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1.发明授权公开(公告)号:US07088893B2
公开(公告)日:2006-08-08
申请号:US10964473
申请日:2004-10-13
申请人: Terry L. Cooke , Robert B. Elkins, II , John B. Johnson , Dennis M. Knecht , James P. Luther , Lars K. Nielsen
发明人: Terry L. Cooke , Robert B. Elkins, II , John B. Johnson , Dennis M. Knecht , James P. Luther , Lars K. Nielsen
IPC分类号: G02B6/44
CPC分类号: G02B6/4475 , G02B6/4473 , G02B6/4495
摘要: A factory-prepared preterminated and pre-connectorized fiber optic distribution cable having at least one mid-span access location for providing access to a plurality of preterminated optical fibers pre-connectorized with a multi-fiber connector is provided. Also provided is a method of forming a pre-connectorized fiber optic distribution cable by terminating and pre-connectorizing a predetermined number of the plurality of optical fibers of the cable to create a pre-connectorized mid-span access location. The fiber optic distribution cable provides a low profile mid-span access location that is sufficiently flexible to be installed through relatively small-diameter buried conduits and over aerial installation sheave wheels and pulleys without violating the minimum bend radius of the cable or the optical fibers. A protective encapsulant protects and seals the mid-span access location during cable reeling, unreeling, installation and until the access location is needed for interconnecting a connectorized fiber optic drop or branch cable.
摘要翻译: 提供了一种具有至少一个中跨接入位置的工厂预制的预接线和预连接的光纤配线电缆,用于提供对与多光纤连接器预先连接的多个预先终止的光纤的接入。 还提供了一种通过端接和预连接电缆的预定数量的光纤以形成预先连接的中跨接入位置来形成预连接的光纤配线的方法。 光纤配线电缆提供了一个薄型的中跨接入位置,它具有足够的灵活性,可以通过相对较小直径的埋地导管和空中安装滑轮和滑轮安装,而不会违反电缆或光纤的最小弯曲半径。 保护性密封剂在电缆卷绕,卷绕,安装期间保护和密封中跨接入位置,并且直到需要接入位置来连接连接的光纤插座或分支电缆。
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公开(公告)号:US07184633B2
公开(公告)日:2007-02-27
申请号:US10724244
申请日:2003-11-26
IPC分类号: G02B6/44
CPC分类号: G02B6/4472
摘要: A factory-manufactured, preterminated fiber optic distribution cable having at least one predetermined access location for providing access to at least one preterminated optical fiber. A preterminated fiber optic distribution cable comprising at least one buffer tube comprising at least one optical fiber, a buffer tube transition piece operable for transitioning the at least one optical fiber from the at least one buffer tube into at least one protective tube, a C-shaped molded member defining a longitudinally extending optical fiber guide channel operable for storing a length of the at least one preterminated optical fiber and a protective means. A method of mid-span accessing at least one optical fiber from a fiber optic distribution cable. A buffer tube transition piece operable for transitioning a plurality of preterminated optical fibers from a buffer tube into protective tubing.
摘要翻译: 一种具有至少一个预定访问位置的工厂制造的预先消除的光纤配线电缆,用于提供对至少一个预先终止的光纤的访问。 一种预先消除的光纤配线电缆,包括至少一个包括至少一个光纤的缓冲管,缓冲管过渡件,可操作用于将至少一个光纤从至少一个缓冲管转变成至少一个保护管; C- 其限定纵向延伸的光纤引导通道,其可操作用于存储所述至少一个预灭灭的光纤的长度和保护装置。 一种从光纤分配电缆中跨入到至少一根光纤的方法。 缓冲管过渡件,可操作用于将多个预先灭活的光纤从缓冲管转换成保护管。
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公开(公告)号:US07006739B2
公开(公告)日:2006-02-28
申请号:US10736394
申请日:2003-12-15
申请人: Robert B. Elkins, II , John B. Johnson , Terry L. Cooke , Dennis M. Knecht , James P. Luther , Lars K. Nielsen
发明人: Robert B. Elkins, II , John B. Johnson , Terry L. Cooke , Dennis M. Knecht , James P. Luther , Lars K. Nielsen
CPC分类号: G02B6/4475 , G02B6/4472 , G02B6/4495
摘要: A factory prepared fiber optic distribution cable has at least one predetermined access location for providing access to at least one pre-connectorized optical fiber. The fiber optic distribution cable includes at least one preterminated optical fiber withdrawn from a tubular body at the access location, a connector attached to the preterminated optical fiber, a transition piece for transitioning the preterminated optical fiber from the tubular body into a protective tube, and a protective shell encapsulating the access location for protecting the pre-connectorized optical fiber. Alternatively, the fiber optic distribution cable includes at least one preterminated optical fiber withdrawn from a tubular body, a transition piece for transitioning the preterminated optical fiber from the tubular body into a protective tube, a connector attached to the preterminated optical fiber, a plurality of cable centralizers, and a protective shell for encapsulating the access location and protecting the pre-connectorized optical fiber.
摘要翻译: 工厂制备的光纤配线电缆具有至少一个预定的访问位置,用于提供对至少一个预连接的光纤的访问。 所述光纤配线电缆包括至少一个从所述存取位置处从管状物体取出的预灭灭的光纤,连接到所述预先灭活的光纤的连接器,用于将所述预先灭活的光纤从所述管状体转变为保护管的过渡片;以及 封装用于保护预连接的光纤的存取位置的保护壳。 或者,光纤分配电缆包括从管状体抽出的至少一个预灭灭的光纤,用于将预灭灭的光纤从管状体转变成保护管的过渡片,连接到预灭灭的光纤的连接器,多个 电缆扶正器和用于封装接入位置并保护预连接的光纤的保护壳。
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4.发明授权公开(公告)号:US07016592B2
公开(公告)日:2006-03-21
申请号:US11104802
申请日:2005-04-13
申请人: Robert B. Elkins, II , Terry L. Cooke , John B. Johnson , Dennis M. Knecht , James P. Luther , Lars K. Nielsen
发明人: Robert B. Elkins, II , Terry L. Cooke , John B. Johnson , Dennis M. Knecht , James P. Luther , Lars K. Nielsen
CPC分类号: G02B6/4475 , G02B6/4472 , G02B6/4495
摘要: A factory prepared fiber optic distribution cable has at least one predetermined access location for providing access to at least one pre-connectorized optical fiber. The fiber optic distribution cable includes at least one preterminated optical fiber withdrawn from a tubular body at the access location, a connector attached to the preterminated optical fiber, a transition piece for transitioning the preterminated optical fiber from the tubular body into a protective tube, and a protective shell encapsulating the access location for protecting the pre-connectorized optical fiber. Alternatively, the fiber optic distribution cable includes at least one preterminated optical fiber withdrawn from a tubular body, a transition piece for transitioning the preterminated optical fiber from the tubular body into a protective tube, a connector attached to the preterminated optical fiber, a plurality of cable centralizers, and a protective shell for encapsulating the access location and protecting the pre-connectorized optical fiber.
摘要翻译: 工厂制备的光纤配线电缆具有至少一个预定的访问位置,用于提供对至少一个预连接的光纤的访问。 所述光纤配线电缆包括至少一个从所述存取位置处从管状物体取出的预灭灭的光纤,连接到所述预先灭活的光纤的连接器,用于将所述预先灭活的光纤从所述管状体转变为保护管的过渡片;以及 封装用于保护预连接的光纤的存取位置的保护壳。 或者,光纤分配电缆包括从管状体抽出的至少一个预灭灭的光纤,用于将预灭灭的光纤从管状体转变成保护管的过渡片,连接到预灭灭的光纤的连接器,多个 电缆扶正器和用于封装接入位置并保护预连接的光纤的保护壳。
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公开(公告)号:US07660504B2
公开(公告)日:2010-02-09
申请号:US12220266
申请日:2008-07-23
申请人: Robert R. Beshears , Dana C. Bookbinder , Terry L. Cooke , John B. Johnson , Dennis M. Knecht , Ming-Jun Li , Michael H. Rasmussen
发明人: Robert R. Beshears , Dana C. Bookbinder , Terry L. Cooke , John B. Johnson , Dennis M. Knecht , Ming-Jun Li , Michael H. Rasmussen
IPC分类号: G02B6/032
CPC分类号: G02B6/02333 , G02B6/02357 , G02B6/02376 , G02B6/3833 , Y10S977/762
摘要: Connectorized nano-engineered optical fibers and method for forming them are disclosed. The methods include heating a mid-span bare fiber portion of the nano-engineered fiber to substantially collapse the airlines therein so as to form a substantially airline-free portion. The fiber is then inserted into a ferrule channel so that the fiber end protrudes beyond the ferrule end face, but with the substantially airline-free portion positioned at the ferrule end face. The fiber is then cleaved at or near the ferrule end face in the substantially airline-free portion, and the new fiber end face polished to create a solid fiber end face that coincides with the ferrule end face. The methods result in relatively small changes to the mode field diameter (MFD) and/or to the outer cladding diameter.
摘要翻译: 公开了连接的纳米工程光纤及其形成方法。 所述方法包括加热纳米工程纤维的中跨裸露纤维部分以使其中的航空公司基本上折叠,以便形成基本上没有航空公司的部分。 然后将纤维插入到套圈通道中,使得纤维端突出超过套圈端面,但是基本上没有航空公司的部分位于套圈端面。 然后将纤维在基本没有空气的部分中的套圈端面处或附近切割,并且新的纤维端面被抛光以产生与套圈端面重合的固体纤维端面。 该方法导致模场直径(MFD)和/或外包层直径的相对小的变化。
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公开(公告)号:US07577330B2
公开(公告)日:2009-08-18
申请号:US12077694
申请日:2008-03-20
申请人: Robert R. Beshears , Dana C. Bookbinder , Terry L. Cooke , John B. Johnson , Dennis M. Knecht , Ming-Jun Li , Michael H. Rasmussen
发明人: Robert R. Beshears , Dana C. Bookbinder , Terry L. Cooke , John B. Johnson , Dennis M. Knecht , Ming-Jun Li , Michael H. Rasmussen
IPC分类号: G02B6/032
CPC分类号: G02B6/02333 , G02B6/02357 , G02B6/02376 , G02B6/25 , G02B6/3863 , Y10S977/762
摘要: Connectorized nano-engineered optical fibers and method for forming them are disclosed. The methods include heating a mid-span bare fiber portion of the nano-engineered fiber to collapse the airlines therein so as to form an airline-free portion. The fiber is then inserted into a ferrule channel so that the fiber end protrudes beyond the ferrule end face, but with the airline-free portion positioned at the ferrule end face. The fiber is then cleaved at or near the ferrule end face in the airline-free portion, and the new fiber end face polished to create a solid fiber end face that coincides with the ferrule end face. The methods result in at most only minimal changes to the mode field diameter (MFD) and/or to the outer cladding diameter, which is essential in forming a connectorized nano-engineered fiber that can connect to like-size nano-engineered or non-nano-engineered fibers.
摘要翻译: 公开了连接的纳米工程光纤及其形成方法。 这些方法包括加热纳米工程纤维的中跨裸露纤维部分以使航空公司在其中折叠,以形成无航空公司的部分。 然后将纤维插入到套圈通道中,使得纤维端突出超过套圈端面,但是空气线部分位于套圈端面。 然后将纤维在空气线路部分中的套圈端面处或附近切开,并且新的纤维端面被抛光以产生与套圈端面重合的实心纤维端面。 该方法最多只能对模场直径(MFD)和/或外包层直径进行最小的改变,这对于形成可连接到相似尺寸的纳米工程或非均匀纳米工程纤维的连接的纳米工程纤维至关重要, 纳米工程纤维。
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公开(公告)号:US20080273839A1
公开(公告)日:2008-11-06
申请号:US12077694
申请日:2008-03-20
申请人: Robert R. Beshears , Dana C. Bookbinder , Terry L. Cooke , John B. Johnson , Dennis M. Knecht , Ming-Jun Li
发明人: Robert R. Beshears , Dana C. Bookbinder , Terry L. Cooke , John B. Johnson , Dennis M. Knecht , Ming-Jun Li
CPC分类号: G02B6/02333 , G02B6/02357 , G02B6/02376 , G02B6/25 , G02B6/3863 , Y10S977/762
摘要: Connectorized nano-engineered optical fibers and method for forming them are disclosed. The methods include heating a mid-span bare fiber portion of the nano-engineered fiber to collapse the airlines therein so as to form an airline-free portion. The fiber is then inserted into a ferrule channel so that the fiber end protrudes beyond the ferrule end face, but with the airline-free portion positioned at the ferrule end face. The fiber is then cleaved at or near the ferrule end face in the airline-free portion, and the new fiber end face polished to create a solid fiber end face that coincides with the ferrule end face. The methods result in at most only minimal changes to the mode field diameter (MFD) and/or to the outer cladding diameter, which is essential in forming a connectorized nano-engineered fiber that can connect to like-size nano-engineered or non-nano-engineered fibers.
摘要翻译: 公开了连接的纳米工程光纤及其形成方法。 这些方法包括加热纳米工程纤维的中跨裸露纤维部分以使航空公司在其中折叠,以形成无航空公司的部分。 然后将纤维插入到套圈通道中,使得纤维端突出超过套圈端面,但是空气线部分位于套圈端面。 然后将纤维在空气线路部分中的套圈端面处或附近切开,并且新的纤维端面被抛光以产生与套圈端面重合的实心纤维端面。 该方法最多只能对模场直径(MFD)和/或外包层直径进行最小的改变,这对于形成可连接到相似尺寸的纳米工程或非均匀纳米工程纤维的连接的纳米工程纤维至关重要, 纳米工程纤维。
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公开(公告)号:US20080304796A1
公开(公告)日:2008-12-11
申请号:US12220266
申请日:2008-07-23
申请人: Robert R. Beshears , Dana C. Bookbinder , Terry L. Cooke , John B. Johnson , Dennis M. Knecht , Ming-Jun Li , Michael H. Rasmussen
发明人: Robert R. Beshears , Dana C. Bookbinder , Terry L. Cooke , John B. Johnson , Dennis M. Knecht , Ming-Jun Li , Michael H. Rasmussen
CPC分类号: G02B6/02333 , G02B6/02357 , G02B6/02376 , G02B6/3833 , Y10S977/762
摘要: Connectorized nano-engineered optical fibers and method for forming them are disclosed. The methods include heating a mid-span bare fiber portion of the nano-engineered fiber to substantially collapse the airlines therein so as to form a substantially airline-free portion. The fiber is then inserted into a ferrule channel so that the fiber end protrudes beyond the ferrule end face, but with the substantially airline-free portion positioned at the ferrule end face. The fiber is then cleaved at or near the ferrule end face in the substantially airline-free portion, and the new fiber end face polished to create a solid fiber end face that coincides with the ferrule end face. The methods result in relatively small changes to the mode field diameter (MFD) and/or to the outer cladding diameter.
摘要翻译: 公开了连接的纳米工程光纤及其形成方法。 所述方法包括加热纳米工程纤维的中跨裸露纤维部分以使其中的航空公司基本上折叠,以便形成基本上没有航空公司的部分。 然后将纤维插入到套圈通道中,使得纤维端突出超过套圈端面,但是基本上没有航空公司的部分位于套圈端面。 然后将纤维在基本没有空气的部分中的套圈端面处或附近切割,并且新的纤维端面被抛光以产生与套圈端面重合的固体纤维端面。 该方法导致模场直径(MFD)和/或外包层直径的相对小的变化。
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公开(公告)号:US07330629B2
公开(公告)日:2008-02-12
申请号:US11216767
申请日:2005-08-31
IPC分类号: G02B6/00
CPC分类号: G02B6/3897 , G02B6/3887 , G02B6/4471 , G02B6/4477
摘要: A bracket assembly includes a bracket including a flexible hinge, and a furcation assembly attached to the bracket.
摘要翻译: 支架组件包括支架,其包括柔性铰链,以及附接到支架的分叉组件。
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公开(公告)号:US07200316B2
公开(公告)日:2007-04-03
申请号:US10903746
申请日:2004-07-30
申请人: William J M Giraud , Hubert B. Beamon , Andrew G. Stanush , Terry L. Cooke , John B. Johnson , William R. Burnham , David C. Hall
发明人: William J M Giraud , Hubert B. Beamon , Andrew G. Stanush , Terry L. Cooke , John B. Johnson , William R. Burnham , David C. Hall
IPC分类号: G02B6/00
CPC分类号: G02B6/4452 , G02B6/3897 , G02B6/4455
摘要: A connector housing for a communications network includes a housing assembly having a front panel, a rear panel, a first side panel, a second side panel, a bottom panel, and a top panel. In one configuration, the connector housing includes a jumper management panel that is rotatable into at least two different positions relative to the top panel of the housing assembly. In another configuration, the connector housing has a splice shelf assembly. The splice shelf assembly is attached to the housing assembly and rotatable about a vertical axis relative to the housing assembly. Another configuration of the connector housing has at least one cable entry plate that is removably attached to a side panel of the housing assembly. Additionally, one strain relief assembly has a furcation plug of a cable assembly that is attachable to a mounting rail for securing the same.
摘要翻译: 用于通信网络的连接器壳体包括具有前面板,后面板,第一侧面板,第二侧面板,底板和顶板的壳体组件。 在一种配置中,连接器壳体包括跨接管理面板,其可相对于壳体组件的顶部面板旋转至少两个不同的位置。 在另一种构造中,连接器壳体具有接合架组件。 接合架组件附接到壳体组件并且可相对于壳体组件绕垂直轴线旋转。 连接器壳体的另一种构造具有至少一个电缆入口板,该电缆入口板可移除地附接到壳体组件的侧面板。 另外,一个应变消除组件具有电缆组件的分叉插头,该分支插头可连接到安装导轨上以固定它。
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