Embodiments describing a method of forming a multi-layered keycap structure are disclosed herein. The method includes forming a first polymer layer on a second polymer layer, wherein the first polymer layer includes a first color and the second polymer layer includes a second color, and coupling the first polymer layer and second polymer layer to a substrate layer such that the first polymer layer is closer to the substrate than the second polymer layer. The method may further include forming a third polymer layer on the second polymer layer; and etching the multi-layered keycap structure to form an opening having a bottom surface that exposes at least one of the first or second color.

A method for manufacturing a keycap is provided, including the steps of: performing a first shot for injection-molding a first plastic layer which includes a planar face, a back face opposite to the planar face, a closed loop protrusion on the planar face and at least one passage communicating an interior and an exterior of the closed loop protrusion; performing a second shot for injection-molding a second plastic layer which is disposed on the first plastic layer, is different from the first plastic layer in color, includes an inner part within the closed loop protrusion, an outer part outside the closed loop protrusion and a connection portion connected with the inner and outer parts through the at least one passage; removing a part of the connection portion to expose a part of the first plastic layer from the back face of the first plastic layer.

A light-pervious bicolor key cap includes: a key frame, having a first color and formed with plural thin ribs, wherein front ends of the plural thin ribs are formed with at least one letter or punctuation in a continuous status without any notch; and a cap cover, having a second color, wherein the letter or punctuation is formed on a surface of the cap cover, an outer side of the cap cover is formed with a material filling protrusion allowing a plastic having the second color to be filled in, and an inner surface thereof is formed with at least one convex piece which is not fixedly combined with the key frame; so that through removing the convex piece having the second color, the letter or punctuation of the cap cover is prevented from being formed with any notch and capable of allowing the light to fully permeate.

A keyboard includes a base plate, a switch circuit board, plural swinging-type key structures, a light-emitting element, a light guide plate and a covering member. The light-emitting element emits a light beam. The plural swinging-type key structures are disposed on the switch circuit board. When one of the swinging-type key structures is pressed, the switch circuit board is triggered to generate a key signal. The light guide plate comprises plural light guide sub-plates. The light guide sub-plates are disposed on the corresponding swinging-type key structures. The covering member covers the base plate and the light guide plate. The covering member has a light-transmissible region. The light beam from the light-emitting element passes through the light-transmissible region. Consequently, the key structure is illuminated.

A computing system may include a keyboard and at least one backlight. The keyboard may include at least one key. The at least one key may include a first filter shaped according to a first character in a first alphabet. The first filter may transmit light within a first spectral range. The at least one key may also include a second filter shaped according to a second character in a second alphabet. The second filter may transmit light within a second spectral range. The at least one backlight may be configured to shine light of a first wavelength within the first spectral range in response to an instruction to display the first alphabet, and shine light of a second wavelength within the second spectral range in response to an instruction to display the second alphabet.

A light-pervious bicolor key cap includes: a key frame, having a first color and formed with plural thin ribs, wherein front ends of the plural thin ribs are formed with at least one letter or punctuation in a continuous status without any notch; and a cap cover, having a second color, wherein the letter or punctuation is formed on a surface of the cap cover, an outer side of the cap cover is formed with a material filling protrusion allowing a plastic having the second color to be filled in, and an inner surface thereof is formed with at least one convex piece which is not fixedly combined with the key frame; so that through removing the convex piece having the second color, the letter or punctuation of the cap cover is prevented from being formed with any notch and capable of allowing the light to fully permeate.

The invention discloses a translucent keycap and a method of fabricating the same. The translucent keycap according to the invention includes a translucent base, a first colored translucent layer, a light-shielding layer and a second colored translucent layer. The first colored translucent layer overlays an outer surface of the translucent base. The light-shielding layer overlays the first colored translucent layer, and has a hollowed region. The hollowed region penetrates the light-shielding layer such that a portion of the first colored translucent layer is exposed within the hollowed region. The second colored translucent layer covers the hollowed region. When a light travels upward from beneath the translucent keycap, the light is capable of passing through the translucent base, the first colored translucent layer, the hollowed region and the second colored translucent layer such that the hollowed region emits a color light.

A direct-backlit keyboard is disclosed, the direct-backlit keyboard comprising a plurality of keys, a thin film circuit board, a base plate, a copper etched thin-film circuit board, and a plurality of light-emitting units. The plurality of keys are disposed on the thin film circuit board, the thin film circuit board being disposed on the base plate, the base plate being disposed on the copper etched thin-film circuit board, and the copper etched thin film circuit board being provided with the plurality of light-emitting units. Each light-emitting unit corresponds to each key so that the light emitted from each light-emitting unit can be transmitted to each corresponding key.

A multicolor illumination keyboard includes a light-emitting element, a color filter and plural keys. The plural keys are located above the light-emitting element. The color filter is arranged between the plural keys and the light-emitting element. After a source light emitted by the light-emitting element passes through the color filter, plural color lights are generated. The plural color lights are outputted from the plural keys. Consequently, the plural keys are illuminated in a multicolor manner.

The input component includes a molding that forms an external frame, a sensor sheet formed by providing a sensor electrode on a base sheet formed of a resin film, the sensor sheet being installed inside the molding, a display element capable of being illuminated by an internal light source, a light shielding portion that shields a light from the internal light source, the display element being illuminated when the internal light source is on, a contact with the display element enabling an input operation, a colored transparent layer formed so as to have a color tone that creates a blackout in which the display element becomes integrated with the light shielding portion surrounding the display element when the internal light source is off so as to become difficult to perceive, the colored transparent layer being provided so as to be layered on the display element, and a light diffusing layer.