Patent application number | Description | Published |
20080273690 | Telecommunications Module and an Assembly Including at Least One Telecommunications Module - A telecommunications module ( | 11-06-2008 |
20080318479 | Plug in the Field of Telecommunications, an Assembly Including a Telecommunications Module and a Plug, and a Method of Manufacturing a Plug | 12-25-2008 |
20090152004 | CABLE CLOSURE END CAP - An end cap ( | 06-18-2009 |
20090253310 | TELECOMMUNICATIONS ASSEMBLY INCLUDING AT LEAST ONE TELECOMMUNICATIONS MODULE, A TEST BUS AND A KIT OF PARTS - A telecommunications assembly has three or more telecommunications contacts adapted to connect wires. One or more of the contacts are disposed in a first telecommunications module, and at least one first test bus ( | 10-08-2009 |
20100038130 | RE-ENTERABLE SPLICE ENCLOSURE - A re-enterable enclosure for a cable splice includes a first cover member and a second cover member configured for engagement with each other, and movable between an open position and a closed position. The first and second cover members form a cavity for enclosing the cable splice when the cover members are in the closed position. Internal walls in at least one of the first and second cover members are configured to define a sealant containment space that at least partially surrounds the cavity. At least one latch is configured to maintain the first and second cover members in the closed position, the at least one latch configured to exert a compression force along a line extending through the sealant containment space. | 02-18-2010 |
20100142899 | COMMUNICATION SOCKET - A communication socket comprises a housing including a base portion having a bottom wall and a plurality of sidewalls and a cover portion. The base portion and the cover portion are detachably engaged with each other. The base portion includes a plurality of knock-off holes for inserting an optical fiber at different positions in the sidewall and/or a plurality of fiber entries for inserting a fiber through the bottom wall. The fiber-connector-mounting portion extends from the base. Each of the fiber-connector-mounting portion includes a spacer for maintaining a fiber connector at a distance away from the bottom wall, and a space for inserting the fiber between the fiber connector and the bottom wall. The volume of the communication socket can be minimized, the integration thereof can be improved, the fiber can enter the communication socket in all directions while the fiber's bend radius is satisfied, and the management on the fiber and cable in the communication socket is effective. | 06-10-2010 |
20100310222 | SPLICE HOLDER FOR COMMUNICATION SOCKET - The present invention discloses a splice holder, which is used for holding at least one splicing sleeve ( | 12-09-2010 |
20100329624 | HIGH DENSITY FIBER DISTRIBUTION HUB - The present invention relates to a fiber distribution hub. The fiber distribution hub comprises a base case comprising at least one port portion for introducing an optical cable, wherein the optical cable includes a first fiber; a splitter case releasably attached to the base case; a splice tray rotatably hinged to the splitter case; and a cover engagable with the base case to enclose the splitter case and the splice tray. The first fiber is connected to a second fiber in the splice tray, and the second fiber is connected with a splitter in the splitter case to separate the second fiber into a plurality of separate third fibers. Thus, the invention provides a compact and modular fiber distribution hub. In addition, the fiber distribution hub can join optical fibers by mechanical splices, fusion splices and fiber optic connectors in a single unit. | 12-30-2010 |
20110019366 | EMBEDDED COMMUNICATION ENCLOSURE - Disclosed is an embedded communication enclosure for housing and supporting communication devices and communication cables, comprising: an enclosure body; a cable connecting member, provided within said enclosure body to connect communication cables, where an input cable from the exterior of the enclosure body is connected to a plurality of distribution cables to be brought out of the enclosure body; and a first door connected with the enclosure body, for opening and closing the front of the enclosure body, said first door comprising a second door embedded therein to provide access to the cable connecting member; wherein said cable connecting member is arranged to correspond to said second door in such a manner that said cable connecting member is exposed to outside when said second door is opened. With the embedded communication enclosure, a two-stage stage operating interface is achieved, so that communication devices and cables housed in the embedded communication enclosure will not be undesirably influenced or accessed during frequently changing and maintaining terminal jumpers. | 01-27-2011 |