The present invention relates to a drive system for high-voltage electrical devices, such as a load break switch-disconnector and a grounding disconnector, which can be applied in utility grids, allowing said drive system to motorize the switching of both electrical devices. To that end, the drive system comprises a subassembly which allows selecting the motorized switching operation of the first electrical device or the motorized switching operation of the second electrical device. The motorization of the switching of both electrical devices thereby allows performing said operation remotely.

The present invention relates to a drive system for high-voltage electrical devices, such as a load break switch-disconnector and a grounding disconnector, which can be applied in utility grids, allowing said drive system to motorize the switching of both electrical devices. To that end, the drive system comprises a subassembly which allows selecting the motorized switching operation of the first electrical device or the motorized switching operation of the second electrical device. The motorization of the switching of both electrical devices thereby allows performing said operation remotely.

An electrical switch, in particular for high voltages and/or high currents, includes a contact unit which includes at least two contact, a switching element and a drive for the switching element. The drive is designed such that it can move the switching element from an initial position into an end position. The switching element is accelerated during an acceleration phase directly or indirectly by the drive and it passes subsequently through a free movement phase until it has reached the end position.

This invention relates to a switching device (10). More specifically, the invention relates to a retrofit switching device (10) for mechanically switching a plurality of switches between on and/or off conditions. It is envisaged that the primary application of such invention is for switching circuit breakers configured along one or more rows on a distribution board. The switching device (10) includes a pair of primary parallel guide rails (12,14), a means for anchoring the switching device (10) to a switch covering panel (i.e. a distribution board panel) and a carriage (22), supported across the primary parallel guide rails (12,14) and movable back-and- forth therealong along a first axis, the carriage (22) comprising thereon: (i) a switch engaging formation for operably switching the switches between on and off conditions; and (ii) a primary drive (26) for moving the switch engaging formation back-and-forth along a second axis, wherein the first and second axes are transverse one another. The switching device (10) further includes a secondary drive (28) for moving the carriage along the primary parallel guide rails (12, 14) and operably along the one or more rows of switches, a controller for at least actuating the primary (26) and the secondary drives (28), and a power source for powering at least the primary drive (26), the secondary drive (28) and the controller.

This invention relates to a switching device (10). More specifically, the invention relates to a retrofit switching device (10) for mechanically switching a plurality of switches between on and/or off conditions. It is envisaged that the primary application of such invention is for switching circuit breakers configured along one or more rows on a distribution board. The switching device (10) includes a pair of primary parallel guide rails (12,14), a means for anchoring the switching device (10) to a switch covering panel (i.e. a distribution board panel) and a carriage (22), supported across the primary parallel guide rails (12,14) and movable back-and- forth therealong along a first axis, the carriage (22) comprising thereon: (i) a switch engaging formation for operably switching the switches between on and off conditions; and (ii) a primary drive (26) for moving the switch engaging formation back-and-forth along a second axis, wherein the first and second axes are transverse one another. The switching device (10) further includes a secondary drive (28) for moving the carriage along the primary parallel guide rails (12, 14) and operably along the one or more rows of switches, a controller for at least actuating the primary (26) and the secondary drives (28), and a power source for powering at least the primary drive (26), the secondary drive (28) and the controller.

An actuator system for operating a switch is described herein. The actuator system can include a shaft of a handle assembly. The shaft couples to a handle and a male coupling element and has a number of positions. Further, a coupling body of a switch assembly can be positioned in the number of positions. The coupling body engages the switch and has a female coupling element, which has a slotted portion that receives the male coupling element and an angled terminus that aligns the shaft to a first position as the shaft couples to the coupling body. The slotted portion receives and engages the male coupling element when the shaft is coupled to the coupling body. The slotted portion prevents the male coupling element from disengaging when the coupling body is in a second position, and disengages the male coupling element when the coupling body is in the first position.

An actuator system for operating a switch is described herein. The actuator system can include a shaft of a handle assembly. The shaft couples to a handle and a male coupling element and has a number of positions. Further, a coupling body of a switch assembly can be positioned in the number of positions. The coupling body engages the switch and has a female coupling element, which has a slotted portion that receives the male coupling element and an angled terminus that aligns the shaft to a first position as the shaft couples to the coupling body. The slotted portion receives and engages the male coupling element when the shaft is coupled to the coupling body. The slotted portion prevents the male coupling element from disengaging when the coupling body is in a second position, and disengages the male coupling element when the coupling body is in the first position.

An example device in accordance with an aspect of the present disclosure includes a housing, mountable to a power distribution unit (PDU) associated with at least one circuit breaker. The device also includes a mechanism coupled to the housing, movable between a first position and a second position to reset the at least one circuit breaker, in response to receiving a reset signal.

An example device in accordance with an aspect of the present disclosure includes a housing, mountable to a power distribution unit (PDU) associated with at least one circuit breaker. The device also includes a mechanism coupled to the housing, movable between a first position and a second position to reset the at least one circuit breaker, in response to receiving a reset signal.

The present disclosure includes an electronic circuit breaker for an electrical load in and on-board electrical system of a motor vehicle. The electronic circuit breaker includes a shunt resistor connected at its input side to an input (E) of the electronic circuit breaker, a controllable switching element coupled at its input side to an output of the shunt resistor and at its output side to an output (A) of the electronic circuit breaker, the output being connectable to the electrical load, and a control input (gate). The electronic circuit breaker also includes a voltage detector and a hold element coupled to the voltage detector and configured to hold the control signal in a switched off (out) state when the controllable switching element has switched off the electrical load.