Patent application number | Description | Published |
20100189404 | FIBER OPTIC ENCLOSURE - A fiber optic enclosure includes an enclosure having a base and a cover connected to the base. The base and the cover cooperate to define an interior region. The enclosure includes a tray mount disposed in the interior region. A plurality of fiber optic cable ports is mounted to the enclosure. A tray stack is mounted within the interior region of the enclosure. The tray stack includes a tray mounting plate assembly that is pivotally connected to the tray mount of the enclosure. The tray mounting plate assembly includes a tray mounting plate and a detent that engages the tray mount to selectively retain the tray stack in an opening position and a closed position. The tray stack further includes a plurality of trays mounted to the tray mounting plate. | 07-29-2010 |
20100284661 | SPLICE TRAY CLIP - A retention chip for a splice tray includes a body having a first sidewall and an oppositely disposed second sidewall. The first and second sidewalls cooperatively define a slot that is adapted to receive a loose tube of a fiber optic cable. The first sidewall includes at least one lateral retainer and an axial retainer. The lateral retainer includes a base and a free end. The base is fixed to the first sidewall and the free end extends toward the second sidewall. The axial retainer is oriented generally perpendicular to the lateral retainer. | 11-11-2010 |
20100290746 | DROP CABLE PASS-THRU FITTING - A cable pass-thru assembly includes a fiber optic cable and a pass-thru fitting. The fiber optic cable includes an optical fiber and a strength member. The pass-thru fitting is adapted to receive the fiber optic cable. The pass-thru fitting includes an outer sleeve and an inner sleeve. The outer sleeve includes a thru-bore. The inner sleeve is disposed in the thru-bore of the outer sleeve. The strength member is compressed between the inner sleeve and the outer sleeve. A method for inserting a fiber optic cable in a pass-thru fitting includes inserting a fiber optic cable through a thru-bore of an outer sleeve and a bore of an inner sleeve. A strength member of the fiber optic cable is wrapped about the inner sleeve. The outer sleeve is advanced over the inner sleeve so that the strength member is compressed between the outer sleeve and the inner sleeve. | 11-18-2010 |
20110013875 | FIBER OPTIC ENCLOSURE WITH ADAPTER BULKHEAD POSITIONED BENEATH PIVOTAL SPLICE TRAY - A fiber optic enclosure includes an enclosure and a tray stack. The enclosure includes a base and a cover connected to the base. The base and the cover cooperate to define an interior region. The tray stack is disposed in the interior region of the enclosure. The tray stack includes a plurality of trays and a tray mounting plate. The tray mounting plate has a mounting portion and an adapter bulkhead portion. The mounting portion is adapted to receive the plurality of trays. The adapter bulkhead portion is adapted to receive a fiber optic adapter. | 01-20-2011 |
20110091170 | FIBER DISTRIBUTION HUB AND CABLE FOR USE THEREWITH - A fiber distribution hub includes a swing frame pivotally mounted to an enclosure. The enclosure defines a cable port and at least a first interface region. The swing frame defines a splitter region, a termination region, and a storage region. Splitter modules can be oriented and positioned so that splitter pigtails extending from each of the splitter modules extend directly downwardly through a vertically extending channel. A cable clamp can be mounted to the enclosure at the cable port to secure one or more cables to the enclosure. | 04-21-2011 |
20110097052 | Fiber Access Terminal Mounted at a Mid-Span Access Location of a Telecommunications Cable - A fiber optic access terminal includes an enclosure defining a top side, a bottom side, a right side, a left side, and a main body with an open front side and a rear wall, the enclosure also including a front cover for opening and closing the open front side. A cable entrance/exit opening is positioned on the main body. At least one fiber optic adapter is mounted on the right side of the enclosure and at least one fiber optic adapter is mounted on the left side of the enclosure. Each of the right and left adapters extend rightwardly and leftwardly, respectively, from inside the enclosure toward the outside. The adapters also extend downwardly in a direction extending from the top of the enclosure toward the bottom. A cable management structure is defined between the right adapter and the left adapter, the cable management structure including a first spool that cooperates with the top side, the bottom side, the right side, and the left side to define a first space extending all the way around the first spool for managing fiber optic cables within the enclosure. | 04-28-2011 |
20110181158 | FIBER DISTRIBUTION ENCLOSURE - An optical fiber distribution assembly is disclosed. The assembly includes an enclosure formed by a circular base and a cover joined at a waterproof seal. The base includes openings configured to accept an input cable and an output cable. The assembly also includes an inner body formed by four panel members to define four quadrants. In one example, the inner body is formed by two panel members positioned perpendicularly to one another. Disposed on the inner body are plurality of cable management structures including: radius limiters, splice trays, splitters, terminations, and connector storage holders. | 07-28-2011 |
20120189260 | Fan-Out and Parking Module - The present disclosure relates to a telecommunications apparatus that includes a fan-out module main body adapted for connection to a rack. The telecommunications apparatus also includes a fan-out block attached to the fan-out module main body. The telecommunications apparatus also includes a multi-fiber cable segment. The multi-fiber cable segment includes first and second strength members. The first and second strength members are anchored to the fan-out block. The telecommunications apparatus further includes a plurality of pigtail cable segments each including a jacket containing one of the optical fibers and a plurality of flexible strength members positioned inside the jacket. The flexible strength members of the pigtail cable segments are anchored to the fan-out block, the optical fibers being fanned out from the multi-fiber cable segment to the pigtail cable segments within the fan-out block. The telecommunications apparatus also includes a plurality of single fiber connectors mounted to free ends of the pigtail cable segments. | 07-26-2012 |