| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | Wire-fence machine. | US13531516 | 1916-12-06 | US1227272A | 1917-05-22 | KAVALAS TOM; KAVALAS EVANS |
| 162 | Wire lathing. | US1909481943 | 1909-03-08 | US928196A | 1909-07-13 | HERALD WILLIAM J |
| 163 | Wiee and slat fabeio weaving machine | US514496D | US514496A | 1894-02-13 | ||
| 164 | ellar | US509725D | US509725A | 1893-11-28 | ||
| 165 | Fence-making machine | US444752D | US444752A | 1891-01-13 | ||
| 166 | Machine | US300094D | US300094A | 1884-06-10 | ||
| 167 | 고탄력 및 고강도 모노필라멘트를 이용한 원단 제조공법 | KR1020170076635 | 2017-06-16 | KR101827867B1 | 2018-03-23 | 고인배 |
| 본발명은고탄력및 고강도모노필라멘트를이용한원단제조공법에관한것으로, 열가소성폴리에스터계엘라스토머수지를주 원료로하고염색제와자외선차단제와소광제중 어느하나또는둘 이상의원료를선택적으로혼합하여제작되는제1합성수지와, 상기제1합성수지보다용융점이낮은열가소성폴리에스터계엘라스토머수지를주 원료로하며염색제와자외선차단제와소광제중 어느하나또는둘 이상의원료를선택적으로혼합하여제작되는제2합성수지를한 대의압출장비를이용하여용융시킴으로써, 상기제2합성수지가제1합성수지의표면에코팅되도록모노필라멘트를압출성형하는모노필라멘트성형단계; 상기모노필라멘트성형단계를통해성형된모노필라멘트의강도와탄성을높이기위해냉각부와연신부와권취부를순차적으로통과시켜모노필라멘트를제조하는모노필라멘트제조단계; 냉각부와연신부와권취부를순차적으로통과시켜고강도와고탄성을가지는모노필라멘트를제조하는모노필라멘트제조단계; 제조된복수개의모노필라멘트를꼬아경사를만든다음, 상기경사를등 간격으로배치하고, 각각의경사의꼬임사이에위사가끼워지도록상기위사를등 간격으로배치하여원단을제직하는원단제직단계; 상기원단제직단계를통해제직된원단을가공장비를이용하여제1합성수지의용융점보다는낮고, 제2합성수지의용융점보다는높은온도로가열하여, 꼬인상태로각각의모노필라멘트의표면에코팅된제2합성수지를녹임으로써, 상기제2합성수지간의열융착을통해경사의꼬임사이에끼워진위사를열접착시키는원단열융착단계;를포함하여이루어지는것을특징으로한다. | ||||||
| 168 | 지지 붕대 제조를 위한 재료 | KR1020077015241 | 2004-12-13 | KR101169492B1 | 2012-07-27 | 로이프레흐트,헬무트 |
| 본 발명은 지지체를 포함하는 지지 붕대를 생산하기 위한 재료에 관한 것이다. 상기 지지체는 경화성 플라스틱 재료로 코팅 및/또는 주입되고, 평행하게 지나는 두 개의 직물 원사(woof yarns) 사이를 교차하는 날실을 포함하는 레노 직물에 의해 적어도 부분적으로 형성된다. 상기 레노 직물은 두 쌍의 교차 날실 사이에 위치하고 어떤 다른 날실과도 교차하지 않는 적어도 하나의 부가 날실을 포함한다. 씨실, 날실, 캐리어, 지지 붕대 | ||||||
| 169 | 지지 붕대 제조를 위한 재료 | KR1020077015241 | 2004-12-13 | KR1020070089986A | 2007-09-04 | 로이프레흐트,헬무트 |
| The invention relates to a material for producing a support bandage, which comprises a support. Said support is coated and/or impregnated with a curable plastic material and is at least partially configured by a leno fabric comprising warp yarns that cross between two woof yarns running in parallel. Said leno fabric comprises at least one additional warp yarn that is located between two pairs of crossing warp yarns and that does not cross any other warp yarn. | ||||||
| 170 | 이-방향, 다축성 직물 및 직물 복합체 | KR1020047019944 | 2003-06-05 | KR1020060025112A | 2006-03-20 | 바트나걸아쇽; 파리쉬엘리자베스에스. |
| Bi-directional and multi-axial fabrics, fabric composites, ballistically resistant assemblies thereof, and the methods by which they are made. The fabrics are comprised of sets of strong, substantially parallel, unidirectional yarns lying in parallel planes, one above the other, with the direction of the yarns in a given plane rotated at an angle to the direction of the yarns in adjacent planes; and one or more sets of yarns having lower strength and higher elongation interleaved with the strong yarns. The fabrics of the invention provide superior ballistic effectiveness compared to ordinary woven and knitted fabrics but retain the ease of manufacture on conventional looms and knitting machines. | ||||||
| 171 | 제직물 슬리브 | KR1020007004963 | 1998-11-06 | KR1020010015801A | 2001-02-26 | 브루샤퍼로버트제이; 리언제럴드티; 메이든재니스알 |
| 가늘고긴 물체를감싸고보호하기위한제직물슬리브(16, 도 1a)는사방으로그리고세로로늘어나도록교차된위사요소및 경사요소로각각만들어진다. 위사요소는덜 가용성인띠를분리하는상대적으로가요성이고사방으로늘어나는교차띠를형성하기위해직물을통해늘어난다. 위사요소는크고작은직경이교차하는모노필라멘트얀 또는멀티필라멘트사로구성될수 있으며, 와이어, 특히탄성와이어와탄력적으로고정가능한코어를갖는와이어및 DREF 사를함유한폴리에스테르를포함하는열 고정성재료를포함할수 있다. 위사요소는레노및 목레노제직을이용해서서로의관계를유지할수 있다. 직물은닫힌관형슬리브로직접제직되거나또는평직된후 슬리브형태로구부러질수 있다. | ||||||
| 172 | 제직 테이프의 변폭의 풀어짐을 방지하기 위한 제직구조 | KR2019940005247 | 1994-03-14 | KR2019950009868Y1 | 1995-11-23 | 오카와미츠히사 |
| 내용 없음 | ||||||
| 173 | FLUIDLEITUNG MIT EINEM ÄUSSEREN TEXTILEN FESTIGKEITSTRÄGER | EP18158114.1 | 2018-02-22 | EP3376086A1 | 2018-09-19 | Niesse, Michael |
Die vorliegende Erfindung betrifft eine Fluidleitung (100) zum Leiten eines Fluids, mit einem äußeren textilen Festigkeitsträger (101), welcher ausgebildet ist die Fluidleitung (100) zu verstärken, wobei der äußere textile Festigkeitsträger (101) entlang einer Längsrichtung (111) der Fluidleitung (100) und entlang einer Querrichtung (113) der Fluidleitung (100) elastisch verformbar ist; einer äußeren Zwischenschicht (103), welche innerhalb des äußeren textilen Festigkeitsträgers (101) angeordnet ist; einem inneren Festigkeitsträger (105), welcher ausgebildet ist die Fluidleitung (100) zu verstärken, wobei der innere Festigkeitsträger (105) innerhalb der äußeren Zwischenschicht (103) angeordnet ist; und einer inneren Zwischenschicht (107), welche innerhalb des inneren Festigkeitsträgers (105) angeordnet ist.
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| 174 | MANUFACTURING METHOD OF WOVEN FABRIC FOR WEARABLE SOLAR CELL AND FABRIC FOR WEARABLE SOLAR CELL THEREBY | EP17150284.2 | 2017-01-04 | EP3222762A1 | 2017-09-27 | SON, Hwang |
The present invention provides a woven fabric used as an electrode substrate for preparing a wearable solar cell having excellent shape stability and flexibility. The present invention is characterized in that when weaving the warp tension is individually adjusted, a selvedge yarn portions of the warp located at both edges of a unit fabric cell having a group of warps are formed to have a leno weaving, and the weaving by a metal fiber in a loom can be performed by preventing the yarn cutting and the sagging of the selvedge yarn portion of the warp.
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| 175 | ELECTRICALLY CONDUCTIVE FABRIC | EP14708840.5 | 2014-03-03 | EP2971302A2 | 2016-01-20 | DE RIDDER, Frank; LANCKMANS, Filip |
| Electrically conductive fabric, comprising - a set of electrically conductive, and a set of electrically non-conductive; and a set of uniformly distributed binding yarns in warp direction, - a set of electrically conductive and a set of electrically non-conductive yarns in weft direction, wherein - the sets of electrically conductive yarns in warp direction and in weft direction have substantially the same density and the yarns of these sets have the same conductivity; - the set binding yarns provides for –via a leno weave with the set of electrically conductive yarns in warp direction –the connection between the set of electrically conductive yarns in warp direction and the set of electrically conductive yarns in weft direction. | ||||||
| 176 | GAUZE FABRIC | EP13892623.3 | 2013-08-29 | EP2947190A1 | 2015-11-25 | HOZUMI, Shuichi |
A purpose of the present invention is to provide 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. |
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| 177 | Gewebe zur Verwendung in Verbundwerkstoffen und Verfahren zur Herstellung des Gewebes und eines Verbundwerkstoffkörpers | EP10195209.1 | 2010-12-15 | EP2465982B1 | 2015-10-14 | Bischoff, Thomas, Dr.; Afsar, Melike |
| 178 | GRILLE HAUTE RÉSISTANCE A LIAISON RENFORCÉE POUR RÉSEAUX OU DISPOSITIFS ENTERRES | EP13756614.7 | 2013-07-29 | EP2880211A1 | 2015-06-10 | DUCOL, Jean-Paul; TANKERE, Jacques; DUPUIS, Bastien; AURAY, Germain |
| This high-strength geotextile grid comprises reinforcement fibres combined into parallel cords forming strips (101,103,105) oriented in at least two directions, said strips being separated by minimum intervals of 1 millimetre, said strips having homogeneous or different widths extending between 1 and 20 centimetres. Furthermore, strips having large widths (106) greater than 6 centimetres are provided at least on the edges of the grid. | ||||||
| 179 | GEWEBE | EP07787180.4 | 2007-07-06 | EP2165013A1 | 2010-03-24 | BUTENKÄMPER, Stefan; JOHN, Detlef |
| A woven fabric, in particular a wire fabric (1) having crossing warp and weft wires (2, 3) which are woven with one another in a known weave type, is to be designed in such a way that it is stabilized in a targeted manner at defined points; this is true, in particular, for the lateral regions. According to the invention, the woven fabric (1) is provided with stabilizing strands (4, 5) which deviate from the weave and are formed from at least two warp wires (2) which are brought together. The course of the stabilizing strands (4, 5) is oriented according to the shape of the shaped elements which are to be produced from the woven fabric (1). The stabilizing strands (4, 5) follow the course of the side edges of the involute of the shaped element. The woven fabric (1) according to the invention is suitable not only for producing shaped bodies, but can also be used as an architectural woven fabric. | ||||||
| 180 | SLEEVE WITH INTEGRAL FASTENERS | EP01973420.1 | 2001-09-24 | EP1334302B1 | 2008-11-26 | WINTERS, Danny, E. |
| A woven sleeve (12) used for bundling elongated substrates is interwoven of monofilament warp members (14) and fill yarns (16) comprised of compliant material such as bulky multifilament yarn. Supplement monofilaments (17) extending lengthwise of the fabric are separated into individual pieces, each including a section cradled in the compliant material of a fill yarn and are locked in the cradle position by at least one of the warp members. End sections of the individual pieces project outwardly and terminate in hooks (17b) which interlock with an exposed section of the compliant material to effect closure of the sleeve around the elongated substrates. A sleeve of the type described may also be provided with integral hooks to attach the sleeve to loop-type or other loop material on a support surface. | ||||||
