子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种具有纬纱张力控制器的织机梭子 | CN201610355133.X | 2016-05-26 | CN105803646A | 2016-07-27 | 李刚; 刘泽堃; 谢旭升; 李毓陵; 王晓沁 |
| 本发明公开了一种具有纬纱张力控制器的织机梭子,包括中间具有空腔和导纱口的壳体,壳体内设置储存纬纱的纱管,纱管套设在壳体内轴向的固定钢丝上,还包括设置在纱管两侧对称的两个纬纱张力控制器,纬纱张力控制器均包括旋转圆盘、下方的下套管、上方的上套管;下套管内有与旋转圆盘相接触的下半圆柱体及下弹簧,上套管内有与旋转圆盘相接触的上半圆柱体、上弹簧及与上弹簧相接触的上调节螺钉;还有连接旋转圆盘与纱管的回转弹簧。本发明有效避免织机织造过程中纬纱松弛导致的织物毛边问题,提高织造产品质量档次;均匀控制纬纱张力,防止出现纬纱断头现象,提高织造效率;提高织造速度,降低生产成本;装置结构简单,维修保养成本低。 | ||||||
| 2 | 耐磨木梭子 | CN201510230089.5 | 2015-05-08 | CN104789081A | 2015-07-22 | 姚红军 |
| 本发明公开了一种耐磨木梭子,包括木质梭子本体,其特征是:木质梭子本体由相邻木块体相互粘合而成,木质梭子的二侧均设置耐磨涂层,所用耐磨涂层由RC-1脲醛树脂、双氰胺、尿素、三羟甲基丙烷、三聚甲醛组成。本发明耐磨性能好,工作寿命长。 | ||||||
| 3 | 织网机塑梭 | CN201510154746.2 | 2015-04-02 | CN104746220A | 2015-07-01 | 潘永清 |
| 本发明公开了一种织网机塑梭,包括环形本体、头部和尾部,头部和尾部位于环形本体的两端,环形本体上设有用于容置梭芯的圆形开口,环形本体、头部和尾部均为塑料材质,环形本体与尾部的连接处设有第一加强筋,尾部内设有第二加强筋,其有益效果是,由于传统的鱼形梭子都是铜质的,本发明在采用大部分为塑料材质的梭子后,从而在相同承重量的情况下,织网机上可以安装更多的梭子,从而就可以制造出宽度更大的织网机,最终提高了织网机的效率。并且增强了梭子的使用寿命,是原来铜梭寿命的4-5倍。由于铜梭变更为塑梭后,梭子整体的机械强度减弱了,容易出现断裂的问题,但是在设置了第一加强筋和第二加强筋后,梭子不再容易出现断裂的问题。 | ||||||
| 4 | 木质梭子 | CN201510230143.6 | 2015-05-08 | CN104790105A | 2015-07-22 | 姚红军 |
| 本发明公开了一种新型木质梭子,包括木质梭子本体,木质梭子本体由相邻木块体相互粘合而成,所用粘合剂由硅烷偶联剂、丙烯酸树脂、六次甲基四胺、邻苯二甲酸二丁酯、丙酮组成。本发明各板块连接牢固,工作寿命长。 | ||||||
| 5 | 新型纺织梭子 | CN201510230090.8 | 2015-05-08 | CN104790104A | 2015-07-22 | 姚红军 |
| 本发明公开了一种新型纺织梭子,包括木质梭子本体,木质梭子本体由相邻木块体相互粘合而成,木质梭子的一侧设置耐磨涂层,所用耐磨涂层由聚丙烯、二氧化硅、三聚甲醛、亚麻醇酸树脂、8-羟基喹啉脂组成。本发明各板块连接牢固,工作寿命长。 | ||||||
| 6 | 木质耐磨梭子 | CN201510230188.3 | 2015-05-08 | CN104789080A | 2015-07-22 | 姚红军 |
| 本发明公开了一种木质耐磨梭子,包括木质梭子本体,其特征是:木质梭子本体由相邻木块体相互粘合而成,木质梭子的端部弧形部分设置耐磨涂层,所用耐磨涂层由钡酚醛树脂、氨基树脂、铝粉、甲苯、小麦粉组成。本发明耐磨性能好,工作寿命长。 | ||||||
| 7 | 耐磨纺织梭子 | CN201510230142.1 | 2015-05-08 | CN104789097A | 2015-07-22 | 姚红军 |
| 本发明公开了一种耐磨纺织梭子,包括木质梭子本体,其特征是:木质梭子本体由相邻木块体相互粘合而成,木质梭子的二侧均设置耐磨涂层,所用耐磨涂层由不饱和聚酯树脂、丙酮、苯乙烯单体、乙二胺、硬脂酸锌组成。本发明耐磨性能好,工作寿命长。 | ||||||
| 8 | 用于织物生产的方法和装置 | CN01806221.0 | 2001-03-06 | CN1272228C | 2006-08-30 | 南丹·科卡尔 |
| 这里披露了一种在织物生产工艺例如3D织造和单轴向织造中用于同时进行纬纱/接结纱线(45)的引入和打纬的方法和装置。载纱器(90;39;22)装配有打纬筘齿(27;28)。在包括有盒形纱线提供装置(1x)的载纱器(90)中,纱线(45)围绕着两根转动轴(X1和X2)设置并且被装在盒子中。因为该载纱器相对较轻但是宽度较宽,因此可以承载相对大量的纱线,所以该载纱器尤其适用于3D织物形成工艺例如3D织造和单轴向织造。纱线(45)装在可以从所述装置(1x)的内部或从外面驱动的凸缘皮带(15)上。这种盒形纱线提供装置(1x)装配有在中心轴线周围偏置或相反偏移的顶端(18a,18b)。这些顶端的这种偏移设置引导这些载纱器(90;22)在沿着相同的线性路径前后来回运动期间相对于经纱/轴向纱线层沿着两条不同的路径铺设纱线(45)。通过这种方法,可以使3D织造和单轴向织造工艺更有效率。纱线提供装置(1x)还可以用在其它纺织工艺中。 | ||||||
| 9 | 用于织物生产的方法和装置 | CN01806221.0 | 2001-03-06 | CN1440361A | 2003-09-03 | 南丹·科卡尔 |
| 这里披露了一种在织物生产工艺例如3D织造和单轴向织造中用于同时进行纬纱/接结纱线(45)的引入和打纬的方法和装置。载纱器(90;39;22)装配有打纬筘齿(27;28)。在包括有盒形纱线提供装置(1x)的载纱器(90)中,纱线(45)围绕着两根转动轴(X1和X2)设置并且被装在盒子中。因为该载纱器相对较轻但是宽度较宽,因此可以承载相对大量的纱线,所以该载纱器尤其适用于3D织物形成工艺例如3D织造和单轴向织造。纱线(45)装在可以从所述装置(1x)的内部或从外面驱动的凸缘皮带(15)上。这种盒形纱线提供装置(1x)装配有在中心轴线周围偏置或相反偏移的顶端(18a,18b)。这些顶端的这种偏移设置引导这些载纱器(90;22)在沿着相同的线性路径前后来回运动期间相对于经纱/轴向纱线层沿着两条不同的路径铺设纱线(45)。通过这种方法,可以使3D织造和单轴向织造工艺更有效率。纱线提供装置(1x)还可以用在其它纺织工艺中。 | ||||||
| 10 | WOVEN STENT/GRAFT STRUCTURE | EP99943650.4 | 1999-08-04 | EP1105076A2 | 2001-06-13 | GREENHALGH, E., Skott |
| A combined stent/graft structure for repair of a body tube in a living body. The structure includes a textile graft adapted to enhance fluid integrity of the body tube and a stent expandable between a first position permitting easy insertion of the stent into the body tube and a second position wherein the stent presses securely against the inside surface of the body tube. The stent includes a first elongate wire-shaped stent member with both a stent member global axis and a stent member local axis, and is integrally secured to the graft by at least one graft yarn of which the graft is formed. Substantial portions of the first stent member global axis form a non-orthogonal angle with the graft main portion axis when projected into a plane containing the graft main portion axis. This permits repeatable, reliable manufacturing and allows the stent member to extend over substantially the whole length of the structure to provide uniform flexural properties and support throughout. Embodiments wherein the first stent member global axis forms an orthogonal angle with the graft main portion axis are also contemplated. A method of forming a textile with an undulating wire is also provided. Further, a woven textile is also part of the invention as is a method of manufacturing such a woven textile, which can be used to produce stent/graft structures according to the invention. Inventive weaving shuttles suitable for manufacturing structures in accordance with the invention are also set forth. Methods utilizing shape-memory stent members for ease in manufacturing are also disclosed. | ||||||
| 11 | Textile manufacturing methods and means | JP2001565440 | 2001-03-06 | JP2003526024A | 2003-09-02 | クホカール、ナンダン |
| A method and device involve simultaneously inserting weft/binding yarns and beating them up, in textile manufacturing processes like 3D-weaving and uniaxial noobing. A yarn carrier is equipped with a beating-up reed dent. In the carrier, which includes a cartridge-like yarn supplying device, the yarn is arranged around two axes of rotation and it is enclosed in a case. It is particularly suitable for 3D textile-forming processes like 3D-weaving and uniaxial noobing because of its relatively low-height but high-width and hence the possibility of carrying relatively large amount of yarn. The yarn is contained on a flanged belt that can be driven either from within or from the outside. Such a cartridge-like yarn supplier is equipped with tips that are offset or displaced oppositely about the central axis. Such a displaced arrangement of the tips directs the carriers to lay yarn in two different paths, relative to a layer of warp/axial yarns, while traversing back and forth in the same linear path. Through such a method the 3D-weaving and uniaxial noobing processes can be made efficient. | ||||||
| 12 | JPS504793B1 - | JP5923868 | 1968-08-21 | JPS504793B1 | 1975-02-24 | |
| 13 | Production of composite body | JP3494478 | 1978-03-28 | JPS53121873A | 1978-10-24 | OTSUTOO MAIERINGU; BUIRUHERUMU SHIYUMITSUTO |
| 14 | Shotsukyoshimetsuke shatsutoru | JP7380175 | 1975-06-19 | JPS5115065A | 1976-02-06 | FURANTSU MAIYAA |
| 15 | Shotsukinoshatsutorunaino itookanshisurutamenosochi | JP6283775 | 1975-05-26 | JPS511755A | 1976-01-08 | ERUHARUTO KENKU; TEO KENKU |
| 16 | A METHOD AND MEANS FOR TEXTILE MANUFACTURE | EP01910309.2 | 2001-03-06 | EP1305458B1 | 2010-09-01 | KHOKAR, Nandan |
| 17 | WOVEN STENT/GRAFT STRUCTURE | EP99943650.4 | 1999-08-04 | EP1105076B1 | 2006-05-17 | GREENHALGH, E., Skott |
| A combined stent/graft structure for repair of a body tube in a living body. The structure includes a textile graft adapted to enhance fluid integrity of the body tube and a stent expandable between a first position permitting easy insertion of the stent into the body tube and a second position wherein the stent presses securely against the inside surface of the body tube. The stent includes a first elongate wire-shaped stent member with both a stent member global axis and a stent member local axis, and is integrally secured to the graft by at least one graft yarn of which the graft is formed. Substantial portions of the first stent member global axis form a non-orthogonal angle with the graft main portion axis when projected into a plane containing the graft main portion axis. This permits repeatable, reliable manufacturing and allows the stent member to extend over substantially the whole length of the structure to provide uniform flexural properties and support throughout. Embodiments wherein the first stent member global axis forms an orthogonal angle with the graft main portion axis are also contemplated. A method of forming a textile with an undulating wire is also provided. Further, a woven textile is also part of the invention as is a method of manufacturing such a woven textile, which can be used to produce stent/graft structures according to the invention. Inventive weaving shuttles suitable for manufacturing structures in accordance with the invention are also set forth. Methods utilizing shape-memory stent members for ease in manufacturing are also disclosed. | ||||||
| 18 | A METHOD AND MEANS FOR TEXTILE MANUFACTURE | EP01910309.2 | 2001-03-06 | EP1305458A2 | 2003-05-02 | KHOKAR, Nandan |
| A method and means for simultaneously inserting weft/binding yarns (45) and their beating-up, in textile manufacturing processes like 3D-weaving and uniaxial noobing, is disclosed. A yarn carrier (90; 39; 22) is equipped with a beating-up reed dent (27; 28). In carrier (90), which comprises a cartridge-like yarn supplying means (1x), the yarn (45) is arranged around two axes of rotation (X1 and X2) and it is enclosed in a case. It is particularly suitable for 3D textile-forming processes like 3D-weaving and uniaxial noobing because of its relatively low-height but high-width and hence the possibility of carrying relatively large amount of yarn. The yarn (45) is contained on a flanged belt (15) that can be driven either from within or from outside of the means (1x). Such a cartridge-like yarn supplying means (1x) is equipped with tips (18a, 18b) that are offset or displaced oppositely about the central axis. Such a displaced arrangement of the tips directs the carriers (90; 22) to lay yarn (45) in two different paths, relative to a layer of warp/axial yarns, while traversing back and forth in the same linear path. Through such a method the 3D-weaving and uniaxial noobing processes can be made efficient. The yarn supplying means (1x) could also be useful in other textile processes. | ||||||
| 19 | Schützen für einen Drahtwebstuhl | EP81110245.8 | 1981-12-08 | EP0054242A1 | 1982-06-23 | Bercx, Erich |
Es handelt sich um einen Schützen (1) für einen Drahtwebstuhl mit einer Mehrzahl von Schußspulen (2) und einem davon seitlich angelenkten, um etwa 180° verschwenkbaren Führungsstück (3) mit einer Reihe von achsparallel nebeneinander angeordneten Führungsrollen (18) für die parallel zueinander in das Webfach austretenden Schußdrähte (6). Dadurch, daß die Schußspulen (2) in Längsrichtung des Schützens (1) koaxial hintereinander aufgereiht sind, ergibt sich eine besonders schmale Bauweise bei großer Speicherkapazität der verwendeten Schußspulen (2). Ausserdem können die einzelnen Schußfäden (6) über an der Längsseite des Schützens (1) angeordnete Führungsrollenblöcke (15, 15a) von jeder Schußspule (2) gleichmäßig nach vorn abgezogen werden ohne sich gegenseitig zu behindern, es wird ein gleichmäßiger Fadenzug erzielt, und durch eine koaxiale Anordnung der Schußspulen (2) auf einer gemeinsamen Drehachse (7) wird der Spulenwechsel ganz erheblich beschleunigt. |
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| 20 | 마대제조기용 셔틀구동장치 | KR1020020006553 | 2002-02-05 | KR1020030066216A | 2003-08-09 | 정추호 |
| PURPOSE: Provided is a shuttle driving device for manufacturing a sack which prevents the gliding roller from being spaced apart from the gliding plate even when the former is worn, and continuously uses the worn gliding roller, thereby extending the shelf life thereof. CONSTITUTION: The shuttle driving device for manufacturing a sack comprises a bracket with a fixation shaft hole(1c) having a bushing B at its one end and an operation shaft hole(2a) at its opposite end, a fixation shaft(1b) passed through the fixation shaft hole with a driving roller(3) at its one end, and an operation shaft(2) passed through the operation shaft hole with a gliding roller(4) at its one end such that it moves along the hole. A spring hole(502) is formed at the bracket such that it communicates with the operation shaft hole. A spring is mounted within the spring hole, and a bolt pressurizes the spring. A support bolt(503) is formed at the center of the bracket, and a pin spring is provided at the support bolt such that the ends thereof are fitted to the fixation shaft and the external side of the bracket. | ||||||
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