A modular high density communications chassis, comprising a chassis and slidable carrier module is provided. The chassis comprises a second track having a first and second stage access fixing recess and a sectional sliding mechanism having a moveable squeeze-release latching rail mechanism. The slidable carrier module comprises a push-pull tab and a snap-fit mechanism, and is slidably mounted to the second track and squeeze-release latching rail mechanism. The slidable carrier module is slidably mounted to the chassis vertically. The snap-fit mechanism is configured to secure and release the slidable carrier module in and from a first stage position when corresponding to the first stage access fixing recess, and in and from a second stage position when corresponding to the second stage access fixing recess, via pulling and pushing of the at least a push-pull tab, respectively, providing staged access to the slidable carrier module and staged management of the connector cables extending to and therefrom.

An assembly includes a ring frame having first and second open sides and an electrical connector block; a mounting structure to which the ring frame is secured; a plurality of power and signal cable connection points defined on the ring frame; and a plurality of power and signal cables coupled to the power and signal cable connection points and the connector block. First and second covers are secured to the ring frame. Each of the first and second covers is open on one side facing the ring frame and defines a mounting cavity. A plurality of heat-dissipating electronic components are mechanically and thermally coupled to the first and second covers and located in the mounting cavities. The heat-dissipating electronic components are releasably electrically coupled to the electrical connector block.

A utility cabinet includes a housing having an interior compartment, a rear wall, a top wall, a bottom wall, a first side wall, a second side wall, a front opening, and a side opening. A frame is connected to the housing and moveable between a first position where the frame is entirely in the housing and a second position where at least a portion of the frame is outside of the housing. The frame is configured to receive one or more utility components. A front door is connected to the housing and moveable between a closed position covering the front opening and an open position providing access to the front opening. A side door is connected to the housing and moveable between a closed position covering the side opening and an open position providing access to the side opening.

A locking mechanism for securing a computing device in an enclosure includes a jaw, a transmission lever, and an arm. The jaw is configured to abut a portion of the enclosure for holding the computing device. The transmission lever includes an arm pivot at one end and an actuating pivot at the opposite end. The arm is configured to rotate open and closed about the arm pivot and be selectively decoupled from the transmission lever. When the arm is coupled to the transmission lever, opening the arm causes the transmission lever to rotate open about the actuating pivot. Rotating open the transmission lever about the actuating pivot releases the jaw from the portion of the enclosure, and allows the computing device to be removed from the enclosure.

Certain types of aggregation enclosures include cable input ports and downwardly angled cable output ports. A cover is pivotally coupled to the body so that the cover moves between an open position and a closed position. A modular component panel may be disposed within the enclosure. The component panel includes one or more distribution components (e.g., fiber distribution components or power distribution components) configured to connect at least a portion of an incoming cable to at least a portion of an outgoing cable.

Described may be a modular network communication system for use in a foundational structure, for the inclusion of new foundational structure construction, or configured for mobility between different foundational structures. The network communication system may be configured to support a broad array of network-related communications. The foundational structure's modular network communication system may have a controller, a power connection point, a communication protocol, and may include one or more than one network node. The controller unit may have processing circuitry and may be configured to utilize a communication protocol for controlling the foundational structure's information flow of the modular network communication system. Additionally, the controller may be further configured to communicate with at least one, but also more than one network-connected device which may or may not be connected to the internet.

In accordance with some aspects of the disclosure, a modular telecommunications patch panel system is shown and described. The panel can include a mounting frame extending between a first end and a second end, the mounting frame defining a plurality of apertures for receiving telecommunications components, a first mounting ear forming a snap-fit connection with the mounting frame first end, in a first orientation, and a second mounting ear, identical to the first mounting ear, forming a snap-fit connection with the mounting frame second end, in a second orientation.

A closure (100/200) protects telecommunications circuitry from water and dust. The closure (100/200) includes a base (128) that has a sidewall (134) that extends upwardly from a bottom (118), and the sidewall (134) has at least one cable port (122/222). The closure (100/200) also includes a cover (126) that attaches to the base (128) to close an interior (130) of the closure (100/200). Further, a galvanic anode (124) is removably secured to the sidewall (134) of the base (128) of the closure (100/200) and electronic circuitry (132) is disposed within the interior (130) of the closure (100/200). The electronic circuitry (132) is active electronic circuitry.

A vertical column assembly including an intermediate distribution frame enclosure with an internal structure. The vertical column assembly also includes side panels, door assemblies, and a top cover assembly. The internal structure is hidden by the side panels, the door assemblies, and the top cover assembly. The vertical column assembly encases the network equipment installed within the internal structure.

In some implementations, a network device is provided. The network device includes a housing and a set of switch cards, mounted within the housing. The set of switch cards includes a first set of connectors. The network device also includes a set of line cards having a second set of connectors. The set of line cards are oriented parallel to each other and oriented orthogonally to the set of switch cards. The second set of connectors is coupled to the first set of connectors to couple the set of switch cards to the set of line cards. The network device further includes a first set of power supplies disposed along a left side of the housing and a second set of power supplies disposed along a right side of the housing.