M315885 :、八、新型說明: •,【新型所屬之技術領威】 本創作係涉及排線之發光二極體裝置,旨在提供一 將發光二極體排列於軟性排線上,不僅結構簡單且節省 成本,並可使各發光二極體同時發光或不同時間發光, 可將該使用於一般電子裝置之排線發光二極體裝置。 ^ 【先前技術】 由於,發光二極體具備有體積小、低耗電、低熱度以 及壽命長等特性,如聖誕燈饰、手電筒、車輛信號燈、交 通標誌等商品,已逐漸利用發光二極體所替代功能相近之 一 傳統鎢絲燈泡;又,,般發光二極體之基本構造,係在一 透明絕緣體之内部設有不同極性之導電端以及一承載 部,其承載部處係固设有曰曰片,其晶片之週邊係設有螢 光材料’另設有金線構成曰曰片之電極層與導電端之連接, Φ而各導電端並延伸出透明絕緣體外部成為電源接點。 在導電端之通電作用下’其晶片所產生之光源在穿過 螢光材料時,即與螢光材料之波長結合成為預期之可見 光,因此,在相關製程、製造技術之改良下,發光二極體 係可經由螢光材料之設計’而製作成為具特定^色表現效 果之叙光元件,更使得發光二極體之市場版圖極速的擴 大。 ’、 一般電子裝置(如筆記型電腦、鍵盤、顯示器等)中, :需要局部發光或指示燈處,如第一圖所示,則該發光二極 M315885 體4 1應用於鍵盤4上以作為功能指示作用,其一般做法 係於鍵盤4内之印刷電路板或軟性電路板(圖中未標示) 上,設置印刷線路以供發光二極體4 1設置,當通以電源 時,該發光二極體4 1得以發光而產生指示作用;惟,其 使用印刷電路板或軟性電路板之成本較高,且需視發光二 極體所設置之位置而設置印刷線路,其作法較為複雜。 【新型内容】 本創作係涉及一般電子裝置當中,提供—將發光二極 體排列於軟性排線上,不僅结構簡單μ省成本,並可使 =ί二極體同時發光或不同時間發光之排線發光二極 體裝置。 本創作「排線之發光二極體裝置豆 數間隔排狀導電脸,料,线心排線係具有稷 接線,心私接線設有複數發光二極 =二電接線中至少有—條以上於間隔處形成截 ,使忒導電接線形成複數短接線 朽 端連接於回—道+ Μ 做默七尤一極體一 上’而並有複數接線 二極體所r極體㈣之導體―料接於發光 上,·藉由各導電’另端則連接於另-導電接線 極體發光。接線分別通以正、負電流,而令各發光二 【實施方式】 為此使責審查委員清楚本創作之結構組成,以及整 6 M315885 體運作方式,茲配合圖式說明如下: 本創作「排線之發光二極體裝置」’主要係針對一般 ^於電子裝置(如筆記型電 十: 要局部發料指示燈處,如第二圖 排線1係具錢_隔㈣之導 = 導電接線11;其中,各導電= :ί?上於間隔處形成截斷點1 1 1,圖中係為 f7 : 1形成複數截斷點11丄,使該導電接線 1 1形成複數短接線1 1 2。 複數發光二極體2-端連接於第一I電接線工工 上’另端則連接於各相鄰第二導電接線i丄之短接線工2 2上’而並有複數與-發光二極體2串聯之導體3 一端連 接於發光二極體2所連接之各短線工2 2上,另 於第三導電接線1 1上’以形成一電路迴路;當然、,該導 體3可以為電阻’如第三圖所示,且複數個發光二極體2 可先並聯後’再與導體3串聯,請同時參閱第四圖所示。 當該排線1與電源(圖中未標示)相連接時,其第一導 電接線1 1係與電源之正極(圖中未標示)相連接,而第二 導電接線1 1則與電源之負極(圖中未標示)相連接,則令 各發光二極體2同時發光。M315885 :, eight, new description: •, [new technology of the leading technology] This creation is related to the LED light-emitting diode device, designed to provide a light-emitting diode arranged on the flexible cable, not only simple structure and The cost is saved, and each of the light emitting diodes can be illuminated at the same time or at different times, and the light emitting diode device used in the general electronic device can be used. ^ [Prior Art] Because the light-emitting diode has the characteristics of small size, low power consumption, low heat and long life, such as Christmas lights, flashlights, vehicle signal lights, traffic signs, etc., LEDs have been gradually utilized. The conventional structure is similar to a conventional tungsten filament bulb; in addition, the basic structure of the general-purpose LED is provided with a conductive end of different polarity and a carrying portion inside a transparent insulator, and the bearing portion is fastened. The enamel sheet is provided with a fluorescent material on the periphery of the wafer. The gold wire constitutes a connection between the electrode layer and the conductive end of the ruthenium, and the conductive ends extend out of the transparent insulator to form a power contact. Under the energization of the conductive end, the light source generated by the wafer passes through the fluorescent material, that is, combined with the wavelength of the fluorescent material to become the visible visible light. Therefore, under the improvement of related processes and manufacturing techniques, the light emitting diode The system can be made into a specific light-emitting element by the design of the fluorescent material, and the market layout of the light-emitting diode is rapidly expanded. ', general electronic devices (such as notebook computers, keyboards, monitors, etc.): need partial illumination or indicator light, as shown in the first figure, the light-emitting diode M315885 body 4 1 is applied to the keyboard 4 as The function indication function is generally applied to a printed circuit board or a flexible circuit board (not shown) in the keyboard 4, and a printed circuit is provided for the LED 2 1 to be set. When the power is supplied, the light is emitted. The polar body 4 1 is illuminated to give an indication; however, the cost of using a printed circuit board or a flexible circuit board is high, and it is necessary to set a printed circuit depending on the position where the light-emitting diode is disposed, which is complicated. [New content] This creation is related to the general electronic device, providing - arranging the light-emitting diodes on the flexible cable, which is not only simple in structure, but also cost-effective, and can make the light of the ί diodes emit light at the same time or at different times. Light-emitting diode device. The creation of the light-emitting diode device of the cable line is arranged in a row of conductive faces, the material, the wire core wire has a twisted wire connection, and the private wire has a plurality of light-emitting diodes = at least one of the two electrical wires. The truncation is formed at the interval, so that the 忒 conductive connection forms a plurality of short-wire mortise ends connected to the return-channel + Μ to make the 七 尤 尤 一 而 而 而 而 而 而 而 而 而 而 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复 复In the illuminating light, the other ends of the conductive wires are connected to the other conductive terminals to emit light. The wires are respectively connected with positive and negative currents, and the respective light-emitting diodes are used. The structure and the operation mode of the whole 6 M315885 body are as follows: The creation of the "light-emitting diode device for the cable" is mainly for the general electronic device (such as notebook type ten: to be partial At the indicator light, as shown in the second diagram, the line 1 has a money _ partition (four) guide = conductive wiring 11; wherein, each conduction = : ί? on the interval to form a cut-off point 1 1 1, the figure is f7: 1 forming a plurality of truncation points 11丄, forming the conductive wiring 1 1 Short wiring 1 1 2. The 2-terminal of the complex LED is connected to the first I electrical wiring worker, and the other end is connected to the short wiring connector 2 2 of each adjacent second conductive wiring. One end of the plurality of conductors 3 connected in series with the light-emitting diode 2 is connected to each of the short-circuiters 2 2 to which the light-emitting diode 2 is connected, and is formed on the third conductive wiring 1 1 to form a circuit loop; of course, The conductor 3 can be a resistor as shown in the third figure, and a plurality of LEDs 2 can be connected in parallel and then connected in series with the conductor 3, as shown in the fourth figure. When the cable 1 and the power supply (Fig. When not connected, the first conductive connection 11 is connected to the positive pole of the power supply (not shown), and the second conductive connection 1 1 is connected to the negative pole of the power supply (not shown). Then, each of the light-emitting diodes 2 emits light at the same time.
另外,如第五圖所示為本創作之第二實施例,排線工 係具有8條導電接線1 1 ;其中,各導電接線1 1中至少 有一條以上之於間隔處形成截斷點1 1 1,圖中係為第2 導電接線1 1形成複數截斷點1 1 1,使該導電接線i I M315885 、-形成複數短接線1 2 2。 •, 複數發光二極體2—端連接於第一導電接線11 上,另端則連接於各相鄰第二導電接線1 1之短接線1 2 2上,而並有複數與發光二極體2串聯之導體3 —端連接 於發光二極體2所連接之各短線1 2 2上,另端則依序連 接於第三、四、五、六導電接線1 1上。 當該排線1與電源(圖中未標示)相連接時,其第一導 電接線1 1係與電源之正極(圖中未標示)相連接,而第 • 三、四、五、六導電接線1 1則與電源之負極(圖中未標 示)相連接,則令各發光二極體2可依序於不同時間發光。 . 再者,如第六圖所示為本創作之第三實施例,排線1 係具有6條導電接線1 1 ;其中,各導電接線1 1中至少 有一條以上之於間隔處形成截斷點1 1 1,圖中係為第 二、 三、四、五導電接線1 1形成複數截斷點1 1 1,使 該第二、三、四、五導電接線1 1形成複數短接線1 1 2, 複數導體3—端連接於第一導電接線1 1上,另端則各依 ⑩序連接於第二、三、四、五導電接線1 1不同之短接線1 2 2上,而各發光二極體2係與導體3串聯,其一端連接 於導體3所連接之各短接線1 2 2上,另端則連接於相鄰 之短接線1 2 2上。 當該排線1與電源(圖中未標示)相連接時,其第一導 電接線1 1係與電源之正極(圖中未標示)相連接,而第 三、 四、五、六導電接線1 1則與電源之負極(圖中未標 示)相連接,則令各發光二極體2可依序於不同時間發光。In addition, as shown in the fifth figure, the second embodiment of the present invention has eight conductive wires 1 1 ; wherein at least one of the conductive wires 1 1 forms a cut-off point 1 1 at intervals. 1, in the figure, the second conductive wiring 1 1 forms a plurality of cut-off points 1 1 1, so that the conductive wiring i I M315885, - form a complex short wiring 1 2 2 . • The second LED of the plurality of LEDs is connected to the first conductive connection 11 and the other end is connected to the short wiring 1 2 2 of each adjacent second conductive connection 1 1 , and has a plurality of LEDs The two ends of the series of conductors are connected to the short wires 1 2 2 to which the light emitting diodes 2 are connected, and the other ends are sequentially connected to the third, fourth, fifth and sixth conductive wires 1 1 . When the cable 1 is connected to a power source (not shown), the first conductive wiring 1 1 is connected to the positive pole of the power source (not shown), and the third, fourth, fifth, and sixth conductive wiring 1 1 is connected to the negative electrode of the power source (not shown), so that each of the light-emitting diodes 2 can emit light in different times. Furthermore, as shown in the sixth figure, in the third embodiment of the present invention, the cable 1 has six conductive wires 1 1 ; wherein at least one of the conductive wires 1 1 forms a cut-off point at the interval 1 1 1, in the figure, the second, third, fourth, and fifth conductive wires 1 1 form a plurality of cut-off points 1 1 1 , so that the second, third, fourth, and fifth conductive wires 1 1 form a plurality of short wires 1 1 2, The third conductor of the plurality of conductors is connected to the first conductive wiring 1 1 , and the other ends are connected to the short wirings 1 2 2 of the second, third, fourth and fifth conductive wirings 1 according to the 10th order, and the respective light emitting diodes The body 2 is connected in series with the conductor 3, one end of which is connected to each short wire 12 2 to which the conductor 3 is connected, and the other end is connected to the adjacent short wire 1 22. When the cable 1 is connected to a power source (not shown), the first conductive wiring 1 1 is connected to the positive pole of the power source (not shown), and the third, fourth, fifth, and sixth conductive wiring 1 1 is connected to the negative electrode of the power source (not shown), so that each of the light-emitting diodes 2 can emit light in different times.