A key structure includes a keycap and an actuator. The actuator is coupled with the keycap and enables the keycap to move reciprocally along an actuating direction. One of the actuator and the keycap has a base and a slot formed therein, and the other one of the same has a plug. The plug is inserted into the slot in a direction parallel to the actuating direction. The slot has an inner wall pressing the plug and generating friction. The base has a first sidewall thickness perpendicular to the actuating direction and parallel to the inner wall and a second sidewall thickness perpendicular to the actuating direction and perpendicular to the inner wall, wherein the first sidewall thickness is greater than the second sidewall thickness. The disclosure can avoid the horizontal stress generated by the plug when it is inserted into the slot to squeeze against the bas.

A key entry device including a housing, a keypad array disposed within the housing and including a plurality of keys, a key contact array disposed within the housing below the keypad array and including a plurality of contact pairs, a dome array underlying the keypad array and the key contact array and including a plurality of domes, and a protrusion array underlying the dome array and including a plurality of protrusions, whereby depression of one of the plurality of keys of the keypad array causes a corresponding one of the domes of the dome array to be displaced downwardly and to be deformed by pushing engagement with a corresponding one of the protrusions of the protrusion array into contact with at least one of the contact pairs of the key contact array.

A press-key with a multiple-trigger mechanism includes a base, an alphanumeric key assembly, and at least two elastic members. The alphanumeric key assembly includes a coupling assembly provided on the base. The at least two elastic members are provided on the base and under the alphanumeric key assembly. One of the elastic members has a different height from the remainder of the elastic members. When the alphanumeric key assembly is moved toward the base, the elastic members are separately driven by the alphanumeric key assembly to press and thereby activate a switch such that different electrical signals are generated. The operability and trigger response of the press-key can be flexibly adjusted according to user needs so that the press-key can be operated rapidly and respond in real time.

A keyboard device includes a membrane circuit board and a key structure over the membrane circuit board. The key structure includes a keycap, a plunger structure, a key pedestal and an elastic element. The plunger structure is arranged between the keycap and the elastic element. At least a portion of the keycap is disposed within a pedestal dust-storage chamber of the key pedestal. At least a portion of the plunger structure is disposed within a guiding chamber of the key pedestal. Due to the relative location between the keycap, the plunger structure and the key pedestal, the path of the dust to enter the guiding chamber is extended or blocked. Consequently, the dust-proof efficacy is enhanced.

A waterproof film includes a film reinforcing layer, a light shielding layer, a texture layer, and a pattern. The light shielding layer is combined under the film reinforcing layer and forms a plurality of protruding structures cooperatively with the film reinforcing layer by a hot pressing process. The texture layer is attached to a release film and then formed on a top surface and a side surface of each protruding structure after a hot pressing process is performed and the release film is then peeled. The pattern is formed on the texture layer or the light shielding layer.

A middle illuminated button switch including a printed circuit board (PCB), a base and a cover. A guide core is arranged between the base and the cover, a through hole is arranged at the bottom of the base and under the guide core. A light guide groove is provided at the lower end surface of the guide core. A light-emitting element is arranged on the upper end of the PCB, and the light-emitting element is inserted into the base from the through hole and embedded in the light guide groove. Since the light-emitting element is embedded in the base from the bottom to the top, and the light is emitted to the outside from the middle through the guide core, so as to realize the light-emitting effect in the middle of the button.

A key structure includes a bottom plate, a first actuator and a keycap. The first actuator is disposed on the bottom plate and engaged with the keycap to make the keycap movably reciprocating along an actuating direction perpendicular to the bottom plate. Wherein, one of the first actuator and the keycap has a first slot; and the other one of the first actuator and the keycap has a first plug. The first plug is inserted in the first slot in parallel to the actuating direction. One of the first slot and the first plug includes at least one first protruding portion, which protrudes perpendicularly to the actuating direction and is conformally engaged with the other one of the first slot and the first plug.

A key switch implements a receiving switch conductor and transmitting switch conductor in the key switch. Depressing the key switch will cause the receiving switch conductor and transmitting switch conductor to approach each other. The approach of a finger and movement of the key switch can be detected using the receiving switch conductor and the transmitting switch conductor.

An electronic device is provided here, which includes a casing, a keycap and a keyboard backlight module. The casing has a first opening. The keycap is disposed corresponding to the first opening, and a gap is formed between the keycap and a periphery of the first opening. The keyboard backlight module includes a shielding layer, the shielding layer includes a light transmission area corresponding to the first opening and a light block portion, and the light block portion is located in the light transmission area and covers a region where at least one light path passes through the gap and intersects the light transmission area through.

A key structure including a base, a light sensing module, a carrier, a magnetic member, a cap, and a scissor structure are provided. The light sensing module is disposed at the base. The carrier is located above the base. The magnetic member is disposed on the carrier. The cap is adapted to be assembled to the carrier via a magnetic attracting force of the magnetic member or adapted to be detached from the carrier via overcoming the magnetic attracting force of the magnetic member. The scissor structure is connected between the base and the carrier. The carrier and the cap disposed thereon move up and down relative to the base via the scissor structure. An orthogonal projection of the magnetic member on the base is not overlapped with an orthogonal projection of the light sensing module on the base. A keyboard is also provided.