A keyswitch support connection structure incudes a bottom plate portion, a cantilever plate, and a joining portion. The cantilever plate extends upward from a joining hole of the bottom plate portion and has a holding structure. The joining portion and the joining hole are firmly engaged with each other. The joining portion encapsulates the holding structure. The joining portion and the bottom plate portion jointly form or the joining portion alone forms a support connection portion. A keyswitch structure includes a base, a keycap above the base, and first and second keyswitch supports connected to and between the keycap and the base. The base includes the above keyswitch support connection structure. The first keyswitch support is rotatably connected to the support connection portion.

A keyswitch support connection structure incudes a bottom plate portion, a cantilever plate, and a joining portion. The cantilever plate extends upward from a joining hole of the bottom plate portion and has a holding structure. The joining portion and the joining hole are firmly engaged with each other. The joining portion encapsulates the holding structure. The joining portion and the bottom plate portion jointly form or the joining portion alone forms a support connection portion. A keyswitch structure includes a base, a keycap above the base, and first and second keyswitch supports connected to and between the keycap and the base. The base includes the above keyswitch support connection structure. The first keyswitch support is rotatably connected to the support connection portion.

A keyboard device includes a key structure, a switch circuit board, a base plate and a buffering strip. The key structure includes a keycap and a stabilizer bar. The stabilizer bar is connected with the keycap. A first end of the buffering strip is fixed in a first coupling structure of the keycap. A second end of the buffering strip is fixed in a second coupling structure of the keycap. The buffering strip is contacted with the stabilizer bar and filled in a gap between the stabilizer bar and the first coupling structure. Since the possibility of resulting in the collision between the stabilizer bar and the keycap is minimized, the keycap device is capable of reducing noise.

A thin keyboard switch includes a keycap, a housing, an elastic body, an elastic contact body, a balancing frame, and a base disposed on a printed circuit board (PCB). A base groove fitting with the elastic contact body is provided at the center of the base, the elastic contact body is disposed at the bottom portion inside the base groove, and the elastic contact body is electrically connected to the PCB. The housing and the base are disposed in a tightly gripping manner. The elastic body protrudes from the housing and is connected to the keycap, and the keycap is mounted on the balancing frame.

A thin keyboard switch includes a keycap, a housing, an elastic body, an elastic contact body, a balancing frame, and a base disposed on a printed circuit board (PCB). A base groove fitting with the elastic contact body is provided at the center of the base, the elastic contact body is disposed at the bottom portion inside the base groove, and the elastic contact body is electrically connected to the PCB. The housing and the base are disposed in a tightly gripping manner. The elastic body protrudes from the housing and is connected to the keycap, and the keycap is mounted on the balancing frame.

The present invention provides a luminous keyboard, including a key cap, a frame plate, and a light source. The frame plate is provided between the key cap and the light source for shielding light generated by the light source. The frame plate includes a plurality of openings for the light to pass through, and each opening is provided below the key cap. When the light passes through the opening, the light is illuminated on the key cap and the key cap is enabled to shine. In order to avoid the light being leaked out between the key cap and the opening of the frame plate, the opening is smaller than the press portion of the key cap.

A keyboard device includes a light guide plate, a base plate, plural keys and plural surround-type soundproof elements. The base plate is located over the light guide plate. The plural keys are connected with the base plate. The membrane circuit board is arranged between the plural keys and the base plate. The plural surround-type soundproof elements are aligned with the corresponding keys. Each surround-type soundproof element is disposed on the light guide plate, the base plate or the membrane circuit board. While one of the plural keycaps is depressed and moved downwardly relative to the base plate, a sealed space is defined by the corresponding keycap and the corresponding surround-type soundproof element.

A keyboard device includes a key structure, a switch circuit board, a base plate and a buffering strip. The key structure includes a keycap and a stabilizer bar. The stabilizer bar is connected with the keycap. A first end of the buffering strip is fixed in a first coupling structure of the keycap. A second end of the buffering strip is fixed in a second coupling structure of the keycap. The buffering strip is contacted with the stabilizer bar and filled in a gap between the stabilizer bar and the first coupling structure. Since the possibility of resulting in the collision between the stabilizer bar and the keycap is minimized, the keycap device is capable of reducing noise.

A slim-type key structure includes a keycap, a base plate, a scissors-type connecting element, a membrane circuit board, a metal dome and a positioning plate. The keycap can be pressed. The scissors-type connecting element is located under the keycap. The membrane circuit board is disposed on the base plate. The metal dome is disposed on the membrane circuit board. In response to a pressing force, the metal dome is subjected to a compressed deformation to press the membrane circuit board. When the pressing force is released, a restoring force is generated and the metal dome is restored to an original shape in response to the restoring force. The positioning plate includes a pressing post. The pressing post is aligned with a center of the metal dome and a center of the keycap. The positioning plate is fixed on the metal dome through an adhesive.

Provided is a switch with excellent operability. A switch is provided with a plunger, a lower torsion spring in which a biasing direction changes according to the movement of the plunger. The lower torsion spring biases the plunger in a returning direction when the plunger is in a reference position, and biases the plunger in a direction different from the returning direction when the plunger is in an operation position.