A switch apparatus according to one embodiment includes an operation portion, a surface film and a light source. The operation portion has an elongated shape with first and second opposite ends in a longitudinal direction of the operation portion, receives a pressing operation of a user at least at one of the first and second ends, and is translucent. The surface film is formed on a surface of the operation portion and is translucent. The light source is arranged on a back-surface side of the operation portion and emits light toward the at least one of the first and second ends.

A keyboard backlight module includes a light guide plate, a reflector, a light-emitting device and a first microstructure. The light guide plate has an output surface, a light guide pattern and a bottom surface disposed on an opposite side of the output surface. The light guide pattern is arranged on at least one of the bottom surface and the output surface. The reflector has a reflecting surface facing the bottom surface. The light-emitting device is disposed on one side of the light guide plate and configured to provide an incident light to the reflecting surface. The first microstructure is disposed on the reflecting surface, at least partially overlaps with the light guide pattern, and is configured to transform the incident light into a first reflected light.

A cooktop includes a knob assembly controls a heating part. The knob assembly includes: a knob body disposed at a front surface of a control panel and rotating around a rotation shaft extended in a front-rear direction, a light diffusing part disposed at a rear side of the knob body and diffusing light, and a light source part disposed at a rear side of the light diffusing part and including one or more light sources. The light diffusing part includes a light source corresponding part disposed at a position corresponding to one of the light sources, and a thickness of the light diffusing part along a first straight line that passes from a center of the light diffusing part through the light source corresponding part is greater than a thickness of the light diffusing part along a straight line that does not pass through the light source corresponding part.

A key structure including a carrier, a keycap, a lifting member, and an elastic member is provided. The carrier includes a carrier body and multiple positioning hooks. The carrier body has multiple vias, and the positioning hooks are respectively disposed corresponding to the vias. Orthographic projection of each of the positioning hooks falls in the corresponding via. Each of the positioning hooks includes a first positioning portion and a second positioning portion respectively connected to two inner wall surfaces in the corresponding via. The keycap is disposed above the carrier body. The lifting member is disposed between the carrier body and the keycap. One end of the lifting member is connected to the keycap, and an other end of the lifting member is connected to the positioning hooks. The elastic member is disposed between the carrier body and the keycap.

A membrane circuit board includes a first membrane substrate, a spacer substrate, a second membrane substrate and a third membrane substrate. The first membrane substrate includes a first gas channel and a first conductive contact. The spacer substrate includes a first gas hole and a second gas hole. The second membrane substrate includes a second gas channel, a second conductive contact, a third gas hole and a fourth gas hole. The second gas channel is communication between the third gas hole and the fourth gas hole. The second gas channel is in communication with the first gas channel through the first gas hole and the second gas hole. The third membrane substrate includes a third gas channel. The third gas channel is in communication with the second gas channel through the third gas hole and the fourth gas hole.

Keyboards and other electronic input devices have a key or keys with glyphs that are invisible to an unaided human eye in a first condition, such as when an underlying display attached to the key is not emitting light. The glyphs are visible through the key or keys when the display emits light. A one-way visibility layer or structure obscures the visibility of the display when viewed from above, but when the display emits light, the light penetrates through the one-way visibility layer, such as by passing through an array of microperforations in the key, and is visible to an onlooker.

An illuminated keyboard comprises a first keycap group, a second keycap group, and a backlight module. Each keycap group includes plural keycaps. The backlight module comprises a first light-emitting unit, a second light-emitting unit, a first resistor, a second resistor, a light guide plate, and a circuit board. The light-emitting elements in the first and second light-emitting units are electrically connected to each other in parallel. The first resistor is electrically connected to the first light-emitting unit in series, and the second resistor is electrically connected to the second light-emitting unit in series. The light guide plate is configured with plural through holes, and the circuit board is disposed under the light guide plate. A first total light-emitting area of the first keycap group is not equal to a second total light-emitting area of the second keycap group.

A keyboard with a light guiding nameplate includes a keyboard body, a light source, and a light guiding nameplate. The keyboard body includes an outer housing, a plurality of keys, and a circuit board. The plurality of keys is exposed outside of the outer housing, and the circuit board is accommodated inside of the outer housing. The light source is disposed on the circuit board. The light guiding nameplate has a light incident surface, a reflective surface, and a light emergent surface. The light incident surface is located inside of the outer housing and adjacent to the light source, and the light emergent surface is located outside of the outer housing. The light source is configured to emit light to enter into the light guiding nameplate from the light incident surface, the light is totally reflected by the reflective surface, and then emerges from the light emergent surface.

A keyboard able to recognize fingertip touches and touches in gestures such as fingertip sliding, in addition to simple presses on keycaps, includes a plurality of keycaps, a touch layer, a function trigger layer, a touch controller, and a function controller. Each keycap has an operation surface for receiving the pressings and touches. The touch layer generates touch sensing signals according to the touches, the function component generates key signals according to the pressings. The touch controller obtains touch information from the touch sensing signals. The function controller triggers desired key functions according to the key signals received. A method for making such keyboard is also disclosed.

The present invention provides a push switch with LED light. The push switch with LED light includes a substrate provided with a plurality of conductive elements; at least one LED lamp disposed on an upper side of the substrate; a conductive elastic sheet disposed on the substrate; and a pressing upper cover correspondingly covered and fixed on the substrate, wherein a pressing portion is provided at a center of the pressing upper cover, a pressing block extending downward is provided below the pressing portion, the pressing portion can be moved downward under pressure so that the pressing block presses the conductive elastic sheet, when the conductive elastic sheet contacts the conductive elements, they are turned on to drive the LED lamp to emit light. By replacing metal wires with characteristics of extremely thin printed circuits, it is possible to create unprecedented thinness in the use of space.