200903937 九、發明說明: 【發明所屬之技術領域】 電子設備内部 本發明是關於一種線纜組合,尤其指一種排佈於 的線纜組合結構。 ' 【先前技術】 隨著電子技術的不斷進步,資訊傳輸越來越趨向無 向發展以克服電子設備之間傳輸線複雜冗繁而導致使用不=沾 陷。無線傳魏需要用天線進行信號的發射與接收 雷、 =越來越纽置天線結構;· 了配合電子設備抑 電々IL轉換為電磁波以空氣為介質進傳, 4 一疋、 ^ ^ϊί " 接在天線知技術中’我們通常將一端焊 殼體的邊緣延伸,使ί另體的周邊位置’線規沿著 接器相連。隨著天裝射頻連接11與電子設備的對接連 -些電子設備的内,以:=,線_數量亦會增加’此時 緣,因此將 ίί:二 -種理線路徑。此種方法中,^殼體的中間是目前使用的 收容同轴線纜。由於雷 :°又備设體的中間預留一槽道用以 加的高度時,線 =二其而度小於兩根同軸線纜疊 次密集的彎折。習知技術徑可能發生多次甚至多 後走線,或者利用 々、,且線纜利用塑膠套管收攏然 來越多時,將線_ ϋ 纔。但隨著線纜的數量越 就越來越困難,且kapton膠帶較 200903937 硬,當多根線纜組合要根據槽道路徑發生 帶固定較困難,同時利用kapton膠帶彎=_膠 進習知技術。足空間的要求。因此我們確有必要改 【發明内容】 列時於提供—種_組合,係可方便多根線輯折排 為了實現上述目的’本發明線敝合, — 包括並排排列的多根同軸線繞,每一同轴 :折處,其 層、、編織層以及外絕緣層,其中線規彎折處或鄰近脊折處^ 上述外絕緣層而露出部分編織層,相鄰線 y々邛为 焊接而將_組合的所述彎折^^鄰線、痛所述編織層稞露部相 定型後的線_夠=在較列’且彎折定 【實施方式】 組合ΪΓ圖所示係依照本發明的第一種較佳實施方式所提供的線纜 導體=且合/上括三根同轴線親100 ’每一同軸顧⑽包括内 101 102 ο 個f折處。彎折時兩發生兩次彎折形成兩 120。第一彎折:二ηνΊ 考折部110和第二彎折部 上述兩個彎折Α = m分別各自並排相連整體形成 的編織層裸露部122。相鄰_的編織層裸露部m 4 士从疋在起,再用包布112、114、丨24將其包覆,太垂於初由 的形狀固定。為利',5 $所^示區域’從而將彎折處 勹J/月疋说月才示5虎112、114、124同時指代為包布 200903937 所包裹的編織層裸露部。第一圖中編織層裸露部ί12、il4、124都 為被醋酸布包裹的構形。其中位於彎折處外彎的線纜,其保留外絕 緣層的長度比内彎的線纜保留的外絕緣層長度長。當線^的形狀^ ^好後’將醋酸布包覆在整個彎折部及其附近位置,若兩個或多個 彎折處距離較近如第一圖所示的情形,亦可將醋酸布連續包裹所 彎折處從而增加彎折處的勃性。 製造時,我們採取以下方法步驟·· 第一步:確定線纜組合1彎折處的位置和彎折度,從而確定 ,處=彎和外彎的長度,計算確定出每一線纜的第一彎折部ιι〇、 第二,f部120所需的長度以及編織層裸露部的位置和長度。 2第ΐ步:將每一線纜根據需要在特定的位置按預先設定好的長 度和位置分別剝去外絕緣層102形成編織層裸露部U2、114、122、 =,使得編織層裸露部112、114之間、編織層裸露部ΐ22、124之 形成長度不_第—f折部11G、第二f折部i2G。本實 中’幵ς成稞露部是採用自動化設備齡線、獅對應外絕緣層。 第-折部長度由小至大的並排相接設置,其中 ί鐵應,第二彎折部120互摘應,使得線_ 之門二互;丨、m之間相互對應排列’編織層裸露部122、124 产ϋϊϊ 峨,將並排的線_體彎折,使得彎折部長 位折處的内彎處,彎折部長度最大的線纔位於彎 处第四二:„後保持線_對應的-折末端間基本平齊。 從而St Γ線_對應的編織層裸露部112]14焊接固定 目折部iig固定成形’將編織層裸露部 -圖中兩根線_ 第12〇固域 意),從而形成罝有路/ 22之間的塗黑部分為焊錫示 連續包覆,從而更好的處及其附近位置處用包布 例中,包布為醋ί布。呆5又和固疋_ ’增加線_韋刃性。本實施 。月參照第二圖所示’係一筆記型電腦的殼體,該殼體㈣内部 200903937 具有槽道π用以收容經過的線纜,而带 槽道η具有若干距離較近的彎道12 ’ 限制,該 線纜並排經過。而本發明的峻嶒έ入日、11的冋度較低,需要 至該殼體10。 的輒組合1則可以方便快捷的直触裝 的線、ίϋ第—11所不,係依照本發_第二種較佳實施例所提供 線徵組合2包括三根同軸線纜2〇〇 ’每 201 m = #職形成苐二考折部21〇以及第四彎折部 爭、生柱:-、四今折部210、220結構基本相同’均有包布包裹。為 22^)%顧處顯不包布剝開後的編織層裸露部結構: 遠十後的情形。f折部210、220分別各自並排相 ,正體形成上麵個料處。騎處附近的線敝合亦呈扁,200903937 IX. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention relates to a cable combination, and more particularly to a cable assembly structure arranged therewith. [Prior Art] With the continuous advancement of electronic technology, information transmission has become more and more undirected to overcome the complexity and cumbersome transmission lines between electronic devices. Wireless transmission requires the use of an antenna for signal transmission and reception of lightning, = more and more antenna structure; · with electronic equipment, suppressing electricity, converting IL into electromagnetic waves, using air as a medium, 4 疋, ^ ^ϊί " In the antenna technology, we usually extend the edge of one end of the soldering shell so that the peripheral position of the other body is connected along the connector. With the connection of the antenna RF connection 11 and the electronic device - within the electronic device, the number of :=, the line _ will also increase 'the edge of the edge, so ίί: two - the line of the line. In this method, the middle of the housing is the currently used coaxial cable. Since the mine is reserved for the height of the middle of the body, the line = two is less than the dense folding of the two coaxial cables. The conventional technical path may occur many times or even more, or use the 々, and the more the cable is closed by the plastic casing, the more the line _ ϋ. However, as the number of cables becomes more and more difficult, and the kapton tape is harder than 200903937, it is difficult to fix the multiple cable combinations according to the channel path, and at the same time, using kapton tape bending = _ glue into the conventional technology . Foot space requirements. Therefore, it is necessary for us to change the content of the invention. When the column is provided, it is convenient to fold the plurality of wires in order to achieve the above purpose. The wire stitching of the present invention includes a plurality of coaxial windings arranged side by side. Each coaxial: a fold, a layer thereof, a braid layer and an outer insulating layer, wherein the wire gauge bends or is adjacent to the spine fold, the outer insulating layer exposes a portion of the braid, and the adjacent line y is welded The bending of the _ combination of the adjacent line, the pain of the woven layer exposed to the line after the line _ sufficiency = in the column 'and the bending set [embodiment] combination diagram shown in accordance with the present invention The cable conductor of the first preferred embodiment provides a combination of three coaxial lines 100' each coaxial cable (10) including an inner 101 102 ο f fold. When bending, two bends occur twice to form two 120. The first bending: two ηνΊ the folding portion 110 and the second bending portion The two bending Α = m are respectively connected to the integrally formed woven layer bare portion 122 side by side. Adjacent _ woven layer bare portion m 4 is covered from the crepe, and then covered with the cloth 112, 114, 丨 24, and is too fixed in the initial shape. For the benefit of ', 5 $ to show the area' and thus the bend 勹 J / 疋 疋 疋 才 才 5 5 5 5 虎 虎 虎 虎 虎 虎 虎 虎 112 虎 112 112 112 112 112 112 112 112 112 039 039 039 039 039 039 039 039 039 039 039 039 In the first figure, the woven layer bare portions ί12, il4, and 124 are all configured by the acetate cloth. The cable that is bent outward at the bend has a length that retains the outer insulating layer longer than the outer insulating layer that the inner bent cable retains. When the shape of the wire ^ ^ ^ is good, 'the acetate cloth is wrapped around the entire bend and its vicinity. If the distance between two or more bends is closer, as shown in the first figure, acetic acid may also be used. The cloth continuously wraps the bent portion to increase the sag of the bend. When manufacturing, we take the following steps: · Step 1: Determine the position and bending of the cable combination 1 bend, to determine the length of the bend = bend and the outer bend, calculate the number of each cable A bent portion ιι, second, the length required for the f portion 120 and the position and length of the exposed portion of the braid. 2 Step: Each cable is stripped of the outer insulating layer 102 at a specific position according to a predetermined length and position to form a woven layer exposed portion U2, 114, 122, = such that the woven layer exposed portion 112 Between 114 and 114, the formation length of the woven layer bare portions 22, 124 is not the -f-fold portion 11G and the second f-fold portion i2G. In this case, the 幵ς成稞露部 is an automatic equipment age line and a lion corresponding outer insulation layer. The length of the first-folding portion is arranged side by side from small to large, wherein the second bending portion 120 is mutually plucked so that the door of the line _ is mutually mutually arranged; the 丨 and m are arranged corresponding to each other' Departments 122, 124 produce ϋϊϊ 峨, bend the side-by-side line _ body, so that the bend at the bend of the ministerial position, the line with the largest length of the bend is located at the bend. - The end of the fold is substantially flush. Thus the St Γ line _ corresponding to the woven layer exposed portion 112] 14 welded fixed eye fold iig fixed forming 'will woven layer exposed part - two lines in the figure _ 12 〇 域), so that the blackened portion between the entangled roads/22 is continuously covered by the solder, so that the better place is in the vicinity of the cloth in the vicinity, and the cloth is vinegar.疋 _ 'Add line _ Wei edge. This implementation. According to the second figure, the frame of a notebook computer, the interior of the housing (4) 200903937 has a channel π to accommodate the passing cable, and the belt The channel η has a plurality of relatively narrow bends 12', and the cables pass side by side. However, the storm of the present invention, 11 The twist is low, and the cymbal combination 1 to the housing 10 is convenient and quick to directly touch the cable, and the ninth is not provided in the second preferred embodiment. Combination 2 includes three coaxial cables 2〇〇' per 201 m = #职形成苐二考折部21〇 and the fourth bending part, the column:-, the four current folds 210, 220 are basically the same structure There is a wrapping cloth. For the 22^)%, the woven layer exposed structure after the stripping is not included: After the tenth, the f-folding parts 210 and 220 are respectively arranged side by side, and the body is formed into the upper part. The line near the riding area is also flat.
Gilt有其處崎折部的外絕緣層搬形成的編織層裸露 邠12 222。其中位於彎折處内彎的線纜彎折部的長度小於位於 折部的長度’從而配合彎折處的弧度。因此位於 弓斤=内、弯的線纜截去的外絕緣層202的長度小於位於彎折處外彎 的^纜截去的外絕緣層的長度’即週邊的編織層裸露部的長度大於 内青的編織層裸露部的長度。相鄰線纜的相對應的編織層裸露部焊 接固定在=起]從而使相鄰線纜的彎折部之間相對應的緊密並排排 列形成上述的彎折處。這樣的線纜組合2結構亦可以簡單快捷的直 接組裝至如第三圖所示的殼體1〇預設的槽道U中。 製造時,我們採取以下方法步驟: 第一步.確定線繞組合2彎折處的位置和彎折度,從而確定彎 折處内彎外彎的長度,從而確定出每一線纜的彎折部210、220的長 度以及編織層裸露部212、222的位置和長度。 ”第二步:將每一線纜根據需要在特定的位置按預定長度剝去外 絕緣層202形成編織層裸露部212以及標號222指示處的區域(該 區域的編織層裸露部被包布包裹而沒有暴露出來),使得編織層裸^ 200903937 部212、222分別形成長度不同的彎折部21〇、22〇。 第二步:將線纜按彎折部長度由小至大的並排相 互相對應,第四彎折部22〇互相對應 相^ ‘ 裸露部212之附目互對應排列,編織層裸露部3 對應排列,然後,將並排的線境整體弯折,^互 =位於彎折處_ •彎處,f折部長度最大的賴^^^= 幫處^折後储、__互對應㈣折末端基本平齊撕處的外 第四步:將相鄰線_相對應的編織層裸露部21 定從而將彎折部210、220狀成形,形成且有 ^接固 ,纜組合2。將編織層裸露部用包布包覆:進斤^ ^固^的 =置用包布連續包覆’從而更好的保護和固定顧 的韌性。本實施例中,包布為醋酸布。 、’、 a加線纜 其他實施例中,線鐵組合可能發生一次 =第而ί具有的線纜數亦可能超過三根。】照本 織層裸露部成為-個編織層裸露部,請知成連續的編 合3的兩個、彎折部之間就只有-個編織層線魔組 不的,覆蓋地區域即為編織雜露部二立置)。⑷破30所指 專利综上;仏爰:法提*申請 精神所作之等效修飾或變化庫、二;^援依本發明之 【圖式簡單說明】 —於以下巾轉利範圍内。 =-圖係本發明_組合之第—實 合之第二實施例之立體圖。 第四圖係本:;線組i,電侧殼體之立體圖。 見、'且口之第二貫施例之立體圖。 200903937 【主要元件符號說明】 線纜組合 1、2、3 同轴線纜 編織層 101、201外絕緣層 第一彎折部 110 第二彎折部 第三彎折部 210 第四彎折部 編織層裸露部122、212包布 殼體 10 槽道 100 、 200 102 ' 202 120 220 112、114、124、222、30 11 彎道 12 10Gilt has a woven layer of 外12 222 formed by the outer insulation layer of the rugged part. The length of the cable bend at the bend is less than the length of the fold to match the curvature of the bend. Therefore, the length of the outer insulating layer 202 which is cut in the cable and the bent cable is smaller than the length of the outer insulating layer which is bent outside the bent portion, that is, the length of the bare portion of the surrounding braid is larger than the inner portion. The length of the exposed portion of the green braid. The corresponding braided portions of adjacent cables are welded and fixed so that the corresponding tightly arranged rows between the bent portions of adjacent cables form the above-mentioned bends. Such a cable combination 2 structure can also be assembled directly and directly into the predetermined channel U of the housing 1 as shown in Fig. 3 in a simple and quick manner. At the time of manufacture, we take the following method steps: Step 1. Determine the position and bending of the wire-wound combination 2 bend, and determine the length of the bend inside the bend to determine the bend of each cable. The length of the portions 210, 220 and the position and length of the woven layer exposed portions 212, 222. "Second step: each cable is stripped of the outer insulating layer 202 at a specific position as needed to form a woven layer bare portion 212 and an area indicated by reference numeral 222 (the woven layer bare portion of the region is wrapped with a cloth) And not exposed, so that the braided layer 200903937 parts 212, 222 respectively form the bent portions 21〇, 22〇 of different lengths. The second step: the cables are arranged side by side according to the length of the bent portion from small to large. Correspondingly, the fourth bending portion 22〇 is arranged corresponding to each other in the corresponding portion of the exposed portion 212, and the exposed portions 3 of the braid layer are arranged correspondingly, and then the side-by-side lines are integrally bent, and the mutual==================================================== _ • Bend, the maximum length of the f-fold is ^^^= 帮 ^ ^ 储 储 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The exposed portion 21 of the layer is shaped to form the bent portions 210 and 220, and is formed and secured, and the cable assembly 2. The exposed portion of the knitted layer is covered with a cloth: the weight of the woven layer is fixed. Continuous coating 'to better protect and fix the toughness. In this embodiment, the cloth is acetate cloth In other embodiments, the wire and iron combination may occur once. The number of cables may be more than three. The exposed part of the woven layer becomes a bare layer of the braid. Please know There are only two braided layers between the two bends of the continuous knitting, and the covered area is the two weaving parts. (4) The 30 patents are broken;爰: The equivalent modification or change library of the spirit of the application of Fati, the second; the aid of the invention according to the [simplified description of the drawings] - within the scope of the following towel. =- Picture of the invention _ combination of the first - A perspective view of a second embodiment of the present invention. The fourth diagram is a perspective view of the line group i and the electric side housing. See, and a perspective view of the second embodiment of the mouth. 200903937 [Description of main component symbols] Cable combination 1, 2, 3 coaxial cable braiding layer 101, 201 outer insulating layer first bent portion 110 second bent portion third bent portion 210 fourth bent portion knitted layer exposed portion 122, 212 Housing 10 channel 100, 200 102 ' 202 120 220 112, 114, 124, 222, 30 11 corner 12 10