An electrical enclosure for an electrical device or instrument includes an enclosure body defining an interior that receives the electrical device or instrument, the enclosure body including a back wall. A mounting foot is disposed outside the enclosure body and attached to the back wall. The mounting foot includes a generally planar body defining a mounting fastener opening that receives a fastener to secure the mounting foot to a wall or other support structure. A panel fastener is attached to and extends forward from the mounting foot, through the back wall, and into the interior of the enclosure body. The panel fastener is used to secure an internal panel to the enclosure body within the interior of the enclosure body.

An electrical enclosure for an electrical device or instrument includes an enclosure body defining an interior that receives the electrical device or instrument, the enclosure body including a back wall. A mounting foot is disposed outside the enclosure body and attached to the back wall. The mounting foot includes a generally planar body defining a mounting fastener opening that receives a fastener to secure the mounting foot to a wall or other support structure. A panel fastener is attached to and extends forward from the mounting foot, through the back wall, and into the interior of the enclosure body. The panel fastener is used to secure an internal panel to the enclosure body within the interior of the enclosure body.

Device for securing an object on a rail, having an elongated base body which may be placed transversely on the rail and which at one end comprises an integrated actuating element which, when actuated by a user, moves opposing latching hooks which are integrated in the actuating element and are suitable for engaging behind the rail, in opposite directions.

An interlock system includes a number of lock assemblies and a number of keys. Each key is associated with at least one lock assembly. The number of lock assemblies includes a number of actuator lock assemblies and a number of multi-purpose lock assemblies. The number of keys includes a number of actuator keys and a number of multi-purpose keys. At least one lock assembly is operatively coupled to a reliable indicator.

A bus bar system having at least one bus bar which is accommodated in a contact-protection housing in a contact-protection manner and in an accessible manner via contacting passages for electrical devices and/or device adapters, the contact-protection housing having a lower part and an upper part which is detachably fixed on the lower part and between which the at least one bus bar is held, wherein the upper part has, on its side facing the lower part, a plurality of plug-in receptacles extending from the latter into the lower part, and the lower part has at least one slide with at least one latching pawl which can be adjusted between a locking position, in which the at least one latching pawl engages in the plug-in receptacle, and a release position, in which the at least one latching pawl is positioned in front of the plug-in receptacle. A corresponding method is further described.

A bus bar system having at least one bus bar which is accommodated in a contact-protection housing in a contact-protection manner and in an accessible manner via contacting passages for electrical devices and/or device adapters, the contact-protection housing having a lower part and an upper part which is detachably fixed on the lower part and between which the at least one bus bar is held, wherein the upper part has, on its side facing the lower part, a plurality of plug-in receptacles extending from the latter into the lower part, and the lower part has at least one slide with at least one latching pawl which can be adjusted between a locking position, in which the at least one latching pawl engages in the plug-in receptacle, and a release position, in which the at least one latching pawl is positioned in front of the plug-in receptacle. A corresponding method is further described.

A touch protected busbar system (TP-BSYS) comprising at least one hybrid busbar (1) having a current-carrying rail profile (2) and a contact-receiving rail profile (3) providing contact openings (4) configured to receive protruding electrical contacts (6) of electrical devices (ED-A) to be connected to said touch protected busbar system (TP-BSYS), wherein the at least one hybrid busbar (1) is at least partially covered by electrical isolating touch protection elements (TPE) of said touch protected busbar system (TP-BSYS) and/or at least partially encapsulated by an electrical isolating layer.

For protecting wildlife from high voltage conductors, dielectric covers are used to cover fuse cutouts, bushings, solid-blade disconnects, lightning arrestors, or other high voltage components. To increase a vertical surface distance between the top of the cover and the bottom of the cover, a plurality of protruding skirts are molded into the cover. The cover is formed of two molded halves, which are later affixed together. To prevent water entering the junction between the two halves, one half is formed with a lip that overlaps the edge of the other half. Retaining pins secure the cover in place.

A hybrid busbar (1) for a busbar system, said hybrid busbar (1) comprising a current carrying rail profile (2) adapted to carry an electrical current with a predefined high current amplitude and at least one contact receiving rail profile (3) having a plurality of equally spaced contact openings (4) configured to receive protruding electrical contacts (6) of electrical devices (ED-A) to be connected to said busbar system, wherein the current carrying rail profile (2) and the contact receiving rail profile (3) are connected with each other to form said hybrid busbar (1) providing at least one bounding geometry with a rectangular cross section (CS), wherein the hybrid busbar (1) can be engaged from behind by hook-shaped mounting latches (7) of electrical devices (ED-B) to be connected to said busbar system.

Power busbar system for connecting devices having at least one contact protection baseplate module for receiving elongated and electrically conductive power busbar modules each having a plurality of uniformly spaced contact openings of a contact opening array, wherein electrical connecting contacts of a device to be connected are configured to be inserted into the contact openings of the contact opening array of the electrically conductive power busbar modules for producing an electrical and mechanical connection.