A keyboard switch, including a base; a static contact; a moving contact; an upper cover; a button configured to control the contact of the static contact and the moving contact; and a reset spring configured to control the reset of the button.

A button structure includes a circuit board, a first portion, a second portion, and a reinforcement structure. The circuit board has a switch thereon. The first portion is located above the switch. The second portion partially covers the first portion and surrounds the first portion. The reinforcement structure is disposed on the first portion. The reinforcement structure is higher than the first portion in Young's modulus.

A button structure includes a circuit board, a first portion, a second portion, and a reinforcement structure. The circuit board has a switch thereon. The first portion is located above the switch. The second portion partially covers the first portion and surrounds the first portion. The reinforcement structure is disposed on the first portion. The reinforcement structure is higher than the first portion in Young's modulus.

A key structure which is adjustable in pressing force required and in duration of key pushback includes a circuit board, a keycap, a first magnetic member, an elastic member, a membrane switch, and a second magnetic member. The keycap includes an extending portion. The membrane switch is spaced apart from the first magnetic member, and the elastic member buffers the first magnetic member against the membrane switch. The second magnetic member is disposed between the membrane switch and the circuit board. When energized, the second magnetic member generates magnetic attraction or magnetic repulsion to the first magnetic member. A pressing force required on the key structure and a rebound force and a delay of rebound can be dynamically adjusted by a direction and magnitude of a current applied to the second magnetic member. A key device including the key structure is also disclosed.

A key structure which is adjustable in pressing force required and in duration of key pushback includes a circuit board, a keycap, a first magnetic member, an elastic member, a membrane switch, and a second magnetic member. The keycap includes an extending portion. The membrane switch is spaced apart from the first magnetic member, and the elastic member buffers the first magnetic member against the membrane switch. The second magnetic member is disposed between the membrane switch and the circuit board. When energized, the second magnetic member generates magnetic attraction or magnetic repulsion to the first magnetic member. A pressing force required on the key structure and a rebound force and a delay of rebound can be dynamically adjusted by a direction and magnitude of a current applied to the second magnetic member. A key device including the key structure is also disclosed.

The disclosure provides a keyboard including a bottom plate, a key unit and a shielding layer. The bottom plate includes a through hole. The key unit is disposed on the bottom plate. The shielding layer covering a portion of the bottom plate includes a main part and an extension part extending from the main part toward the through hole. The shielding layer is provided with a black surface, and an orthographic projection of the key unit on the shielding layer overlaps the black surface.

The disclosure provides a keyboard including a bottom plate, a key unit and a shielding layer. The bottom plate includes a through hole. The key unit is disposed on the bottom plate. The shielding layer covering a portion of the bottom plate includes a main part and an extension part extending from the main part toward the through hole. The shielding layer is provided with a black surface, and an orthographic projection of the key unit on the shielding layer overlaps the black surface.

An electrical load control device such as, for example, an electrical switch is disclosed. In use, the electrical device includes a manual switch or mechanical actuator positioned with an opening or aperture of a front cover of the device, the manual switch or actuator being arranged and configured to manipulate a connected load. The electrical device includes one or more geometries, surface features, or spacers arranged and configured within the aperture of the front cover. During use, the geometries, surfaces features, or spacers are arranged and configured to interact with the manual switch or actuator to reposition and/or align the switch or actuator within the aperture so that a consistent and uniform gap or spacing is maintained between the outer perimeter of the switch or actuator and the inner surface of the aperture. In one embodiment, the geometries, surfaces features, or spacers may be positioned within one or more of the corners of the aperture.

An electrical load control device such as, for example, an electrical switch is disclosed. In use, the electrical device includes a manual switch or mechanical actuator positioned with an opening or aperture of a front cover of the device, the manual switch or actuator being arranged and configured to manipulate a connected load. The electrical device includes one or more geometries, surface features, or spacers arranged and configured within the aperture of the front cover. During use, the geometries, surfaces features, or spacers are arranged and configured to interact with the manual switch or actuator to reposition and/or align the switch or actuator within the aperture so that a consistent and uniform gap or spacing is maintained between the outer perimeter of the switch or actuator and the inner surface of the aperture. In one embodiment, the geometries, surfaces features, or spacers may be positioned within one or more of the corners of the aperture.

A key module includes a base plate, a circuit layer and a lifting mechanism. The circuit layer is disposed on the base plate. The lifting mechanism is pivotally connected with the base plate relative to the circuit layer, and the lifting mechanism has an abutment element. The abutment element could interfere with the circuit layer to reduce the noise generated by the key module during operation.