Patent application number | Description | Published |
20090277681 | EXPANSION CROSS-CONNECT ENCLOSURE - An expansion cross-connect enclosure is disclosed. The expansion cross-connect enclosure includes a housing having a front, a rear, a top, a bottom, and left and right sides, the housing having a doorway at the front. The expansion cross-connect enclosure also includes a cross-connect panel detachably connected within the housing at the rear of the housing, and an access door covering the doorway, the access door pivotally connected across the front by a door hinge. The expansion cross-connect enclosure further includes cable access openings through the rear of the housing positioned to be aligned with horizontal cable access openings of an existing cross-connect enclosure. | 11-12-2009 |
20100316345 | FIBER OPTIC PANEL AND METHOD - A fiber optic panel is provided including a front, and a rearwardly extending base. The base includes cable management structure including cable management fingers, cable ties, cable spools. The front defines fiber optic termination locations, including front removable adapters. The front includes a front face panel mounted to a rear face panel to enclose the fiber optic adapters. | 12-16-2010 |
20110228473 | COMMUNICATIONS BLADED PANEL SYSTEMS - A fiber panel system includes a chassis including a backplane; and at least a first blade configured to mount to the chassis. The first blade is moveable relative to the chassis between a refracted (closed) position and at least one extended position. The first blade includes a coupler arrangement for connecting together media segments. The first blade remains electrically connected to the backplane of the chassis when moving between the retracted and extended positions. | 09-22-2011 |
20110267794 | COMMUNICATIONS BLADED PANEL SYSTEMS - A fiber panel system includes a chassis and at least blades configured to mount to the chassis. Each blade is moveable relative to the chassis between a retracted (closed) position and at least one extended position. Cable slack is managed at the front and/or rear of each chassis to facilitate movement of the blades without pulling or bending the cables beyond a maximum bend limit. Each blade may be locked into one or more positions relative to the chassis. | 11-03-2011 |
20120113613 | COMMUNICATIONS BLADED PANEL SYSTEMS - A fiber panel system includes a chassis and at least a first blade configured to moveably mount to the chassis. Each blade includes a base, a frame, and front couplers. The base of each blade defines at least one opening at a location spaced rearwardly from the front couplers. The front couplers may be smart or passive. | 05-10-2012 |
20120133524 | COMMUNICATIONS BLADED PANEL SYSTEMS - A fiber panel system includes a chassis including a backplane; and at least a first blade configured to mount to the chassis. The first blade is moveable relative to the chassis between a refracted (closed) position and at least one extended position. The first blade includes a coupler arrangement for connecting together media segments. Each blade includes a blade processor and a plurality of smart couplers. A chassis processor is electrically coupled to a processor port of the chassis backplane. | 05-31-2012 |
20120234778 | CABLE MANAGEMENT IN RACK SYSTEMS - A rack system includes one or more racks each configured to receive at least one distribution module. Each rack includes management sections located at the front of the rack; troughs located at the rear of the rack; horizontal channels extending between the management sections and the trough; a storage area located at a first of opposing sides of the rack; a front vertical channel that connects to the storage area and at least some of the management sections; and a travel channel at the rear of the first rack that connects the storage area to the troughs. | 09-20-2012 |
20140367161 | CABLE MANAGEMENT IN RACK SYSTEMS - A rack system includes one or more racks each configured to receive at least one distribution module. Each rack includes management sections located at the front of the rack; troughs located at the rear of the rack; horizontal channels extending between the management sections and the trough; a storage area located at a first of opposing sides of the rack; a front vertical channel that connects to the storage area and at least some of the management sections; and a travel channel at the rear of the first rack that connects the storage area to the troughs. | 12-18-2014 |