE fiber and method to produce | US13795278 | 2013-03-12 | US10132006B2 | 2018-11-20 | Ralf Klein; Henry Gerard Ardiff; John Armstrong Young; Thomas Tam |
Processes for preparing ultra-high molecular weight polyethylene yarns, and the yarns and articles produced therefrom. The surfaces of partially oriented yarns are subjected to a treatment that enhances the surface energy at the fiber surfaces and are coated with a protective coating immediately after the treatment to increase the shelf life of the treatment. The coated, treated yarns are then post drawn to form highly oriented yarns. | ||||||
175 | Method for continuously manufacturing moisture film | US15045776 | 2016-02-17 | US10092925B2 | 2018-10-09 | Yu-Yueh Lin |
An apparatus and a method for continuously manufacturing moisture films are revealed. At least one loading surface formed by a belt conveyor is used to support and move a lower fabric layer synchronously. During the movement, a top surface of the lower fabric layer is coated with a first fixing solution layer, a gel layer and a second fixing solution layer so as to form a film gradually. Moreover, an upper fabric layer is provided to be attached over the gel layer correspondingly. Then the second fixing solution layer is coated over the upper fabric layer. Thereby a continuous manufacturing of moisture films with or without carriers is completed. | ||||||
176 | Waterproof Apertured Surfaces or Materials Using Nanoparticle Hydrophobic Treatments | US15957217 | 2018-04-19 | US20180237963A1 | 2018-08-23 | Mark D. Shaw; Matthew P. Clancy |
A method of manufacturing waterproof apertured materials or surfaces using nanoparticle hydrophobic compositions and treatments, and preferably superhydrophobic compositions and treatments, wherein apertures of a size that would normally render the surface or material water-permeable may be provided in the surface or material. The method comprises determining the extent of the hydrophobic field that extends beyond the physical edge of a particular treated intersecting member interwoven to form the material to determine the allowable size of an aperture, such that the extended hydrophobic field present on the intersecting members surrounding an aperture will be sufficient to prevent surface wetting and water permeability by fully overlapping the aperture or by presenting a reduced area effective aperture that precludes passage of water. | ||||||
177 | PROCESS FOR PRODUCING POLYVINYL ALCOHOL ARTICLES | US15792536 | 2017-10-24 | US20180171545A1 | 2018-06-21 | Novis Smith; Charles Roberson |
The present invention provides a process for modifying the surface of a polyvinyl alcohol film or fabric by applying heat and pressure to the film or fabric to increase the moisture on the surface which is held by the fabric and to coalesce the surface fibers and reduce the porosity of the surface. | ||||||
178 | Methods of forming an artificial leather substrate from leather waste and products therefrom | US14646222 | 2013-12-17 | US09822481B2 | 2017-11-21 | Behnam Pourdeyhimi; Angelo Corino; John Fry; Alvin Fortner; Ben Lambert |
Methods of making an artificial leather substrate from leather waste (e.g., shavings, such as wet blue, and/or pulverized trim scrap) and products formed using the artificial leather substrate are disclosed. In one example, the artificial leather substrate comprises a composite web comprising leather waste mixed with a lightweight web, a lightweight web atop the composite web, and another lightweight web atop the first lightweight web. A method of making the artificial leather substrate includes the steps of mixing one or more fiber components, leather shavings, and/or pulverized leather trim scrap to form the composite web; needle punching the composite web; and bonding the composite web. | ||||||
179 | Process for producing polyvinyl alcohol articles | US13533392 | 2012-06-26 | US09797073B1 | 2017-10-24 | Novis Smith; Charles Roberson |
The present invention provides a process for modifying the surface of a polyvinyl alcohol film or fabric by applying heat and pressure to the film or fabric to increase the moisture on the surface which is held by the fabric and to coalesce the surface fibers and reduce the porosity of the surface. | ||||||
180 | Polyamide woven fabric and down product using same | US14896104 | 2014-06-04 | US09732449B2 | 2017-08-15 | Hajime Takayanagi; Sumio Hishinuma |
A polyamide woven fabric and has a light feeling and a chambray tone hue, as well as heat retaining properties due to sunlight absorption, and wind breaking properties. The polyamide woven fabric is a woven fabric including 20% or more by mass of a polyamide carbon black pigmented yarn that includes carbon black in a proportion of 1 to 5% by mass. The woven fabric has a total fineness of 5 to 55 dtex and a monofilament fineness of 0.5 to 2.2 dtex; and has a cover factor of 1000 to 2500. A down product incorporating the polyamide woven fabric is a product finished by stuffing downs into shell fabrics of this woven fabric in an amount of 100 to 500 grams per square meter of the shell fabrics, and then sewing together the shell fabrics. |