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    • 1. 发明授权
    • Spliced portion housing structure for optical fiber in optical submerged
repeater
    • 光接收式中继器光纤接头部分外壳结构
    • US4505540A
    • 1985-03-19
    • US340350
    • 1982-01-18
    • Kahei FurusawaMakoto NunokawaYoshihiro EjiriHitoshi YamamotoYoshihiko YamazakiKoichi Tatekura
    • Kahei FurusawaMakoto NunokawaYoshihiro EjiriHitoshi YamamotoYoshihiko YamazakiKoichi Tatekura
    • G02B6/24G02B6/44H02G15/08H02G15/14G02B5/14G02B7/26
    • G02B6/4448
    • A spliced portion housing structure for an optical fiber in an optical submerged repeater, characterized in that, in order to splice together in a joint ring an optical fiber and a power-supplying feeder from the optical submerged repeater to an optical fiber and a power-supplying feeder of a tail cable from a cable coupling of an optical submarine cable, respectively, a joint chamber is provided on an end plate of a housing of the optical submerged repeater in such a manner that the end plate forms a part of the joint chamber; the optical fiber and the power-supplying feeder from the submerged repeater are introduced into the joint chamber through a first feedthrough provided in the end plate for hermetically introducing the optical fiber and the power-supplying feeder; the tail cable from the cable coupling is hermetically introduced into the joint chamber through a second feedthrough provided in the wall of the joint chamber so that the tail cable is insulated from the joint chamber, the optical fibers and the feeders pulled into the joint chamber from both of the first and second feedthroughs are respectively spliced together while being isolated from each other and housed in the joint chamber; the optical fiber spliced portion is fixed to a cage mounted in the joint chamber; and the joint chamber is formed to have a water pressure resisting and airtight structure.
    • 一种用于光学浸没式转发器中的光纤的接合部分壳体结构,其特征在于,为了将接头环中的光纤和从所述光学浸没式中继器馈送到光纤的功率供给馈送器连接在一起, 分别从光学海底电缆的电缆耦合器供给尾缆的馈线,接合室设置在光学浸没式中继器的壳体的端板上,使得端板形成接头室的一部分 ; 来自浸没式中继器的光纤和供电给料器通过设置在端板中的用于气密地引入光纤和供电馈送器的第一馈通引入接头室; 来自电缆耦合器的尾部电缆通过设置在接头室的壁中的第二馈通气密地引入接头室,使得尾部电缆与接头室绝缘,光纤和馈线从接头室中拉出 第一和第二馈通两者分别拼接在一起,同时彼此隔离并容纳在关节室中; 光纤接合部固定在安装在接头室内的保持架上; 并且所述接合室形成为具有耐水压力和气密结构。
    • 4. 发明授权
    • Feed through for optical submerged repeater
    • 通过光学浸没式中继器
    • US4295707A
    • 1981-10-20
    • US81466
    • 1979-10-03
    • Taiichiro NakaiKahei FurusawaYoshihiro Ejiri
    • Taiichiro NakaiKahei FurusawaYoshihiro Ejiri
    • G02B6/24G02B6/00G02B6/38G02B6/44G02B5/14H02G3/00
    • G02B6/3825G02B6/3816G02B6/3835G02B6/3855G02B6/3865G02B6/4428G02B6/4448
    • A feedthrough for optical submerged repeater, in which a clad part of an optical fiber to be introduced into the feedthrough is given a metal coating; the coated part is inserted into a small-diametered metal pipe to be hermetically fixed between the optical fiber and the small-diametered metal pipe as by soft solder; and the small-diametered metal pipe is inserted into a disc sleeve to hermetically fix them as by brazing. Between the disc sleeve and a metal body housing the disc sleeve, polyethylene is molded for electrical insulation therebetween and for holding air-tightness against seawater, and at the side of the disc sleeve facing toward seawater or at both sides of the disc sleeve, an insulator of the optical fiber cable and polyethylene of the abovesaid molding are molded to be contiguous to each other. The abovementioned metal body is fixedly attached to the end face plate of the pressure resisting casing in a manner to provide an air-tight structure.
    • 用于光学中继中继器的馈通,其中待引入馈通的光纤的包层部分被赋予金属涂层; 将涂覆部分插入小直径金属管中,以软焊料气密地固定在光纤和小直径金属管之间; 并将小直径的金属管插入盘套筒中,以通过钎焊将其密封固定。 在圆盘套筒和容纳盘套筒的金属体之间,聚乙烯被模制成用于其间的电绝缘并且用于保持对海水的气密性,并且在盘套筒面向海水或盘套两侧的一侧, 上述模制品的光纤电缆和聚乙烯的绝缘体被模制成彼此邻接。 上述金属体以提供气密结构的方式固定地附接到耐压壳体的端面板。
    • 5. 发明授权
    • Optical fiber hermetic fixing structure of feedthrough for optical
submarine repeater
    • 光学海底中继器馈通光纤密封固定结构
    • US4653846A
    • 1987-03-31
    • US594363
    • 1984-03-28
    • Yoshihiko YamazakiYoshihiro EjiriKahei Furusawa
    • Yoshihiko YamazakiYoshihiro EjiriKahei Furusawa
    • H04J14/00G02B6/00G02B6/42G02B6/44H02G15/08H04J14/04H04J14/06G02B6/36
    • G02B6/4248G02B6/4428
    • An optical fiber hermetic fixing structure of a feedthrough for an optical submarine repeater in which at least one optical fiber is introduced into a fluid-tight pressure-resistant housing of an optical marine repeater. Optical fibers are introduced and disposed in a through opening defined between a metal fiber-supporting guide and a metal sealing sleeve circumferentially of the fiber-supporting guide. The guide has a somewhat reduced diameter adjacent an end of the through opening so that the through opening has a greater transverse dimension along this part adjacent a seawater end of the feedthrough. This part of the through opening is filled with a low temperature melting metal about and between the optical fibers extending therethrough. The low melting temperature metal extends out of the through opening with a generally conical cross section configuration. A protective cover cap is disposed coaxial with the sleeve and fiber-supporting guide and through which the optical fibers extend longitudinally. The protective cover cap is filled with a liquid filler.
    • 一种用于光学海底中继器的馈通的光纤密封固定结构,其中至少一根光纤被引入光学海洋中继器的流体密封耐压壳体中。 将光纤引入并设置在金属纤维支撑引导件和纤维支撑引导件周向的金属密封套之间的通孔中。 引导件邻近通孔的端部具有稍微减小的直径,使得通孔沿着该部分邻近馈通的海水端具有更大的横向尺寸。 通孔的这一部分在延伸穿过其中的光纤之间和之间填充有低温熔融金属。 低熔点金属以大致圆锥形的横截面构型从通孔延伸出来。 保护盖帽与套管和纤维支撑导向件同轴设置,光纤通过该保护罩纵向延伸。 保护盖帽充满液体填充物。
    • 7. 发明授权
    • Optical fiber submarine cable
    • 光纤海缆
    • US4490009A
    • 1984-12-25
    • US408160
    • 1982-08-16
    • Taiichiro NakaiKahei FurusawaMasanori SatoYasuhiko NiiroYoshihiro EjiriMakoto Nunokawa
    • Taiichiro NakaiKahei FurusawaMasanori SatoYasuhiko NiiroYoshihiro EjiriMakoto Nunokawa
    • H01B11/22G02B6/44G02B5/14
    • G02B6/4416G02B6/4427
    • An optical fiber submarine cable, which is provided with at least one coated optical fiber, a power supplying, pressure resisting layer of a pipe-like configuration, a tension resisting wire layer formed of a conductive material of relatively low conductivity and disposed in close contact with the power supplying, pressure resisting layer of the pipe-like configuration, and an insulator layer disposed around the tension resisting wire layer. The power supplying, pressure resisting layer is formed as at least one inner layer and an outer layer. The inner layer is formed as a single layer or composite layers by forming a tape-like good conductor material into a pipe-like configuration with its joint made a mere butt, or by assembling together a plurality of pressure resisting material segments equally divided in the circumference direction for at least one layer of the inner layer and having housed the above-mentioned at least one coated optical fiber in an optical fiber housing space defined centrally of the inner layer. The outer layer is formed by winding a metal tape on the inner layer.
    • 一种设置有至少一个涂覆光纤的光纤海缆,具有管状构造的供电耐压层,由导电性相对较低的导电材料形成的抗拉线层,并且紧密接触 其具有管状构造的供电耐压层和设置在抗张力线层周围的绝缘体层。 供电耐压层形成为至少一个内层和外层。 通过将带状良好导体材料形成为管状构造而将内层形成为单层或复合层,其接头仅仅是对接的,或者通过将多个耐压材料段组装在一起, 至少一层内层的圆周方向,并且将上述至少一个涂覆的光纤容纳在限定在内层中心的光纤容纳空间中。 外层通过在内层上缠绕金属带而形成。