| 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 | 带有控制和通讯系统的纺织机,特别是纺纱机或绕线机 | CN201310471674.5 | 2013-10-10 | CN103726146A | 2014-04-16 | M·马莱克; 哈拉尔德·威德纳 |
| 本发明涉及一种纺织机,特别是纺纱机(1)或者绕线机,其在纵向侧面上并排配备有多个相同类型的工位(3a-3i),所述工位(3a-i)安装有多个在工位(3a-3i)上进行操作、可纵向移动并与控制和通讯系统相连接的维护设备(15a、15b),其中,每个维护设备(15a、15b)通过各自的维护设备总线(19a、19b、19c、19d)连接到各个总线拓扑结构组件(26a、26b、26c、26d、38a、38b、38c、38d)上,所述总线拓扑结构组件(26a、26b、26c、26d、38a、38b、38c、38d)中至少有部分与控制和通讯系统的共用总线(22、23、28、30、33)相连。根据本发明,所述总线拓扑结构组件(26a、26b、26c、26d、38a、38b、38c、38d)设置在纺织机(1)的纵向方向(LR)上的纺织机(1)的中间位置。 | ||||||
| 2 | 用于合成长丝的纺造和卷曲变形的方法和装置 | CN03825822.6 | 2003-03-07 | CN1732297B | 2012-04-25 | M·施廷德尔; D·许布纳 |
| 本发明涉及一种用于合成长丝的纺造和卷曲变形的方法和装置。这里由聚合物熔体纺造单丝束并将其填塞成填塞丝。填塞丝在一冷却段内在一可运动的冷却槽内以一冷却运动速度行进和冷却,并在冷却后松开成卷曲变形长丝,将所述长丝卷绕成一卷筒。为了使填塞丝充分地冷却,从而得到稳定和尽可能高的卷曲的长丝,在本发明的方法中这样选择冷却段长度和填塞丝的冷却运动速度,使填塞丝在至少1秒的持续时间内在冷却槽内冷却。为此本发明的装置具有一冷却槽,其宽度这样选择,使得填塞丝可曲折地以多层相互重叠地被引导。 | ||||||
| 3 | 一种实现细纱机锭速曲线的装置 | CN201410666889.7 | 2014-11-20 | CN104389058A | 2015-03-04 | 李增润; 杨为民; 王春乐; 高丽红; 刘涌; 程芝芳; 荆文利 |
| 本发明涉及一种实现细纱机锭速曲线的装置,输入端与PLC控制器连接,PLC控制器与变频器连接,变频器与电机连接,电机的输出端与细纱机主轴连接,细纱机主轴一端设置有主轴齿轮,前罗拉一端设置有罗拉齿轮,罗拉齿轮与主轴齿轮啮合传动,在前罗拉的一端设置有测定前罗拉转速的测速器,测速器与PLC控制器电连接。本发明由PLC控制器和测速器来实时控制变频器的运行,使锭子转速与纺纱曲线协调运行。 | ||||||
| 4 | 一种无捻毛巾的生产方法 | CN200710017170.0 | 2007-09-25 | CN101126190B | 2011-02-16 | 王红星 |
| 本发明涉及一种日用毛巾的生产方法,具体是一种新型无捻毛巾的生产方法。它包括下述步骤:1)纺纱:z捻纺粗棉纱,S捻纺高支纱,粗棉纱和高棉纱的重量比为3.5∶1至12∶1;2)倍捻合股:采用将粗棉纱与高支纱非均匀喂入的方法,使粗棉纱的喂入量高于高支纱;3)织造;4)将织物进行热水处理,使高支纱捻缩加捻、粗支纱退捻增长蓬松。本发明的其它步骤可采用现有技术。这样生产的毛巾织物能够解决现有技术对PVA的依赖,减少了能源消耗和材料消耗,杜绝水污染。是一种环保,健康、节能降耗的新型无捻毛巾生产方法。 | ||||||
| 5 | 用于合成长丝的纺造和卷曲变形的方法和装置 | CN03825822.6 | 2003-03-07 | CN1732297A | 2006-02-08 | M·施廷德尔; D·许布纳 |
| 本发明涉及一种用于合成长丝的纺造和卷曲变形的方法和装置。这里由聚合物熔体纺造单丝束并将其填塞成填塞丝。填塞丝在一冷却段内在一可运动的冷却槽内以一冷却运动速度行进和冷却,并在冷却后松开成卷曲变形长丝,将所述长丝卷绕成一卷筒。为了使填塞丝充分地冷却,从而得到稳定和尽可能高的卷曲的长丝,在本发明的方法中这样选择冷却段长度和填塞丝的冷却运动速度,使填塞丝在至少1秒的持续时间内在冷却槽内冷却。为此本发明的装置具有一冷却槽,其宽度这样选择,使得填塞丝可曲折地以多层相互重叠地被引导。 | ||||||
| 6 | 带有控制和通讯系统的纺织机 | CN201310471674.5 | 2013-10-10 | CN103726146B | 2017-09-12 | M·马莱克; 哈拉尔德·威德纳 |
| 本发明涉及一种纺织机,特别是纺纱机或者绕线机,其在纵向侧面上并排配备有多个相同类型的工位,所述工位安装有多个在工位上进行操作、可纵向移动并与控制和通讯系统相连接的维护设备,其中,每个维护设备通过各自的维护设备总线连接到各个总线拓扑结构组件上,所述总线拓扑结构组件中至少有部分与控制和通讯系统的共用总线相连。根据本发明,所述总线拓扑结构组件设置在纺织机的纵向方向上的纺织机的中间位置。 | ||||||
| 7 | 制备和使用包含抗粘添加剂的弹性纤维的方法 | CN201180045497.3 | 2011-09-19 | CN103109005B | 2016-09-07 | S.P.帕迪尼; R.D.冰-沃; T.W.蒂尔林克 |
| 公开了制备和使用用于弹性纤维的抗粘添加剂的方法。所述弹性纤维包括CE添加剂。 | ||||||
| 8 | 一种匀捻器 | CN201410715423.1 | 2014-12-02 | CN104451982A | 2015-03-25 | 蔡国辉; 张超 |
| 本发明涉及一种匀捻器,其包括转子座、转子轴、转子、过丝滚轮、左旋转片、右旋转片以及平衡盘;其中,所述转子轴呈竖直设置,其通过一对轴承枢接在转子座上,其中央设有一通孔;所述转子固接在转子轴的下部;所述过丝滚轮横向枢接在转子上;所述转子左右外侧面分别设有一安装座;所述左旋转片通过螺钉安装于左侧的安装座上,其上设有第一过丝孔;所述右旋转片通过螺钉安装于右侧的安装座上,其上设有第二过丝孔;该第一过丝孔、第二过丝孔和转子轴的轴线相平行设置;所述平衡盘设在转子的底部,其中央设有第三过丝孔,其边缘设有第四过丝孔。本发明的匀捻器具有结构简单、加工要求低,调节方便,性能可靠,方便组装以及维修简单牢靠等诸多优点。 | ||||||
| 9 | 制备和使用包含抗粘添加剂的弹性纤维的方法 | CN201180045497.3 | 2011-09-19 | CN103109005A | 2013-05-15 | S.P.帕迪尼; R.D.冰-沃; T.W.蒂尔林克 |
| 公开了制备和使用用于弹性纤维的抗粘添加剂的方法。所述弹性纤维包括CE添加剂。 | ||||||
| 10 | 一种无捻毛巾的生产方法 | CN200710017170.0 | 2007-09-25 | CN101126190A | 2008-02-20 | 王红星 |
| 本发明涉及一种日用毛巾的生产方法,具体是一种新型无捻毛巾的生产方法。它包括下述步骤:1)纺纱:z捻纺粗棉纱,S捻纺高支纱,粗棉纱和高棉纱的重量比为3.5∶1至12∶1;2)倍捻合股:采用将粗棉纱与高支纱非均匀喂入的方法,使粗棉纱的喂入量高于高支纱;3)织造;4)将织物进行热水处理,使高支纱捻缩加捻、粗支纱退捻增长蓬松。本发明的其它步骤可采用现有技术。这样生产的毛巾织物能够解决现有技术对PVA的依赖,减少了能源消耗和材料消耗,杜绝水污染。是一种环保,健康、节能降耗的新型无捻毛巾生产方法。 | ||||||
| 11 | Textile machine, especially spinning machine or winding machine, with a control and communication system | US14052019 | 2013-10-11 | US09631299B2 | 2017-04-25 | Mario Maleck; Harald Widner |
| A textile machine, especially a spinning machine or winding machine, has numerous identical workstations arranged beside one another along a longitudinal side, with numerous maintenance devices movable along the workstations for servicing the workstations, and with a control and communication system. The maintenance devices are connected to a bus topology component through a maintenance device bus line, in which case at least some of the bus topology components are connected to the control and communication system with a common bus line. The bus topology components are arranged in a middle area of the textile machine, in the longitudinal direction (LR) of the textile machine. | ||||||
| 12 | Antimicrobial materials and methods | US14233130 | 2012-08-03 | US09549549B2 | 2017-01-24 | David G. Whitten; Kirk S. Schanze; Eunkyung Ji; Dimitri Dascier; Anand Parthasarathy; Thomas S. Corbitt; Kirsten Cicotte; Elizabeth LeBleu Dirk; Xuzhi Zhu |
| The invention provides methods and materials for decontamination of surfaces and fabrics, such as non-woven fabrics, that are contaminated with infestations of microorganisms such as bacteria. Biocidal oligomers having conjugated oligo-(aryl/heteroaryl ethynyl) structures and comprising at least one cationic group can be used to decontaminate infested surfaces in the presence of oxygen and, optionally, illumination. Fibers incorporating biocidal oligomers having conjugated oligo-(aryl/heteroaryl ethynyl) structures and comprising at least one cationic group, wherein the oligomer is physically associated with or covalently bonded to, or both, the fiber-forming polymer can be used to form non-woven mats. Biocidal non-woven mats prepared by methods of the invention, incorporating the biocidal oligomers, can be used to suppress bacterial growth in wound and surgical dressings and personal hygiene products. | ||||||
| 13 | POLYAMIDE FIBERS | US15109694 | 2015-01-12 | US20160333144A1 | 2016-11-17 | Pim Gerard Anton JANSSEN; Alexander Antonius Marie STROEKS |
| The present invention relates to a polymer fiber made of a polyamide composition comprising a semi-crystalline semi-aromatic polyamide (PPA), wherein the PPA consists of repeat units derived from—aromatic dicarboxylic acid comprising at least 80 mole % of terephthalic acid, relative to the total amount of aromatic dicarboxylic acid and—diamine comprising at least 5 mole % of a first diamine and at least 5 mole % of a second diamine relative to the total amount of diamine; and—0-5 mole % of other monomeric units, relative to the total amount of aromatic dicarboxylic acid, diamine and other monomeric units, wherein the PPA has a melting temperature (Tm) of at least 310° C. measured by the DSC method according to ISO-11357-1/3, 2011 and with a heating rate of 10° C./min. | ||||||
| 14 | Methods of making and using elastic fiber containing an anti-tack additive | US13825129 | 2011-09-19 | US09315924B2 | 2016-04-19 | Steven P. Pardini; Ronald D. Bing-Wo; Thomas W. Teerlink |
| Methods of making and using anti-tack additives for elastic fibers are disclosed. The elastic fibers include CE additive. | ||||||
| 15 | Textile Machine, Especially Spinning Machine or Winding Machine, with a Control and Communication System | US14052019 | 2013-10-11 | US20140107829A1 | 2014-04-17 | Mario Maleck; Harald Widner |
| A textile machine, especially a spinning machine or winding machine, has numerous identical workstations arranged beside one another along a longitudinal side, with numerous maintenance devices movable along the workstations for servicing the workstations, and with a control and communication system. The maintenance devices are connected to a bus topology component through a maintenance device bus line, in which case at least some of the bus topology components are connected to the control and communication system with a common bus line. The bus topology components are arranged in a middle area of the textile machine, in the longitudinal direction (LR) of the textile machine. | ||||||
| 16 | Method and apparatus for spinning and crimping a synthetic multifilament yarn | US11181161 | 2005-07-14 | US08342834B2 | 2013-01-01 | Mathias Stündl; Diethard Hübner |
| A method and an apparatus for spinning and crimping a synthetic multifilament yarn, wherein a filament bundle is spun from a polymer melt and compressed to a yarn plug. The yarn plug is advanced at a cooling speed and cooled within a cooling zone in a moving cooling groove. After cooling, the yarn plug is disentangled to form a crimped yarn, with the latter being wound to a package. To obtain an adequate cooling of the yarn plug and, with that, a stable and highest possible crimp in the yarn, the method of the invention provides for selecting the length of the cooling zone and the cooling speed of the yarn plug such that the yarn plug is cooled in the cooling groove over a period of at least 1 second. To this end, the apparatus of the invention includes a cooling groove, whose width is dimensioned such that the yarn plug can be advanced in meander form in a plurality of superposed layers. | ||||||
| 17 | Work Station of a Textile Machine, Pneumatic Thread Storage Element for a Work Station of a Textile Machine and a Textile Machine | US15787133 | 2017-10-18 | US20180112334A1 | 2018-04-26 | Thomas-Georg Meier; Robert Hagl; Thomas Gruber; Lubomir Molacek |
| A work station of a textile machine includes a plurality of fiber-guiding work elements that are divided into at least two groups. A first work station part is defined at the work station on which a first group of the fiber-guiding work elements is arranged. A second work station part is defined at the work station on which a second group of the fiber-guiding work elements is arranged. The second work station part is arranged in a movable manner relative to the first work station part at the work station or is arranged in a removable manner at the work station. A pneumatic thread storage element is also provided for a work station of a textile machine for the temporary receiving of a thread, and includes a multi-part structure with a first thread storage section and a second thread storage section connected to one another at a separation point. | ||||||
| 18 | ANTIMICROBIAL MATERIALS AND METHODS | US15368148 | 2016-12-02 | US20170164614A1 | 2017-06-15 | David G. Whitten; Kirk S. Schanze; Eunkyung Ji; Dimitri Dascier; Anand Parthasarathy; Thomas S. Corbitt; Kirsten Cicotte; Elizabeth LeBleu Dirk; Xuzhi Zhu |
| The invention provides methods and materials for decontamination of surfaces and fabrics, such as non-woven fabrics, that are contaminated with infestations of microorganisms such as bacteria. Biocidal oligomers having conjugated oligo-(aryl/heteroaryl ethynyl) structures and comprising at least one cationic group can be used to decontaminate infested surfaces in the presence of oxygen and, optionally, illumination. Fibers incorporating biocidal oligomers having conjugated oligo-(aryl/heteroaryl ethynyl) structures and comprising at least one cationic group, wherein the oligomer is physically associated with or covalently bonded to, or both, the fiber-forming polymer can be used to form non-woven mats. Biocidal non-woven mats prepared by methods of the invention, incorporating the biocidal oligomers, can be used to suppress bacterial growth in wound and surgical dressings and personal hygiene products. | ||||||
| 19 | Unbalanced Hybrid Cords and Methods for Making on Cable Cording Machines | US13778595 | 2013-02-27 | US20140238524A1 | 2014-08-28 | Nathan W. Love; Brain R. France; Mark Allan Lamontia; Clifford K. Deakyne |
| A hybrid cord formed from a plurality of component plies wherein at least one of the plies has a length that is from 1 to 50 percent longer than the other plies and a method of providing a cord with predetermined twist and component ply lengths. | ||||||
| 20 | METHODS OF MAKING AND USING ELASTIC FIBER CONTAINING AN ANTI-TACK ADDITIVE | US13825129 | 2011-09-19 | US20130247535A1 | 2013-09-26 | Steven P. Pardini; Ronald D. Bing-Wo; Thomas W. Teerlink |
| Methods of making and using anti-tack additives for elastic fibers are disclosed. The elastic fibers include CE additive. | ||||||
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