The invention relates to a panel holder for fastening a panel on a housing frame of a switchgear cabinet, wherein the panel holder is an open clip, which has two free push-in portions, which can be braced against one another for engagement in a recess of a housing frame, wherein the push-in portions are connected to one another by means of a fastening flange for a panel, said flange having a threaded passage, in particular a threaded bore, and wherein the fastening flange is arranged at a distance from one of the push-in portions and the threaded passage is arranged in alignment with the push-in portion, such that a screw screwed in through the threaded passage impinges on the push-in portion aligned with the threaded passage and thus braces the push-in portions against one another. A corresponding switchgear cabinet is also described.

The invention relates to a stabilizing arrangement for transporting a switch cabinet, with a switch cabinet which comprises a frame stand consisting of vertical and horizontal struts, and with a switch cabinet door fastened on a door side of the frame stand by at least one hinge, so that the switch cabinet door can be pivoted back and forth between an open position in which it is pivoted away from the door side and a closed position in which it rests on the door side, characterized in that at least one positive-locking part is fastened on the door side and which extends away from the door side with its free end and comprises an undercut on its free end, wherein the switch cabinet door comprises a positive receptacle into which receptacle the positive-locking part extends with its free end in the closed position and extends behind the undercut in the closed position.

An enclosure for electrical equipment is provided. The enclosure includes a frame, a first plate, and a first member coupled to the frame and configured to receive the first plate. The first plate is configured to receive a transformer, movable between a first position and a second position, at least partially supported by the first member when the first plate is in the first position, and offset from the first member when the first plate is in the second position.

A switch cabinet having a frame and a sidewall element mounted thereon, wherein the sidewall element is mounted on the frame via at least one latch lock, the latch lock having a latch and a latch receptacle one of which is fixed to the frame and the other of which is fixed to the sidewall element and which are accommodated in a volume which is open towards an outer side of the frame and which is delimited on the one hand by a folded profile edge of the frame and on the other hand, adjoining the folded profile edge on the outer side, by the sidewall element.

The present invention relates, in general, to switchgear cabinets comprising at least one switchboard having at least one base plate on which electrical switching elements are arranged and electrically interconnected. In this regard, the invention relates, in particular, to a method for manufacturing a switchgear cabinet of the said type. It is proposed to manufacture the switchgear cabinet or the electrical components thereof using three-dimensional printing technology to the greatest possible extent.

The STRUCTURAL PROFILE FOR ELECTRICAL CABINET comprises a profile that presents a front sealing area and is positioned in relation thereto at 90?, a side sealing area, an inner fixing wall, an inner fixing side, an inner fixing tab, an outer fixing wall, an outer fixing side and a central barrier.

WELDED BOARD AND ELECTRICAL CABINET STRUCTURE presents a cabinet built with welded frames that use vertical and horizontal profiles, having an internal fastening wall with holes and cutouts to the fitting of a cage nut and an internal fastening tab, a side sealing surface, a front sealing surface and the isolation barrier, the structure being assembled with at least two welded frames, which are assembled in parallel and joined through four depth profiles, said depth profiles being joined directly to the welded frames vertices.

A wall cavity electrical cupboard system is provided for allowing flush mounting with ready electrical access wiring that is received through holes of the cavity container and can feed along the circumferential channel and into holes of the template openings and can be connected to control means in the electrical mounting module mounted on the support brackets such as fuses, surge protectors, short circuit protection cutoffs etc. Only the front switches or indicators appear through cut outs. The channel and the template openings provide a benefit that the wiring therefore can be selectively moved around and readily connected without needing to line up the holes of the cavity container and the electrical container and with adjustability and safety of placing wiring connection behind the sealing protector plate covering the opening except for what is allowable to show through the cutouts and be mounted on the support brackets.

The invention relates to a method for machining at least one switchgear cabinet including: providing at least one switchgear cabinet which is constructed in several parts and comprises at least one detachably mounted component; disassembling and removing the detachably mounted component from the switch cabinet; machining the disassembled and removed component and providing the machined component for reassembly on the associated switch cabinet; and re-assigning the machined component provided for reassembly to the corresponding control cabinet,
wherein the at least one switch cabinet has an individual machine-readable switch cabinet identification and the at least one removably mounted component has an individual machine-readable component identification, which are assigned to one another, wherein re-assigning the component to the switch cabinet comprising machine-reading of the machine-readable identifications and bringing together the component and the switch cabinet which have the mutually assigned identifications.

The invention relates to a switch cabinet or rack or rack for receiving electrical energy storage units, in particular batteries, whereby the switch cabinet or the rack has a plurality of energy storage unit slots arranged above one another, so characterized in that the energy storage unit slots are formed by a plurality of grooves, whose longitudinal and slide-in direction extends in the depth direction of the switch cabinet or rack, whereby in each case a pair of grooves are set up on the opposite lying sides of the switch cabinet or rack at the same vertical height and with their open longitudinal side directed toward one another.