The invention relates to a hinge for a switchgear cabinet housing, comprising a first and a second hinge half, which can be connected to each other by means of a hinge pin and which can be pivoted relative to each other about a longitudinal axis of the hinge pin, the hinge pin extending only into the first or the second hinge half in a release position and extending into both the first and the second hinge halves in a locking position, wherein the hinge pin is releasably locked by means of at least one spring clip both in the release position and in the locking position. The invention further relates to a corresponding switchgear cabinet housing and to a corresponding method for mounting a door element on a switchgear cabinet body.

An adjustable door hinge that includes a rack and pinion gear set that is adapted to adjust hinge alignment relative to a door frame/case. As the pinion gear is rotated, a set of gear racks acts as a set of tapered wedges that change the alignment of the hinge relative to the door frame/case. Once the desired alignment of the hinge is reached, hinge mounting screws can be tightened to releasably couple the assembly in the proper alignment/location.

The present disclosure relates to a telecommunications enclosures that can be customizable to include a hinge. That is, a separate hinge may be utilized as an add-on feature for telecommunications enclosures. The hinge can be attached to at least two different sides of an enclosure or may not be utilized at all. Such a configuration allows for flexibility of a variety of designs for a telecommunications enclosure. The hinge can be mountable to interfaces of first and second housing pieces of an enclosure. The hinge can have rotational features and/or translational features for pivoting first and second housing pieces of an enclosure between first and second positions.

An adjustable door hinge that includes a rack and pinion gear set that is adapted to adjust hinge alignment relative to a door frame/case. As the pinion gear is rotated, a set of gear racks acts as a set of tapered wedges that change the alignment of the hinge relative to the door frame/case. Once the desired alignment of the hinge is reached, hinge mounting screws can be tightened to releasably couple the assembly in the proper alignment/location.

A selectively lockable box may have a locking structure that may have a first bar, a second bar and a lock housing. The first and second bar engage with one another, and the lock, to lock the box. The first bar may be horizontally oriented to lock a box lid, and the second bar may be a vertically oriented to lock other access areas of the box.

A latching mechanism includes a latch housing comprising a plurality of standoffs, a mechanical energy storage component operatively coupled to the latch housing and a latch positioned inside the latch housing and operatively coupled to the mechanical energy storage component on a first side of the latch, the latch comprising a first opening positioned near the center of a body of the latch, a plurality of second openings positioned near the perimeter of the body of the latch and a ridge on a second side of the latch, wherein each of the plurality of standoffs protrude into a corresponding second opening of the plurality of second openings and wherein the latch moves in a lateral direction relative to the latch housing.

A hinged dead front for an enclosure of an electrical panelboard, said enclosure defined by a rear panel, an operative left side panel, an operative right side panel and a door, wherein the rear panel of said enclosure is provided with hinged mounting bracket assemblies on which said dead front is hingeably mounted; and latch stopping bracket assemblies configured to engage with locking elements fitted on said dead front.

A tool chest may include a base portion, two opposing sidewalls, a drawer portion and a lid. The sidewalls extend substantially parallel to each other on opposite sides of the base portion to define a tool repository between the sidewalls. The lid has a closed position covering a top of the tool chest, and an open position in which access is provided to the tool repository. The drawer portion is slidable to at least partially remove the drawer portion from the base portion. The drawer portion is automatically locked by closing the lid via a locking assembly that is operable configured to automatically unlock with the lid is open unless the locking assembly is retained in a locked position.

A hinge includes a first part disposed in a first member and a second part disposed on a second member. The first part includes a first curved part with an arc shape protruding to outside in a radial direction of a rotational center, and a second curved part disposed outside the first curved part in the radial direction of the rotational center with spacing from the first curved part with an arc shape along the first curved part. The second part includes a connection disposed between the first curved part and the second curved part, wherein the connection moves smoothly along the first curved part and the second curved part about the rotational center. The second part couples, with the first part, the first member and the second member together to allow the first member and the second member to relatively rotate about the rotational center.

The present disclosure is directed to a system for providing substantially 180 degrees, or more, of rotation between a sheet metal door mounted on a sheet metal sidewall of a chassis, relative to the chassis. The system includes a first and a second shaft passing through a module positioned between the door and the sidewall, whereby the door rotates about the two shafts, where the two shafts are not axially aligned. The chassis may hold sleds of a server, and the door may further comprise multiple linking modules, such that the sleds are coupled to the linking modules when the door is in a closed position, and the sleds are slid home within the chassis.