An automatic transfer switch includes a motor and a drive shaft rotatable by the motor. The automatic transfer switch includes a gear rotatable by the drive shaft. The automatic transfer switch includes a pin attached to, and movable with, the gear. The pin is offset from the central axis of the gear. The automatic transfer switch includes a bracket rotatable around the central axis of the gear and connected to an output shaft. The bracket is rotatable separately from the gear. Upon rotation of the bracket, the output shaft rotates. The bracket has at least a first source position and a second source position and the first and second source positions are different. The automatic transfer switch includes a module connected to the output shaft. The module includes at least one movable electrical contact which moves upon rotation of the output shaft.

A dual energy storage operating mechanism of an isolating switch is provided. A first energy storage mechanism and a second energy storage mechanism are provided between an input wheel and a housing and between the input wheel and an output wheel or a first output shaft, respectively. The output wheel is provided with a limiting mechanism. The limiting mechanism forms a locking effect on the output wheel when the first energy storage mechanism stores energy, thereby enabling the second energy storage mechanism to store energy at the same time. When the first energy storage mechanism starts to release energy, the locking effect of the limiting mechanism is released, so that the output wheel and the first output shaft can rotate, and the first energy storage mechanism and the second energy storage mechanism release energy at the same time, forming a dual energy storage boosting effect.

A switching assembly is for an electrical switching apparatus of a switching system. The electrical switching apparatus includes a base. The switching system has a communication device. The switching assembly includes a number of contact assemblies coupled to the base, each of the contact assemblies having a stationary contact and a movable contact structured to move between a CLOSED position corresponding to engagement with the stationary contact, and an OPEN position corresponding to disengagement with the stationary contact; and a transfer assembly including an element and only one single actuator coupled to the element, the element being structured to be coupled to the base, the single actuator comprising a controller for receiving a signal from the communication device. The single actuator is structured to move the movable contact of each of the number of contact assemblies between the CLOSED position and the OPEN position.

The present teachings provide for a device with a membrane and an underlying switch, an underlying switch actuator, or both that has a unique tactile pattern that is felt through the membrane when the membrane is aligned with the switch, switch actuator, or both, corresponding to the electrical state of the device. The membrane, the switch, the switch actuator or a combination thereof can be repositioned from a first position to a second position so that a different tactile feel is present through the membrane corresponding to a second electrical state.

A switching assembly is for an electrical switching apparatus of a switching system. The electrical switching apparatus includes a base. The switching system has a communication device. The switching assembly includes a number of contact assemblies coupled to the base, each of the contact assemblies having a stationary contact and a movable contact structured to move between a CLOSED position corresponding to engagement with the stationary contact, and an OPEN position corresponding to disengagement with the stationary contact; and a transfer assembly including an element and only one single actuator coupled to the element, the element being structured to be coupled to the base, the single actuator comprising a controller for receiving a signal from the communication device. The single actuator is structured to move the movable contact of each of the number of contact assemblies between the CLOSED position and the OPEN position.

A drive system drives a switch. The drive system includes: a drive shaft connecting the drive system to the switch; a motor configured to drive the drive shaft; a feedback system; and a controller. The feedback system is configured to: determine at least one value for a position of the drive shaft; and generate a feedback signal based on the at least one value. The controller acts on an operation of the motor depending on the feedback signal.

A drive system drives a switch. The drive system includes: a drive shaft connecting the drive system to the switch; a motor configured to drive the drive shaft; a feedback system; and a controller. The feedback system is configured to: determine at least one value for a position of the drive shaft; and generate a feedback signal based on the at least one value. The controller acts on an operation of the motor depending on the feedback signal.

A rotational over travel protection device for preventing over rotation of at least one of a cable, or a component operable with the rotational over travel protection device is provided. The device includes a housing, a rotatable shaft connected to the housing that can rotate relative to the house, and a triggering device supported in the housing and rotatable with the rotatable shaft. The device also includes a first and second rotational limit switch disposed in the housing. The switches are operable to be activated by the triggering device to arrest rotation of the rotatable shaft upon relative rotation of the rotatable shaft and the housing either a first or second rotation direction, respectively, at least 180 degrees from a zero position.

A high voltage vertical break disconnect switch with a planetary gear reduction drive assembly including at least one stage operatively attached to a perpendicular rotatable insulator of the high voltage vertical break disconnect switch. The planetary gear reduction drive assembly includes a lower crankshaft part and a cooperating upper crankshaft part. The lower crankshaft part is solidly connected to the perpendicular rotatable insulator. The planetary gear reduction drive assembly includes an output that drives the upper crankshaft part. The upper crankshaft part drives a movable link assembly that causes a switch blade of the vertical break switch to open and close.

A medium voltage circuit breaker switching pole includes: a fixed contact of a vacuum interrupter; a movable contact of the interrupter; and a threaded drive element. The movable contact is configured to move along a longitudinal axis of the interrupter. A centre axis of the drive element is parallel to the longitudinal axis of the interrupter. When in an open configuration the fixed contact and movable contact are separated from one another. When in a closed configuration the fixed contact and movable contact are in contact with one another. Rotation of the drive element about its centre axis in a first direction is configured to transition the switching pole from the open configuration to the closed configuration. Rotation of the drive element about its centre axis in a second direction counter to the first direction is configured to transition the switching pole from the closed configuration to the open configuration.