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    • 1. 发明申请
    • FIBER OPTIC EQUIPMENT GUIDES AND RAILS CONFIGURED WITH STOPPING POSITION(S), AND RELATED EQUIPMENT AND METHODS
    • 光纤设备指南和配备停机位置的铁路及相关设备和方法
    • WO2010135501A1
    • 2010-11-25
    • PCT/US2010/035529
    • 2010-05-20
    • CORNING CABLE SYSTEMS LLCMAKRIDES-SARAVANOS, ElliSTRAUSE, Kevin L.WORKS, Antwan J.
    • MAKRIDES-SARAVANOS, ElliSTRAUSE, Kevin L.WORKS, Antwan J.
    • G02B6/00
    • G02B6/4452G02B6/4455
    • Fiber optic equipment guides and rails and related methods are disclosed. In one embodiment, the fiber optic equipment guides and rails have at least one stopping member disposed therein to provide at least one stopping position during movement. The fiber optic equipment guides and rails can be included in fiber optic equipment to support movement or translation of the fiber optic equipment for access. Such fiber optic equipment can include, but is not limited to, fiber optic equipment chassis, drawers, equipment trays, and fiber optic modules. The fiber optic equipment guides and/or rails include at least one stopping member configured to provide at least one stopping position during movement. Stopping positions allow fiber optic equipment to be retained in a given position during access to the fiber optic equipment. The stopping positions are configured to be overcome with additional force to allow further movement of the fiber optic equipment.
    • 公开了光纤设备导轨和导轨及相关方法。 在一个实施例中,光纤设备引导件和导轨具有设置在其中的至少一个止动构件,以在移动期间提供至少一个止动位置。 光纤设备导轨和轨道可以包括在光纤设备中,以支持光纤设备进行移动或平移。 这种光纤设备可以包括但不限于光纤设备底盘,抽屉,设备托盘和光纤模块。 光纤设备引导件和/或导轨包括至少一个止动构件,其构造成在运动期间提供至少一个止动位置。 停止位置允许光纤设备在访问光纤设备期间保持在给定的位置。 停止位置被配置为通过额外的力克服以允许光纤设备的进一步移动。
    • 4. 发明申请
    • AIRLINE OPTICAL FIBER WITH REDUCED MULTIPATH INTERFERENCE AND METHODS OF FORMING SAME
    • 具有减少的多路干扰的航空光纤和其形成方法
    • WO2009117061A1
    • 2009-09-24
    • PCT/US2009/001531
    • 2009-03-10
    • CORNING CABLE SYSTEMS LLCHUA, YanLI, Ming-JunMAKRIDES-SARAVANOS, Elli
    • HUA, YanLI, Ming-JunMAKRIDES-SARAVANOS, Elli
    • G02B6/02
    • G02B6/02366G02B6/02357G02B6/0365G02B6/255G02B6/262
    • An airline (AL) optical fiber ("AL fiber") that has an AL region with airlines, with the AL region arranged relative to the fiber core so as to make the fiber bend insensitive. The AL region is capable of supporting one or more higher-order optical modes. One method of reducing multipath interference (MPI) includes accessing a section of the AL fiber and closing at least one of the airlines in the section. This serves to attenuate one or more higher-order modes, which reduces MPI. In one example, the AL fiber has an end section wherein the airlines are filled with a blocking material. An example blocking material is a curable adhesive that is wicked into the airlines via capillary action and then cured when the adhesive reaches a certain depth from the fiber end. In another example, the blocking material is formed by heating the AL fiber section to cause the section to melt and block the airlines, so that the melted AL fiber serves as the blocking material. The AL fiber with reduced MPI is particularly useful as a "jump" fiber, whose length is too short to rely on attenuating higher-order modes via a cable cut-off wavelength.
    • 具有AL区域的航空公司(AL)光纤(“AL纤维”),其中AL区域相对于纤维芯布置,以使纤维弯曲不敏感。 AL区域能够支持一个或多个高阶光学模式。 减少多路径干扰(MPI)的一种方法包括访问AL光纤的一部分并关闭该部分中的至少一个航空公司。 这用于衰减一个或多个更高阶模式,这降低了MPI。 在一个示例中,AL纤维具有端部,其中航空公司填充有阻挡材料。 示例性阻挡材料是通过毛细管作用被弄脏到航空公司中的可固化粘合剂,然后当粘合剂从纤维端达到一定深度时固化。 在另一个实例中,通过加热AL纤维部分以使该部分熔化和阻挡航空公司形成阻挡材料,使得熔融的AL纤维用作阻挡材料。 具有降低的MPI的AL纤维作为“跳跃”光纤是特别有用的,其长度太短而不能通过电缆截止波长衰减高阶模式。
    • 6. 发明申请
    • A METHOD FOR STRIPPING LONG SEGMENTS OF BUFFERED OPTICAL FIBER AND A TOOL FOR PERFORMING THE SAME
    • 用于剥离缓冲光纤的长部分的方法和用于执行其的工具
    • WO2013119745A1
    • 2013-08-15
    • PCT/US2013/025045
    • 2013-02-07
    • CORNING CABLE SYSTEMS LLCMAKRIDES-SARAVANOS, Elli
    • MAKRIDES-SARAVANOS, Elli
    • G02B6/245
    • G02B6/245B26D1/09Y10T83/02
    • A method and optical fiber stripper for removing one or more coatings from an optical fiber is disclosed. The method includes inserting an optical fiber into an optical fiber stripper comprising a pair of fiber stress distributing elements, wherein a normal stress is applied to the fiber by the fiber stress distributing elements along the length of fiber intended to be stripped. The optical fiber stripper includes a pair of grip members, a cutting mechanism, and a pair of fiber stress distributing elements. When the grip members are in the closed position, the fiber stress distributing elements are enerally parallel with each other and with the grip members along their longitudinal lengths. The longitudinal length of each of the fiber stress distributing elements is greater than the distance between the front end of the fiber stress distributing elements and the cutting mechanism.
    • 公开了一种用于从光纤中去除一个或多个涂层的方法和光纤剥离器。 该方法包括将光纤插入到包括一对光纤应力分布元件的光纤剥离器中,其中通过纤维应力分布元件沿着要被剥离的光纤的长度向光纤施加正应力。 光纤剥离器包括一对夹持构件,切割机构和一对纤维应力分布元件。 当握持构件处于关闭位置时,纤维应力分布元件彼此平行并且沿其纵向长度与夹持构件平行。 每个纤维应力分布元件的纵向长度大于纤维应力分布元件的前端与切割机构之间的距离。
    • 7. 发明申请
    • TRANSFORMABLE CABLE REELS AND RELATED ASSEMBLIES AND METHODS
    • 可变电缆卷及相关装配及方法
    • WO2012158426A1
    • 2012-11-22
    • PCT/US2012/037082
    • 2012-05-09
    • CORNING CABLE SYSTEMS LLCMAKRIDES-SARAVANOS, ElliMCGRANAHAN, Daniel SVYNALEK, John H
    • MAKRIDES-SARAVANOS, ElliMCGRANAHAN, Daniel SVYNALEK, John H
    • B65H75/24
    • B65H75/24B65H54/10B65H54/12B65H2701/32G02B6/3604G02B6/3897G02B6/4452G02B6/4457
    • Transformable cable reels (22, 92), related assemblies and methods are disclosed. The transformable cable reels may be provided in a first reel configuration for spooling on cable to the transformable cable reel and to pay out the spooled cable from the transformable cable reel. Cable spooled on the transformable cable reel may be payed out during cable installations. The transformable cable reel may also be configured in a second reel configuration for storage of any excess cable after cable payout. As one non-limiting example, the volume of the cable reel may be less in the second reel configuration than in the first reel configuration so that less volume is required to store the transformable cable reel. Providing the transformable cable reel in the second reel configuration may make it more feasible to store the transformable cable reel in fiber optic equipment, and/or avoid storing excess cable removed from a cable reel.
    • 公开了可变形电缆卷盘(22,92),相关组件和方法。 可变形的电缆卷盘可以设置在第一卷轴结构中,用于卷绕到可变形的电缆卷盘的电缆上,并且从可变形的电缆卷轴支付卷绕的电缆。 在电缆安装过程中可以支付在可变形电缆卷盘上缠绕的电缆。 可变形的电缆卷盘还可以配置在第二卷轴配置中,用于在电缆支付之后存储任何多余的电缆。 作为一个非限制性示例,电缆卷盘的体积可以在第二卷轴构造中比在第一卷轴构造中小,因此需要较少的体积来存储可变形的电缆卷盘。 将可变形电缆卷轴设置在第二卷轴构造中可以使得可变形的电缆卷盘存储在光纤设备中更加可行,和/或避免存储从电缆卷盘去除的多余的电缆。
    • 10. 发明申请
    • ATTENUATED SPLITTER MODULE FOR LOW COUNT OUTPUT CHANNELS AND RELATED ASSEMBLIES AND METHODS
    • 用于低计数输出通道的衰减分离器模块及相关组件和方法
    • WO2013033280A1
    • 2013-03-07
    • PCT/US2012/052960
    • 2012-08-30
    • CORNING CABLE SYSTEMS LLCMAKRIDES-SARAVANOS, Elli
    • MAKRIDES-SARAVANOS, Elli
    • G02B6/24G02B6/44
    • G02B6/241G02B6/4446
    • A splitter module (100), comprising an enclosure and a splitter device (104(1) and 104(2) with one or more splitter legs (108) mounted in the enclosure. Each splitter leg has an optical fiber (112) therein extends for a certain length from the splitter. At least one of the splitter legs, and, thereby, the optical fiber, is cut. The cut may be at an angle to the longitudinal axis of optical fiber. The angle may be about 45 degrees. The coating may be stripped off such that the cut end of the optical glass fiber of the at least one output leg is exposed a certain distance. The cut end of the optical glass fiber positions in the interior of the enclosure. A glass-index-matching material, at least partially fills the interior of the enclosure such that the cut end of the optical fiber is embedded in the glass-index-matching material.
    • 一种分离器模块(100),包括外壳和分离器装置(104(1)和104(2)),所述分离器装置具有安装在所述外壳中的一个或多个分流器支腿(108) 从分离器开始一定长度,切割至少一个分离器腿,从而切割光纤,该切口可以与光纤的纵向轴线成一角度,该角度可以是大约45度。 可以剥离涂层,使得至少一个输出腿的光学玻璃纤维的切割端暴露一定距离,光学玻璃纤维的切割端位于外壳的内部,玻璃指数 - 匹配材料,至少部分地填充外壳的内部,使得光纤的切割端嵌入玻璃折射率匹配材料中。