M353599 五、新型說明: 【新型所屬之技術領域】 本創作係關於軟性電路板H種軟性電路板之導線結 構包括至少一端子(如:金手指)、至少一連接部及-導線本 體’其中該端子之寬度大於料線本體,該連接部之一端到另 一端的寬度係逐漸遞減’其—端與該端子相連接,膽連接部 之另-端與該導線本體相連接,以有效地維持該導線結構之整 體結構的連續性,並能防止該導線結構斷裂損壞者。 【先前技術】 按,近年來,各種電子產品(如:行動電話、數位相機、 個人數位助理器、液晶顯示器·.····等)之設計愈趨輕薄化,使 得各該電子產品之相難者在進行研發設 目的而行,因此,各種為能達成令電子產品更加輕薄 件應運而生,舉例而言,軟性電路板即是在此一趨勢下產生之 硬體元件,軟性電路板係能作為電子產品中,任二電子裝置 、(如:液晶顯示模組、印刷電路板……等)間電氣訊號(如: 液晶顯示訊號)傳遞的橋樑,而由於軟性電路板具有可撓性, 且具有較印刷電路板更輕薄之特性,故,各種採用軟性電路板 之電子產品,不僅能令其内部電路的配置能有更佳的靈活性, 尚能令該電子產品之體積能大幅地縮減’使得該電子產品具有 優良的可攜性。 然而,習用之軟性電路板在使用上仍具有缺點,請參閱第 1圖所示’該軟性電路板10之絕緣片體1〇〇内係佈設有複數 M353599 =線結構u,在該紐電路板1G之兩物慎任二電子震 $ (如.液晶顯示模組、印刷電路板..····等)相連接的狀態M353599 V. New description: [New technical field] This is about the flexible circuit board. The wire structure of H flexible circuit board includes at least one terminal (such as: gold finger), at least one connecting part and - wire body ' The width of the terminal is larger than the width of the wire body, and the width of one end of the connecting portion is gradually decreased; the end of the connecting portion is connected with the terminal, and the other end of the connecting portion is connected with the wire body to effectively maintain the The continuity of the overall structure of the wire structure and the prevention of damage to the wire structure. [Prior Art] In recent years, the design of various electronic products (such as mobile phones, digital cameras, personal digital assistants, liquid crystal displays, etc.) has become thinner and lighter, making the phases of the electronic products Difficulties are carried out in research and development. Therefore, various types of electronic products have become lighter and thinner. For example, flexible circuit boards are hardware components produced under this trend, and flexible circuit boards are available. It can be used as a bridge for the transmission of electrical signals (such as liquid crystal display signals) between any two electronic devices, such as liquid crystal display modules, printed circuit boards, etc., because of the flexibility of flexible circuit boards. And it has the characteristics of being lighter and thinner than printed circuit boards. Therefore, various electronic products using flexible circuit boards can not only make the configuration of internal circuits more flexible, but also greatly reduce the size of the electronic products. 'Make the electronic product have excellent portability. However, the conventional flexible circuit board still has disadvantages in use. Please refer to FIG. 1 'The insulating sheet body 1 of the flexible circuit board 10 is provided with a plurality of M353599 = line structure u, in the circuit board. 1G's two objects are responsible for the state of the two electronic shock $ (such as LCD module, printed circuit board, etc.)
(如該=結構11係能用以傳輸各該電子裝置2之電氣訊號 (液曰曰頒示訊號),該導線結構11包括至少一端子110 (如:金手指)及-導線本體lu,其中該端子110之寬度大 2導線本體出’該端子11G係設在鄰近該絕緣片體⑽之 ::位置’且該端子110之一面露出在該絕緣片體⑽外, 二、,、本體111之一端係與該端子11M目連接,該導線本體 出之另一端則朝向該絕緣片體i⑽之另一端的位置延伸, 惟,誠如前述’錄性板1G储有可雛,且該軟性電 _ 10之結構較印刷t路板更為㈣,該軟性電路板1〇之導 線、、Ό構二1亦較為薄弱’並由於該端子11〇與該導線本體出 二者之寬度不-’造成該導線結構H之端子11Q到該導線本 體ill間的整體結構之連續性不佳,故,當作業員將該軟性電 路板忉組裝至各該電子裝置2間,且造成該導線結構u發生 反覆脊折時’請參财2圖所示’該導線結構u將會因受到 反覆聲折’而導致其對應於該端子11〇及該導線本體⑴相互 連接的部位產生剪應力,造成該導線結構11之該部位斷裂損 襄的問題,不僅令製造業者蒙受極大的損失,亦使得該軟性電 路板10之使用壽命無法有效地延長。 紅上所述,如何設計出一種創新的軟性電路板之導線結 構’士以改進傳統軟性電路板之導線結構的嚴重缺點,提高該^ 線結構的強度’令該導線結構妹受狀覆彎折時,有效防止 發生斷裂損壞的問題,並進而提升該軟性電路板之使用壽命, 6 M353599 亟欲 【新型内容】 有鑑於此’為改進傳統軟性電路板之導線結構的缺點,創 ^人、’工過長久努力研额實驗,終關發設計岭創作之一種 軟性電路板之料結構,_齡本_,缺高該導線結構 之強度’使職導線結構能在受到反覆彎折時,有效防止發生 斷裂拍壞的問題,並進而提升該軟性電路板之使用壽命。 本創作之-目的,係提供一種軟性電路板之導線結構,該 導線結構_設在-軟性電路板之絕糾動,當練性電路 板之兩端分別與任二電子I置(如:液晶顯示模組、印刷電路 板……等)相連接時,該導線結構係制以傳輸各該電子裝置 之電氣訊號(如:液晶顯示訊號),該導線結構設有至少 子(如:金手指),該端子係設在鄰近該絕緣片體之一端的位 置,且該端子之-面露出在該絕緣片體外,該導線結構尚設有 至少-連接部’該連接部之—端係與該端子相連接,且該連接 部之-端到另-端的寬度麵漸遞減,該連接部之另一端係與 寬度小於該端子之-導線本體树接,導線本體之另—端 係=向該絕緣片體之另—端的位置延伸,如此,由於該連接部 之寬度係由其-蝴另—麟漸遞減,齡於該端子與該導線 本體的寬制,故能歧地_料_構之紐結構的連續 性,因此,當該導線結構受到反覆彎折時,將能避免該導線姓 構因反覆彎折,而導致該導線結構對應於該端子、連接部及= M353599 之 導線本體相互連接的部诚生剪應力,有效防止料線結構 該部位發生斷裂損壞的問題。 ν α Φ為便貝審查委員能對本創作目的、技術特徵及其功效, .進步之韻鱗解’辭實細配合圖式,詳細說明 【實施方式】(The structure 11 can be used to transmit the electrical signals (liquid helium signal) of each of the electronic devices 2, the wire structure 11 includes at least one terminal 110 (eg, a gold finger) and a wire body lu, wherein The width of the terminal 110 is large. The conductor body 11G is disposed adjacent to the :: position of the insulating sheet body (10) and one surface of the terminal 110 is exposed outside the insulating sheet body (10). One end is connected to the terminal 11M, and the other end of the wire body extends toward the other end of the insulating sheet i (10). However, as described above, the 'recording plate 1G is stored, and the soft electric_ The structure of 10 is more (4) than that of the printed t-board, and the wire of the flexible circuit board and the structure 2 are also weaker 'and the width of the terminal 11〇 and the wire body are not-' The continuity of the overall structure between the terminal 11Q of the wire structure H and the wire body ill is not good. Therefore, when the operator assembles the flexible circuit board to each of the electronic devices 2, the wire structure u is reversed. Folding time 'Please refer to the picture 2', the wire structure u will The problem of shearing stress caused by the repeated sound folding and corresponding to the terminal 11〇 and the wire body (1) are connected to each other, causing the problem of breakage of the wire structure 11 and causing great loss to the manufacturer. The service life of the flexible circuit board 10 cannot be effectively extended. Red, how to design an innovative flexible circuit board wire structure to improve the serious shortcomings of the traditional flexible circuit board wire structure, improve the ^ The strength of the wire structure is such that when the wire structure is bent and bent, the problem of fracture damage is effectively prevented, and the service life of the flexible circuit board is further improved. 6 M353599 亟 [New content] In view of this The shortcomings of the traditional flexible circuit board wire structure, the creation of people, 'work long-term efforts to research the amount of experiments, the end of the design of a flexible circuit board material structure, _ age _, lack of strength of the wire structure 'When the conductor structure is subjected to repeated bending, it effectively prevents the problem of breakage and breaks, and further enhances the flexible circuit board. The purpose of this creation is to provide a flexible circuit board wire structure, which is arranged on the flexible circuit board, when the two ends of the practicable circuit board are respectively placed with any two electrons ( For example, when the liquid crystal display module, the printed circuit board, etc. are connected, the wire structure is configured to transmit electrical signals (such as liquid crystal display signals) of the electronic devices, and the wire structure is provided with at least a sub-structure (eg: a gold finger), the terminal is disposed adjacent to one end of the insulating sheet, and the surface of the terminal is exposed outside the insulating sheet, and the wire structure is further provided with at least a connecting portion Connected to the terminal, and the width surface of the connecting portion from the end to the other end is gradually decreased, and the other end of the connecting portion is connected with the wire body having a width smaller than the terminal, and the other end of the wire body is oriented The position of the other end of the insulating sheet extends. Thus, since the width of the connecting portion is gradually reduced by the butterfly, the width of the connecting portion is different from that of the lead body, so that the width of the connecting body is different. Continuity of the structure of the New Zealand When the wire structure is repeatedly bent, the wire name structure can be prevented from being repeatedly bent, and the wire structure corresponds to the honest shear stress of the terminal, the connecting portion and the wire body of the M353599 being connected to each other. Effectively prevent the problem of breakage damage in this part of the material line structure. ν α Φ is the purpose of the creation, technical features and efficacy of the research committee, and the rhythm of the rhythm of the progress is detailed and detailed. [Embodiment]
本創作係-錄性電路板之導縣構,在摘作—較佳 施例中,請參閱第3圖所示,該導線結構4係佈設在一軟性電 路板3之絕緣片體30内,以在該軟性電路板3之兩端分別與 任一電子裝置5 (如:液晶顯示模組、印刷電路板......等)相 連接的狀態下’傳輸各該電子裝置5之電氣賴(如:液 不訊號),該導線結構4係為一體成形’包括至少一端子4〇 (如金手扣)、至少一連接部41及一導線本體犯,其中該 端子40之i度大於該導線本體42,該端子4()係設在鄰近該 絕緣片體3G之-端的位置,且該端子4G之—面係露出在該絕 緣片體3G外,用以與各該電子裝置5上之電氣接點相連接, 而該連接部41之—端係與該端子4G相連接,該連接部41之 一端到另一端的寬度係逐漸遞減,且該連接部41之另一端係 與該導線本體42之-端相連接,該導線本體42之另_端係朝 向該絕緣片體30之另一端的位置延伸。 如此,由於該連接部41之寬度係由其一端到另一端逐漸 遞減,並介於該端子40與該導線本體42的寬度間,故能有效 地維持該導線結構4之整體結構的連續性,因此,當作業員將 該軟性電職3組裝至各魏子裝置5間,並造成該導線結構 8 M353599 4發生彎折時’該導線結構4藉由該連接部&,將能避免該導 線結構4因受到反覆彎折,而導致該導線結構4對應於該端子 40、連接部41及該導線本體42相互連接的部位產生剪應力, 造成該導線結構4之該部位斷裂損壞的問題,故,不僅將能有 效降低製造業者的損失,尚能大幅地提升使用該導線結構4之 軟性電路板3的使用壽命’進而確保該軟性電路板3之電氣訊 號的傳輸品質及良率。 再者,在該實施例中,復請參閱第3圖所示’該導線結構 • 4係為銅或銅合金......等材質所製成,由於,銅或銅合金之材 質的導電性很高,在各種金屬材質中,銅與銅合金的導電性僅 次於銀,然而’銅與銅合金之價格卻遠低於銀,故,以銅或銅 合金之材質製成的該導線結構4,不僅能有效地提升該軟性電 路板之電氣訊號_輸品質與良率,尚駄降低製造業者 之生產成本,進而提升製造業者之市場競爭力。 ▲故’根據前述,藉由本創作軟性電路板3之導線結構4, # 即a透過該連接部41有效地、轉該導線結構4之整體結構的 .^續性’使得該導線結構4在受到反覆彎折時,不祕生斷裂 損壞之’,進而大幅地提升使用魏_構4之軟性電路板 、吏用fp 有效地確保該軟性電路板3之電氣訊號的傳 輸品質及良率。按,以上所述,僅係本創作之較佳實施例,惟, 本創作之構造魏並:^舰於此,任何熟悉該項技藝者在本創 作員域内,依據本創作所揭露之技術内容,可輕易思及之等效 變化’均應屬不脫離本創作之保護範疇。 9 M353599 【圖式簡單說明】 第1圖係傳統軟性電路板之導線結構之示意圖; 第2圖係傳統軟性電路板之導線結構之使用狀態圖;及 第3圖係本創作軟性電路板之導線結構一較佳實施例之使用狀 態圖。 【主要元件符號說明】 軟性電路板 .................. 3 絕緣片體 .................. 30 導線結構 .................. 4 端子 40 連接部 .................. 41 導線本體 ................... 42 電子裝置 .................. 5The present invention is a guide structure of a recording circuit board. In the preferred embodiment, as shown in FIG. 3, the wire structure 4 is disposed in an insulating sheet 30 of a flexible circuit board 3. Transmitting the electrical of each of the electronic devices 5 in a state in which the two ends of the flexible circuit board 3 are respectively connected to any of the electronic devices 5 (eg, a liquid crystal display module, a printed circuit board, etc.) The wire structure 4 is integrally formed 'including at least one terminal 4〇 (such as a gold buckle), at least one connecting portion 41 and a wire body, wherein the terminal 40 has an i-degree greater than The wire body 42 is disposed at a position adjacent to the end of the insulating sheet 3G, and the surface of the terminal 4G is exposed outside the insulating sheet 3G for use on each of the electronic devices 5 The electrical contacts are connected, and the end of the connecting portion 41 is connected to the terminal 4G. The width from one end to the other end of the connecting portion 41 is gradually decreased, and the other end of the connecting portion 41 is connected to the wire. The ends of the body 42 are connected, and the other end of the wire body 42 faces the other end of the insulating sheet 30. Set extension. Thus, since the width of the connecting portion 41 gradually decreases from one end to the other end and is between the terminal 40 and the width of the wire body 42, the continuity of the overall structure of the wire structure 4 can be effectively maintained. Therefore, when the operator assembles the soft electric power 3 to each of the Weizi devices 5 and causes the wire structure 8 M353599 4 to bend, the wire structure 4 can avoid the wire by the connecting portion & The structure 4 is subjected to repeated bending, and the wire structure 4 generates shear stress corresponding to the portion where the terminal 40, the connecting portion 41 and the wire body 42 are connected to each other, thereby causing the problem that the wire structure 4 is broken and damaged. In addition, not only the loss of the manufacturer can be effectively reduced, but also the service life of the flexible circuit board 3 using the wire structure 4 can be greatly improved, thereby ensuring the transmission quality and yield of the electrical signal of the flexible circuit board 3. Furthermore, in this embodiment, please refer to the material of the wire structure shown in Fig. 3, which is made of copper or copper alloy, etc., because of the material of copper or copper alloy. The conductivity is very high. Among various metal materials, the conductivity of copper and copper alloy is second only to silver. However, the price of 'copper and copper alloy is much lower than that of silver. Therefore, it is made of copper or copper alloy. The wire structure 4 can not only effectively improve the electrical signal quality and yield of the flexible circuit board, but also reduce the production cost of the manufacturer, thereby improving the market competitiveness of the manufacturer. ▲ Therefore, according to the foregoing, by the wire structure 4 of the present flexible circuit board 3, #, a through the connection portion 41, effectively, the continuity of the overall structure of the wire structure 4 makes the wire structure 4 subject to When the bending is repeated, the damage is not broken, and the flexible circuit board using the Wei 4 structure is greatly improved, and the transmission quality and yield of the electrical signal of the flexible circuit board 3 are effectively ensured. According to the above description, it is only a preferred embodiment of the present invention, but the construction of the creation is Wei: ^ Ship here, any technical person who is familiar with the artist in the field of the creator, according to the technical content disclosed by the creation The equivalent change that can be easily considered is not to fall within the protection scope of this creation. 9 M353599 [Simple description of the diagram] Figure 1 is a schematic diagram of the wire structure of a conventional flexible circuit board; Figure 2 is a state diagram of the use of the wire structure of a conventional flexible circuit board; and Figure 3 is a wire of the flexible circuit board of the present invention. A state diagram of the use of a preferred embodiment of the structure. [Explanation of main component symbols] Flexible circuit board.................. 3 Insulation sheet..................30 Wire structure.................. 4 Terminal 40 Connections.................. 41 Wire body.... ............... 42 Electronic devices.................. 5