1. Field of the Invention
The present invention relates to a keypad structure and a method of fabricating the same, and particularly to a keypad structure having key legends (including letters, characters, symbols or patterns, figures, drawings) and a method of fabricating such keypad structure including steps of forming the legends.
2. Description of the Prior Art
Electronic products such as telephones, cell phones, smart phones, personal digital assistants (PDAs), electronic translators and the like usually include keypad structures.
However, the light shielding is poor for the area between the two edges of these two color layer, resulting in a light-penetration (halo) issue. As shown in
JP 2007-73463A discloses a push-button switch, in which a keycap body is made of resin and a coating layer laminating a first resin thin-film layer, an inorganic coating layer, and a transparent second resin thin-film layer in order from the surface side of the keycap body on the top face of the keycap body. The inorganic coating layer is covered by the resin thin-film, and accordingly erosion, toxic or allergic problems caused by the inorganic substance can be avoided.
JP 2006-59677A teaches a screen-printing method to form an expressing color layer on a keycap surface or beneath a transparent keycap by superposing three different gray-tone color layers to allow the keytop to have a color in gradation.
Therefore, there is still a need for a novel keypad structure or a novel method of fabricating the same to solve the halo issue.
One object of the present invention is to provide a method of fabricating a keypad structure and a keypad structure, to prevent from a halo issue suffered by conventional key legends as aforesaid.
According to one embodiment of the present invention, a method of fabricating a keypad structure is provided. The method includes steps as follows. A keycap component is formed, which includes steps as follows. A laminate is provided. The laminate includes a transparent plastic layer, a keytop base color layer and a light-shielding color layer. The keytop base color layer is between the transparent plastic layer and the light-shielding color layer, the transparent plastic layer is between the keytop base color layer and the light-shielding color layer, or the light-shielding color layer is between the keytop base color layer and the transparent plastic layer. The light-shielding color layer and the keytop base color layer are partially removed, to form a first hollowed pattern on the light-shielding color layer and a second hollowed pattern on the keytop base color layer. An edge of the first hollowed pattern and an edge of the second hollowed pattern are aligned with each other. The laminate is formed into a keycap-shaped shell and the keycap-shaped shell is filled with a keycap material, or a keycap-shaped cured-resin layer is disposed on a non-light-shielding-color-layer side of the laminate, so as to form a keycap layer. The keycap layer is cut to obtain the keycap component. The keycap component is combined with a circuit board, a metal dome and a plunger to assembly the keypad structure.
According to one embodiment of the present invention, a method of fabricating a keypad structure is provided. The method includes steps as follows. A keycap component is formed, which includes steps as followed. A transparent plastic layer is provided. A first color layer is disposed on one face of the transparent plastic layer. A second color layer is disposed on the first color layer to form a laminate. The second color layer includes a first hollowed pattern. The first color layer is partially removed through the first hollowed pattern of the second color layer to form a second hollowed pattern on the first color layer. An edge of the first hollowed pattern and an edge of the second hollowed pattern are formed to be aligned with each other. The laminate is formed into a keycap-shaped shell and the keycap-shaped shell is filled with a keycap material, or a keycap-shaped cured-resin layer is disposed on the transparent plastic layer of the laminate, so as to form a keycap layer. The keycap layer is cut to obtain the keycap component. The keycap component is combined with a circuit board, a metal dome and a plunger to assembly the keypad structure.
According to another embodiment of the present invention, in which, forming a keycap layer of a keycap component includes steps of disposing a keycap-shaped cured-resin layer on one face of a transparent plastic layer; disposing a keytop base color layer on another face of the transparent plastic layer; disposing a light-shielding color layer on the keytop base color layer; partially removing the light-shielding color layer and the keytop base color layer to form a first hollowed pattern on the light-shielding color layer and a second hollowed pattern on the keytop base color layer. An edge of the first hollowed pattern and an edge of the second hollowed pattern are aligned with each other.
According to further another embodiment of the present invention, in which, forming a keycap layer of a keycap component includes steps of disposing a keycap-shaped cured-resin layer on one face of a transparent plastic layer; disposing a keytop base color layer on another face of the transparent plastic layer; disposing a light-shielding color layer on the keytop base color layer, in which, the light-shielding color layer includes a first hollowed pattern; and partially removing the keytop base color layer through the first hollowed pattern to form a second hollowed pattern on the keytop base color layer. An edge of the first hollowed pattern is aligned with an edge of the second hollowed pattern.
According to still further another embodiment of the present invention, a keypad structure is provided. The keypad structure includes a circuit board, a metal dome above the circuit board, a plunger above the metal dome and a keycap component above the plunger. The keycap component includes a laminate. The laminate includes a transparent plastic layer, a keytop base color layer and a light-shielding color layer. These three layers are laminated together. The keytop base color layer includes a first hollowed pattern. The light-shielding color layer includes a second hollowed pattern. An edge of the second hollowed pattern is aligned with an edge of the first hollowed pattern. The light-shielding color layer is between the keytop base color layer and the plunger.
These and other objectives of the present invention will no doubt become obvious to those of ordinary skill in the art after reading the following detailed description of the preferred embodiment that is illustrated in the various figures and drawings.
A specific feature of the key legend structure in an embodiment according to the present invention is illustrated by
The keytop base color layer 14 maybe formed on the transparent plastic layer 20, and then the light-shielding color layer 16 is formed on the keytop base color layer 14. Accordingly, the keytop base color layer 14 is disposed between the transparent plastic layer 20 and the light-shielding color layer 16, as shown in
It is notable that the keytop base color layer 14 and the light-shielding color layer 16 are each not limited to being a full print, and they also may be a non-full print or hollowed, or they may each have a mono- or multi-color.
As shown in
In another embodiment, as shown in
Likewise, in the case that the light-shielding color layer is disposed between the keytop base color layer and the transparent plastic layer, the light-shielding color layer and the keytop base color layer may be formed as the aforesaid and have two hollowed patterns having aligned edges. In more detail, the light-shielding color layer maybe formed on the transparent plastic layer, then the keytop base color layer is formed on the light-shielding color layer, and then two hollowed patterns are formed. Alternatively, the light-shielding color layer maybe formed on the transparent plastic layer, then the keytop base color layer having a hollowed pattern is formed on the light-shielding color layer, and then a hollowed pattern is formed to the light-shielding color layer in a way as the aforesaid. However, in this situation, since the light-shielding color layer is disposed between the keytop base color layer and the transparent plastic layer, the keytop base color layer becomes the outmost layer of the keycap structure and would be probably damaged due to exposure to the environment.
In the case that the transparent plastic layer is disposed between the keytop base color layer and the light-shielding color layer, the keytop base color layer and the light-shielding color layer can be still formed to have two hollowed patterns having aligned edges. Accordingly, such structure is still within the scope of the present invention.
Furthermore, a transparent color layer may be further formed. For example, when the keytop base color layer is disposed between the transparent plastic layer and the light-shielding color layer (that is, the transparent plastic layer covers the keytop base color layer), or the transparent plastic layer is disposed between the keytop base color layer and the light-shielding color layer, a transparent color layer maybe further formed on the light-shielding color layer to cover these two hollowed patterns after they are formed. Alternatively, for example, when the light-shielding color layer is disposed between the keytop base color layer and the transparent plastic layer, a transparent color layer may be further formed on the transparent plastic layer to overlap the hollowed patterns after they are formed. In the subsequent keycap structure assembly, the transparent color layer is allowed to be between the light-shielding color layer and plungers. The transparent color layer may be formed through a full print process, and accordingly the formation is without alignment issue. Besides, the transparent color layer may be formed in accordance with the desire of aesthetic requirement, such as color matching, or function requirement. For example, the transparent color layer may be a gray transparent color layer.
Thereafter, Step 114 is performed. Referring to
Alternatively, as shown in
Thereafter, Step 115 is performed to cut the keycap layer through for example punching by a punch die or cutting by a carbon dioxide (CO2) laser, to form a keycap component, which may be a keycap component for a single key or for a plurality of keys.
Thereafter, Step 102 is performed for combination. The keycap component and a circuit board 26, a metal dome 28, an optional dome sheet 30, and a plunger 32 are combined to assembly a keypad structure. The plunger 32 and the keycap body 22 may be alternatively monolithically formed. Alight guide plate maybe further combined. The circuit board may be flexible. When the keytop base color layer has a light color, the advantage of the present invention is more remarkable, so that the halo issue as encountered in the conventional technology can be avoided.
Furthermore, in the case that the keycap component includes keycap-shaped cured resin layer 34, a keytop base color layer and a light-shielding color layer may be formed on the transparent plastic layer, and then the keycap-shaped cured resin layer may be formed, as those steps performed in the embodiment mentioned above. Alternatively, in another embodiment, the keycap-shaped cured resin layer 34 may be formed on one face of a transparent plastic layer, such as a PET film, and then a keytop base color layer and a light-shielding color layer may be formed on another face of the transparent plastic layer in a way as mentioned above, and then steps including forming hallowed patterns and cutting are performed to obtain the keycap component. Similar to the aforesaid embodiments, the light-shielding color layer may have a hollowed pattern when it is formed, and a hollowed pattern is formed to the keytop base color layer through the hollowed pattern of the light-shielding color layer. Likewise, a transparent color layer may be further disposed on the light-shielding color layer.
Those skilled in the art will readily observe that numerous modifications and alterations of the device and method may be made while retaining the teachings of the invention.
Number | Date | Country | Kind |
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100106654 | Mar 2011 | TW | national |
100203551 | Mar 2011 | TW | national |