Patent application number | Description | Published |
20090004913 | High Density Patch Panel - A patch panel is disclosed. The patch panel includes a frame, a faceplate mountable into a rear side of the frame, and at least one modular jack mountable into a rear side of the faceplate. The frame has a plurality of faceplate openings, and the faceplate has a plurality of mounting opening. Each mounting opening has at least one modular jack retention latch. A method for assembling a patch panel is also disclosed. | 01-01-2009 |
20090038845 | PIVOTING STRAIN RELIEF BAR FOR DATA PATCH PANELS - A pivoting strain relief bar assembly that is comprised of a patch panel rotatably coupled to a strain relief bar, where the patch panel and strain relief bar are also coupled to a conventional rack capable of supporting telecommunications or other electronic equipment. Cables that are to be terminated to the patch panel are secured to and supported by the strain relief bar. The strain relief bar is capable of locking in a substantially horizontal position and thus remains fixed while supporting a large number of network cables. The strain relief bar can also be unlocked and rotated, allowing a technician to access the patch panel without having to unnecessarily disconnect cables. | 02-12-2009 |
20110106276 | Building Automation System - A building automation system is provided in which a controller is connected to remote modules through a zone enclosure using RS-485 cables. Branches of modules extending from the zone enclosure are connected together by removable jumpers at the zone enclosure. Sets of branches of modules using different protocols are isolated from each other. Shorts in the RS-485 cables can be determined by disconnecting and reconnecting the branches from the network. The zone enclosure has a patch panel that contains modular RS-485 connectors. An RS-485 cable from the controller and pulled through the building along with other data cables is connected to the RS-485 connectors at the back of the patch panel. The modules are connected to the RS-485 connectors at the front of the patch panel through RS-485 cables. | 05-05-2011 |
20110109213 | Fiber Tray - A fiber tray for managing and organizing fiber distribution is disclosed. The fiber tray includes a housing and a drawer received in the housing. The housing is secured to an equipment rack. The housing includes inner sides with a glide mechanism extending the length of each inner side. The glide mechanism includes a first end and a second end. The glide mechanism also includes at least one curved path located at one of the first end and the second end. The drawer includes a bottom, a first side, a second side, a front and a back. The first and second sides of the drawer have a pin. The pins extending from the sides of the drawer slide within the glide mechanism to enable the drawer to be retracted, extended or removed from the housing. | 05-12-2011 |
20120133510 | PHYSICAL INFRASTRUCTURE MANAGEMENT SYSTEM HAVING AN INTEGRATED CABINET - A data center physical infrastructure management system has a cabinet having rack spaces and a sensor. A data communication system transmits signals to a management database. Personal or automated intervention is determined algorithmically by a data processor. A human interface for the data center management system is provided. Removable electronic assets contained in the rack spaces each have an identifier tag. An identifier tag reader is installed on the cabinet body. A door sensor provides a signal responsive to whether a cabinet door is closed, open, locked, or unlocked. Also, a secure contact arrangement has a base terminal formed of electrically conductive material, and first and second electrically conductive elements. A resilient non-conductive element is interposed between the first and second electrically conductive elements, and a compression element compresses the resilient non-conductive element to cause the first and second electrically conductive elements to communicate with one another. | 05-31-2012 |
20130169136 | FIBER TRAY - A fiber tray for managing and organizing fiber distribution is disclosed. The fiber tray includes a housing and a drawer received in the housing. The housing is secured to an equipment rack. The housing includes inner sides with a glide mechanism extending the length of each inner side. The glide mechanism includes a first end and a second end. The glide mechanism also includes at least one curved path located at one of the first end and the second end. The drawer includes a bottom, a first side, a second side, a front and a back. The first and second sides of the drawer have a pin. The pins extending from the sides of the drawer slide within the glide mechanism to enable the drawer to be retracted, extended or removed from the housing. | 07-04-2013 |
20130342091 | Server Cabinet - A frame for a cabinet is provided. The frame includes a side-to-side beam, a front-to-back beam connected to the side-to-side beam, and a vertical post connected to the side-to-side beam. The front-to-back beam is inset relative to the vertical post to form a cable-routing area along a side of the frame. | 12-26-2013 |
20140363992 | Physical Infrastructure Management System Having an Integrated Cabinet - A data center physical infrastructure management system has a cabinet having rack spaces and a sensor. A data communication system transmits signals to a management database. Personal or automated intervention is determined algorithmically by a data processor. A human interface for the data center management system is provided. Removable electronic assets contained in the rack spaces each have an identifier tag. An identifier tag reader is installed on the cabinet body. A door sensor provides a signal responsive to whether a cabinet door is closed, open, locked, or unlocked. Also, a secure contact arrangement has a base terminal formed of electrically conductive material, and first and second electrically conductive elements. A resilient non-conductive element is interposed between the first and second electrically conductive elements, and a compression element compresses the resilient non-conductive element to cause the first and second electrically conductive elements to communicate with one another. | 12-11-2014 |