The present invention relates to a keyboard, and more particularly, to an illuminated keyboard.
A keyboard is commonly used in conjunction with a computer as one of the essential input devices. Generally, when most computers and peripheral devices used with computers are developed, lighter, thinner, shorter, and more compact designs are often preferred or required. Keyboards have also been occupying less volume over time. Earlier keyboards were relatively large, while slim keyboards are very common today. In addition, currently, an illuminated keyboard is available on the market. Usually, light sources such as light-emitting diode (LED) modules are located inside an illuminated keyboard. Light is transmitted through the periphery of a key or the surface of a key to allow a user to still clearly discern the location of each key in a low ambient light condition or in a dark environment.
In general, an illuminated keyboard comprises a base plate, a thin film circuit board, a plurality of key structures, and a plurality of light emitting elements. The thin film circuit board, the key structures, and the light emitting elements are all located on the base plate. Moreover, the base plate is usually made of metal. A plurality of connecting structures are formed on the base plate by a stamping process and used for being fixed to the connecting members of the key structures, respectively. The base plate made of metal, however, has the disadvantage of being heavy.
Furthermore, the plurality of light emitting elements of a prior art illuminated keyboard correspond to the plurality of key structures, respectively. In other words, each of the light emitting elements is located under each of the key structures. Thus, light emitted from each of the light emitting elements can be projected toward the keycap of the corresponding key structure directly. The light can pass through the optically transmissive portion of the keycap and travel outward to illuminate the keycap. However, the locations of the connecting members of the key structures limit the choice of locations for the light emitting elements such that the light emitting elements cannot be located at the central portions of the key structures. When adopting the above design (the light emitting elements not being located at the central portions), the corresponding keycaps are not evenly illuminated. Therefore, there is room for further improvements in illumination for a prior art illuminated keyboard.
In order to solve the aforementioned problems, it is the primary object of the present invention to provide a keyboard. Each of the optically transmissive members of the base plate of the keyboard has a light guiding portion. The problem with a prior art keyboard is that the keyboard is not illuminated evenly. This problem is solved by the design of the light guiding portions of the keyboard of the present invention.
In order to achieve the above-mentioned object, the present invention provides a keyboard, which comprises a base plate, a plurality of key structures, and a light emitting assembly. The base plate comprises a body and a plurality of optically transmissive members. The body has a plurality of hollow portions. The optically transmissive members are contained in the hollow portions, respectively. Each of the optically transmissive members has a light guiding portion and a plurality of connecting structures. The key structures correspond to the optically transmissive members, respectively. One of the key structures is connected to the connecting structures of one of the optically transmissive members. The light emitting assembly comprises a driver circuit board and a plurality of light emitting units. The light emitting units are located on the driver circuit board. The driver circuit board is located on one of the surfaces of the base plate. The light emitting units are contained in the light guiding portion, respectively.
According to one embodiment of the present invention, the body is made of metal. The optically transmissive members are made of plastic.
According to one embodiment of the present invention, the light guiding portion is a concave portion and has a plurality of microstructures, and the plurality of microstructures are formed on an inner surface of the light guiding portion.
According to one embodiment of the present invention, the plurality of microstructure is a stepped structure or a carved texture.
According to one embodiment of the present invention, each of the optically transmissive members has a top surface and a bottom surface. The top surface corresponds to one of the key structures. An opening of the light guiding portion is positioned on the bottom surface. The light emitting assembly is located on the bottom surface of the optically transmissive members.
According to one embodiment of the present invention, the keyboard further comprises a reflective layer and a thin film circuit board. The reflective layer is located on a surface of the light emitting assembly which faces away from the base plate. The thin film circuit board is located on a surface of the base plate which faces away from the light emitting assembly.
According to one embodiment of the present invention, each of the plurality of optically transmissive members has a top surface and a bottom surface. The top surface corresponds to one of the key structures. An opening of the light guiding portion is positioned on the top surface. The light emitting assembly is located on the top surface of the optically transmissive members.
According to one embodiment of the present invention, the keyboard further comprises a reflective layer and a thin film circuit board. The reflective layer is located on the bottom surface of the plurality of optically transmissive members. The thin film circuit board is located on a surface of the light emitting assembly, and the surface faces away from the base plate.
According to one embodiment of the present invention, the light guiding portion is disposed between the plurality of connecting structures.
According to one embodiment of the present invention, the base plate further comprises a plurality of reinforcing structures. Each of the reinforcing structures is connected to two of the adjacent plurality of optically transmissive members. The hollow portions have an extending portion, respectively. The reinforcing structures are contained in the plurality of extending portions.
According to one embodiment of the present invention, the optically transmissive members are formed integrally with the reinforcing structures.
As described above, the keyboard of the present invention comprises a base plate, a plurality of key structures, and a light emitting assembly. The base plate comprises a body and a plurality of optically transmissive members. Moreover, the body has a plurality of hollow portions. The optically transmissive members are contained in the hollow portions. The key structures correspond to the optically transmissive members, respectively. Furthermore, each of the optically transmissive members has a light guiding portion. Light emitting units are contained in the light guiding portion, respectively. Light emitted from the light emitting units can pass through the optically transmissive members and the light guiding portions thereof such that the keyboard is illuminated. The key structures correspond to the optically transmissive members, respectively, and the light emitting units are contained in the light guiding portions of the optically transmissive members; this design provides more even illumination of the keyboard compared with prior art illuminated keyboards.
The advantages and innovative features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.
Moreover, each of the plurality of optically transmissive members 12 has a light guiding portion 121 and a plurality of connecting structures 122. More specifically, each of the optically transmissive members 12 has a top surface 123 and a bottom surface 124 which are opposite to each other. In this embodiment, the surface which faces the key structure 20 is referred to as the top surface 123; the surface which faces away from the key structure 20 is referred to as the bottom surface 124. The connecting structures 122 are located on the top surface 123 of the optically transmissive member 12 to correspond to one of the key structures 20 such that one of the key structures 20 can be connected to the connecting structures 122 of the optically transmissive member 12. Specifically, the key structure 20 comprises a keycap 21, a scissor-type connecting member 22, and an elastomer 23. One end of the scissor-type connecting member 22 is connected to the keycap 21, and the other end of the scissor-type connecting member 22 is connected to the connecting structures 122 of the optically transmissive member 12. The connecting structures 122 can be hook structures. Moreover, the connecting structures 122 can be fixed to the scissor-type connecting member 22 of the key structure 20 when the connecting structures 122 and the scissor-type connecting member 22 are snapped together. In the prior art, the connecting structures of a keyboard are formed on the base plate by a stamping process. In this embodiment, the connecting structures 122 can be formed on the optically transmissive members 12 by injection molding. Therefore, only the hollow portions 111 have to be formed in the body 11 made of metal. The connecting structures do not have to be formed on the body 11.
Preferably, characters and symbols on the keycap 21 can be the optically transmissive portion(s) (not shown in figures), and the elastomer 23 is located in a space formed by the keycap 21 and the scissor-type connecting member 22. In this embodiment, the keyboard 1 further comprises a thin film circuit board 40. The thin film circuit board 40 is located on a surface of the base plate 10 which faces the key structure 20. In other words, the thin film circuit board 40 is located on the top surface 123 of the optically transmissive member 12, as shown in
In this embodiment, the light guiding portion 121 is a concave portion structure, preferably an arc-shaped concave portion structure. In this embodiment, the light guiding portion 121 is located on the bottom surface 124 of the optically transmissive member 12 such that the opening of the light guiding portion 121 is positioned on the bottom surface 124. In other words, the optically transmissive member 12 forms a concave portion on the bottom surface 124 acting as the light guiding portion 121 in this embodiment. The hollow portions 111 are disposed according to the key structures 20 such that the key structures 20 also correspond to the optically transmissive members 12, respectively. Moreover, each of the light guiding portions 121 corresponds to each of the key structures 20, respectively. Preferably, the light guiding portion 121 is disposed between the plurality of connecting structures 122 such that the light guiding portion 121 can directly correspond to the keycap 21 of the key structure 20, preferably the central portion of the keycap 21, to provide better illumination of the keyboard 1.
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The driver circuit board 31 can control the light emission of the light emitting units 32. Light emitted from the light emitting units 32 can pass through the optically transmissive members 12 and the light guiding portions 121 thereof and then pass through the optically transmissive portions of the keycaps 21 (characters and symbols) such that the keyboard 1 is illuminated. Moreover, because of the design of the arc-shaped concave portions of the light guiding portions 121, the light emitted from the light emitting units 32 can correspond to the keycaps 21 centrally to provide better illumination of the keyboard 1. Additionally, the optically transmissive members 12 are made of plastic, which results in a decrease in the weight of the base plate 10.
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As described above, the keyboard of the present invention comprises a base plate, a plurality of key structures, and a light emitting assembly. The base plate comprises a body and a plurality of optically transmissive members. Moreover, the body has a plurality of hollow portions. The optically transmissive members are contained in the hollow portions. The key structures correspond to the optically transmissive members, respectively. Furthermore, each of the optically transmissive members has a light guiding portion. Light emitting units are contained in the light guiding portion, respectively. Light emitted from the light emitting units can pass through the optically transmissive members and the light guiding portions thereof such that the keyboard is illuminated. The key structures correspond to the optically transmissive members, respectively, and the light emitting units are contained in the light guiding portions of the optically transmissive members; this design provides more even illumination of the keyboard compared with prior art illuminated keyboards.
In addition, the optically transmissive members and the body are components made of different materials, and the optically transmissive members are made of plastic, which results in a decrease in the weight of the base plate and the overall weight of the keyboard.
It is noted that the above-mentioned embodiments are only for illustration. It is intended that the present invention cover modifications and variations of this invention provided they fall within the scope of the following claims and their equivalents. Therefore, it will be apparent to those skilled in the art that various modifications and variations can be made to the structure of the present invention without departing from the scope or spirit of the invention.
Number | Date | Country | Kind |
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107123204 | Jul 2018 | TW | national |