What is presented is a key module (110) for a keyboard. The key module (110) comprises a key tappet (220). The key module (110) also comprises a module housing (230). The module housing (230) is formed to movably accommodate the key tappet (220), in order to enable a translational actuation movement of the key tappet (220) between a rest position and in an actuated position relative to the module housing (230). The key module (110) further comprises a trigger element (240) for triggering an actuation signal of the key module (110) in response to the actuation movement. The trigger element (240) is attached to the key tappet (220). The trigger element (240) is a contactor for electrically shorting contact pads of a circuit substrate of the keyboard. The trigger element (240) comprises more than to elastically deformable contact fingers for contacting the contact pads after different pre-travel paths in the course of the actuation movement.

A switch device structure includes an assembly of a main body and an operation body. An electrical connection module and an elastic unit are mounted on the main body. The contact arm of the electrical connection module has a first member and/or a second member with variable arrangement position. According to the position or motion of the operation body, the elastic unit provides an elastic force to push the contact arm of the electrical connection module into a contacting circuit closed state or make the elastic unit separate from the contact arm to form a circuit open state. The arrangement form of the first member and/or the second member of the contact arm of the electrical connection module is variable in accordance with the specification of the switch to achieve NO mode and NC mode.

A connector device comprises a connector and a mating connector. The connector comprises a housing and a slider having a second regulated portion. The mating connector comprises a mating housing having a second regulation portion. The connector is movable between an open position and a closed position. The slider is held by the housing to be movable between a first position and a second position. When the connector is moved to a predetermined position together with the slider which is located at the second position upon a movement of the connector from the closed position toward the open position, the second regulated portion is brought into abutment with the second regulation portion, and a movement of the connector toward the open position beyond the predetermined position is regulated. When the slider is moved to the first position, the connector is movable to the open position.

A switching device includes a first knob to receive a pressing operation in a first direction; a pressing detection switch to be pressed upon transmission of an operating force of the pressing operation; a decorative member to decorate a periphery of the first knob, that includes an engaged portion; and a holder to engage and hold the decorative member, that includes an engaging portion to engage the engaged portion. In response to the pressing operation by a first stroke amount, by the operating force transmitted to the pressing detection switch without transmitted to the engaged portion, the pressing detection switch is pressed. In response to the pressing operation by a second stroke amount greater than the first stroke amount, by the operating force applied to the first knob being transmitted to the engaged portion, the engaged portion elastically deforms, and engagement of the engaging/engaged portions is released.

A switch device includes a first rubber dome, a second rubber dome, and a slider disposed on the first rubber dome and the second rubber dome. The slider presses the upper surface of the first rubber dome, causing deformation of the first rubber dome when the slider is moved toward the first and second rubber domes, and presses the upper surface of the second rubber dome, causing deformation of the second rubber dome when the slider is further moved toward the first and second rubber domes in a state in which the first rubber dome is subjected to the deformation. A thick portion is formed on each side of the second rubber dome so as to increase the thickness on the each side of the second rubber dome. Each side of the second rubber dome is in a direction in which the first and second rubber domes are aligned.

The switch body includes: a wiring substrate where first to fourth fixed contact members are formed; and a movable contact member including a pressure receiving part opposite from the second fixed contact member, a first outer edge facing the first fixed contact member, and a second outer edge facing the third fixed contact member. The fourth fixed contact member is formed in a region outside a projection region being a projection of the movable contact member on the wiring substrate and is in a position facing the first outer edge when the second outer edge is moved to a region where the second fixed contact member is formed.

A dual push button switch assembly for a vehicle includes an elastic button being moveable between a first unactuated position and a second actuated position, an actuator that is movable between a first position and a second position, and first and second switches. When the elastic button is in the first unactuated position, a resilient dome biases the actuator into the first position, and when the elastic button is moved towards the second actuated position, a force applied to the elastic button is transmitted to the actuator to move the actuator towards the second position, and wherein as the actuator moves towards the second position, the first and second switches are activated.

A four-way switch including a knob configured to be tilted in four directions to perform a switching operation in the four directions; a housing to which the knob is attached in a tiltable manner; a stopper formed on a surface of the housing so as to protrude by a predetermined height, the stopper being configured to limit a downward motion of the knob by contacting a portion of a lower surface of the knob while the knob is tilted; a guide protrusion formed on the lower surface of the knob so as to protrude by a predetermined length; and a guide groove portion formed on the surface of the housing so as to protrude by a predetermined height so as to face the guide protrusion, the guide groove portion including a recess portion having a structure that engages with the guide protrusion.

A switching mechanism includes an actuator rotatable between an off position and an on position; and a timing disc assembly that includes an actuator disc, a bias disc, and a switch disc arranged in a stack. The actuator disc is rotatably connected to the actuator. The bias disc is connected to at least one biasing mechanism. The switch disc is connected to a switch. The actuator disc is configured to engage the bias disc such that the actuator disc is configured to rotate the bias disc to an overcenter position of the at least one biasing mechanism. The overcenter position of the at least one biasing mechanism is configured to rotate the bias disc such that engagement between the bias disc and the switch disc is configured to rotate the switch disc between a closed position and an open position of the switch.

A transmission shifter includes a base defining P, R, N, D gear positions; four electrical dome switches associated with each of the P, R, N, D gear positions, and analog and digital circuits operably connected to the electrical switches, respectively, and associated with the P, R, N, D gear positions. The dome switches are arranged in different patterns in each of the different gear positions, and in combination with pushbutton actuators operate with different actuator motions and with different closure distances and forces to cause reliable ad confirmed intentional actuation, including redundancy. The switches are operably connected to analog and digital circuits, which provides additional functional advantage, reliability, and certainty of intentional operation.