A hinge mechanism (10) for pivotally coupling a door (12) to a telecommunications chassis (14) includes an outer hinge arm (46) configured to be pivotally attached with respect to the chassis (14) and an inner hinge arm (48) configured to be pivotally attached with respect to both the outer hinge arm (46) and the door (12) of the chassis (14). The hinge mechanism (10) is configured such that when the door (12) is fully closed, the outer and inner hinge arms (46, 48) are generally vertically overlapped, and when the door (12) is fully open, the outer and inner hinge arms (46, 48) are generally at a perpendicular angle with respect to each other.

A telecommunications enclosure having a door hingedly attached to a chassis. The chassis has a first through-hole configured to have at least one patching panel installed therein. A different enclosure, like the telecommunications enclosure, is mountable on the door. The door is rotatable relative to the chassis between closed and open positions when the different enclosure is mounted thereto. The door allows access to an interior of the chassis when the door is in the open position. The chassis and/or the door may have a second through-hole configured to allow a telecommunications cable connected to the at least one patching panel to pass therethrough and exit the interior of the chassis.

An enclosure for telecommunications equipment suitable for below grade use with fiber optic equipment or electrical equipment is described. The enclosure incorporates a cam operated latching mechanism and compression plates to seal the door closed and create a water resistant or water tight seal. The enclosure may be used in a variety of applications, including above and below grade. The enclosure may also include a lift assist system to allow it to be easily raised and lowered from a below grade stowed position to an above grade service position.

A hinge mechanism (10) for pivotally coupling a door (12) to a telecommunications chassis (14) includes an outer hinge arm (46) configured to be pivotally attached with respect to the chassis (14) and an inner hinge arm (48) configured to be pivotally attached with respect to both the outer hinge arm (46) and the door (12) of the chassis (14). The hinge mechanism (10) is configured such that when the door (12) is fully closed, the outer and inner hinge arms (46, 48) are generally vertically overlapped, and when the door (12) is fully open, the outer and inner hinge arms (46, 48) are generally at a perpendicular angle with respect to each other.

An information handling system routes cables from a chassis interior to a chassis exterior through a cable channel defined in the housing and having airflow managed by a blocking element biased to a closed position. As cable configurations change, the blocking element adapts to fit cables through the cable channel in a compact manner that minimizes cooling airflow escape through the cable channel. Automated adjustments to a cooling fan profile based upon a predicted cable configuration and associated airflow help to ensure adequate cooling as airflow characteristics change due to the presence of cables and an expected position of the blocking element.

An example cable management cover is provided. The cover includes a panel defining a first side edge and a second side edge opposing the first side edge. The cover includes first and second handles slidably coupled to the respective first and second side edges of the panel. The cover includes a first pair of pins associated with the first handle and movable with the first handle during sliding of the first handle along the first side edge. The cover includes a second pair of pins associated with the second handle and movable with the second handle during sliding of the second handle along the second side edge. The first pair of pins define a first axis of rotation about which the cable management cover is rotatable, and the second pair of pins define a second axis of rotation about which the cable management cover is rotatable.

An equipment cabinet with a movable stile is disclosed herein. In an exemplary embodiment, the equipment cabinet comprises a housing body defining a front opening, independently operable first and second doors, and a movable stile positioned within the front opening and between the first and second doors. First and second sealing pads are positioned between the movable stile and the housing body when the movable stile is in a closed position. First and second sealing gaskets, respectively, are attached to interiors of the first and second doors, where at least a portion of each of the first and second sealing gaskets are positioned between the movable stile and the first or second doors when the first and second doors are closed. Thus, the equipment cabinet has independently operable doors and facilitates increased access to an interior of the equipment cabinet while maintaining an environmental seal.

A noise reduction door related to a noise reduction device in order to resolve a problem that the noise reduction door cannot meet a requirement for different noise reduction effects and different air duct resistance. The noise reduction door includes a T-shaped mechanical part, two fan-shaped mechanical parts, and a door plate. The T-shaped mechanical part and the fan-shaped mechanical part are connected to the door plate using a detachable connection mechanical part. The T-shaped mechanical part is located on a central axis of the door plate, and the two fan-shaped mechanical parts are respectively located on two sides of the T-shaped mechanical part. Therefore, the fan-shaped mechanical part on the door plate may be changed to have different installation positions and installation manners in order to obtain noise reduction doors in different forms. The embodiments of the present disclosure are applied in cabinet noise reduction.

A hinge mechanism (10) for pivotally coupling a door (12) to a telecommunications chassis (14) includes an outer hinge arm (46) configured to be pivotally attached with respect to the chassis (14) and an inner hinge arm (48) configured to be pivotally attached with respect to both the outer hinge arm (46) and the door (12) of the chassis (14). The hinge mechanism (10) is configured such that when the door (12) is fully closed, the outer and inner hinge arms (46, 48) are generally vertically overlapped, and when the door (12) is fully open, the outer and inner hinge arms (46, 48) are generally at a perpendicular angle with respect to each other.

ASSEMBLY AND CONTROL SYSTEM FOR ACCUMULATORS IN WORKSTATIONS, presenting a system intended for battery control in radio-base stations rack comprising a processing center which controls a switching system, batteries, electromagnetic locks and sensors, in order to prevent non-authorized actions of such batteries inside the racks from occurring.