会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • ELECTRONIC LENGTH CONTROL WIRE PAY-OFF SYSTEM AND METHOD
    • 电子长度控制线支付系统和方法
    • WO02090225A3
    • 2003-01-09
    • PCT/US0214339
    • 2002-05-07
    • MAGNATECH INTERNATIONAL L P
    • EAGELMAN JOHN MLEDBETTER WILLIAM M
    • B65H49/32B65H59/04B65H59/36B65H59/40B65H63/032B65H63/08B65H59/02
    • B65H59/40B65H49/32B65H59/04B65H59/36B65H63/032B65H63/088B65H2402/545B65H2403/725B65H2515/31B65H2515/322B65H2551/20B65H2701/38B65H2220/01B65H2220/02
    • A multi-spindle fiber pay-out apparatus (5) having a plurality of fiber spools (9) with each spool (9) having a fiber tension controller. The spindles (21) are in rotational supporting relation to the spool (9) of fiber and operatively engaged with a plurality of magnetic particle brakes (31) which are in communication with an electronic controller (99). A fiber take-up system (29) is mounted upon the frame (6) in cooperative relation to the spool (9) of fiber (7) and is arranged so as to compensate for changes in the fiber pay-out rate from the spool (9) of fiber (7) that are caused by activation/deactivation of the magnetic particle brake (37). A load cell transducer (13) is mounted on the frame adjacent to the fiber take-up system (29). The load cell transducer (13) is at least partially engaged by a fiber (7), and is arranged in electrical data communication with the magnetic particle brake (37) so as to (i) activate the magnetic particle brake (37) when a tension in the fiber (7) is detected below a predermined magnitude, and (ii) deactivate the magnetic particle brake (37) when the tension in the fiber (7) is at or above the predetermined magnitude. A method is also provided for monitoring and adjusting the length of a fiber (7) via monitoring of the tension of the fiber (7).
    • 一种具有多个纤维线轴(9)的多主轴光纤输出装置(5),每个线轴(9)具有光纤张力控制器。 主轴(21)与光纤的卷轴(9)旋转支撑,并与与电子控制器(99)连通的多个磁性颗粒制动器(31)可操作地接合。 纤维卷取系统(29)与纤维(7)的卷轴(9)协调地安装在框架(6)上,并且布置成补偿从卷轴(3)的纤维释放速率的变化 (7)的光纤(9),其由磁性颗粒制动器(37)的激活/去激活引起。 负载传感器(13)安装在与纤维卷绕系统(29)相邻的框架上。 负载传感器(13)至少部分地被光纤(7)接合,并且被布置成与磁性颗粒制动器(37)进行电数据通信,从而(i)当磁体颗粒制动器(37)激活时 在纤维(7)中的张力被检测到低于预定的大小,并且(ii)当纤维(7)中的张力处于或高于预定的大小时,停止磁性颗粒制动器(37)。 还提供了一种通过监测光纤(7)的张力来监视和调整光纤(7)的长度的方法。
    • 8. 发明申请
    • ELECTRONIC LENGTH CONTROL WIRE PAY-OFF SYSTEM AND METHOD
    • 电子长度控制线支付系统和方法
    • WO2002090225A2
    • 2002-11-14
    • PCT/US2002/014339
    • 2002-05-07
    • MAGNATECH INTERNATIONAL, L.P.
    • EAGELMAN, John, M.LEDBETTER, William, M.
    • B65H
    • B65H59/40B65H49/32B65H59/04B65H59/36B65H63/032B65H63/088B65H2402/545B65H2403/725B65H2515/31B65H2515/322B65H2551/20B65H2701/38B65H2220/01B65H2220/02
    • A multi-spindle fiber pay-out apparatus is provided that allows for fiber tension control. A frame supports a plurality of spools of fiber, with each spool of fiber being mounted on a spindle. The spindle is in rotational supporting relation to the spool of fiber and is operatively engaged with a magnetic particle brake, which is itself in control communication with an electronic controller. A fiber take-up system is mounted upon the frame in cooperative relation to the spool of fiber and is arranged so as to compensate for changes in the fiber pay-out rate from the spool of fiber that are caused by activation/deactivation of the magnetic particle brake. A load cell transducer is mounted on the frame adjacent to the fiber take-up system. The load cell transducer is at least partially engaged by a fiber, and is arranged in electrical data communication with the magnetic particle brake so as to (i) activate the magnetic particle brake when a tension in the fiber is detected below a predetermined magnitude, and (ii) deactivate the magnetic particle brake when the tension in the fiber is at or above the predetermined magnitude. A method is also provided for monitoring and adjusting the length of a fiber via monitoring of the tension in the fiber.
    • 一种具有多个纤维线轴(9)的多主轴光纤输出装置(5),每个线轴(9)具有光纤张力控制器。 主轴(21)与光纤的卷轴(9)旋转支撑,并与与电子控制器(99)连通的多个磁性颗粒制动器(31)可操作地接合。 纤维卷取系统(29)与纤维(7)的卷轴(9)协调地安装在框架(6)上,并且布置成补偿从卷轴(3)的纤维释放速率的变化 (7)的光纤(9),其由磁性颗粒制动器(37)的激活/去激活引起。 负载传感器(13)安装在与纤维卷绕系统(29)相邻的框架上。 负载传感器(13)至少部分地被光纤(7)接合,并且被布置成与磁性颗粒制动器(37)进行电数据通信,从而(i)当磁体颗粒制动器(37)激活时 在纤维(7)中的张力被检测到低于预定的大小,并且(ii)当纤维(7)中的张力处于或高于预定的大小时,停止磁性颗粒制动器(37)。 还提供了一种通过监测光纤(7)的张力来监视和调整光纤(7)的长度的方法。