A switch device includes an operation button operated by a push operation on an operating surface, light sources arranged on a lighting substrate to illuminate an illumination target of the operation button, and a plurality of switches that are arranged on a switch substrate different from the lighting substrate so as to be located on an end portion side of the operation button and are turned on due to displacement of the operation button caused by the push operation.

A switch device and a cooking device having a switch device. The switch device may include a first switch configured to be opened or closed based on contact or non-contact between the first blade and the second blade; a second switch configured to be opened and closed based on contact or non-contact between the third blade and the fourth blade; a housing that accommodates the first switch and the second switch therein; and an actuator disposed in the housing and actuated to selectively open and close the first switch and the second switch. The first switch and the second switch may be fixedly supported by a support structure disposed on a same plane as a mounting plane for the actuator and may be positioned in a single inner space.

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.

Implementations of a multi-pole dome switch configured to simultaneously, or nearly simultaneously, close or open two separate circuits are provided. In some implementations, a multi-pole dome switch may comprise a tactile metal dome and a conductive insert that are separated by an insulator. In some implementations, when the dome is depressed, the dome and the conductive insert are configured to simultaneously, or nearly simultaneously, make conductive contact with two traces of a first circuit and two traces of a second circuit, respectively, positioned thereunder on a PCB. In this way, the multi-pole dome switch is able to simultaneously, or nearly simultaneously, close two separate circuits. Succinctly put, in some implementations, the multi-pole dome switch may be configured to act as a double-pole, double-throw switch.

A momentary electrical push switch that can be configured for 2 or more activation positions. The switch has a top surface, or key top, which is pressed down upon in different areas to actuate the switch's different activation positions. The key top can be of various shapes, such as quadrangles, circle, hexagon, etc., or irregular shapes, to suit a particular application. The key top can be divided into multiple segments, or activation zones, each corresponding to a different activation position of the switch. The key allows free-form movement when pressing down upon it, without requiring the user to use specific or narrowly-defined motions to actuate the various activation positions.

The systems, methods, and techniques described herein provide for an improved stylus incorporating a dual-function switch as part of the tail eraser mechanism. A conductive resilient body, when compressed, deforms to contact one or more pairs of electrodes on a printed circuit board, thus creating electrical continuity between the electrodes. A first force causes electrical continuity between a first pair of electrodes which may initiate a first mode of the stylus, such as erase mode. A second force, greater than the first force, causes electrical continuity between a second pair of electrodes which may initiate a second mode of the stylus, such as causing a microcontroller unit to issue a command to a computing device to launch one or more applications or services.

A key switch includes a movable part configured to be moved by a pressing operation, a support mechanism that movably supports the movable part, an electrical connector including multiple pairs of contacts of upper electrodes and lower electrodes, and a disc spring that is disposed between the movable part and the electrical connector and configured to be elastically deformed by movement of the movable part and to press the electrical connector. The multiple pairs of contacts are provided for one movable part. When the disc spring is deformed by the movement of the movable part, the disc spring is configured to simultaneously press the multiple pairs of contacts provided for the corresponding movable part.

A key structure includes a supporting board, a base board, a pre-stressing force applying assembly, a key cap, a pivot assembly, an attractable element and a magnetic element. The pre-stressing force applying assembly is connected to the supporting board or the base board. When the magnetic element is under the first attractive position, the first end of the attractable element is attracted by the magnetic force and moved to the first attractive position, and the pre-stressing force applying assembly generates a first pre-stressing force; when the magnetic element is under the second attractive position, the second end of the attractable element is attracted by the magnetic force and moved to the second attractive position, and the pre-stressing force applying assembly generates a second pre-stressing force. The first pre-stressing force or the second pre-stressing force reduces the resistance during the sliding of the base board or the supporting board.

The systems, methods, and techniques described herein provide for an improved stylus incorporating a dual-function switch as part of the tail eraser mechanism. A conductive resilient body, when compressed, deforms to contact one or more pairs of electrodes on a printed circuit board, thus creating electrical continuity between the electrodes. A first force causes electrical continuity between a first pair of electrodes which may initiate a first mode of the stylus, such as erase mode. A second force, greater than the first force, causes electrical continuity between a second pair of electrodes which may initiate a second mode of the stylus, such as causing a microcontroller unit to issue a command to a computing device to launch one or more applications or services.

A switch device includes an operation knob on which a sliding operation can be performed in a horizontal direction, a holder member that holds the operation knob and moves in the horizontal direction, a drive member that tilts as the holder member moves in the horizontal direction, a switch that is pressed down by the drive member as the drive member tilts, and a support member that supports the holder member such that the holder member can move in the horizontal direction. The holder member has a base at a center in the horizontal direction and a flange extending outward from the base in the horizontal direction. The support member has an upper wall that restricts a movement of the holder member in a vertical direction by contacting an upper surface of the flange, and a slit between the upper wall and a middle wall lower than the upper wall.