M341322 八、新型說明: 【新型所屬之技術領域】 本創作係有關一種排線跳線連接裝置,旨在提供一種 供权性排線與其他連接件,藉由電路板之各線路形成跳線 , 連接之排線跳線連接裝置。 【先前技術】 按,軟性排線(Flexible Flat Cable,FFC)係為一 _種用PET絕緣材料和極薄鍍錫扁平銅線壓合而成的數據 線纜,其具有價格低廉、厚度薄;、可以彎曲摺疊,以及較 ,構成電磁屏敝(EMI)之特性,已廣泛應用在許多相關電 氣產品之間的移動部件對主板之間的連接。 卜例如,以一部筆記型電腦而言,軟性排線即可應用在 筆記型電腦液晶螢幕(LCD)與主板之間的訊號連接,也由 於軟性排線具有耐撓折性高、低價位等特點,在成本考量 下較能夠符合筆記型電腦快速反應市場特性之產品優 鲁勢,甚至於有取代軟性印刷電路板(Flexible PHnted Circuit,FPC)的趨勢。 一般軟性排線之使用,如第一圖所示,當軟性排線 11在連接第一、第二主體12、13時,該第一、第二主體 12、13上設有複數腳位(圖中未標示),而各腳位藉由軟 性排線11相連接,而達到訊號或電力之傳輸;其中,哕 第一、第二主體12、13上各腳位可能排列順序不同而形 成跳線,舉例來說第一主體之第一個腳位之訊號或電力要 5 M341322 傳达給第二主體之第三個腳位,此時若藉由該軟性排線 11則無法確實完成連接,因為該軟性排線u上所具有之 複數傳輸線111係為相互平行排列,無法完成第一、第二 主體12、13上各腳位之跳線連接。 ^故=面上亦出現有同軸線之結構,如第二圖所示,該 第 第一主體12、13之各腳位(圖中未標示),係由負 數=軸線14相互連接,而達到訊號或電力之傳輸,而當 為第-、第二主體12、13上各腳位排列順序不同而形成 跳線時f例來說第一主體之第丁個腳位之訊號或電力要 傳运給第二主體之第三個腳位,可由―條同軸線之一端連 接及第一主體之第一個腳位,另端則連接第二主體之第三 個腳位,則可構成連接;雖然,各同軸線以可包覆於: 絕緣件15中,不會使凌亂的同軸線露出,但是 ,耐撓折性較差,無法適用於較小的空間環境下,實用性 【新型内容】 令軟性的即在提供一種排線跳線連接裝置 連接。排線與其他連接件’藉由電路板之各線路形成跳線 6 M341322 複數與各線路連接之第-腳位,而料二連接件亦設有複 數與各線路連接之第二腳位,各第一腳位之排列順序與第 二腳位之排列順序不同,故藉由電路板之各線路可供軟性 排線與第二連接件之跳線連接。 【實施方式】 本創作之特點,可芩閱本案圖式及實施例之詳細說明 而獲得清楚地暸解。 本創作「排線跳線連接裝置.」,該跳線連接裝置 之結構組成,如第三圖所示,至少包含有軟性排線21與 第二連接件,如圖所示之實施例中,該第二連接件可以為 同軸線22,其軟性排線21與同軸線22間係利用電路板 23相互連接定位而導通,且該電路板23上並設有^數 路 231, 、、、 其中,該軟性排線21係設有複數與各線路231連招 之弟一腳位211 ’而该同軸線22亦設有複數與各線路μ] 連接之第二腳位221 ,各第一腳位211之排列順序與第二 腳位221之排列順序不同,請同時參閱第四圖所示,例如 各第一腳位211之排列順序為卜2、3、4、5、6、7、8、 9、10、11、12、13、14、15、16、17、18,而各第二腳 位 221 之排列順序為 2、1、6、4、7、3、5、1〇、u、9 8、15、13、16、12、14、18、17,而電路板 23 上之線路 231則設計成將各第一腳位211連接至相對應之第二腳位 221,使該電路板23之線路231設置可供軟性排線21與 M341322 同軸線22之跳線連接。M341322 VIII. New description: [New technical field] This creation is about a cable jumper connection device, which aims to provide a power cable and other connectors, and jump lines are formed by each circuit of the circuit board. Connected cable jumper connection device. [Prior Art] According to the flexible flat cable (FFC), a data cable is formed by pressing together a PET insulating material and an extremely thin tinned flat copper wire, which has a low price and a thin thickness; It can be bent and folded, and is relatively characteristic of electromagnetic screen (EMI). It has been widely used in the connection between moving parts and motherboards between many related electrical products. For example, in the case of a notebook computer, the flexible cable can be applied to the signal connection between the LCD screen of the notebook computer and the motherboard, and the flexible cable has high flexibility and low price. And so on, under the cost considerations, it is better to meet the characteristics of the fast response market of notebook computers, and even to replace the flexible printed circuit board (FPC) trend. The use of the general flexible cable, as shown in the first figure, when the flexible cable 11 is connected to the first and second bodies 12, 13, the first and second bodies 12, 13 are provided with a plurality of pins (Fig. The signals are not connected, and the pins are connected by the flexible cable 11 to achieve signal or power transmission; wherein the first and second bodies 12 and 13 may be arranged in different order to form a jumper. For example, the signal or power of the first pin of the first body is to be transmitted to the third pin of the second body by 5 M341322. At this time, the connection cannot be surely completed by the flexible cable 11 because The plurality of transmission lines 111 on the flexible cable u are arranged in parallel with each other, and the jumper connections of the respective positions on the first and second bodies 12 and 13 cannot be completed. Therefore, the structure of the coaxial line also appears on the surface. As shown in the second figure, the respective positions of the first body 12, 13 (not shown) are connected to each other by a negative number = axis 14 Signal or power transmission, when the first and second bodies 12, 13 are arranged in different order to form a jumper, f is the signal or power of the first foot of the first body to be transported. The third pin of the second body can be connected by one end of the "coaxial line" and the first leg of the first body, and the other end is connected to the third leg of the second body, thereby forming a connection; The coaxial wires can be covered in the insulating member 15 so as not to expose the messy coaxial wire, but the flexural resistance is poor, and it is not suitable for use in a small space environment, and the practicality [new content] makes the softness That is to provide a cable jumper connection device connection. The cable and other connectors are formed by the lines of the circuit board. The jumper 6 M341322 is connected to the first leg of each line, and the second connector is also provided with a plurality of second pins connected to each line. The arrangement order of the first pin is different from the order of the second pin. Therefore, the flexible cable is connected to the jumper of the second connector by each line of the circuit board. [Embodiment] The features of the present invention can be clearly understood by referring to the detailed description of the drawings and the embodiments. The present invention is a cable jumper connection device. The structure of the jumper connection device, as shown in the third figure, includes at least a flexible cable 21 and a second connector. In the embodiment shown, The second connecting member may be a coaxial cable 22, and the flexible cable 21 and the coaxial cable 22 are electrically connected to each other by the circuit board 23, and the circuit board 23 is provided with a plurality of paths 231, , , The flexible cable 21 is provided with a plurality of pins 211' connected to the respective lines 231, and the coaxial line 22 is also provided with a plurality of second pins 221 connected to the respective lines μ, each of the first positions The arrangement order of the 211 is different from the arrangement order of the second pin 221. Please refer to the fourth figure at the same time. For example, the order of the first pins 211 is 2, 3, 4, 5, 6, 7, and 8. 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, and the second pin 221 is arranged in the order of 2, 1, 6, 4, 7, 3, 5, 1 〇, u, 9 8 , 15 , 13 , 16 , 12 , 14 , 18 , 17 , and the line 231 on the circuit board 23 is designed to connect each first pin 211 to the corresponding second pin 221 to make the circuit board The line 231 of 23 is provided for the jumper connection of the flexible cable 21 and the M341322 coaxial line 22.
ODD(Optical Disc Drive)、 體31、32之訊號或電力之 第二連接本體可以為 、SATA(Serial ΑΤΑ)、 HDMIOhgh-Definition Multimedia lnterface)、USB、 D-sub或是LVDS傳輸介面;當然,該第二連接件亦可以 為軟性排線21,如第六圖所示。 另外’该同軸線22可套設有保護組件26,如第七圖 所示,或者该電路板23上套設有保護組件26,如第八圖 所示,當然可同時於電路板23以及同軸線22套設有保護 組件26,如第九圖所示,而上述之保護組件26可以為熱 縮套管,以包覆於同轴線及/或電路板上,以提供遮蔽、 保護之效果。 再者,該排線跳線連接裝置之另一實施例,如第十圖 所示,其至少包含有軟性排線21與軟性電路板27,該軟 性電路板27上並設有複數第三腳位271及第四腳位 272,以及設於第一、第四腳位間並將其連接之線路273, 各第三腳位271之排列順序與第四腳位272之排列順序不 同,該軟性排線21係設有複數與各第三腳位271連接之 8 M341322 第一腳位211,該第一腳位211係利用焊接方式與第三腳 位271相連接導通;當整體排線跳線連接裝置應用於二主 體之連接時,如第十一圖所示,該軟性排線21相對於軟 性電路板27另端設有第一連接本體24,而藉由該第一連 接本體24與第一本體31連接,該軟性電路板27相對於 軟性排線21另端設有第二連接本體25,而藉由該第二連 接本體25與第二本體32連接,以構成第一、第二本體 31、32之訊號或電力之連接傳輸,上述之第一、第二連 接本版可以為 QDD(Qptical Disc Drive)、SATA(Serial ΑΤΑ) ^ HDMKHigh-Definition Multimedia Interface) ^ Π::113 ^ UDS傳輸介面;當然,該軟性排線21 %路板27間可進—步套設有保護組件26,如第十 一圖所不,該保護組件邡可 保護之效果。 T以為熱鈿套管,以提供遮蔽、 本創作相較於習有係具有下列優點: 本創作之連接裝置可適用於跳線之遠接 使用軟性排線作為之連 接] 寸別是 作為跳線連接之缺點。 了改良白有軟性排線無法 其他電子^線與其他連接件(如同轴線或 等特點。 ’、妹性排線具有耐撓折性高、低價位 本創作之技術内容及 本項技術之人士仍可能基於本:二已之=心 離本案創作精神之替 二、而作“重不背 ㈣Μ。因此’本創作之保護範圍 9 M341322 應不限於實施例所揭示者,而應包括各種不背離本創作之 替換及修飾,並為以下之申請專利範圍所涵蓋。 ^【圖式簡單說明】 •第一圖係為習有軟性排線作為連接裝置之結構示意圖。 . 第二圖係為習有同轴線作為連接裝置之結構示意圖。 _ 第三圖係為本創作中跳線連接裝置第一實施例之結構分 解示意圖。 _ 第四圖係為本創作中電路板與各腳位之結構示意圖。 第五圖係為本創作中跳線連接裝置第一實施例與二主體 相互連接之結構示意圖。 第六圖係為本創作中跳線連接裝置第二實施例與二主體 相互連接之結構不意圖。 第七圖係為本創作中跳線連接裝置第三實施例與二主體 相互連接之結構示意圖。 第八圖係為本創作中跳線連接裝置第四實施例與二主體 • 相互連接之結構示意圖。 第九圖係為本創作中跳線連接裝置第五實施例與二主體 相互連接之結構示意圖。 第十圖係為本創作中跳線連接裝置第六實施例之結構示 意圖。 第十一圖係為本創作中跳線連接裝置第六實施例與二主 體相互連接之結構不意圖。 第十二圖係為本創作中跳線連接裝置第六實施例與二主 10 M341322 體相互連接之另一結構不意圖。 【主要元件代表符號說明】- 軟性排線11 傳輸線111 第一主體12 第二主體13 同軸線14 絕緣件15 跳線連接裝置20 軟性排線21 第一腳位211 同軸線22 第二腳位221 電路板23 線路231 第一連接本體24 第二連接本體25 保護組件26 軟性電路板27 第三腳位271 M341322 第四腳位272 線路273 第一本體31 第二本體32The second connection body of the ODD (Optical Disc Drive), the body 31, 32 signal or the power may be, SATA (Serial ΑΤΑ), HDMI Ohgh-Definition Multimedia lnterface), USB, D-sub or LVDS transmission interface; of course, The second connector may also be a flexible cable 21 as shown in the sixth figure. In addition, the coaxial cable 22 can be sleeved with a protection component 26, as shown in the seventh figure, or the circuit board 23 is covered with a protection component 26, as shown in the eighth figure, of course, simultaneously on the circuit board 23 and coaxial. The wire 22 is provided with a protection component 26, as shown in the ninth figure, and the protection component 26 can be a heat shrinkable sleeve to cover the coaxial line and/or the circuit board to provide shielding and protection effects. . Furthermore, another embodiment of the cable jumper connecting device, as shown in FIG. 10, includes at least a flexible cable 21 and a flexible circuit board 27, and the flexible circuit board 27 is provided with a plurality of third legs. The bit 271 and the fourth pin 272, and the line 273 disposed between the first and fourth pins, and the third pin 271 are arranged in an order different from the fourth pin 272. The cable 21 is provided with a plurality of 8 M341322 first pins 211 connected to the third pins 271. The first pins 211 are connected to the third pins 271 by welding; when the overall cable jumpers When the connecting device is applied to the connection of the two main bodies, as shown in FIG. 11 , the flexible cable 21 is provided with the first connecting body 24 at the other end of the flexible circuit board 27, and the first connecting body 24 and the A second connecting body 25 is disposed at the other end of the flexible circuit board 27, and the second connecting body 25 is connected to the second body 32 to form the first and second bodies. 31, 32 signal or power connection transmission, the first and second connection version above I think QDD (Qptical Disc Drive), SATA (Serial ΑΤΑ) ^ HDMKHigh-Definition Multimedia Interface) ^ Π:: 113 ^ UDS transmission interface; of course, the flexible cable 21% of the road board 27 can be step-by-step protection The assembly 26, as shown in FIG. 11, does not protect the effect. T thinks that the hot sleeving sleeve is used to provide shielding. This creation has the following advantages compared with Xishui: The connection device of this creation can be applied to the remote connection of the jumper using the soft cable as the connection] The inch is used as the jumper The disadvantage of the connection. The improved white flexible cable can not be connected with other electronic components and other connectors (like the axis or the like. ', the sister cable has high flexibility, low-cost technical content and technology The person may still be based on this: the second has = the heart of the creative spirit of the case, and the "heavier than the (four) Μ. Therefore, the scope of protection of this creation 9 M341322 should not be limited to the examples disclosed, but should include various It does not detract from the substitution and modification of this creation, and is covered by the following patent application scope. ^ [Simple description of the diagram] • The first diagram is a schematic diagram of the structure of the flexible cable as a connecting device. The schematic diagram of the structure of the coaxial cable as the connecting device is taken. _ The third figure is a schematic exploded view of the first embodiment of the jumper connecting device in the present invention. _ The fourth figure is the circuit board and the feet in the creation. The fifth figure is a schematic structural view of the first embodiment of the jumper connecting device and the two main bodies in the present invention. The sixth figure is the second embodiment of the jumper connecting device in the present creation and the two main body phases. The structure of the connection is not intended. The seventh figure is a schematic diagram of the connection between the third embodiment of the jumper connection device and the two main bodies in the present invention. The eighth figure is the fourth embodiment and the second body of the jumper connection device in the present creation. The schematic diagram of the interconnection structure. The ninth diagram is a schematic diagram of the fifth embodiment of the jumper connection device and the two main bodies connected to each other. The tenth figure is the structure of the sixth embodiment of the jumper connection device in the present creation. The eleventh figure is a structure in which the sixth embodiment of the jumper connecting device is connected to the two main bodies in the present invention. The twelfth figure is the sixth embodiment and the two mains 10 of the jumper connecting device in the present creation. Another structure in which the M341322 body is connected to each other is not intended. [Main component representative symbol description] - Flexible cable 11 Transmission line 111 First body 12 Second body 13 Coaxial axis 14 Insulator 15 Jumper connection device 20 Flexible cable 21 First Pin 211 Coaxial axis 22 Second pin 221 Circuit board 23 Line 231 First connection body 24 Second connection body 25 Protection component 26 Flexible circuit board 27 Third pin 271 M341322 Line 273 pin 272 of the first body 31 second body 32