A frame for explosion-proof housings. The frame is assembled from support elements. The support elements may be square tubes that are used as support elements, which are provided with elongated rectangular openings, which are closed by flameproof grilles that are welded on or fastened in another manner. The square tubes are joined to form a skeletal frame, which supports the housing structure (support frame). The metal plates may be stainless steel or aluminum, or plastic plates that are fastened to the outside of the frame by bonding and/or welding so that the housing is closed. Venting openings, which can be closed by the flameproof grilles, are provided in suitable locations of the housing, such as at the bottom or at the end faces. According to the present disclosure, thin wall thicknesses of the surface elements, for example plates, as well as large housing dimensions, while ensuring a flameproof enclosure, are made possible by means of the supporting and stabilizing support frame, which also helps to reduce the pressure.

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.

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 switch cabinet arrangement having at least one switch cabinet and at least one power strip, the power strip being fixed to a vertical profile inside the switch cabinet via an adapter, wherein the adapter is a hook-in adapter which has a first adapter part on the vertical profile and a second adapter part on the power strip, the power strip being hooked into the first adapter part on the vertical profile via the second adapter part.

The invention relates to a mounting plate arrangement with a switch cabinet frame and a mounting plate fastened thereto via at least one mounting plate holder, wherein the switch cabinet frame has a rectangular floor frame with four profile struts, which has on its outer side a fastening section offset relative to an outer sealing plane of the switch cabinet frame relative to the interior of the switch cabinet frame, wherein the mounting plate holder is formed in multiple parts, with a support bracket and with a base connected to the support bracket, wherein the support bracket is connected to the fastening section and to the mounting plate and the mounting plate stands on the base, and wherein the mounting plate holder with the base is placed on a profile side of one of the four profile struts extending between the sealing plane and the fastening section.

A bracket for coupling at least three frame members to one another may include a structural portion including at least one relatively rigid first material, and a sealing portion including at least one second material different than the at least one first material. The bracket may also include first, second, and third receivers, each including a retainer portion configured to be coupled to an end of a respective frame member, and a sealing interface configured to provide a substantially dirt-resistant and fluid-resistant seal between a portion of the end of the respective frame member and the respective receiver. The bracket and frame members may form a joint configured to be incorporated into a frame for forming a cabinet.

An arrangement of a switch cabinet base and a switch cabinet frame rack mounted thereon, wherein the switch cabinet base includes a plurality of base corner pieces fixed to the switch cabinet frame rack, and the switch cabinet frame rack including a plurality of profile struts, at least one profile strut of which includes a first mounting side with a row of holes of first mounting receptacles, and wherein at least one of the base corner pieces has a second mounting side with a row of holes of second mounting receptacles, wherein the first and second mounting receptacles are spaced apart by the same grid dimension.

A switch cabinet frame rack with multiple profile struts and a rectangular base frame, the underside of which is an outer side of the switch cabinet frame rack, which has at least one through-opening, wherein the through-opening is closed by a skid which is detachable mounted on the outer side.

The invention relates to a mounting plate arrangement with a switch cabinet frame and a mounting plate fastened thereto via at least one mounting plate holder, wherein the switch cabinet frame has a rectangular floor frame with four profile struts, which has on its outer side a fastening section offset relative to an outer sealing plane of the switch cabinet frame relative to the interior of the switch cabinet frame, wherein the mounting plate holder is formed in multiple parts, with a support bracket and with a base connected to the support bracket, wherein the support bracket is connected to the fastening section and to the mounting plate and the mounting plate stands on the base, and wherein the mounting plate holder with the base is placed on a profile side of one of the four profile struts extending between the sealing plane and the fastening section.

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.