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    • 2. 发明公开
    • CURLED-CORD ROUTING STRUCTURE
    • CURLED-CORD ROUTING结构
    • EP3032670A1
    • 2016-06-15
    • EP14835340.2
    • 2014-07-18
    • Sumitomo Wiring Systems, Ltd.
    • IWATA, Makoto
    • H02G11/00B60R16/02H01B7/06
    • B60R16/03B60R16/0215B60R16/027H01B7/06H01B7/065H02G11/006
    • It is aimed to provide a novel curl cord routing structure capable of alleviating a stress concentration on fixing parts of a curl cord routed between a supporting body and a movable body by a simple structure. In a routing structure for a curl cord 14 for power supply routed between a supporting body 10 and a movable body 12 displaceably mounted relative to the supporting body 10, the curl cord 14 includes a spiral portion 40 spirally wound and free to expand and contract and is fixed to cord fixing portions 46, 48 respectively provided on the side of the supporting body 10 and the side of the movable body 12 on opposite sides of the spiral portion 40, and pressure-bonding/holding portions 54 to be pressure-bonded and held in a state where the spiral portion 40 is extended are provided on sides closer to the spiral portion 40 than the respective cord fixing portions 46, 48.
    • 目的在于提供一种新型的卷曲线布线结构,其能够通过简单的结构减轻在支承体与可动体之间引出的卷曲线的固定部上的应力集中。 在支撑体10和相对于支撑体10可移动地安装的可移动体12之间布置的用于电源的卷曲线14的布线结构中,卷曲线14包括螺旋缠绕且自由膨胀和收缩的螺旋部分40, 被固定到分别设置在支撑体10的一侧和可动体12的在螺旋部40的相对侧上的一侧上的绳固定部46,48以及待压接的压接/保持部54, 在螺旋部40延伸的状态下被保持的螺旋部40被设置在比各个绳固定部46,48更靠近螺旋部40的一侧。
    • 3. 发明公开
    • Conveyor belt rip detection system with microwire sensor
    • 米格罗德拉特传感器(Fraudbandrissdetektionssystem mit Mikrodrahtsensor)
    • EP2881344A1
    • 2015-06-10
    • EP14194886.9
    • 2014-11-26
    • Veyance Technologies, Inc.
    • Wallace, Jack, BruceEdwards, CharlesLeib, Robert, Eugene
    • B65G43/02
    • B65G43/02B65G15/36H01B3/28H01B7/06
    • The present invention relates to conveyor belts having rip detection systems which utilize microcoil sensor wires which offer improved durability as compared to conventional microcoil sensor wires. This higher degree of durability increases the service life of the rip detection system and allows for the conveyor belt to be used reliably over an extended time period without the need to replace damaged microcoil sensor wires within the rip detection system of the conveyor belt. The present invention more specifically discloses a conveyor belt comprising (a) an elastomeric body having a load carrying surface and a parallel pulley engaging surface; (b) a reinforcement ply disposed within the elastomeric body; and (c) a rip detection sensor in the form of a microcoil sensor wire (1) which is configured in an endless loop, wherein the microcoil sensor wire is comprised of an elastomeric core (3) having an electrically conductive wire (2) spirally wrapped around the elastomeric core.
    • 本发明涉及具有撕裂检测系统的输送带,其利用与传统的微线圈传感器线相比提供改善的耐久性的微线圈传感器线。 这种更高的耐久性提高了撕裂检测系统的使用寿命,并且允许输送带在延长的时间内可靠地使用,而不需要更换输送带的撕裂检测系统内的损坏的微线圈传感器线。 本发明更具体地公开了一种传送带,其包括:(a)具有负载承载表面和平行滑轮接合表面的弹性体; (b)设置在弹性体内的加强层; 以及(c)呈无限循环的微线圈传感器线(1)形式的裂纹检测传感器,其中所述微线圈传感器线由具有导电线(2)的弹性芯(3)螺旋形地构成 缠绕在弹性芯上。