An electronic equipment enclosure includes a frame structure and a customizable side air dam kit. The frame structure includes a front frame, a rear frame, front-to-back frame members connecting corners of the front and rear frames together, reinforced bracket structures located near ends of the cross members, and extruded horizontal mounting rails parallel to, but inward from, the front-to-back frame members. The ends of the horizontal mounting rails are connected to the reinforced bracket structures. Panels are installed in longitudinal slots in the front-to-back frame members and horizontal mounting rails, each of which is extruded. The customizable side air dam kit includes a framework of horizontal and vertical frame pieces, adapted to connect to the frame structure, and a customizable air dam panel supported by the framework. A plurality of the frame pieces are provided to an installer for use in constructing the framework to fit the specific frame structure.

A power supply apparatus includes a plurality of power modules for receiving alternating current power to provide the power to a load; an uninterruptible supply module to supply self-power to the load; an inverter module installed on one side of the power modules or the uninterruptible supply module to convert the power and provide converted power to the load; direct current bus bars provided inside enclosures of the power modules, the uninterruptible supply module, and the inverter module, respectively; and a connection bus bar for connecting adjacent direct current bus bars, wherein in the power modules and the uninterruptible supply module, an alternating current/direct current converter or a direct current/direct current converter is provided in the upper portion of the direct current bus bar, or the alternating current/direct current converter or the direct current/direct current converter is provided in the lower portion of the direct current bus bar.

A cable support member for routing cables within a server cabinet, or other type of electrical enclosure, can have a base with a set of engagement members configured to removably engage with a corresponding set of apertures in a rack angle member of the server cabinet. A plurality of finger members can extend from the base to aid in routing the cables. A cable management system can include multiple sets of cable support members that define a channel through which cables can be routed, and a cover that can be hingedly mounted to the cable support members.

A drawer type installation for computer equipment within a computer infrastructure environment. A chassis is configured to contain computer equipment that is pre-cabled and coupled with a first connector. The chassis adapted to insert into a rack with a receiver chassis. The first connector operatively couples with a second connector that is connected with a second wiring to the computer infrastructure environment.

A wall panel system including a first wall panel, the first panel including at least a first panel hook portion. The system also including a second wall panel having a different configuration than the first wall panel. The second panel includes at least a second panel hook portion and a third panel hook portion opposing the second panel hook portion. The first wall panel is configured to engage with the second wall panel to create a wall panel assembly.

A modular high density communications chassis including a chassis, pull-out cable management system (POCMS), and at least two or more slidable carrier modules (carrier module(s)) is provided. The carrier modules are slidably mounted to the chassis and POCMS vertically, respectively. The POCMS is assembled to the chassis. In an operational position, ends of the carrier modules of the chassis extend outward from an access mounting opening of the chassis and ends of the carrier modules of the POCMS, alternately neighboring, lie flush with a plane of the access mounting opening. A handle of the POCMS is configured to move the POCMS from the operational position to a cable management position, whereby, the ends of the carrier modules of the POCMS extend past the ends of the carrier modules of the chassis, providing staged access to the carrier modules and staged management of connector cables extending to and therefrom.

A rack adapting device for an electronic equipment rack is disclosed. The electronic equipment rack is configured to house first electronic equipment modules having a first module width between left and right equipment supports laterally spaced apart from one another by a rack housing width corresponding to the first module width. The rack adapting device is configured to adapt the electronic equipment rack to house a plurality of second electronic equipment modules having a second module width and comprises: an adapter body; a plurality of rack-engaging features disposed on a first lateral side thereof and configured to engage rack mounting features of one of the left and right equipment supports; and a plurality of adapter mounting features disposed on a second lateral side such that, in use, the second electronic equipment modules are mounted between the rack adapting device and an other one of the left and right equipment supports.

The present disclosure describes an equipment rack for a telecommunications cabinet. The equipment rack allows a telecommunications cabinet to be reconfigured such that telecommunications equipment can be vertically mounted therein. The equipment rack includes a structural rail configured to be mounted within the telecommunications cabinet, an insert plate configured to fit within a cavity of the structural rail and be secured to the structural rail, and a bracket configured to be secured to the to the insert plate and configured such that a piece of telecommunications equipment can be mounted thereto.

Disclosed are methods and apparatus for a modular field switch rack.

A mounting kit adapted for a rail component is provided and includes a mounting base, a resilient component and an engaging structure. An accommodating slot is formed on a first end portion of the mounting base. The resilient component is a one-piece structure and detachably and partially accommodated in the accommodating slot. The engaging structure is formed on a second end portion of the mounting base. When the mounting kit is mounted on the rail component, the resilient component is resiliently deformed by the rail component and a wall of the accommodating slot, so as to drive the rail component to engage with the engaging structure along a vertical direction and to abut against a connecting portion of the mounting base for preventing shaking movements of the mounting kit relative to the rail component along the vertical direction and the horizontal direction. Besides, a related rail mounting system is provided.