会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • Cable Routing Guide With Cable Retainer
    • 带电缆固定器的电缆布线指南
    • US20110211801A1
    • 2011-09-01
    • US12715065
    • 2010-03-01
    • Daniel S. McGranahanManuel Alejandro Lopez SanchezOctavio Beltrán SalinasHarley J. StaberAntwan J. Works
    • Daniel S. McGranahanManuel Alejandro Lopez SanchezOctavio Beltrán SalinasHarley J. StaberAntwan J. Works
    • G02B6/00
    • G02B6/4452G02B6/4471
    • A cable routing guide having an arm with a first end and a second end is disclosed. The arm is adapted to attach the cable routing guide to a structure at the first end. A guide piece attaches to the arm at the second end. The guide piece has sides that enclose a passage adapted to receive at least one cable. The sides are concave, bowing toward the passage. The retainer is configured to maintain the at least one cable within the passage until the at least one cable is intentionally removed. The retainer has a retainer clip and/or a slot that allows the at least one cable to be received by the guide piece and to remain maintained within the guide piece until the at least one cable is intentionally removed. The slot may be at an angle to the longitudinal axis of the at least one cable. Additionally, the slot may be curvilinear or v-shaped. An attachment bracket connects to the first end of the arm. The attachment bracket may be connected at an angle to the longitudinal axis of the arm. The angle may be between about 0 degrees and 90 degrees. The cable routing guide may attach to the structure using the attachment bracket. A brace may be attached to the arm to support the cable routing guide.
    • 公开了具有具有第一端和第二端的臂的电缆布线引导件。 臂适于将电缆布线引导件附接到第一端的结构。 引导件在第二端连接到手臂。 引导件具有包围适于容纳至少一根电缆的通道的侧面。 侧面是凹的,朝向通道弯曲。 保持器构造成将至少一个电缆保持在通道内,直到有意地移除至少一根电缆。 保持器具有保持夹和/或狭槽,其允许至少一个电缆被引导件接收并保持保持在引导件内,直到有意地移除至少一个电缆。 槽可以与至少一根电缆的纵向轴线成一角度。 另外,槽可以是曲线形或v形的。 连接支架连接到手臂的第一端。 附接支架可以与臂的纵向轴线成一定角度连接。 该角度可以在约0度和90度之间。 电缆布线引导件可以使用附件支架附接到结构。 支架可以附接到臂以支撑电缆布线引导件。
    • 3. 发明授权
    • High density optical fiber distribution enclosure
    • 高密度光纤配线箱
    • US07936962B2
    • 2011-05-03
    • US12758458
    • 2010-04-12
    • Ronald L. MuddDaniel S. McGranahanGuy CastonguayAntwan J. Works
    • Ronald L. MuddDaniel S. McGranahanGuy CastonguayAntwan J. Works
    • G02B6/36
    • G02B6/4442
    • An optical fiber distribution enclosure includes a housing defining an interior, a first fiber distribution area disposed within an upper portion of the interior, a second fiber distribution area disposed within a lower portion of the interior and a signal splitting area disposed between the fiber distribution areas. A splitter module secured within the signal splitting area has a connectorized splitter input optical fiber and connectorized splitter output optical fibers. A fiber parking area is movably disposed within the lower portion adjacent the second fiber distribution area for temporarily storing splitter output optical fibers that are not routed to the fiber distribution areas. An input fiber distribution area disposed within the interior interconnects an optical fiber of a feeder cable with the splitter input optical fiber. The splitter output optical fibers are eventually routed to a fiber distribution area and interconnected with a corresponding optical fiber of a distribution cable.
    • 光纤配线箱包括限定内部的壳体,设置在内部上部的第一光纤分配区域,设置在内部下部的第二光纤分配区域和设置在光纤分配区域之间的信号分离区域 。 固定在信号分离区域内的分路器模块具有连接分离器输入光纤和连接器分离器输出光纤。 光纤停车区域可移动地设置在邻近第二光纤分配区域的下部内,用于临时存储未被路由到光纤分配区域的分离器输出光纤。 设置在内部的输入光纤分配区域将馈线电缆的光纤与分路器输入光纤相互连接。 分路器输出光纤最终路由到光纤分配区域并与分配电缆的相应光纤互连。
    • 4. 发明申请
    • High Density Optical Fiber Distribution Enclosure
    • 高密度光纤分配箱
    • US20100195970A1
    • 2010-08-05
    • US12758458
    • 2010-04-12
    • Ronald L. MuddDaniel S. McGranahanGuy CastonguayAntwan J. Works
    • Ronald L. MuddDaniel S. McGranahanGuy CastonguayAntwan J. Works
    • G02B6/00
    • G02B6/4442
    • An optical fiber distribution enclosure includes a housing defining an interior, a first fiber distribution area disposed within an upper portion of the interior, a second fiber distribution area disposed within a lower portion of the interior and a signal splitting area disposed between the fiber distribution areas. A splitter module secured within the signal splitting area has a connectorized splitter input optical fiber and connectorized splitter output optical fibers. A fiber parking area is movably disposed within the lower portion adjacent the second fiber distribution area for temporarily storing splitter output optical fibers that are not routed to the fiber distribution areas. An input fiber distribution area disposed within the interior interconnects an optical fiber of a feeder cable with the splitter input optical fiber. The splitter output optical fibers are eventually routed to a fiber distribution area and interconnected with a corresponding optical fiber of a distribution cable.
    • 光纤配线箱包括限定内部的壳体,设置在内部上部的第一光纤分配区域,设置在内部下部的第二光纤分配区域和设置在光纤分配区域之间的信号分离区域 。 固定在信号分离区域内的分路器模块具有连接分离器输入光纤和连接器分离器输出光纤。 光纤停车区域可移动地设置在邻近第二光纤分配区域的下部内,用于临时存储未被路由到光纤分配区域的分离器输出光纤。 设置在内部的输入光纤分配区域将馈线电缆的光纤与分路器输入光纤相互连接。 分路器输出光纤最终路由到光纤分配区域并与分配电缆的相应光纤互连。
    • 5. 发明授权
    • High density optical fiber distribution enclosure
    • 高密度光纤配线箱
    • US07702208B2
    • 2010-04-20
    • US11432570
    • 2006-05-11
    • Ronald L. MuddDaniel S. McGranahanGuy CastonguayAntwan J. Works
    • Ronald L. MuddDaniel S. McGranahanGuy CastonguayAntwan J. Works
    • G02B6/36
    • G02B6/4442
    • An optical fiber distribution enclosure includes a housing defining an interior, a first fiber distribution area disposed within an upper portion of the interior, a second fiber distribution area disposed within a lower portion of the interior and a signal splitting area disposed between the fiber distribution areas. A splitter module secured within the signal splitting area has a connectorized splitter input optical fiber and connectorized splitter output optical fibers. A fiber parking area is movably disposed within the lower portion adjacent the second fiber distribution area for temporarily storing splitter output optical fibers that are not routed to the fiber distribution areas. An input fiber distribution area disposed within the interior interconnects an optical fiber of a feeder cable with the splitter input optical fiber. The splitter output optical fibers are eventually routed to a fiber distribution area and interconnected with a corresponding optical fiber of a distribution cable.
    • 光纤配线箱包括限定内部的壳体,设置在内部上部的第一光纤分配区域,设置在内部下部的第二光纤分配区域和设置在光纤分配区域之间的信号分离区域 。 固定在信号分离区域内的分路器模块具有连接分离器输入光纤和连接器分离器输出光纤。 光纤停车区域可移动地设置在邻近第二光纤分配区域的下部内,用于临时存储未被路由到光纤分配区域的分离器输出光纤。 设置在内部的输入光纤分配区域将馈线电缆的光纤与分路器输入光纤相互连接。 分路器输出光纤最终路由到光纤分配区域并与分配电缆的相应光纤互连。
    • 7. 发明授权
    • High density fiber optic distribution frame
    • 高密度光纤配线架
    • US07006748B2
    • 2006-02-28
    • US10958906
    • 2004-10-05
    • Mark R. DagleyLee W. NoredAntwan J. WorksSaul L. RodolfoJon P. SegelhorstTuy T. NguyenWilliam J. M. GiraudDonald G. Davidson
    • Mark R. DagleyLee W. NoredAntwan J. WorksSaul L. RodolfoJon P. SegelhorstTuy T. NguyenWilliam J. M. GiraudDonald G. Davidson
    • G02B6/00
    • G02B6/4452
    • A high density fiber optic distribution frame includes a frame assembly, one or more left-hand connector module housings mounted on the frame assembly, one or more right-hand connector module housings mounted on the frame assembly and an Interbay Storage Unit (IBU) positioned on the frame assembly medially between the left-hand connector module housings and the right-hand connector module housings. Each connector module housing includes one or more connector modules having one or more adapters for interconnecting optical fibers between connector modules on the distribution frame or on an adjacent distribution frame in a communications network. The distribution frame is compatible with existing fiber optic connector housings, maintains the minimum bend radius of the optical fibers transitioned on the frame between connector modules, and reduces the length of a single length jumper employed on the frame. An alternative embodiment includes an Interbay Fiber Manager (IFM) for routing and storing additional jumpers.
    • 高密度光纤分配框架包括框架组件,安装在框架组件上的一个或多个左侧连接器模块外壳,安装在框架组件上的一个或多个右侧连接器模块外壳和定位的Interbay存储单元(IBU) 在左侧连接器模块壳体和右侧连接器模块壳体之间的框架组件上。 每个连接器模块壳体包括一个或多个连接器模块,其具有一个或多个适配器,用于在分配框架上的连接器模块或通信网络中的相邻分配框架之间互连光纤。 分配框架与现有的光纤连接器外壳兼容,保持在连接器模块之间的框架上过渡的光纤的最小弯曲半径,并减少框架上使用的单个长度跳线的长度。 替代实施例包括用于路由和存储附加跳线的Interbay光纤管理器(IFM)。
    • 9. 发明授权
    • Fiber optic equipment guides and rails configured with stopping position(s), and related equipment and methods
    • 光纤设备导轨和轨道配置​​有停止位置,以及相关的设备和方法
    • US08538226B2
    • 2013-09-17
    • US12576806
    • 2009-10-09
    • Elli Makrides-SaravanosKevin L. StrauseAntwan J. Works
    • Elli Makrides-SaravanosKevin L. StrauseAntwan J. Works
    • G02B6/00
    • G02B6/4455
    • 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。
    • 10. 发明申请
    • Fiber Optic Equipment Guides and Rails Configured with Stopping Position(s), and Related Equipment and Methods
    • 配置有停止位置的光纤设备指南和轨道以及相关设备和方法
    • US20100296791A1
    • 2010-11-25
    • US12576806
    • 2009-10-09
    • Elli Makrides-SaravanosKevin L. StrauseAntwan J. Works
    • Elli Makrides-SaravanosKevin L. StrauseAntwan J. Works
    • G02B6/00
    • G02B6/4455
    • 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。