The present invention provides a multi-stage input device. The multi-stage input device includes a keycap, a multi-stage cushion component, and a circuit board assembly. The multi-stage cushion component is located between the keycap and the circuit board assembly to support the keycap. When the keycap is depressed to a light pressing level position, the keycap triggers a multi-stage switch of the circuit board assembly, so that the multi-stage switch generates a light-pressing signal to perform a first function. When the keycap is depressed to a heavy pressing level position, the keycap triggers the multi-stage switch of the circuit board assembly, so that the multi-stage switch generates a heavy-pressing signal to perform a second function.

An emergency stop device including a control button, an actuation assembly which includes an actuation plunger that cooperates with the control button and an actuation spring mounted between the body of the device and the actuation plunger, a trip plunger designed to cooperate with at least one electrical contact unit and one trip spring mounted between the actuation plunger and the trip plunger and arranged to actuate the trip plunger when the control button is actuated from its rest position to its actuated position, a latching member mounted on the trip plunger, an unlocking assembly including an unlocking ring that is arranged to cooperate with the control button to return it from its released actuated position to the rest position, the unlocking assembly including an unlocking spring mounted between the control button and the body, and arranged to actuate the control button towards its rest position.

A lever assembly is for an operating mechanism of an electrical switching apparatus. The electrical switching apparatus includes a number of pairs of separable contacts structured to move from a CLOSED position to a TRIPPED OPEN position in response to a trip condition. The operating mechanism has an enclosure member and a number of biasing elements coupled to the enclosure member. The biasing elements are structured to move the separable contacts from the CLOSED position to the TRIPPED OPEN position. The lever assembly includes a lever member structured to engage the enclosure member, and a component located on the lever member. The component is structured to extend through each of the biasing elements in order to lengthen each of the biasing elements when the separable contacts are in the CLOSED position.

An energy storage operation mechanism for a circuit breaker comprises a side plate assembly, a connecting rod assembly, a cam assembly, an energy storage assembly, a rotating shaft assembly and a control assembly. A rotatable driving shaft is mounted in the side plate assembly. The connecting rod assembly and the cam assembly are mounted on the driving shaft. The energy storage assembly and the rotating shaft assembly are mounted at one side of the driving shaft, and the control assembly is mounted at the other side of the driving shaft. The connecting rod assembly is connected with the rotating shaft assembly. The cam assembly can be in contact and connection with the energy storage assembly to push the energy storage assembly to store energy. The control assembly can be connected with the connecting rod assembly and the cam assembly in a latching manner. The energy storage operation mechanism for the circuit breaker, which is provided by the present invention, is compact in structure and high in reliability.

The present invention provides a multi-stage input device. The multi-stage input device includes a keycap, a multi-stage cushion component, and a circuit board assembly. The multi-stage cushion component is located between the keycap and the circuit board assembly to support the keycap. When the keycap is depressed to a light pressing level position, the keycap triggers a multi-stage switch of the circuit board assembly, so that the multi-stage switch generates a light-pressing signal to perform a first function. When the keycap is depressed to a heavy pressing level position, the keycap triggers the multi-stage switch of the circuit board assembly, so that the multi-stage switch generates a heavy-pressing signal to perform a second function.

In present disclosure, a movable bar guide portion is formed to protrude toward a movable bar in a shaft having a movable bar, and when a fault current is applied and the movable bar is rotated due to electromagnetic repulsion force, the movable bar and the movable bar guide portion contact each other, and thus, when the movable bar is rotated through the movable guide portion, movement of a rotation center of the movable bar is minimized.

The systems and methods described herein are directed to a switch for use in an electronic device. The switching assembly may include an elastically deformable actuator having a conductive inner surface and a cosmetic outer surface. The actuator may be disposed on an exterior surface of an enclosure that houses an electric circuit board of the electronic device. The enclosure may have one or more openings for providing an electrical connection between the actuator and the enclosed circuit of the electronic device. When the actuator is pressed, an electrical circuit may be closed and electric current may flow through the conductive inner surface of the actuator. The actuator may be combined with a perimeter element for snapping on and off the enclosure.

The invention relates to a resetting device (6) for a steering-column switch unit (1) of a motor vehicle, having a triggering element (10) by means of which an actuating lever (2) of the steering-column switch unit (1) can be moved from an actuated position into an initial position, having an intermediate piece (22) on which the triggering element (10) is mounted so as to be pivotable about a pivot axis (35) between a rest position and a triggering position in which the actuating lever (2) can be moved into the initial position, wherein the triggering element (10) is furthermore mounted on the intermediate piece (22) so as to be displaceable in a sliding direction (28) perpendicular to the pivot axis (35), having a spring element (27) for generating a spring force which acts parallel to the sliding direction (28) and with which the triggering element (10) is arranged under preload on the intermediate piece (22), and having a switch override protection unit (32) with at least one switch override spring (33, 34) which, in a switch override situation, permits a movement of the intermediate piece (22) relative to the actuating lever (2), wherein the at least one switch override spring (33, 34) and the spring element (27) are arranged adjacent to one another in a direction perpendicular to the sliding direction (28).

A computer input device includes a button that is movable by an external force; an elastic unit that is positioned on a lower portion of the button, is deformed or compressed by the movement of the button, and provides an elastic force in response to the movement of the button; and a switch that is turned on or off by the movement of the button, wherein the button is movable in an on section, which is a section from an uppermost end position to a position where the switch is turned on, and an extra section, which is a section up to a position that is lower than the on section.