The present disclosure discloses a telecommunications enclosure (1) and a method for coupling a cable (6) to a cable port (15) of the telecommunications enclosure (1). The latter comprises a casing (2) and a base (10) removably coupled to the casing (2). The base (10) comprises an outer structure (11) having an inner opening (12), and an inner assembly (130) comprising an inner structure (13), adapted to be removably inserted within the inner opening (12), and a plurality of sealing modules (14), each comprising a first part (14a) and a second part (14b). The outer structure (11) comprises a plurality of receiving portions (16) each having a recess (161) adapted to receive at least said first part (14a) of a respective sealing module (14) of the plurality of sealing modules (14). The base (10) is commutable between an assembled condition and a disassembled condition. In the assembled condition, the sealing modules (14), the inner structure (13) and the outer structure (11) are coupled to each other, the inner assembly (130) is inserted within the inner opening (12) of the outer structure (11) and, for each sealing module (14), at least said first part (14a) is received in the respective recess (161), the second part is coupled to the inner structure (13) and said first part (14a) and second part (14b) define a corresponding cable port (15). In the disassembled condition, at least part of the inner assembly (130) is removed from the inner opening (12) of the outer structure (13) to enable insertion of a cable (6) into the respective cable port (15). In both the assembled condition and disassembled condition, the plurality of receiving portions (16) of the outer structure (11) are connected to each other.

Rack mounting adapters with airflow management are disclosed. In one embodiment, rack mounting adapter apparatus comprises: a housing configured to adapt an electrical component chassis subrack configured for side-to-side airflow cooling to mount to an equipment rack; and an airflow management system within the housing that converts the side-to-side airflow cooling of the electrical component chassis subrack to a front-to-back airflow configuration that intakes air from a front of the equipment rack and exhausts air to a back of the equipment rack.

An apparatus may be configured to be mounted on a rack. The apparatus may include a communication component. The communication component may be used for communicating with a network device when the network device is mounted on the rack. The apparatus may include a storage device. The storage device may be used for storing information to be provided to the network device, via the communication component, when the network device is mounted on the rack.

The present disclosure describes a telecommunications equipment mount. The mount includes a stabilization frame having a bottom and at least three sides, the bottom and sides defining an open interior cavity, at least one mounting member perpendicular to one of the sides of the stabilization frame and extending outwardly from the side of the stabilization frame a distance, and at least one brace member. The at least one brace member includes a first bracket coupled to one side of the stabilization frame and configured to be secured to the at least one mounting member and a second bracket extending outwardly from the same side of the stabilization frame at an angle. A first end of the second bracket is coupled to a lower end of the first bracket and a second opposing end of the second bracket is configured to be secured to the at least one mounting member at a different location than the first bracket. The stabilization frame is configured to ballast the mount on a mounting structure when telecommunications equipment is secured to the mount. Telecommunications equipment mount assemblies are also described herein.

A cable management system includes a mounting bracket having a backing plate, two face mounts, and a panel, said face mounts each include an orifice and an aperture of different inner diameter, said panel includes a number of openings and a number of holes of different inner diameter, a extender bracket includes two walls and two end pieces secured together, said walls and said end pieces each include an eyelet and a piercing of different inner diameter, a fastening member includes a backing plate insert for engaging with said orifice of said face mounts and said eyelet of said walls and said end pieces of said extender brackets, a screw hole formed in said fastening member and formed through said backing plate insert, and an inner thread formed in said fastening member and spaced from said screw hole and said backing plate insert for engaging with bolts.

A symmetrical wall-mounted 2-piece cabinet for computer network equipment and in-building communication that can rotate for opening on the left or right by the same mechanism without having to change the pivot point is composed of a front piece functioning as the cabinet for holding computer network equipment, where the front piece of the cabinet has a door that can be opened or closed in accessing equipment from the front, and a back piece in the form of a robust structure functioning to attach the entire structure of the cabinet to the building wall. The invention helps the operator to turn the front piece of the cabinet using the operator's own strength, and reduces limitations in the installation of a cabinet in a wall-mounted fashion in a narrow space or building corner, while also enhancing usage safety and maintaining structural weight balance, which increases the usage life of the wall-mounted cabinet.

A data center, a rack information handling system (RIHS) delivery kit, and a method provide for removing an RIHS from and delivering an RIHS to a data center. The data center includes an enclosure having a raised floor and a lateral opening. The lateral opening has a bottom edge that is aligned with the raised floor in order to transfer a rack information handling system (RIHS) through the lateral opening for a selected one of: (i) removing the RIHSs from the raised floor; and (ii) delivering the RIHS to the raised floor. The data center includes a pallet interface coupled to or integrated into an exterior edge of the raised floor and vertically presented to abut and engage a lateral edge of a roll-off rack shock pallet that supports the RIHS during transport.

Various cellular base station ground component mounting systems are presented herein. Such a system can include a cellular component cabinet configured to house a plurality of components of a cellular base station. The cellular component cabinet can define cabinet mounting holes. Such a system can include a support structure that defines mounting holes that correspond to the cabinet mounting holes of the cellular component cabinet. The system can include a stabilization structure that defines earth anchor mounting holes configured to receive earth anchors to anchor the mounting platform to the ground.

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.

An integrated equipment platform with platform base, corner post, and roof- to support modular equipment rack/cabinets and power distribution and pre-wiring. The platform is designed to be transported fully assembled including equipment cabinets/racks and could also be used to deliver additional required site materials to site in a single shipment to the site to save costs. The integrated equipment platform can be field expanded by installing additional modular cabinets or equipment and or by connecting it to other integrated equipment platform expansion model.