A bus power distribution micromodule, including a UPS; a channel door containing a bus starting end A; and at least one cabinet containing a bus section A1 or A2, wherein an input end of the bus starting end A is connected to the UPS, an output end thereof is connected to the bus section A1 or A2 by means of a connector, and the bus section A1 or A2 is disposed in the cabinet and connected to a power distribution apparatus of the cabinet. In the bus power distribution micromodule, a plug-and-play property, easy expansion and IT load flexible matching of the cabinet are realized; the bus starting end is integrated in the channel door of the micromodule, thereby facilitating convenient maintenance and operation; the beneficial effect of having a small, occupied area is achieved; and, moreover, the bus power distribution micromodule has the advantage of rapid delivery.

The invention relates to a connection arrangement which comprises a first and a second switchgear cabinet framework which each have a rectangular, lateral profile frame composed of two vertical struts and two horizontal struts, wherein the profile frames are connected to one another via an aligning connector, wherein the switchgear cabinet frameworks adjoin one another via outer sealing edges of the profile frames, wherein the outer sealing edges are arranged on the respective free end of a sealing web of the profile frame, wherein a fastening flange is bent off from each of the sealing webs so as to be set back from the outer sealing edge, with the result that the opposite fastening flanges delimit between them a receptacle for an aligning connector for the profile frames, which receptacle is further delimited by the adjoining sealing webs and, where appropriate, a sealing element arranged between the sealing webs, and wherein an aligning connector is arranged in the receptacle and is secured to the opposite fastening flanges.

The invention relates to a switch cabinet comprising a square rack consisting of four vertical profiles and eight horizontal profiles, wherein four of the profiles form the rectangular profile frame and two of the four profiles forming the profile frame and extending in parallel to one another each include a first fastening profile side having a first row of fastening mounts spaced apart from one another while maintaining a constant grid dimension, wherein the first fastening profile sides are situated in a common plane and mounted on these two first fastening profile sides is a first interior structural component extending between the parallel profiles, which includes a mounting side having a second row of fastening mounts, which extend perpendicularly to the first row, wherein the second row of fastening mounts is arranged in the direction of extension of the first row of fastening mounts while maintaining the grid dimension of the first row of fastening mounts.

A fastener retainer for one or more thumb nuts. The fastener retainer includes a retainer body including a first retaining surface and a second retaining surface opposed to the first retaining surface and configured to form an open-sided retaining feature that allows a thumb nut to rotate therein and translate along an axial axis, yet restrains the thumb nut from lateral motion and allows finger and thumb access via side openings of the open-sided retaining feature to turn the thumb nut. Enclosure assemblies, thumb nut retainer assemblies, and methods of connecting enclosures are disclosed, as are other aspects.

An enclosure used to mount electrical equipment. The enclosure includes a wall mount section, a center section pivotally attached to the wall mount section along one side, and a latch mechanism securing the opposite side of the center section to the wall mount section. The latch mechanism is accessible only from the front of the enclosure. The latch mechanism has a front latch support, a rear latch support, a cam latch, and an actuation rod. The actuation rod extends through the front latch support and the rear latch support and is secured to the cam latch. The latch mechanism secures the wall mount section to the center section.

A fastener retainer for one or more thumb nuts. The fastener retainer includes a retainer body including a first retaining surface and a second retaining surface opposed to the first retaining surface and configured to form an open-sided retaining feature that allows a thumb nut to rotate therein and translate along an axial axis, yet restrains the thumb nut from lateral motion and allows finger and thumb access via side openings of the open-sided retaining feature to turn the thumb nut. Enclosure assemblies, thumb nut retainer assemblies, and methods of connecting enclosures are disclosed, as are other aspects.

Provided is a module replacement device of a high voltage direct current transmission system. In the device, a replacement base is provided in a structure by using a support member such that a sub-module movably provided at a fixing base of the structure can be replaced by being withdrawn outside of the structure. Further, the replacement base can easily and firmly be provided in the structure such that the module can be replaced in an easy and safe manner.

A switchgear cabinet system, which is assembled from switchgear cabinet units strung together in a row, each switchgear cabinet unit comprising a rack which is made up of frame profiles, in which at least the vertical frame profiles have the following features: the frame profile is mirror symmetrical with respect to a cross-sectional diagonal; the frame profile has profile sides that form the outer sides of the rack; projecting outward from the profile sides are profile projections, each extending outward from one of the profile sides; when two racks are strung together, corresponding profile projections of two frame profiles are situated mirror symmetrically opposite one another in each case, leaving a gap between the end faces of the profile projections, which is closed by a seal, characterized in that the seal is a push-on seal that is seated on at least one of the opposing profile projections.

Switchgear includes a duct by which inside portions of a plurality of cable compartments are linked each other; and a gas flow direction restriction device by which high-pressure gas is flowed only in a predetermined direction in the duct when the high-pressure gas is generated at the inside of any of the cable compartments in the plurality of cable compartments; in which the high-pressure gas can be ejected from a predetermined portion of the switchgear to the outside without increasing outer dimensions of the switchgear in accordance with an internal fault in the cable compartments.

The present disclosure may include a base frame; a transformer panel module having a main frame and a transformer disposed at an upper side of the base frame; a high voltage panel module having a high voltage enclosure coupled to one side of the main frame and a high voltage switch mounted within the high voltage enclosure; and a low voltage panel module having a low voltage enclosure coupled to the other side of the main frame and at least one of a breaker and a fuse mounted within the low voltage enclosure, thereby having an advantage of facilitating a service work for maintenance on the transformer panel module, high voltage panel module and low voltage panel module as well as minimizing a service time.