An electrical switch includes comprising a fixed upper contact a fixed lower contact, and a mobile contact blade. A fixed support bears the mobile contact blade and the fixed support includes a front support branch and a rear support branch. Each branch includes a transversely oriented horizontal notch, in the bottom of which is housed a transverse free edge of a respectively front and rear section of the mobile contact blade. The fixed support includes two identical support plates spaced transversely apart.

A multi-directional switch is provided to include a spring electrode supported by a base housing and having a plate shape divided in multiple directions. A fastening bolt is fastened to the base housing through penetrating the spring electrode and has an upper surface on which a curved surface is formed. A P-type switch is supported by the curved surface of the fastening bolt and includes a push part configured to press the spring electrode.

A controller is provided for use in a wet environment such as an ablutionary setting. The controller includes a base member, an input member, a seal extending between the input member and the base member, and a sealed internal volume defined at least partially by the base member, the input member, and the seal. The input member is moveable relative to the base member between a neutral position and a control position. The seal biases the input member towards the neutral position.

An operating device for a steering wheel comprises an operating element, which can be selectively rotated about a first rotation axis and a second rotation axis for controlling a control system by means of an actuation, wherein the operating element can be rotated to an actuation stage from a starting position, wherein the first rotation axis is coaxial to the longitudinal axis of the operating element, and the second rotation axis is substantially transverse to the first rotation axis, wherein a force application point has a mechanical advantage with respect to the second rotation axis when actuated about the second rotation axis, and wherein the force application point has no substantial mechanical advantage in relation to the second rotation axis when the operating element is actuated about the first rotation axis, in order to prevent a simultaneous actuation of the operating element about the first and second rotation axes.

A controller includes a key top, a substrate, and an elastic member. The elastic member includes a pressed portion, a base, a skirt portion, and a pressing member. The substrate includes a contact. When viewed in the first direction, the pressing member is surrounded by an outer peripheral edge of a prescribed region. In the second direction, a distance between an end of the outer peripheral edge of the prescribed region on a side of a swing center of the key top and an end of a top surface on the side of the swing center is longer than a distance between an end of the outer peripheral edge of the prescribed region opposite to the swing center and an end of the top surface opposite to the swing center. In the second direction, the contact is located closer to the swing center than the top surface.

An electronic mirror system includes: a camera for capturing images of surroundings of a vehicle; a display unit for displaying an image captured by the camera; a switch unit including an adjustment switch and a multi-function switch; and a control unit for performing a process according to a signal from the switch unit. When the multi-function switch is operated, the control unit executes a process selected from a plurality of set processes according to a state of the vehicle; and in a case where the executed process is a transition to a mode for changing setting information of the system, and when the adjustment switch is operated after the transition, the control unit changes the setting information according to a signal from the adjustment switch.

Provided is an information input device that allows two types of operation, namely, rotation operation and tilt operation, and that can be downsized. In a case where the rotation operation component is seen in a direction orthogonal to a rotation axis direction of the rotation operation component, the rotation operation component has a first slope that faces a tilt operation component and that is on an inner periphery side of an annular shape of the rotation operation component and is inclined relative to the rotation axis of the rotation operation component. In the case where the rotation operation component is seen in the direction orthogonal to the rotation axis direction of the rotation operation component, a distance of the first slope from the rotation axis of the rotation operation component increases as a distance of the first slop from the rotation detection unit increases.

A controlling device has a moveable touch sensitive panel positioned above a plurality of switches. When the controlling device senses an activation of at least one of the plurality of switches when caused by a movement of the touch sensitive panel resulting from an input at an input location upon the touch sensitive surface, the controlling device responds by transmitting a signal to an appliance wherein the signal is reflective of the input location upon the touch sensitive surface.

A signal input device, according to one embodiment of the present invention, comprises: a base member including a bottom surface and a protruding part upwardly protruding from the bottom surface; a push button located on the upper side of the protruding part, and having a downward sidewall formed so as to cover the protruding part; a sensor unit provided on any one of an outer side surface of the protruding part or an inner side surface of the downward sidewall; and a contact point provided on the side, on which the sensor unit is not provided, of the outer side surface of the protruding part or on the inner side surface of the downward sidewall, wherein when the push button moves in a lateral direction, the sensor and the contact point come into contact with each other so as to generate a signal.

An input device is provided which is configured such that no matter which position on an operation surface is pushed, the detection sensitivity of the pushing load is suppressed from varying due to different operation positions on the operation surface. An input device includes a first pressing member, a second pressing member, and a substrate. The first pressing member has an operation surface and a first axis and is tiltable around the first axis by the operation surface being pushed. The second pressing member has a second shaft and is tiltable around the second shaft by being pushed by a tilt of the first pressing member. The substrate includes at least one pressure sensor which is to be pushed by the second pressing member. A position of the first axis in the first pressing member is variable in accordance with a pushed position on the operation surface.