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    • 1. 发明授权
    • Fiber optic cable furcation assemblies and methods
    • 光纤分路组件及方法
    • US08155490B2
    • 2012-04-10
    • US12241491
    • 2008-09-30
    • Michael de JongPaul X. DevereauxJoshua D. RakerGerry J. Harvey
    • Michael de JongPaul X. DevereauxJoshua D. RakerGerry J. Harvey
    • G02B6/44G02B6/00
    • G02B6/4471
    • Furcation assemblies (100) for furcating a fiber optic drop cable (10) are disclosed. An example furcation assembly includes a furcation member (110) having an elongate furcation body (112) defining an axial channel (130) with a front section (132). The channel front section is configured to accommodate and be secured to either a buffer tube (30) of a buffered drop cable or a protective cover (20) of an unbuffered drop cable. A flexible guide (150) is secured to the furcation member back end. A flexible protection member (180) slidably fits within the guide back end and is telescopically adjustable relative thereto. To create a cable assembly (200) using the furcation assembly, the furcation member is secured to the drop cable so that the optical fiber (40) carried thereby is passed through the furcation member, through the guide and through the protection member to form an exposed fiber section. The fiber end (41) of the exposed fiber section is then connectorized with a connector (200) and the protection member is slid over the exposed fiber portion and is connected to the connector back end (214). Furcation assemblies and methods for handling multiple fibers are also disclosed.
    • 公开了用于使光纤分支电缆(10)分叉的分叉组件(100)。 示例性分叉组件包括具有限定具有前部(132)的轴向通道(130)的细长分叉体(112)的分叉构件(110)。 通道前部被配置为容纳并固定到缓冲液滴电缆的缓冲管(30)或无缓冲液滴电缆的保护罩(20)。 柔性引导件(150)固定到分叉构件后端。 柔性保护构件(180)可滑动地配合在引导后端内并相对于其可伸缩地调节。 为了使用分叉组件创建电缆组件(200),分叉构件被固定到分接电缆,使得由此携带的光纤(40)通过分叉构件穿过引导件并通过保护构件形成 露出纤维部分。 然后将暴露的光纤部分的光纤端部(41)与连接器(200)连接,并且保护部件在暴露的光纤部分上滑动并连接到连接器后端(214)。 还公开了用于处理多根纤维的分叉组件和方法。
    • 2. 发明申请
    • Fiber Optic Drop Cable Furcation Assemblies and Methods
    • 光纤电缆分线组件及方法
    • US20100220964A1
    • 2010-09-02
    • US12241491
    • 2008-09-30
    • Michael de JongPaul X. DevereauxJoshua D. RakerGerry J. Harvey
    • Michael de JongPaul X. DevereauxJoshua D. RakerGerry J. Harvey
    • G02B6/44
    • G02B6/4471
    • Furcation assemblies (100) for furcating a fiber optic drop cable (10) are disclosed. An example furcation assembly includes a furcation member (110) having an elongate furcation body (112) defining an axial channel (130) with a front section (132). The channel front section is configured to accommodate and be secured to either a buffer tube (30) of a buffered drop cable or a protective cover (20) of an unbuffered drop cable. A flexible guide (150) is secured to the furcation member back end. A flexible protection member (180) slidably fits within the guide back end and is telescopically adjustable relative thereto. To create a cable assembly (200) using the furcation assembly, the furcation member is secured to the drop cable so that the optical fiber (40) carried thereby is passed through the furcation member, through the guide and through the protection member to form an exposed fiber section. The fiber end (41) of the exposed fiber section is then connectorized with a connector (200) and the protection member is slid over the exposed fiber portion and is connected to the connector back end (214). Furcation assemblies and methods for handling multiple fibers are also disclosed.
    • 公开了用于使光纤分路电缆(10)分叉的分叉组件(100)。 示例性分叉组件包括具有限定具有前部(132)的轴向通道(130)的细长分叉体(112)的分叉构件(110)。 通道前部被配置为容纳并固定到缓冲液滴电缆的缓冲管(30)或无缓冲液滴电缆的保护罩(20)。 柔性引导件(150)固定到分叉构件后端。 柔性保护构件(180)可滑动地配合在引导后端内并相对于其可伸缩地调节。 为了使用分叉组件创建电缆组件(200),分叉构件被固定到分接电缆,使得由此携带的光纤(40)通过分叉构件穿过引导件并通过保护构件形成 露出纤维部分。 然后将暴露的光纤部分的光纤端部(41)与连接器(200)连接,并且保护部件在暴露的光纤部分上滑动并连接到连接器后端(214)。 还公开了用于处理多根纤维的分叉组件和方法。
    • 7. 发明申请
    • CABLE CLAMP ASSEMBLY AND METHOD FOR A FLAT FIBER OPTIC CABLE
    • 用于平板光纤电缆的电缆夹具组件和方法
    • US20130223808A1
    • 2013-08-29
    • US13407257
    • 2012-02-28
    • Gerry J. HarveyWilliam J. MillerBenjamin G. Whitener
    • Gerry J. HarveyWilliam J. MillerBenjamin G. Whitener
    • G02B6/44G02B6/46
    • G02B6/4471G02B6/4403G02B6/483
    • A cable clamp assembly and a cable clamp method for a flat fiber optic cable are disclosed. The assembly includes a wedge-shaped outer shell with a bottom wall having a friction inner surface with a longitudinal central recess formed therein. The flat fiber optic cable resides within the interior of the outer shell and is supported by the friction inner surface. A shim having two parallel rows of protrusions fits within the interior of the outer shell with the protrusions being in contact with the fiber optic cable. The assembly includes a wedge insert having two outer ridges that substantially align with the two rows of protrusions. When the wedge insert matingly engages the outer shell, the outer ridges press down on the protrusions, which in turn press down on the fiber optic cable mainly at the locations where longitudinal dielectric strength members reside.
    • 公开了一种用于扁平光缆的电缆夹组件和电缆夹紧方法。 组件包括楔形外壳,其具有底壁,所述底壁具有形成在其中的纵向中心凹部的摩擦内表面。 扁平光缆位于外壳的内部并由摩擦内表面支承。 具有两个平行的突起的垫片装配在外壳的内部中,突起与光纤电缆接触。 组件包括楔形插入物,其具有两个与两排突起物基本对准的外脊。 当楔形插入件配合地接合外壳时,外脊下压到突起上,突起又主要在纵向介电强度构件所在的位置压在光纤电缆上。
    • 9. 发明授权
    • Cable clamp assembly and method for a flat fiber optic cable
    • 扁平光纤电缆的电缆夹组件及方法
    • US08824852B2
    • 2014-09-02
    • US13407257
    • 2012-02-28
    • Gerry J. HarveyWilliam J. MillerBenjamin G. Whitener
    • Gerry J. HarveyWilliam J. MillerBenjamin G. Whitener
    • G02B6/00
    • G02B6/4471G02B6/4403G02B6/483
    • A cable clamp assembly and a cable clamp method for a flat fiber optic cable are disclosed. The assembly includes a wedge-shaped outer shell with a bottom wall having a friction inner surface with a longitudinal central recess formed therein. The flat fiber optic cable resides within the interior of the outer shell and is supported by the friction inner surface. A shim having two parallel rows of protrusions fits within the interior of the outer shell with the protrusions being in contact with the fiber optic cable. The assembly includes a wedge insert having two outer ridges that substantially align with the two rows of protrusions. When the wedge insert matingly engages the outer shell, the outer ridges press down on the protrusions, which in turn press down on the fiber optic cable mainly at the locations where longitudinal dielectric strength members reside.
    • 公开了一种用于扁平光缆的电缆夹组件和电缆夹紧方法。 组件包括楔形外壳,其具有底壁,所述底壁具有形成在其中的纵向中心凹部的摩擦内表面。 扁平光缆位于外壳的内部并由摩擦内表面支承。 具有两个平行的突起的垫片装配在外壳的内部中,突起与光纤电缆接触。 组件包括楔形插入物,其具有两个与两排突起物基本对准的外脊。 当楔形插入件配合地接合外壳时,外脊下压到突起上,突起又主要在纵向介电强度构件所在的位置压在光纤电缆上。