A switching device is provided. The switching device includes a housing including a base and a switching device cover coupled to the base, a line side terminal positioned on a line side of the housing, a load side terminal positioned on a load side of the housing, wherein the line side is opposite the load side, a first terminal cover coupled to the switching device cover proximate the line side, and a second terminal cover coupled to the switching device cover proximate the load side, wherein the first terminal cover is movable between a closed position and an open position, wherein the first terminal cover is attached to said switching device cover in both the closed and open positions, and wherein the second terminal cover is attached to the switching device cover in both the closed and open positions.

A mounting adapter is provided for at least one electrical switch having outlets for switching gases on an output side and/or an input side thereof. The at least one electrical switch can be mounted from the upper side of the mounting adapter and the mounting adapter can be securely mounted in a switch cabinet. The switching gases of an electrical switch mounted in the mounting adapter are guided from the output side and/or the input side in exhaust gas channels to a respective side/underside of the mounting adapter and can exit the mounting adapter from there. A switch cabinet includes the mounting adapter.

An exhaust gas module for an electrical switch, which has outlets for switching gases on its output side and/or its input side. The exhaust gas module can be mounted on the electrical switch, such that the switching gases are directed into an exhaust gas channel of the exhaust gas module. The exhaust gas channel deflects the switching gases substantially at a right angle and the exhaust gas channel can cooperate in a modular manner with a neighboring exhaust gas channel of a neighboring exhaust gas module in order to bring together the deflected exhaust gases.

An electrical switching apparatus includes a plurality of poles each comprising separable contacts, an operating mechanism structured to open and close the separable contacts and to trip open the separable contacts in response to a fault condition, and a housing enclosing the separable contacts. The housing includes an interior, an exterior, and a plurality of receptacles extending from the exterior toward the interior. A surge protection assembly includes a plurality of modules, wherein each of the modules is removably disposed in a corresponding one of the receptacles of the housing. Each of the modules provides independent surge protection for a corresponding one of the poles of the electrical switching apparatus.

A circuit breaker is provided, which includes a cradle having a plurality of cradle terminals, and a breaker main body connected to the cradle and having a plurality of breaker terminals electrically connected to the plurality of cradle terminals, in which each of the plurality of breaker terminals includes a terminal body extended from the breaker main body and protruded toward each of the plurality of cradle terminals, contacts coupled to upper and lower portions of terminal body and disposed in parallel to face each other, and a contact protrusion protruded to a round shape in a direction which the contacts face each other such that, upon connection of the plurality of cradle terminals, the contact protrusion contacts and presses both sides of the connected cradle terminals.

A boom mountable breaker system and a method of using same for interrupting electrical transmission through a portion of an energized conductor downstream of a desired break location. The method includes: mounting the jumper onto the energized conductor across the desired break location so as to form an electrically conductive first parallel electrical path; installing an in-line opener in the energized conductor at the desired break location on the energized conductor; positioning the breaker at the desired break location on the energized conductor, and electrically connecting the breaker, while open, across the desired break location and across the opposite ends of the jumper so as to form a second parallel electrical path when the breaker is closed; closing the breaker to thereby complete the second parallel electrical path; removing the jumper from across the desired break location; and, opening and then removing the breaker.

A pivot supporting structure for a circuit breaker and a circuit breaker. The pivot supporting structure comprises: a supporting body having a supporting hole for receiving and pivotally supporting a pivot pin connected to an actuating mechanism of the circuit breaker, wherein at least one strain gauge are mounted to the supporting body for sensing the force acting on the pivot supporting structure by the actuating mechanism. This pivot supporting structure can accurately sense the characteristic force applied, such that the contact force and mechanical characteristics of the circuit breaker can be on-line monitored.

A line terminal is for an electrical switching apparatus. The electrical switching apparatus includes a stationary contact and a movable contact structured to move into and out of engagement with the stationary contact in order to close and open the electrical switching apparatus, respectively. The line terminal includes a lip portion structured to be connected to the stationary contact in order to provide an electrical pathway therebetween; an arm portion extending from the lip portion, the arm portion having an engaging portion structured to receive and engage a conductive post member and provide an electrical pathway between the conductive post member and the stationary contact; a neck portion extending from the arm portion; and a tab portion extending from the neck portion and being located internal with respect to the engaging portion.

The present invention implements, through a simple structure, the prevention of an electric shock caused by contacting an output terminal in a conducting state. This electric shock protection structure is provided with: a protective cover (40) which changes an output terminal into a non-conducting state by pressing a power switch (51) during the transition of the output terminal from a covered state to an exposed state; and a housing cover (60) which cannot be moved when the output terminal is in the non-conducting state by having an L-shaped curved section (60A), which is positioned on a different surface from the surface on which the output terminal is disposed, does not contact a contact section (44A) of the protective cover (40) when the protective cover (40) exposes the output terminal, and contacts the contact section (44A) when the protective cover (40) covers the output terminal.

A circuit breaker and a power distribution system are provided. The circuit breaker includes a housing and an internal element disposed inside the housing. The housing includes a front panel and a rear panel that are disposed opposite to each other, the front panel is disposed with a button, a status display unit, and a power wiring port, and the rear panel is disposed with a power interface and a signal interface. The power wiring port and the power interface are connected to a circuit of a power distribution system. The signal interface is internally and electrically connected to the button, the status display unit, and the internal element, and the signal interface is externally configured to be electrically connected to a control unit disposed outside the housing. A control signal of the control unit implements working of the button, the status display unit, and the internal element.