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    • 1. 发明授权
    • Optical transmission system
    • 光传输系统
    • US07113700B2
    • 2006-09-26
    • US10372080
    • 2003-02-25
    • Yoshihiro ShimizuMakoto TakakuwaShoji YoshidaTooru MatsumotoAkio Morimoto
    • Yoshihiro ShimizuMakoto TakakuwaShoji YoshidaTooru MatsumotoAkio Morimoto
    • H04B10/08H04B15/00H04B10/22
    • H04J14/0221H04J14/0201H04J14/0212H04J14/0213
    • An optical transmission system includes an optical wavelength branching unit that shifts a wavelength transmission band in the short-wavelength or long-wavelength directions based on a branching filter operation temperature, and performs a branching operation on a wavelength-multiplexed signal. A reception transponder performs decoding on an error correction code. An error correction monitoring unit gathers an error correction amount upon which a branching filter temperature control unit sets the branching filter operation temperature. A transmission transponder performs encoding on an error correction code. An optical wavelength combining unit shifts the wavelength transmission band in the opposite direction from the shifting direction based on a combining filter operation temperature, to perform a combining operation on optical signals and output a wavelength-multiplexed optical signal. A combining filter temperature control unit sets the combining filter operation temperature based on the error correction amount sent from the optical reception device.
    • 光传输系统包括基于分支滤波器操作温度移动短波长或长波长方向上的波长透射带的光波长分支单元,并对波分复用信号进行分支操作。 接收转发器对纠错码进行解码。 误差校正监视单元收集分支滤波器温度控制单元设定分支滤波器操作温度的纠错量。 传输转发器对纠错码执行编码。 光波长组合单元基于组合滤波器操作温度将波长传输频带沿与移位方向相反的方向移动,以对光信号执行组合操作并输出波长复用的光信号。 组合滤波器温度控制单元基于从光接收装置发送的纠错量来设置组合滤波器操作温度。
    • 6. 发明申请
    • Apparatus for moving window glass of vehicle
    • 用于移动车窗玻璃的装置
    • US20070130835A1
    • 2007-06-14
    • US11636457
    • 2006-12-11
    • Yukio IsomuraShigeyuki SuzukiYoshihiro Shimizu
    • Yukio IsomuraShigeyuki SuzukiYoshihiro Shimizu
    • E05F11/48
    • E05F11/481E05F15/689E05Y2201/652E05Y2900/55
    • An apparatus for moving a window glass of a vehicle includes a carrier fixed to a window glass, a guiding rail for slidably supporting the carrier, a driven member fixed to the carrier and an actuator for driving the driven member. The actuator includes a cylinder-shaped rotational driving member for driving the driven member, a holder provided at an outside of the rotational driving member and having an arc-shaped inner surface facing an outer circumferential surface of the rotational driving member and coaxial with the rotational driving member and an arc-shaped moving member having a circumferential length longer than that of the inner surface of the holder, the moving member being provided between the rotational driving member and the inner surface of the holder for circumferential movement by the driven member.
    • 用于移动车辆的窗玻璃的装置包括固定到窗玻璃的托架,用于可滑动地支撑托架的导轨,固定到托架的从动构件和用于驱动从动构件的致动器。 致动器包括用于驱动从动构件的圆柱形旋转驱动构件,设置在旋转驱动构件的外侧的保持器,具有面向旋转驱动构件的外周面的弧形内表面,与旋转驱动构件同轴 所述移动构件设置在所述旋转驱动构件和所述保持器的所述内表面之间,以通过所述被驱动构件周向运动,所述驱动构件和弧形移动构件具有比所述保持器的内表面长的圆周长度。
    • 7. 发明授权
    • HITLESS PATH SWITCHING RING NETWORK, HITLESS PATH SWITCHING TRANSMISSION SYSTEM, NODE DEVICE FOR A HITLESS PATH SWITCHING RING NETWORK, AND FAILURE OCCURRENCE-TIME HITLESS PATH SWITCHING TRANSMISSION METHOD IN A RING NETWORK
    • 无缝路切换环网络,无缝路切换传输系统,无缝路径切换环网络节点设备,无故障无线路由切换传输方式在网络中
    • US06633537B1
    • 2003-10-14
    • US09439305
    • 1999-11-12
    • Yoshihiro Shimizu
    • Yoshihiro Shimizu
    • G01R3108
    • H04J3/085H04J2203/0042H04J2203/006H04L12/437
    • A hitless path switching ring network capable of switching from a work transmission line to a protection transmission line without instantaneous hitting of a signal when a failure occurs in the work transmission line. In the hitless path switching ring network, a node device includes a first memory section storing a signal being transmitted onto the work transmission line during normal operation, and a first read control section, at the time of failure occurrence, reading out the transmitted signal, held before failure occurrence, from the first memory section and sending out the transmitted signal through the protection transmission line in the opposite direction from the transmission direction employed before failure occurrence. Another node device includes a second memory section for storing the signal received through the work transmission line during normal operation, a third memory section for storing the signal received through the protection transmission line during failure occurrence, and a phase adjusting section for matching the time phase of the received signal in the second memory section with the time phase of the received signal in the third memory section and outputting the received signal held before failure occurrence.
    • 能够在工作传输线路中发生故障时能够从工作传输线路切换到保护传输线路而不瞬间击中信号的无中断路径切换环网络。 在无中断路径切换环网中,节点装置包括存储在正常操作期间正在发送到工作传输线路上的信号的第一存储器部分和第一读取控制部分,在发生故障时读出发送的信号, 在第一存储部分之前保持发送信号,并且通过保护传输线沿与发生故障之前使用的传输方向相反的方向发送发送信号。 另一节点装置包括:第二存储器部分,用于存储正常操作期间通过工作传输线路接收到的信号;第三存储器部分,用于存储在发生故障期间通过保护传输线路接收到的信号;以及相位调整部分,用于使时间相位匹配 在第三存储器部分中接收信号的时间相位在第二存储器部分中的接收信号,并输出在发生故障之前保持的接收信号。
    • 8. 发明授权
    • Method of manufacturing liquid crystal element comprising maintaining
pressure by controlling vacuum in the cell gap during hardening of
sealant
    • 制造液晶元件的方法包括通过在密封剂硬化期间控制电池间隙中的真空来保持压力
    • US06100958A
    • 2000-08-08
    • US080617
    • 1998-05-18
    • Noboru TeraguchiRyuji MiyazakiYoshihiro Shimizu
    • Noboru TeraguchiRyuji MiyazakiYoshihiro Shimizu
    • G02F1/1339G02F1/13
    • G02F1/1339
    • A pair of electrode substrates are combined with a sealing material and spacers therebetween. A cell gap of a liquid crystal display element is controlled by maintaining the pressure in the space between the pair of electrode substrates at a predetermined pressure for a period of time as part of an evacuation process for the pair of electrode substrates, and pressing the pair of electrode substrates with atmospheric pressure. This prevents a sealing edge from becoming irregular due to bubbling of the sealing material, thereby providing the liquid crystal display element thus obtained with good linearity in the sealing edge. Moreover, since movement of the spacers near an exhaust port is prevented, irregular display coloring is eliminated, which enables the liquid crystal display element to have good display characteristics. Furthermore, since the sealing edge does not become irregular, the liquid crystal display element has excellent uniformity in the cell gap.
    • 一对电极基板与密封材料和间隔件组合在一起。 通过将一对电极基板之间的空间中的压力保持在预定压力一段时间作为一对电极基板的抽空处理的一部分来控制液晶显示元件的单元间隙,并且按压该对 的电极基板与大气压力。 这样可防止由于密封材料的起泡而使密封边缘变得不规则,从而在密封边缘中提供如此获得的液晶显示元件的线性良好。 此外,由于防止了隔板靠近排气口的移动,消除了不规则的显示着色,这使得液晶显示元件具有良好的显示特性。 此外,由于密封边缘不变得不规则,液晶显示元件在单元间隙中具有优异的均匀性。