A switch assembly, a system, and a method are provided. One such switch assembly includes a first connection bus to connect to a power source or a load and a second connection bus to connect to one of a second power source or the load. The switch assembly includes a shaft, a driving mechanism to engage the shaft, and a toggle arm connected to the first connection bus and secured to the driving mechanism. The switch assembly includes a pivot arm electrically connected to the second connection bus and including a contact pad. The shaft is structured to rotate the toggle arm from a closed position to an open position by rotating the driving mechanism, and in the closed position, a contact pad of the toggle arm contacts the contact pad of the pivot arm. The pivot arm is maintained substantially parallel to the second connection bus.

A modular transfer switch (22) and actuator (20) wherein multiple transfer switches are connectable in linear arrangement with the actuator such that the actuator controls the position of all of the transfer switches. Each of the transfer switches (22) includes a contact assembly (48) that converts over-rotation of the drive linkage (26) in the transfer switch to added pressure between the load contacts and the power contacts in the contact assembly.

A solid-state circuit breaker configured to turn off electronics before a pair of opposing primary main contacts are opened. The solid-state circuit breaker includes a main mechanism including a pair of opposing primary main contacts. The solid-state circuit breaker further includes electronics including semiconductors and software algorithms that control the power and can interrupt currents. The solid-state circuit breaker further includes a switching system including a secondary switch that is configured to be actuated prior to opening of the primary main contacts. The secondary switch is configured to turn off the power to the electronics of the solid-state circuit breaker before the primary main contacts are opened to eliminate or reduce electrical arcing across the primary main contacts.

A solid-state circuit breaker comprises an airgap operating mechanism including components and a housing that houses the components of the airgap operating mechanism such that each component in the operating mechanism is configured to operate in a way that only limited amount of space is required to achieve functions of ON, OFF, and TRIP. The components of the operating mechanism include a contact arm, a handle, and an interface feature to interface between the handle and the contact arm to apply a force thereon. The interface feature is configured to adjust the contact arm ensuring an optimal positioning. The components of the operating mechanism include a double pivot of the contact arm and a handle feature in that the contact arm has two-pivot legs, an armature, an armature pivot feature and a stopper feature, a cradle, and a stopper pin configured to stop the cradle during TRIP operation.

A solid-state circuit breaker configured to turn off electronics before a pair of opposing primary main contacts are opened. The solid-state circuit breaker includes a main mechanism including a pair of opposing primary main contacts. The solid-state circuit breaker further includes electronics including semiconductors and software algorithms that control the power and can interrupt currents. The solid-state circuit breaker further includes a switching system including a secondary switch that is configured to be actuated prior to opening of the primary main contacts. The secondary switch is configured to turn off the power to the electronics of the solid-state circuit breaker before the primary main contacts are opened to eliminate or reduce electrical arcing across the primary main contacts.

A spring cap for an electrical switching apparatus having a housing, a stationary contact, a movable contact disposed on a moving arm, and a crossbar assembly. The crossbar assembly includes a crossbar, a first contact spring, a second contact spring, and a spring clip. The moving arm is coupled to the crossbar. The spring cap includes a first segment structured disposed between the spring clip and the first contact spring, a second segment disposed between the spring clip and the second contact spring, and a connecting portion connecting the first segment to the second segment. The spring clip is disposed between the moving arm and the contact springs. The spring cap supports the spring clip and evenly distribute bias forces of the contact springs.

A spring cap for an electrical switching apparatus having a housing, a stationary contact, a movable contact disposed on a moving arm, and a crossbar assembly. The crossbar assembly includes a crossbar, a first contact spring, a second contact spring, and a spring clip. The moving arm is coupled to the crossbar. The spring cap includes a first segment structured disposed between the spring clip and the first contact spring, a second segment disposed between the spring clip and the second contact spring, and a connecting portion connecting the first segment to the second segment. The spring clip is disposed between the moving arm and the contact springs. The spring cap supports the spring clip and evenly distribute bias forces of the contact springs.

The present application contemplates a switching device comprising: an outer casing defining an internal volume of the switching device; one or more electric poles, each electric pole comprising one or more mobile contacts and one or more contacts adapted to be coupled or uncoupled during a switching operation of the switching device; a contact shaft accommodated in the internal volume of the switching device and adapted to rotate about a rotation axis during a switching operation of the switching device, the contact shaft having a body comprising one or more contact seats to accommodate at least partially the mobile contacts, so that the mobile contacts rotate with the contact shaft about the rotation axis during a switching operation of the switching device; a control mechanism comprising a supporting frame fixed to the outer casing to provide support to movable members of the control mechanism and one or more connecting rods to provide a force to move the contact shaft during a switching operation of the switching device.

A switch assembly, a system, and a method are provided. One such switch assembly includes a first connection bus to connect to a power source or a load and a second connection bus to connect to one of a second power source or the load. The switch assembly includes a shaft, a driving mechanism to engage the shaft, and a toggle arm connected to the first connection bus and secured to the driving mechanism. The switch assembly includes a pivot arm electrically connected to the second connection bus and including a contact pad. The shaft is structured to rotate the toggle arm from a closed position to an open position by rotating the driving mechanism, and in the closed position, a contact pad of the toggle arm contacts the contact pad of the pivot arm. The pivot arm is maintained substantially parallel to the second connection bus.

The present invention relates to an air circuit breaker, in which a recess is formed on one side or each of both sides of each contact plate provided in an insulating cage so as to reduce a contact area between a movable contactor and the contact plate when the movable contactor and the contact plate are brought into contact with each other, thereby preventing a contact portion between the movable contactor and the contact plate from being melted due to heat generation.