Patent application number | Description | Published |
20090058018 | SEALING ASSEMBLIES FOR ELONGATE MEMBERS AND METHODS FOR USING THE SAME - A sealing assembly for providing an environmental seal about an elongate member includes a housing defining a passage to receive an elongate member, a flowable sealant disposed in the passage, a compression mechanism and a trigger mechanism. The compression mechanism includes a biasing member. The biasing member is configured to apply a compression load against the sealant and the compression mechanism is configured to force the sealant to flow about the elongate member to provide an environmental seal about the elongate member. The trigger mechanism is configured to selectively actuate the biasing member to apply the compression load to the sealant. | 03-05-2009 |
20090060445 | FIBER OPTIC CABLE CONTROL CLIPS AND ENCLOSURE ASSEMBLIES AND METHODS INCORPORATING THE SAME - An enclosure assembly for use with a fiber optic cable, the cable having a lengthwise cable axis and including a plurality of optical fibers and a jacket surrounding the optical fibers includes an enclosure housing and a cable control clip. The enclosure housing defines a chamber to receive the cable. The cable control clip is configured to be inserted through the cable to extend radially between the optical fibers and the jacket to limit contact between the optical fibers and one or more other components of the cable, and to limit displacement of the enclosure housing relative to the cable when the cable control clip is disposed in the chamber. | 03-05-2009 |
20090290844 | TAP-OFF CLOSURE SYSTEMS AND METHODS FOR USING THE SAME - A fiber optic cable connection assembly includes an enclosure housing and a fiber optic cable. The enclosure housing defines a chamber and a fiber handling region disposed in the chamber. The fiber optic cable has a lengthwise cable axis and including a plurality of cable optical fibers, a jacket surrounding the cable optical fibers and a strength member extending through the jacket. The cable includes an arcuately bent cable segment disposed in the chamber. The bent cable segment defines a cable plane and an interior region within the arc of the bent cable segment. At least one of the cable optical fibers extends fully through the enclosure housing uncut. The strength member extends fully through the enclosure housing uncut. The fiber handling region is disposed in the interior region. At least one of the cable optical fibers is removed from the bent cable segment and routed into the fiber handling region where at least a portion of the removed cable optical fiber is stored and/or spliced to another optical fiber. | 11-26-2009 |
20100054688 | CABLE STRAIN RELIEF CLAMPING DEVICES AND METHODS FOR USING THE SAME - A closure device for receiving a fiber optic cable includes an enclosure defining a splice chamber configured to accommodate splices to the plurality of optical fibers. The enclosure has a clamp receiving section therein. The closure device further includes a clamping device configured to concurrently secure the remaining portion of the jacket and the strength member at a same clamp interface of the clamping device. The clamping device is configured to be removably inserted into the clamp receiving section of the enclosure. The clamp receiving section is configured to fixedly limit movement of the clamping device relative to the enclosure when the clamping device is installed therein to secure the remaining portion of the jacket and the strength member secured in the clamping device to the enclosure. | 03-04-2010 |
20100054689 | Cable Clamping Devices and Methods for Using the Same - A closure device for receiving a fiber optic cable includes an enclosure defining a splice chamber configured to accommodate splices to the plurality of optical fibers. The enclosure has a clamp receiving section therein. The closure device further includes a clamping device including a closed end cavity that receives the strength member to limit buckling of a strength member of the cable inserted in the cavity. The clamping device is configured to be removably inserted into the clamp receiving section of the enclosure. The clamp receiving section is configured to fixedly limit movement of the clamping device relative to the enclosure when the clamping device is installed therein to secure the strength member secured in the clamping device to the enclosure. | 03-04-2010 |
20100142909 | FIBER OPTIC CABLE CONTROL CLIPS AND ENCLOSURE ASSEMBLIES AND METHODS INCORPORATING THE SAME - An enclosure assembly for use with a fiber optic cable, the cable having a lengthwise cable axis and including a plurality of optical fibers and a jacket surrounding the optical fibers includes an enclosure housing and a cable control clip. The enclosure housing defines a chamber to receive the cable. The cable control clip is configured to be inserted through the cable to extend radially between the optical fibers and the jacket to limit contact between the optical fibers and one or more other components of the cable, and to limit displacement of the enclosure housing relative to the cable when the cable control clip is disposed in the chamber. | 06-10-2010 |
20100239215 | Methods for Terminating Optical Fiber Cables - A fiber optic cable system includes a fiber optic main cable having a strength member and a plurality of optical fibers extending therein within an outer cable sheath. A flexible longitudinally extending inner housing is positioned proximate the plurality of optical fibers on a section of the main cable having the outer cable sheath removed. At least one fiber optic drop cable has at least one optical fiber having an end portion extending outwardly from an end of the drop cable. The end portion is spliced together with an end portion of a corresponding at least one severed end portion of one of the plurality of optical fibers of the main cable to define at least one spliced together fiber portion coupling at least one of the plurality of optical fibers of the main cable to a corresponding one of the at least one fiber of the drop cable. A longitudinally extending outer protective housing extends over the section of the main cable having the outer cable sheath removed and the inner housing and the strength member. The outer protective housing has a first opening receiving the main cable and a second opening, longitudinally displaced from the first opening, receiving the main cable and at least one of the openings receiving the drop cable or cables. | 09-23-2010 |
20110194830 | FIBER OPTIC CABLE CONTROL CLIPS AND ENCLOSURE ASSEMBLIES AND METHODS INCORPORATING THE SAME - An enclosure assembly for use with a fiber optic cable, the cable having a lengthwise cable axis and including a plurality of optical fibers and a jacket surrounding the optical fibers includes an enclosure housing and a cable control clip. The enclosure housing defines a chamber to receive the cable. The cable control clip is configured to be inserted through the cable to extend radially between the optical fibers and the jacket to limit contact between the optical fibers and one or more other components of the cable, and to limit displacement of the enclosure housing relative to the cable when the cable control clip is disposed in the chamber. | 08-11-2011 |
20110305422 | Cable Enclosure Systems, Plugs and Methods for Using the Same - An enclosure system for receiving a cable includes an enclosure having an inner chamber and an open position exposing the inner chamber and a closed position covering the inner chamber. A cable receiving port in a wall of the enclosure extends along a longitudinal axis from outside of the enclosure into the inner chamber. The cable receiving port is configured to receive a cable therein when the cable is advanced axially into the port without rotation of the cable when the enclosure is in the closed position. A mating member is associated with the cable receiving port that limits rotation of the cable when the cable is advanced axially into the port. An axial retention member is associated with the cable receiving port that limits axial movement of the cable out of the port when the cable is advanced axially into the port to a lock position. | 12-15-2011 |
20130287358 | Wall Outlet Having Enclosed Service Connection - The present disclosure relates to an access box including a pivotal mounting panel to which a fiber optic adapter is mounted. The access box also includes a removable faceplate and a cover panel pivotable relative to the faceplate such that when the cover panel is in a closed position, the cover panel is substantially parallel to the faceplate, and wherein when the cover panel is in an open position, the cover panel is at an angle to the faceplate. The access box further includes an access panel pivotably secured to the cover panel. The access panel is movable between a first access panel position where the access panel blocks access to the adapter, and a second access panel position where the access panel allows access to the adapter. | 10-31-2013 |
20130294739 | Cable Anchoring System for a Fiber Optic Enclosure - A cable sealing and cable anchoring system having a primary sealant assembly that includes a primary volume of sealant that defines a plurality of primary through-ports. The primary sealant assembly includes a primary actuator for pressurizing the primary volume of sealant. The cable sealing and cable anchoring system also has a secondary cable tube that mounts within one of the primary cable through-ports and a secondary cable sealant assembly that mounts within a first end of the secondary cable tube. The secondary cable sealant assembly includes a secondary sealant volume that defines a plurality of secondary cable through-ports. The secondary cable sealant assembly also includes a secondary actuator for pressurizing the secondary sealant volume. The cable sealing and cable anchoring system further has a cable anchoring assembly for anchoring a strength member of a secondary cable to the secondary cable tube. The cable anchoring assembly is supported by the secondary cable tube adjacent the second end of the secondary cable tube. | 11-07-2013 |