1. Field of the Invention
The present invention relates to a keypad structure and a method of manufacturing the same, and more particularly, to a thin-type keypad structure having planar metal figures with three-dimensional floating effect.
2. Description of the Prior Art
Electronic products such as cell phones, personal digital assistants (PDAs) usually have keypad keyboards. In the present market, keypad keyboards are mainly categorized into metal keypad keyboards with metallic luster and common plastic keypad keyboards. Conventionally, the metallic luster and the figures such as numerals, symbols and English letters formed on the keypad keyboards are manufactured by virtue of print production or laser carving method, whereas only two-dimensional flat visual effect may be achieved. Also, the aforementioned figures may be stripped off with ease and damaged due to frequent pressings. For this reason, in order to enhance the protection for the figures and increase three-dimensional beauty as well, the technology for forming figures on the bottom surface of the keycap component has developed.
For example, Taiwan patent number M353416 discloses a keypad keyboard having metal figures. As illustrated in
The keypad keyboards of the electronic products have to be relatively thin and small for the devices with reduced size and weight as desired so as to accord with the demand of the market. Consequently, there is still a need for a novel keypad with a thin and small structure.
One object of the present invention is to provide a keypad structure having a transparent keycap and the method of manufacturing the same. Such keypad structure may be relatively thin and have small shape. In addition, even if the pattern of the keypad is almost formed of planar metal, the keypad pattern seems to be floated and is felt to be three-dimensional. Also, the color of overprints may be adapted optionally, for instance, to allow the pattern on the keypad to show eclipse effect.
According to an embodiment of the method of manufacturing a keypad structure having a transparent keycap of the present invention, the method includes following steps. The steps of forming a keycap component include providing a first transparent resin layer including a first surface and a second surface, forming a first metal pattern layer on the first surface of the first transparent resin layer, and forming the keycap layer covering the first metal pattern layer on the first surface of the first transparent resin layer. The steps of forming an overprint component include providing a second transparent resin layer including a third surface and a fourth surface, forming a first print layer covering the fourth surface, a pattern of the first print layer complementing a pattern of the first metal pattern layer, and forming a second print layer covering the first print layer, wherein the pattern of the first print layer and the pattern of the first metal pattern are skeleton pattern and hollowed pattern respectively. The steps of providing a light guide plate include a fifth surface and a sixth surface. Also, the keycap component, the overprint component, the light guide are bonded for assembly, wherein the second surface of the first transparent resin layer and the third surface of the second transparent resin layer face each other, and the fourth surface of the second transparent resin layer and the fifth surface of the light guide plate face each other.
According to an embodiment of the keypad structure having a transparent keycap of the present invention, the keypad structure includes a keycap component and an overprint component. The keycap component includes a first transparent resin layer including a first surface and a second surface, a first metal pattern layer disposed on the first surface of the first transparent resin layer, and a keycap layer disposed on the first surface of the first transparent resin layer and covering the first metal pattern layer. The overprint component includes a second transparent resin layer including a third surface and a fourth surface, a first print layer covering the fourth surface, a pattern of the first print layer complementing a pattern of the first metal pattern layer, and a second print layer covering the first print layer, wherein the pattern of the first print layer and the pattern of the first metal pattern are a skeleton pattern and a hollowed pattern respectively. The keycap component and the overprint component are bonded together, and the second surface of the first transparent resin layer and the third surface of the second transparent resin layer face each other.
According to another embodiment of the keypad structure having a transparent keycap of the present invention, the embodiment includes a circuit board including a plurality of metal domes disposed thereon, a transparent soft resin or rubber layer is bonded to the metal domes of the circuit board via a plurality of plungers, a plurality of keycap components and a plurality of overprint components. Each of the keycap components includes a first transparent resin layer including a first surface and a second surface, a first metal pattern disposed on the first surface of the first transparent resin layer, and a keycap layer disposed on the first surface of the first transparent resin layer and covering the first metal pattern layer. Each of the overprint components includes a second transparent resin layer including a third surface and a fourth surface, a first print layer covering the fourth surface and comprising a pattern of the first print layer complementing a pattern of the first metal pattern layer wherein the pattern of the first print layer and the pattern of the first metal pattern are a skeleton pattern and a hollowed pattern respectively, and a second print layer covering the first print layer, wherein the fourth surface and the transparent soft resin or rubber layer face each other. The overprint components are disposed on the transparent soft resin or rubber layer respectively corresponding to the plungers. The keycap components are disposed on the overprint components respectively, and the second surface of the first transparent resin layer and the third surface of the second transparent resin layer face each other.
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.
The method of manufacturing a keypad structure having a transparent keycap according to the present invention includes steps of forming a keycap component, steps of forming an overprint component, and steps of providing a light guide plate, and a step or steps of bonding the keycap component, the overprint component, and the light guide plate for assembly, such that a keypad structure having a transparent keycap is therefore formed.
Each of the steps is detailed as follows.
The steps of forming an overprint component include providing a second transparent resin layer 42. The thickness is not particularly limited and may be determined as required. The material may be a transparent resin, and the color is not limited particularly. The material of the second transparent resin layer 42 and that of the first transparent resin layer 32 may be identical or different. Afterwards, a first print layer 44 is formed on the surface of the second transparent resin layer 42. A pattern of the first print layer 44 complements a pattern of the first metal pattern layer 34, wherein the pattern of the first print layer and the pattern of the first metal pattern are skeleton pattern and hollowed pattern respectively. Therefore when the first metal pattern layer 34 is skeleton shape, the first print layer 44 corresponding to the position of the skeleton shape is hollowed. Or, when the first metal pattern layer 34 is hollowed, the first print layer 44 corresponding to the position of the hollowed pattern has an entity pattern. That is to say, the portion of the first print layer 44 disposed on the position of the second transparent resin layer 42 non-corresponding to the first metal pattern layer 34 may provide light shielding effect. Then, a second print layer 46 is formed to cover the first print layer 44. In such a case, the first print layer 44 corresponding to the blank pattern portion of the first metal pattern layer 34 may cover the second print layer 46. Consequently, by virtue of viewing another surface of the second transparent resin layer 42, the portion of the second print layer 46 which is not shielded by the first print layer may be viewed. After stacking the keycap component and the overprint component, the portion of the second print layer 46 which is not shielded by the first print layer 42 is exposed under the first metal pattern layer 34, such that the pattern of the first metal pattern layer 34 is set off by the second print layer 46. The first print layer 44 and the second print layer 46 may be formed respectively by virtue of print paints or ink layer, whereas the color of the first print layer 44 and the color of the second print layer 46 may be identical or different. In addition, the first print layer 44, the second print layer 46 and the first metal pattern layer 34 may be adjusted as required but are not limited particularly. Moreover, in the present invention, it is not limited to only two print layers, and more print layers may be formed so as to provide desirable colors and effect.
In an embodiment of manufacturing a thin-type keypad of the present invention, the thickness of the first transparent resin layer and the thickness of the second transparent resin layer may be for example 0.125 mm respectively. Or, the thickness of the first transparent resin layer may be 0.1 mm, and the thickness of the second transparent resin layer may be 0.4 mm.
In the step of providing a light guide plate (not shown in
At last, the keycap component, the overprint component, and the light guide plate are bonded for assembly. Another surface having no first metal pattern layer and keycap layer of the first transparent resin layer 32 and another surface having no first print layer and no second print layer of the second transparent resin layer 42 face each other, and one surface having a first print layer 44 and a second print layer 46 of the second transparent resin layer 42 and one face of the light guide plate face each other. The way for assembly includes the step of bonding the keycap component, the overprint component and the light guide plate by virtue of using an adhesion layer (such as an adhesive glue or a double-sided adhesive tape) between the keycap component and the overprint component and an adhesion layer between the overprint component and the light guide plate respectively for bonding. Also, the adhesion layer may be transparent. In addition, other components may be disposed between theses two components without particular limitation.
After assembly, because the pattern of the first print layer 44 and the pattern of the first metal pattern layer 34 are complementary, the second print layer 46 is visible (exposed) via the hollowed pattern of the first print layer 44. Also, after stacking the keycap component and the overprint component from top to bottom, the first metal pattern layer 34 and the second print layer 46 are stacked to each other and have a difference in height of the total thickness of the two transparent resin layers. In such a case, the planar figures or pattern seem to be floated and is felt to be three-dimensional. In addition, since the first print layer 44 has a light-shielding effect to the second print layer 46, the first metal pattern layer 34 is accordingly set off and viewed especially under the illumination of the backlight. For instance, if the overprint layer is red, the eclipse effect with beauty may be viewed by virtue of the illumination of the backlight.
In addition, a second metal pattern layer is formed on another surface having no first print layer and no second print layer of the second transparent resin layer. Also, the second metal pattern layer has a hollowed pattern corresponding to the first metal pattern layer. Moreover, a gap may be formed between the second metal pattern layer and the first metal pattern layer in a projection view along the stacking direction of the second metal pattern layer and the first metal pattern layer, and a part of the first print layer or a part of the second print layer may be visible via the gap to a user.
A plurality of keycap components may be formed on the same substrate when manufacturing the keycap component. For instance, the whole keypad such as mobile phone keypad may be shaped according to the keypad design, or the whole keypad may be shaped by virtue of a plurality of single keypads. Similarly, the aforementioned method may be utilized to manufacture the overprint component. Accordingly, two types of punching processes are provided. As for the first way for punching, the keycap component and the overprint component are firstly punched respectively so as to form a keypad shape and bonded to the light guide plate afterwards for assembly. As for the second way for punching, the keycap component and the overprint component are firstly bonded together and punched so as to form a plurality of single keypads, and the single keypads are bonded to a transparent rubber layer and a light guide plate for assembly, wherein the transparent rubber layer is disposed between the single keypads and the light guide plate.
Moreover, another surface of the light guide plate is bonded to a circuit board. The circuit board includes at least a metal dome. A plunger is bonded to the other surface of the light guide plate, and the light guide plate is bonded to the metal dome of the circuit board via plunger. Or, the other surface of the light guide plate and the plunger are formed integrally, and therefore the light guide plate is bonded to the metal dome of the circuit board via the plunger.
Several embodiments are listed as follows.
On the other hand, in the present invention, a keypad structure having a transparent keycap is provided.
As illustrated in
The aforementioned
As the keypad structure illustrated in
The present invention utilizes double overprints and two layers of thin films to generate level difference in height, such that the figures or patterns seem to be floated and are felt to be three-dimensional. Also, the capacitive touch plate may be further integrated into the structure with ease.
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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98118549 A | Jun 2009 | TW | national |
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Number | Date | Country | |
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20100307898 A1 | Dec 2010 | US |