A switch assembly including a socket, a top cap, and an intermediate cart located in the socket. The intermediate cart is slidable with the socket. The top cap is in a spherical or pivot engagement with the intermediate cart. An activation force of the sliding movement is lower than an activation force of the spherical or pivot movement.

A rocker switch assembly includes a housing having at least one bracket with a bracket stop formed therein, and a rocker actuator pivotably mounted on the housing. At least one wedge lock is pivotably mounted on the rocker actuator, the wedge lock pivotable between a locked position in which the wedge lock engages the bracket stop formed in the bracket, thereby preventing pivoting of the rocker actuator with respect to the housing in at least one direction, and a retracted position in which the wedge lock is disengaged from the bracket stop formed in the bracket so as to allow for pivoting of the rocker actuator with respect to the housing. A lock release button is also provided, actuation of which from a resting position to a release position causes the wedge lock to move to the retracted position.

A rocker switch assembly includes a housing having at least one bracket with a bracket stop formed therein, and a rocker actuator pivotably mounted on the housing. At least one wedge lock is pivotably mounted on the rocker actuator, the wedge lock pivotable between a locked position in which the wedge lock engages the bracket stop formed in the bracket, thereby preventing pivoting of the rocker actuator with respect to the housing in at least one direction, and a retracted position in which the wedge lock is disengaged from the bracket stop formed in the bracket so as to allow for pivoting of the rocker actuator with respect to the housing. A lock release button is also provided, actuation of which from a resting position to a release position causes the wedge lock to move to the retracted position.

The present invention belongs to the technical field of electric signal transmission and conversion devices, in particular to a novel embedded external power supply controller, comprising a base assembly, a cover body and a press-button, wherein the base assembly comprises a signal converter, the cover body is provided with an accommodation through cavity, the cover body is shielded outside the base assembly, the signal converter is received in the accommodation through cavity, the press-button is movably latched in the accommodation through cavity and abuts against a trigger terminal of the signal converter, an outer wall of the cover body protrudes and extends to form a plurality of stop ribs for reinforcing bonding force between the cover body and external components. In this way, it is ensured that the novel embedded external power controller and external device is stably fitted without impairing the use efficiency.

The present invention belongs to the technical field of electric signal transmission and conversion devices, in particular to a novel embedded external power supply controller, comprising a base assembly, a cover body and a press-button, wherein the base assembly comprises a signal converter, the cover body is provided with an accommodation through cavity, the cover body is shielded outside the base assembly, the signal converter is received in the accommodation through cavity, the press-button is movably latched in the accommodation through cavity and abuts against a trigger terminal of the signal converter, an outer wall of the cover body protrudes and extends to form a plurality of stop ribs for reinforcing bonding force between the cover body and external components. In this way, it is ensured that the novel embedded external power controller and external device is stably fitted without impairing the use efficiency.

The present invention belongs to the technical field of electric signal transmission and conversion devices, in particular to a novel embedded external power supply controller, comprising a base assembly, a cover body and a press-button, wherein the base assembly comprises a signal converter, the cover body is provided with an accommodation through cavity, the cover body is shielded outside the base assembly, the signal converter is received in the accommodation through cavity, the press-button is movably latched in the accommodation through cavity and abuts against a trigger terminal of the signal converter, an outer wall of the cover body protrudes and extends to form a plurality of stop ribs for reinforcing bonding force between the cover body and external components. In this way, it is ensured that the novel embedded external power controller and external device is stably fitted without impairing the use efficiency.

Embodiments relate generally to methods and systems for providing a bias mechanism for a momentary toggle switch. A toggle switch may comprise a housing; a plurality of contacts disposed within the housing; an actuating lever coupled to a pivot pin, wherein the actuating lever extends into the housing; an actuator assembly coupled to the actuating lever, configured to actuate a movable contact of the plurality of contacts between a first position and a second position; and a biasing mechanism configured to bias the actuator assembly into the first position, wherein the biasing mechanism comprises a torque spring.

Embodiments relate generally to methods and systems for providing a bias mechanism for a momentary toggle switch. A toggle switch may comprise a housing; a plurality of contacts disposed within the housing; an actuating lever coupled to a pivot pin, wherein the actuating lever extends into the housing; an actuator assembly coupled to the actuating lever, configured to actuate a movable contact of the plurality of contacts between a first position and a second position; and a biasing mechanism configured to bias the actuator assembly into the first position, wherein the biasing mechanism comprises a torque spring.

Various examples of park brake interface modules which are utilized as human machine interfaces (HMI) in vehicles are provided. In one example, a park brake interface module for a vehicle includes an actuation member mounted to an electromechanical switch to actuate the park brake. The actuation member includes a finger pad opposite the front surface and the actuation member is movable between a brake apply position and a brake release position to actuate the vehicle park brake. In another example, the actuation member is pivotally mounted to the electromechanical switch device and the actuation member is pivotable between the brake apply position and the brake release positions to actuate the park brake.

A magnetically-triggered proximity switch includes an actuator assembly disposed within a switch body, and the actuator assembly includes an actuator body extending along an actuator axis. A primary contact and a secondary contact is each coupled to the actuator body and may be separated from a center contact along the actuator axis. The actuator assembly is pivotable between a first switch position and a second switch position about a pivot axis. In the first switch position, the center contact is in contact with a common contact and the first contact is in contact with a primary contact, thereby completing a circuit between a common arm and a primary arm. In the second switch position, the center contact is in contact with the common contact and the second contact is in contact with a secondary contact, thereby completing a circuit between the common arm and a secondary arm.