Patent Application
20130134021
The present invention relates to a luminous keyboard, and more particularly to a luminous keyboard with an illuminating function.
Recently, with increasing development of information industries, portable information devices such as notebook computers, mobile phones or personal digital assistants are widely used in many instances. In a case that a portable information device is used in a dim environment, the numbers and characters marked on the keys of the keyboard of the portable information device are not clearly visible. In other words, the dim environment becomes hindrance from operating the keyboard. In addition, if the keyboard is used in the dim environment, the user is readily suffered from vision impairment. For solving these drawbacks, a luminous keyboard has been disclosed. The luminous keyboard could be used in the dim environment in order to enhance the applications thereof. Moreover, by changing the arrangement of luminous regions, the information device having the luminous keyboard is more aesthetically-pleasing and thus the competiveness thereof is enhanced.
Please refer to
The key base plate 13 is disposed under the membrane circuit member 14. In addition, the key base plate 13 comprises plural openings 131, a first fixing structure 132, and a second fixing structure 133. Each key 15 comprises a keycap 151, an elastic element 152, and a scissors-type connecting element 153. The keycap 151 comprises a first keycap fixing structure 1511 and a second keycap fixing structure 1512. The scissors-type connecting element 153 comprises a first frame 1531 and a second frame 1532. In addition, the elastic element 152 is arranged between the keycap 151 and the membrane circuit member 14.
The membrane circuit member 14 further comprises apertures 145 and 146 (see
When any key 15 is depressed and moved downwardly relative to the key base plate 13, the first frame 1531 and the second frame 1532 of the scissors-type connecting element 153 are switched from an open-scissors state to a folded state. Moreover, as the keycap 151 is moved downwardly to compress the elastic element 152, the elastic element 152 is sustained against a corresponding upper contact 14212. Consequently, the upper contact 14212 is inserted into a corresponding perforation 1431 to touch the corresponding lower contact 14122. In such way, the corresponding membrane switch 144 is electrically conducted, and the luminous keyboard 1 generates a corresponding key signal. Whereas, when the depressing force exerted on the key 15 is eliminated, an elastic force provided by the elastic element 152 is acted on the keycap 151. Due to the elastic force, the keycap 151 is moved upwardly relative to the key base plate 13. Meanwhile, the first frame 1531 and the second frame 1532 of the scissors-type connecting element 153 are switched from the folded state to the open-scissors state, and the keycap 151 is returned to its original position.
The light-emitting elements 16 are located at bilateral sides of the light guide plate 12 for emitting light beams. The light beams are incident into the light guide plate 12. The light guide plate 12 is disposed on the reflector 11. Plural light-guiding dots 121 are formed on a bottom surface of the light guide plate 12 for collecting and scattering the light beams. The light-guiding dots 121 are aligned with corresponding keys 15. After the light beams are incident into the light guide plate 12, the light beams are diffused into the whole light guide plate 12. Due to the ink property of the light-guiding dots 121, the light beams will be scattered upwardly or downwardly. The portions of the light beams that are scattered upwardly will be sequentially transmitted through the openings 131 of the key base plate 13 and the membrane circuit member 14 and directed to the plural keys 15. The portions of the light beams that are scattered downwardly will be reflected by the reflector 11, and the reflected light beams are also directed upwardly. In such way, the light beams provided by the light-emitting elements 16 can be well utilized to illuminate the plural keys 15. However, the conventional luminous keyboard 1 still has the following drawbacks.
Firstly, although the reflector 11 can facilitate the light beams which are scattered downwardly from the light-guiding dots 121 to be reflected upwardly, since the material of the reflector 11 of the conventional luminous keyboard 1 is light-transmissible, some of the light beams which are scattered downwardly from the light-guiding dots 121 may be transmitted through the reflector 11. Under this circumstance, a portion of the light amount is lost.
Secondly, please also refer to
However, the conventional luminous keyboard of
From the above discussions, the light utilization efficiency of the conventional luminous keyboard 1 or 9 is unsatisfied. Therefore, there is a need of providing a luminous keyboard with enhanced light utilization efficiency.
The present invention provides a luminous keyboard with enhanced light utilization efficiency.
In accordance with an aspect of the present invention, there is provided a luminous keyboard. The luminous keyboard includes at least one light-emitting element, a membrane circuit member, an upper wiring board, plural keys, and a key base plate. The light-emitting element is used for providing light beams to illuminate the luminous keyboard. The membrane circuit member includes a lower wiring board and an upper wiring board. The lower wiring board includes a first circuit pattern and plural light-guiding dots. The first circuit pattern includes plural lower contacts, and the light beams from the light-emitting element are collected and scattered by the plural light-guiding dots. The lower wiring board further includes a first film layer and a second film layer for increasing an amount of the light beams which are scattered upwardly by the plural light-guiding dots. The upper wiring board includes a second circuit pattern, wherein the second circuit pattern includes plural upper contacts corresponding to the plural lower contacts. In addition, each of the upper contacts and the corresponding lower contact are separated from each other by a spacing interval, and each of the upper contacts and the corresponding lower contact are collectively defined as a membrane switch. The plural keys are aligned with the plural membrane switches for conducting corresponding membrane switches. The key base plate is used for connecting the plural keys. The key base plate has plural openings corresponding to respective keys. The key base plate is arranged between the plural keys and the membrane circuit member.
In an embodiment, each of the first film layer and the second film layer is a light-guiding film layer.
In an embodiment, the plural light-guiding dots are arranged between the first film layer and the second film layer.
In an embodiment, the plural light-guiding dots are formed on one of the first film layer and the second film layer by a screen printing process, a thermal compression process or an injection process.
In an embodiment, the lower wiring board further includes a spacer film layer, which is arranged between the first film layer and the first circuit pattern for increasing possibility of resulting in total internal reflection when the light beams are incident into the first film layer.
In an embodiment, the spacer film layer is formed on the first film layer by a printing process, a film deposition process, a gluing process or a thermal compression process.
In an embodiment, the luminous keyboard further includes a light-transmissible transparent adhesive, which is arranged between the first film layer and the second film layer, so that the first film layer and the second film layer are combined together through the light-transmissible transparent adhesive.
In an embodiment, the light-guiding film layer is made of polyethylene terephthalate (PET), polycarbonate (PC) or polymethylmethacrylate (PMMA).
In an embodiment, the first film layer is a light-guiding film layer, and the second film layer is a spacer film layer. The spacer film layer is arranged between the light-guiding film layer and the first circuit pattern for increasing possibility of resulting in total internal reflection when the light beams are incident into the light-guiding film layer.
In an embodiment, the plural light-guiding dots are formed on a bottom surface of the light-guiding film layer.
In an embodiment, the spacer film layer is formed on the light-guiding film layer by a printing process, a film deposition process, a gluing process or a thermal compression process.
In an embodiment, the light-emitting element is a light emitting diode, which is located beside the membrane circuit member for providing the light beams to the membrane circuit member.
In an embodiment, the luminous keyboard further includes a keyboard base, which is disposed under the membrane circuit member for supporting the plural keys, the key base plate, the membrane circuit member and the light-emitting element.
In an embodiment, each of the plural keys includes a keycap and a connecting element. The keycap is exposed outside the luminous keyboard. The connecting element is arranged between the key base plate and the keycap for connecting the key base plate and the keycap, so that the keycap is movable upwardly or downwardly relative to the key base plate.
In an embodiment, each of the plural keys includes an elastic element. The elastic element is arranged between the keycap and the key base plate, and includes a sustaining part. The connecting element is a scissors-type connecting element. When the keycap is depressed, the elastic element is compressed and the sustaining part is penetrated through a corresponding opening of the key base plate to push against a corresponding membrane switch. When a depressing force exerted on the keycap is eliminated, an elastic force provided by the elastic element is acted on the keycap, so that the keycap is returned to an original position.
In an embodiment, the membrane circuit member further includes an intermediate board, which is arranged between the upper wiring board and the lower wiring board, so that each of the upper contacts and the corresponding lower contact are separated from each other by the spacing interval. The intermediate board has plural perforations corresponding to the plural lower contacts and the plural upper contacts.
In accordance with another aspect of the present invention, there is provided a luminous keyboard. The luminous keyboard includes at least one light-emitting element, a membrane circuit member, plural keys, and a key base plate. The light-emitting element is used for providing light beams to illuminate the luminous keyboard. The membrane circuit member includes a circuit pattern and plural light-guiding dots. The circuit pattern includes plural membrane switches, and the light beams from the light-emitting element are collected and scattered by the plural light-guiding dots. The membrane circuit member further includes a first film layer and a second film layer for increasing an amount of the light beams which are scattered upwardly by the plural light-guiding dots. The plural keys are aligned with the plural membrane switches for conducting corresponding membrane switches. The key base plate is used for connecting the plural keys. The key base plate has plural openings corresponding to respective keys. The key base plate is arranged between the plural keys and the membrane circuit member.
In an embodiment, each of the membrane switches includes a first conductive part and a second conductive part, wherein the first conductive part is separated from the second conductive part.
In an embodiment, each of the plural keys includes a keycap and a connecting element. The keycap is exposed outside the luminous keyboard. The connecting element is arranged between the key base plate and the keycap for connecting the key base plate and the keycap, so that the keycap is movable upwardly or downwardly relative to the key base plate. The key conductor is arranged between the keycap and the key base plate. When the keycap is depressed, the key conductor is penetrated through a corresponding opening of the key base plate to push against a corresponding membrane switch, so that the corresponding membrane switch is conducted.
In an embodiment, the connecting element is a scissors-type connecting element.
In an embodiment, each of the first film layer and the second film layer is a light-guiding film layer.
In an embodiment, the plural light-guiding dots are arranged between the first film layer and the second film layer.
In an embodiment, the plural light-guiding dots are formed on one of the first film layer and the second film layer by a screen printing process, a thermal compression process or an injection process.
In an embodiment, the lower wiring board further includes a spacer film layer, which is arranged between the first film layer and the circuit pattern for increasing possibility of resulting in total internal reflection when the light beams are incident into the first film layer.
In an embodiment, the spacer film layer is formed on the first film layer by a printing process, a film deposition process, a gluing process or a thermal compression process.
In an embodiment, the luminous keyboard further includes a light-transmissible transparent adhesive, which is arranged between the first film layer and the second film layer, so that the first film layer and the second film layer are combined together through the light-transmissible transparent adhesive.
In an embodiment, the light-guiding film layer is made of polyethylene terephthalate (PET), polycarbonate (PC) or polymethylmethacrylate (PMMA).
In an embodiment, the first film layer is a light-guiding film layer, and the second film layer is a spacer film layer. The spacer film layer is arranged between the light-guiding film layer and the circuit pattern for increasing possibility of resulting in total internal reflection when the light beams are incident into the light-guiding film layer.
In an embodiment, the plural light-guiding dots are formed on a bottom surface of the light-guiding film layer.
In an embodiment, the spacer film layer is formed on the light-guiding film layer by a printing process, a film deposition process, a gluing process or a thermal compression process.
In an embodiment, the light-emitting element is a light emitting diode, which is located beside the membrane circuit member for providing the light beams to the membrane circuit member.
In an embodiment, the luminous keyboard further includes a keyboard base, which is disposed under the membrane circuit member for supporting the plural keys, the key base plate, the membrane circuit member and the light-emitting element.
In accordance with a further aspect of the present invention, there is provided a luminous keyboard. The luminous keyboard includes at least one light-emitting element, a membrane circuit member, plural keys, and a key base plate. The light-emitting element is used for providing light beams to illuminate the luminous keyboard. The membrane circuit member includes an upper wiring board and a lower wiring board. The upper wiring board includes an upper film layer and a second circuit pattern formed on a bottom surface of the upper film layer, wherein the second circuit pattern has plural upper contacts. The lower wiring board includes a first film layer, a first circuit pattern, and a second film layer arranged between the first film layer and the first circuit pattern. The first circuit pattern includes plural lower contacts corresponding to the plural upper contacts. Each of the upper contacts and the corresponding lower contact are separated from each other by a spacing interval. Each of the upper contacts and the corresponding lower contact are collectively defined as a membrane switch, wherein a refractive index of the second film layer is lower than a refractive index of the first film layer. The plural keys are aligned with the plural membrane switches for conducting corresponding membrane switches. The key base plate is used for connecting the plural keys. The key base plate has plural openings corresponding to respective keys. The key base plate is arranged between the plural keys and the membrane circuit member.
In an embodiment, the first circuit pattern further includes plural metallic conductor lines.
In an embodiment, the metallic conductor lines are silver paste conductor lines.
In an embodiment, the second film layer is a single continuous film layer, and the metallic conductor lines are formed on the single continuous film layer.
In an embodiment, the second film layer is formed on the first film layer by a printing process, a film deposition process, a gluing process or a thermal compression process.
In an embodiment, the second film layer includes plural separate block-type film layers, and the plural metallic conductor lines are formed on the plural block-type film layers.
In an embodiment, the plural block-type film layers are formed on the first film layer by a printing process, a film deposition process, a gluing process or a thermal compression process.
In an embodiment, the first film layer is a light-guiding film layer.
In an embodiment, the light-guiding film layer is made of polyethylene terephthalate (PET), polycarbonate (PC) or polymethylmethacrylate (PMMA).
In an embodiment, the light-emitting element is a light emitting diode, which is located beside the membrane circuit member for providing the light beams to the membrane circuit member.
In an embodiment, the luminous keyboard further includes a keyboard base, which is disposed under the membrane circuit member for supporting the plural keys, the key base plate, the membrane circuit member and the light-emitting element.
In an embodiment, each of the plural keys includes a keycap and a connecting element. The keycap is exposed outside the luminous keyboard. The connecting element is arranged between the key base plate and the keycap for connecting the key base plate and the keycap, so that the keycap is movable upwardly or downwardly relative to the key base plate.
In an embodiment, each of the plural keys includes an elastic element. The elastic element is arranged between the keycap and the key base plate, and includes a sustaining part. The connecting element is a scissors-type connecting element. When the keycap is depressed, the elastic element is compressed and the sustaining part is penetrated through a corresponding opening of the key base plate to push against a corresponding membrane switch. When a depressing force exerted on the keycap is eliminated, an elastic force provided by the elastic element is acted on the keycap, so that the keycap is returned to an original position.
In an embodiment, the membrane circuit member further includes an intermediate board, which is arranged between the upper wiring board and the lower wiring board, so that each of the upper contacts and the corresponding lower contact are separated from each other by the spacing interval. The intermediate board has plural perforations corresponding to the plural lower contacts and the plural upper contacts.
The above objects and advantages of the present invention will become more readily apparent to those ordinarily skilled in the art after reviewing the following detailed description and accompanying drawings, in which:
Please refer to
In this embodiment, the connecting element 243 is a scissors-type connecting element including a first frame 2431 and a second frame 2432. In addition, the key base plate 29 further comprises a first fixing structure 292 and a second fixing structure 293, and each of the plural keys 24 further comprises an elastic element 242. The elastic element 242 is arranged between the keycap 241 and the key base plate 29. The elastic element 242 has a sustaining part 2421. Moreover, the keycap 241 of each key 24 comprises a first keycap fixing structure 2411 and a second keycap fixing structure 2412.
A first end 2431A of the first frame 2431 is connected to the second fixing structure 293, and a second end 2431B of the first frame 2431 is connected to the first keycap fixing structure 2411. In addition, a second end 2432A of the second frame 2432 is connected to the first fixing structure 292, and a second end 2432B of the second frame 2432 is connected to the second keycap fixing structure 2412. The relationship between the connecting element 243, the key base plate 29 and the keycap 241 is presented herein for purpose of illustration and description only. It is noted that the relationship between the connecting element 243, the key base plate 29 and the keycap 241 is not restricted.
When any key 24 is depressed and moved downwardly relative to the key base plate 29, the first frame 2431 and the second frame 2432 of the connecting element 243 are switched from an open-scissors state to a folded state. Moreover, as the keycap 241 is moved downwardly to compress the elastic element 242, the sustaining part 2421 of the elastic element 242 is penetrated through the opening 291 of the key base plate 29 and sustained against a corresponding upper contact 23211. Consequently, the upper contact 23211 is inserted into a corresponding perforation 2331 to touch the corresponding lower contact 23111. In such way, the corresponding membrane switch 234 is electrically conducted, and the luminous keyboard 2 generates a corresponding key signal. Whereas, when the depressing force exerted on the key 24 is eliminated, an elastic force provided by the elastic element 242 is acted on the keycap 241. Due to the elastic force, the keycap 241 is moved upwardly relative to the key base plate 29. Meanwhile, the first frame 2431 and the second frame 2432 of the scissors-type connecting element 243 are switched from the folded state to the open-scissors state, and the keycap 241 is returned to its original position.
In accordance with a feature of the present invention, the lower wiring board 231 of the membrane circuit member 23 of the luminous keyboard 2 has a multilayered film configuration.
A process of fabricating the lower wiring board 231 will be illustrated as follows. Firstly, plural light-guiding dots 2314 are formed on the bottom surface of the first film layer 2313, and a light-transmissible transparent adhesive 2315 is coated on the top surface of the second film layer 2312. Alternatively, plural light-guiding dots 2314 are formed on the top surface of the second film layer 2312, and a light-transmissible transparent adhesive 2315 is coated on the bottom surface of the first film layer 2313. Then, the first film layer 2313 and the second film layer 2312 are hot-pressed or cold-pressed by two rollers 7, so that the first film layer 2313 and the second film layer 2312 are combined together through the transparent adhesive 2315.
The benefits of the lower wiring board 231 of the first embodiment will be illustrated as follows. Since the plural light-guiding dots 2314 are arranged between the first film layer 2313 and the second film layer 2312, the portion of the light beams that are scattered downwardly (i.e. L7) by the light-guiding dots 2314 and continuously transferred within the second film layer 2312 will be recycled. That is, only the portion of the light beams that are scattered downwardly (i.e. L8) and transmitted through the second film layer 2312 are lost. In a case that only the first film layer 2313 and the plural light-guiding dots 2314 are included in the lower wiring board 231 but the second film layer 2312 is excluded, the portion of the light beams that are scattered downwardly will be completely lost.
The present invention also provides a luminous keyboard of a second embodiment. Except for the configurations of the lower wiring board of the membrane circuit member, the configurations of the luminous keyboard of the second embodiment are substantially identical to those of the luminous keyboard of the first embodiment. Please refer to
In this embodiment, the lower wiring board 231 comprises a first film layer 2313 and a spacer film layer 2316A. The spacer film layer 2316A is formed on a top surface of the first film layer 2313. In addition, plural light-guiding dots 2314 are formed on a bottom surface of the first film layer 2313. The locations of the plural light-guiding dots 2314 are determined according to the locations of the plural keys 24. By the plural light-guiding dots 2314, the light beams are projected upwardly toward the plural keys 24. The first circuit pattern 2311 is printed on the top surface of the spacer film layer 2316A. The first circuit pattern 2311 comprises plural lower contacts 23111 and plural metallic conductor lines 23112. The plural metallic conductor lines 23112 have functions of collecting and scattering the light beams. In this embodiment, the plural metallic conductor lines 23112 are silver paste conductor lines because of the high electrical conductivity. In addition, the spacer film layer 2316A is a single continuous film layer, and the plural metallic conductor lines 23112 are formed on the single continuous film layer.
Moreover, during the process of forming the lower wiring board 231, the spacer film layer 2316A is formed on the surface of the first film layer 2313 by a printing process, a film deposition process, a gluing process or a thermal compression process. In this embodiment, the first film layer 2313 is made of a light-guiding material. An example of the light-guiding material includes but is not limited to polycarbonate (PC), polyethylene terephthalate (PET) or polymethylmethacrylate (PMMA). Whereas, the spacer film layer 2316A is made of a material different from the first film layer 2313.
In the second embodiment, the spacer film layer 2316A is arranged between the first circuit pattern 2311 and the first film layer 2313. In addition, the spacer film layer 2316A is made of a material different from the first film layer 2313. That is, the refractive index of the spacer film layer 2316A is lower than the refractive index of the first film layer 2313. Consequently, the light beams transferred through the first film layer 2313 (e.g. along the light paths of the light beams L9 and the light beams L10) are readily subject to total internal reflection. Under this circumstance, after the light beams are transmitted through the first film layer 2313 (i.e. along the light path of the light beams L11), the percentage of the light beams to be collected and scattered by the metallic conductor lines 23112 of the first circuit pattern 2311 will be largely reduced. Consequently, the amount of light beams to be scattered upwardly by the light-guiding dots 2314 of the lower wiring board 231 will be increased, and the keys 24 of the luminous keyboard 2 are illuminated by more light beams. It is noted that the plural light-guiding dots 2314 are not essential components to limit the scopes of the above embodiments.
The present invention also provides a luminous keyboard of a third embodiment. In comparison with the luminous keyboard of the second embodiment, the spacer film layer of the lower wiring board of the luminous keyboard of the third embodiment is distinguished and no light-guiding dots are formed on the lower wiring board. Please refer to
In this embodiment, the spacer film layer 2316B of the lower wiring board 231 comprises plural separate block-type film layers 23161, 23162, 23163 and 23164. The plural metallic conductor lines 23112 are formed on the block-type film layers 23161, 23162, 23163 and 23164, respectively. Similarly, the refractive index of each of the block-type film layers 23161, 23162, 23163 and 23164 is lower than the refractive index of the first film layer 2313. However, those skilled in the art will readily observe that numerous modifications and alterations may be made while retaining the teachings of the invention. For example, some of the metallic conductor lines 23112 are formed across and on any two of these block-type film layers 23161, 23162, 23163 and 23164.
The present invention also provides a luminous keyboard of a fourth embodiment. Except for the configurations of the lower wiring board 231 of the membrane circuit member 23, the configurations of the luminous keyboard of the second embodiment are substantially identical to those of the luminous keyboards of the first embodiment and the second embodiment. In this embodiment, the lower wiring board 231 is a combination of the lower wiring board of the first embodiment and the lower wiring board of the second embodiment. Please refer to
Please refer to
The first circuit pattern 2311 is printed on the top surface of the spacer film layer 2316. The first circuit pattern 2311 comprises plural metallic conductor lines 23112. The plural metallic conductor lines 23112 have functions of collecting and scattering the light beams. In other words, the lower wiring board 231 of the fourth embodiment has the combined benefits of the first embodiment and the second embodiment. Moreover, the material and fabricating process of the lower wiring board 231 of the fourth embodiment are similar to those of the lower wiring board of the second embodiment, and are not redundantly described herein. It is noted that the plural light-guiding dots 2314 are not essential components to limit the scopes of the above embodiments. However, those skilled in the art will readily observe that numerous modifications and alterations may be made while retaining the teachings of the fourth embodiment. For example, the lower wiring board may be designed to have the combined structure of the first embodiment and the third embodiment.
The present invention also provides a luminous keyboard of a fifth embodiment.
Moreover, each key 25 further comprises a key conductor 252. The key conductor 252 is connected with the keycap 251. The key conductor 252 is arranged between the keycap 251 and the key base plate 29. When the keycap 251 is depressed and moved downwardly relative to the key base plate 29, the first frame 2531 and the second frame 2532 of the connecting element 253 are switched from an open-scissors state to a folded state. In addition, the key conductor 252 is penetrated through the corresponding opening 291 of the key base plate 29 to be in contact with the corresponding membrane switch 2631. In such way, the membrane switch 2631 is electrically conducted, and the luminous keyboard 3 generates a corresponding key signal.
In this embodiment, the membrane circuit member 26 also has a multilayered film configuration. The membrane circuit member 26 comprises a first film layer 262 and the second film layer 261, which are similar to the first film layer 2313 and the second film layer 2312 of the first embodiment. In addition, plural light-guiding dots 2614 are arranged between the first film layer 262 and the second film layer 261 for collecting and scattering the light beams from the light-emitting element 21. In other words, the membrane circuit member 26 of this embodiment has benefits similar to the lower wiring board 231 of the first embodiment.
It is noted that numerous modifications and alterations may be made while retaining the teachings of the invention. The present invention also provides a luminous keyboard of a sixth embodiment. In the sixth embodiment, the membrane circuit member 26 of the luminous keyboard 3 as shown in the fifth embodiment may be arranged in a stacked-film configuration as shown in the second embodiment. That is, the membrane circuit member 26 comprises a first film layer 262 and a spacer film layer (not shown). The spacer film layer is formed on a top surface of the first film layer 262. In addition, plural light-guiding dots 2614 are formed on a bottom surface of the first film layer 262. In other words, the membrane circuit member 26 of this embodiment has benefits similar to the lower wiring board 231 of the second embodiment.
The present invention also provides a luminous keyboard of a seventh embodiment. In the seventh embodiment, the membrane circuit member 26 of the luminous keyboard 3 as shown in the fifth embodiment may be arranged in a stacked-film configuration as shown in the third embodiment. That is, the membrane circuit member 26 comprises a first film layer 262 and a spacer film layer (not shown). The spacer film layer is formed on a top surface of the first film layer 262. In addition, the spacer film layer comprises plural separate block-type film layers. In other words, the membrane circuit member 26 of this embodiment has benefits similar to the lower wiring board 231 of the third embodiment.
The present invention also provides a luminous keyboard of an eighth embodiment. In the seventh embodiment, the membrane circuit member 26 of the luminous keyboard 3 as shown in the fifth embodiment may be arranged in a stacked-film configuration as shown in the fourth embodiment. That is, the membrane circuit member 26 comprises a first film layer 261, a second film layer 262, and a spacer film layer (not shown). The first film layer 262 is adhered on a top surface of the second film layer 261. The spacer film layer is formed on a top surface of the first film layer 262. In addition, plural light-guiding dots 2614 are arranged between the first film layer 262 and the second film layer 261 for collecting and scattering the light beams from the light-emitting element 21. In other words, the membrane circuit member 26 of this embodiment has benefits similar to the lower wiring board 231 of the fourth embodiment.
In the above embodiments, the light guide plate used in the conventional luminous keyboard is exempted from the luminous keyboard 2, 3 of the present invention. Consequently, the fabricating cost is reduced. Moreover, since the membrane circuit member 23, 26 or the lower wiring board 231 of the luminous keyboard 2, 3 has the multilayered film configuration, the percentage of the light beams to be collected by the metallic conductor lines 2632 of the circuit pattern 263 or the metallic conductor lines 23112 of the first circuit pattern 2311 will be largely reduced. Consequently, the amount of light beams to illuminate the keys 24 or 25 will be increased, and the light beams that are scattered downwardly by the light-guiding dots 2614 or 2314 will be further recycled. Under this circumstance, the keys 24 or 25 of the luminous keyboard 2 or 3 are illuminated by more light beams. In other words, the light beams provided by the light-emitting element 21 are efficiently utilized to illuminate the luminous keyboard 2, 3.
In accordance with another feature of the present invention, the key base plate 29 is arranged between the plural keys 24, 25 and the membrane circuit member 23, 26. Consequently, even if the apertures used in the membrane circuit member of the conventional luminous keyboard are exempted from the membrane circuit member 23, 26, the connecting element 243, 253 can be used to connect the key base plate 29 and the corresponding keycap 241, 251. Since no apertures are included in the membrane circuit member 23, 26, the light-guiding function of the lower membrane circuit member 23, 26 can be continuously performed. That is, the light beams provided by the light-emitting element 21 are no longer interrupted at the regions corresponding to the apertures. Under this circumstance, the illuminating efficacy of the luminous keyboard 2, 3 of the present invention will be largely enhanced.
While the invention has been described in terms of what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention needs not be limited to the disclosed embodiment. On the contrary, it is intended to cover various modifications and similar arrangements included within the spirit and scope of the appended claims which are to be accorded with the broadest interpretation so as to encompass all such modifications and similar structures.
| Number | Date | Country | Kind |
|---|---|---|---|
| 100143439 | Nov 2011 | TW | national |
