201202774 六、發明說明: 【發明所屬之技術領域】 。本,明係關於一種適於中途引接分歧接續作業的光镜接線 殼’尤指-觀善?丨進巾途引接分歧接續域之防水處理方式的 光纜接線殼’其纜線進出端面的結構一體化、功能全面化之設計, 中田k升了光欖接線威中途引接分歧接續光、纜防水處理方式的 選擇性’增加了施I作業的靈活性,降低電信業者的成本,解決 了見有技術中光镜接線⑪巾途引接分歧接續光境防水處理方式選 籲擇性受限、施工不便、導致電信業者維運成本增加等諸多問題。 【先前技術】 在電信、有線電視、監控1統#各_線傳輸#界的技術領 域中’已大規_使用光_輸語音、數據及影像的訊息,而將 訊息傳遞至各處的練,_在光纜接線殼内進行接續及分線作 業。光·線殼均設置有_進出端面,而齡進出端面均設置 有親進出Π ’供引接规進人接線殼⑽行接續及分線作業。 過去的规’多健巾繼幹線之用,光_線殼多係引接直 線接續(將—賊_光_另外—條同樣芯數光纖的域相接續 的作業)及分歧接續(將-根較多芯光_光纜,分喊數根較少芯 光纖的分歧光_接續作業);而今的通信網路,已邁向光纖到府 FTTH的寬鎌務時代,大量的賴,必彡刪練絲殼分配至 用戶端的絲設備;因此,錢接紐除了雜練的直線接嘖 及分歧接續之外’私_於_大量的巾途引接分歧接續作業 (-根較多芯光纖的主幹練,於觀_的中途,遇到用 光纖服務時,以-光_線殼,將—小部份尚未使㈣光纖,盘 另一根分歧魏接續之後’引接給新用戶使用,而主幹光境大部 201202774 份的光纖芯線’制是已由其他客戶使財的光纖芯線,則不能 截斷)之用。 現有的技術中的光繞接線殼,一鐵線進出端面可供中途引接 分歧接續作業光纜進人接線殼的防水處理方式,有機械式及熱縮 式-種,其巾以機械式防水處理的·進出端面的結構,又分為 單片式、。二片式及多片式,而以熱縮式防水處理的觀進出端面, 則均係單片式;以機械式防水處理的二片式及多片式纜線進出端 面’其零件比單片式的_進出端面複雜、成本較高、组裝較繁 瑣,而因施工不慎影響防水性能的比率,也較單片式為高;而以 機械式防水處理的單片式·線進出端面,僅就供中途引接分歧接 續光瘦進出Π的成本而言,與以熱縮式防水處理的單片式麟進 出端面成本差不多;因此,採用以單以的-纜線進出端面供中 途引接》歧接續練以機械式或熱縮式防水處理的域接線殼, 係電1¾業者的較佳選擇。 而現有的技術中,前述以單以的—齡進出端面供中途引 接为歧接續光鐵以機械式或熱縮式防水處理的光纖接線殼,且中 =機械式,水處理的練接線殼,其優點為施工不必動火安ς性 較熱縮式高、防水性能較佳(施工嚴謹)、適於長年積水的人孔中之 地下光驗用’而其缺點為隊處理的配套料比_式的配套 零件多、材料成本比-㈣熱縮式高;以熱、賦防水處理的光纔 接線殼’其優點騎水處理的配套零件比機械式少、 一般的機械式低’而其缺點為施工須動火、施工品質難以一致、 易因光”’if餘動而景彡響防水功效' 較適於架空及壁掛的 用而,不適於長年積水的人孔中之地下光驗用。因此,電信業 無虞的情形下,可於架^及壁掛㈣境中,_以; 式防水處_光_線殼以節省成本,祕下光纜及*宜動火的 201202774 環境中’宜採用以熱縮式防水處理的光_線殼以雜品質及安 全0 +所以,若能提供-種雜巾途引接分歧接續作業的光纜接線 殼’其單片式的-進出端面,既可採用機械式又可採用熱縮 式進行中it引接分歧接續光鐵的防水處理,則必然可以解決須備 製不同功能的、纜線進出端面而導致的諸多成本及困擾。雖然,吾 人為克服現有技躺不足’已發明—以細方式防水的部件,用 具黏性和可塑性的防水膠物或彈性體防水襯墊,以螺接方式連接 φ於-以機械式防水處理之單片式繞線進出端面;惟其缺點仍包括 該纜線進出端面的結構因而喪失了 一體化(前述單片式)的優勢,且 增加了零件的複雜性’並增加了以螺接方式連接的工序,以及增 加了工料成本等等。 故而,若能改善現有技術中光纜接線殼,其中途引接分歧接 ,光_防水處理功能之不足、成本過高、施工品質不―及施工 安全等諸多缺失,不僅可以提升施工品質及施工安全,更可以大 幅降低業者的建設及維運的成本。 • 職是之故,本案發明人鑑於習知技術中所產生之缺失,乃經 悉心研究與探索,並一本鐵而不捨之精神,終構思出本案之「具 有連接部及中空管柱及被連接部的通信纜線接續分線殼」,以下為 本案之簡要說明。 【發明内容】 為了克服現有技術的不足,本發明的目的在於提供一種適於 中途引接分歧接續作業的光纜接線殼,該接線殼包括至少一纜線 進出端面,且該至少一纜線進出端面形成有至少一連接部可供即 將進行中途引接分歧接續作業而準備以機械式防水部件進行防水 201202774 ,在残斷光纖芯線的情形下,料之後,以雙條光 ,的形式穿過該至少—連接部進出該接線殼;且該至少一纔 至少—第—衫管柱可供即將進行中途引接分歧接 署两I準仙選自具分歧夾配件的鎌f及具魏防水輔助裝 •己件的彈性收縮管二者之—進行防水處理的統,在不截 ί=:面竭一連接部供即將進行中途引接分歧接續作 %的/機械式防水部件進行防水處_域,在不截斷光纖 ::友的情軒’對f之後,以雙條光_形式穿戦至少一連接 纖芯,的情形下’對彎之後,以雙條规的形式穿過該至少一第 =空管柱進出該接線殼。因此,本發_練接雜,其單一 片式)的漫線進出端面’即可供進入接線殼的中途引接分歧 、^境’選擇採用機械式防水部件或彈性收鮮或熱縮管進行 處理。而現有技術中的光難線殼,其單-結構(-片式)的纖 該接線,或其單一結構(一片式)的纜線進出端面,僅設置 八-中空餘供即將進行中途引接分歧接續作業而準備以且 配件的熱縮管進行防水處理的域,在不截斷先纖芯_ 情形下,對-之後’以雙條光纜的形式穿過該至少—第一中空其 柱進出該接線殼。故而’本發明之紐接祕,以單—結= ’ _〜絲_蝴丨齡祕續光纜,選 機械式防水部件或雜收絲或鏡f進行財處理,並 鐵線進出端面結構_體化、魏全面化之設計,大幅 ^ 鐵接線殼巾途引接分歧接續級防水處财式_紐, 施工作業的靈活性,降低雷 曰力【 中錯#成本’徹底解決了現有技術 、”接線敢巾途引接分歧接續缝防水處理方式選擇性受限、 施工不便、導致業者維運成本增加等諸多問題。 再者,本發明之光難線殼,更包括該至少—第—中空管柱 201202774 —纜線進出端面的至少—連接部。由於光、纜接線 越制於收容及設置,而其_進出端面親進出 接ΪΪΓ」是Γ越便利於_的接續及分線作業,而一只光,纜 到—辦賴接分歧接續_進出口,分歧光 則是愈多愈佳(通常為四個)’為了讓面積有限的纜線進 中、Milt夠被充分彻’賴本發明之接_麟進出端面供 出的第—中空管柱及供中途引接分歧接 ίΐϊ 接部可以共用同一倾線進出口,因此,該第- 二s柱可以是形成於該纜線進出端面的連接部上。 4 本發明之光縣線殼’更包減接線殼有至少一機械 二#卩彳且該至機械式防水部件可與即將以雙條光緵的 =2^至少—連接部而進人該接線殼進行中途引接分歧接續 相結合’形成—第—防水結構,且該至少—機械式防 太私a可,、該至連接部相結合,形成—第二防水結構。故而 2明之接線殼,可以_機械式防水部件,完成中途引接分歧 接、、、只光纜與纜線進出端面間的防水處理作業。 自堅本發明之域接線殼,更包括職械式防水部件係選 自緊束外④、迫緊獅、具雜和可紐的防水膠物、彈性體防 水襯墊及其組合所組成之群組的其中之一。 管及至少一分歧夾,且該至少一 f者’本發明之統接線殼,更包括該接線财至少一熱縮 熱縮管可於加熱收縮後包覆於該 it 线Ϊ的外部同時也包覆於以雙條光_形式穿過 L Γ U空餘進人該接線殼進行巾途引接分歧接續作孝 =接於該第—中空管柱外端的-部份練,形成—第三防水ΐ ^故而本發明之接線殼,可以採用具分歧夾配件的熱縮管,完 成中途引接分歧接續光_齡進出端面間的防水處理作業 201202774 採用分歧㈣目的’是在熱縮管未受熱收縮之前,將分歧夹置於 熱縮管即將㈣包覆的雙條錢之間,令熱鮮1 雛能包 覆該雙條光纜。 、 再者’本發明之光鐵接線殼,更包括該接線殼有至少一彈 收縮管及至少— 真縫防水輔师置,城至少—填縫防水輔 置可與即將以雙條光_形式穿過該至少—第—中空管柱二 該接線殼進行中途引接分歧接續作業的规相結合,形成 ^水結構’且該至少-雜收縮管可供收束包該至少一第一 中空管柱的外部同時也包覆銜接於該第—中空管柱外端的至少一 填縫防水辅助裝置,形成-第五防水結構。故而本發明之接線殼, I以採用具填縫防水輔助I置配件的彈性收縮管,完成中途引接 j接續光纜與纜線進出端面間的防水處理作業。彈性收縮管係 =,=Elongation)及高抗拉強度(Tensile stren_ 彈 性體製成’彈性收縮管内襯有可以條帶狀抽除的塑 Γ 2 A其孔徑,雜收縮管防水方式,係將被撐大 2的彈性收縮管的-部份套於第管柱的外部,而另一部 後二彈性⑽#恢復成接近㈣大絲之前輸柯徑,而該較 ,藉由 =ρί填;防水輔助裝置’形成-緊束的::構= 中线柱銜接於第—㈣管柱外端的填縫防水輔 =裝,3抽除_於彈性收縮管塑膠驗管狀物之 、…议〜則的竿父小孔徑,而 强、於一中空管的外徑及填縫防水輔助裝置的外徑,藉由 =縮管的徑向收縮力,彈性收縮管即緊密包覆於第一 續的光纜 2縫防水輔助裝置的目的’係因為中途引接分歧接 =不__树的情料,叫 =規=端_進^進人接咖 == 、'…、 条域之間的縫隙,必須藉由填縫防水辅助裝置先 201202774 l成彈丨生收&管收縮之後,沒有其無法緊密包覆的凹陷縫隙之 類搞圓形柱體或圓形柱體的第四防水結構。 再者,本發明之光纜接線殼,更包括該至少一填縫防水輔助 裝置係選自纜線緊束外殼、迫緊螺絲、具黏性和可塑性的防水膠 物、彈性體防水襯墊及其組合所組成之群組的其中之一。 ,再者,本發明之光纜接線殼,其中該至少一纜線進出端面還 形成有至少一第二中空管柱可供即將進行直線接續及分歧接續作 業的光纜穿過,進出該接線殼。 • 再者,本發明之光纜接線殼,其中該至少一第二中空管柱可 採用選自彈做縮管及鱗管二者之-收束包覆於該至少一第二 中空管柱的外部同時也包覆於穿過該第二中空管柱進人該接線殼 而銜接於該第二中空管柱外端的—部份纜線,形成-防水結構。 由於直,接續及分歧接續作業的光繞,係在截斷域芯線的情形 下’。以單條光_形式穿過第二中空管柱進出該接線殼,所以採 用彈性收縮管進行光纜防水處理時,無須使用填縫防水輔助裝 置’而採用熱縮管進行紐防水處辦,亦無驗时歧失。 • ★一再2,本發明之光纜接線殼,更包括該接線殼内部有至少— 第一固定裝置,而該至少—第―固定裝置係以包括緊束環、緊束 組合所組成之群組的其中之一,將引進該接線 双之繞線外被固疋於該至少―第―固^裝置。由於連接 _外的纜線’常因外力及慣性的影響而被搖動或 防水絲、,故而本發明之光纜接線殼: ° 疋裝置供固疋引進的規線外被,以避免引接於 ==规’遭綱延伸於接線殼外部魏線被牵 動之和響_動,從而提升及確保_的傳輸品質及防水效果。 再者,本發明之光纜接線殼’更包括該接線殼内部有至少— 201202774 光纖收容盤支架,而該至少一纜線進出端面之至少—第一中★管 柱的位置,係設置於光纜經由至少一第一中空管杈進入該接^二 後的直線行程,不會被該至少一光纖收容盤支架上的光纖收容$ 所阻擋和干涉的位置。故而,可以避免内部空間不大的光纜接線 殼,主幹光纜於進入接線殼後,遭受光纖收容盤的阻擋和干涉而 必須立即彎曲,導致傳輸品質不良的問題,從而提升了纜線二傳 輸品質並使通信纜線接續分線殼得以更小型化。 再者’本發明之光纜接線殼,更包括該至少—纜線進出端面 =至少一第二中空管柱的位置,係設置於光纜經由至少—第二中 空管柱進人該接線殼後的直線行程,不會被該至少_光纖收^盤 支架上的光纖收容盤所阻擋和干涉的位置。 =固定褒置可以配合該至少—_進出端面供主幹光纜穿過之 出:位置的不同,而將該至少一光纖收容盤支架固定於不 ^由於主幹光纜其於光纖收容盤支架相關的固定、收容 =業及_零組件驗置多有既定賴式及技術要求, 口口的位置不適宜任意變換’惟必要時,變換主光徵進出 再者,本發明之光纜接線殼,更包括該接線殼内部有至少一 第二固找置’驗固定至少-光敵容盤核,且該至少一第 配置 _ 知到最佳的效益;故而本發明之紐接線殼喊 屮供主幹光境於必要時,可以選擇'纜線進出端面^不 固定、計σ’進入接線殼’而其於該光纖收容盤支架相關的 _拖配置科额可健既定的技捕式作業,以降低 之境線°所造成的不利影響’從而提升魏進出端面 、’、進出口的應用㈣並確保相關作業的技術品質。 固,本發明之光麵紐,更包括該接線殼有至少-第: 疋裳置’且該至少-第三固定裝置有至少-第-固定部連= 201202774 = 該第一固定部係以螺接的方式將該 第二固疋裝置□疋於至少―境線進出端面之至少—連接部的二口 SSI束第二固定部係於該接線殼外部採用選 的元件:將穿過該至少4二;;=成之群組的其中之- 歸二者之-進行防水處理的光叫固定於== 固疋裝置。由於連接於域接線殼物覽線,常因外力及慣性的 效進出端面的_防 置 以 j該第三固定裝置供固定銜接於防二==設以 效果 ==::端簡防水結構,遭受光二 ^丁接於防杜構外端之光動或拉動而影響防水結構的防水 再=本:明之光魏線殼’更包_至少一第三固定裝置 丄V-第-固定部係以包括選自螺接、β接、 裱、緊束帶所組成之群組的1中 ,、/、緊束 進出㈣h方賴定於該至少一麗線 緊甘 第二固定部係以包括緊束環、緊束帶、 及其組合所組成之群_射之—, -第二固定裝置。引進該接線的外被固定於該至少 ^这接•包括··-猶進出端面; 裏 包覆該被對ΐΪ 及—財裝置,用以 助h # 射,跡水裝置顧自由—填縫防水辅 、置熱縮式官及一彈性收縮管所組成的群組其中. 内線對H切概連接部進人該接線殼 之一 201202774 *本發明另提出-種適於中途引接分歧接續作業的總線接線 殼’該接線殼包括:-徵線進出端面;一連接部,配置於該鏡線 進出端面上;以及-填縫防水輔助裝置,連接於該連接部,並用 以包覆經麟彎之-_,職—第—防水結構,該第—防水結 構連接於該連接部。 【實施方式】 *本案所提出之「-種適於中途引接分歧接續作業的光繞接線 殼」將可由以下的實_制而制充分瞭解,使得熟習本技藝 之人士可以據以完成之’細本案之實施並非可由下列實施例而 被限制其實施龍,熟習本技藝之人士仍可依據除既揭露之實施 例的精神推演出其他實施例,該等實施例皆當屬於本發明之範圍。 實施例1 請參閱第1圖(A)至第1圖⑼,為本案實施例】所使用之一種 適於中途引接分歧接續作業的光繞接線殼i之示意圖,其有一纜 ,進出端面2,該麟進出端面2形成有—連接部3及—第一中空 &柱4_’該第一中空管柱4係一體成形於該連接部3的内緣,而即 订中途引接分歧接續作業的光親5,可在不截斷光纖芯線6擊 的情形下’對彎之後,以雙條光_形式穿過該第-中空管柱4 及該連接部3而進入該接線殼1内(第1圖⑷)。而以本發明實施 例1、進行中途引接分歧接續光纜5的防水處理時,可以選擇採用 機械式防水部件7或雜收縮管8或論管9進行巾途引接分歧 接續,5 _水處理(第丨圖⑻),其實施方式如下述。 八π參閱第2 ® ’為本案實施例1制熱縮管9進行中途引接 :支接、々作業紐5的防水處理之示意圖,當採用熱縮管9進行 中途引接分歧接續作業光纜5的防水處理時,除了須使用熱縮管9 12 201202774 之外’還須使用分歧失901 ;而將套置於該第一中空管柱4及穿過 中空管柱4進人魏殼1之巾途引接分歧接續域5上的敎 縮管9及分歧爽901力口熱之後,可令熱縮管9緊密收縮包覆於^ 第-中空管柱4的外部同時也包覆銜接於第一中空管柱端= 雙條光_形式穿過該第—巾蜂柱4而進人該接線殼丨進 途引接分歧接續作業的-部份光镜5,形成一第三防水結構 成該中途引接分歧接續規5與職線進出端面2 _防水處= 作業。 請參閱第3 _至第3 _,為本案實施例丨採用機械式防 水縣7進—行中途引接分歧接續作業光規5的防水處理之示音 圖,而本案實關1之機械式防水部件7,包括二片緊思 迫緊螺絲702、具黏性和可塑性的防水膠帶7〇3及彈賴1 斯(第3圖(A));當本案實施例丨採用機械式防水部件 引接分歧接續作業紐5的防水處理時 $中途 =之下,將-體成賴軸端面之 工d 4鎌(第3圖⑽,並將具黏性和可塑性的防水膠帶观 ‘,看设於-片緊束外殼7〇1具收容雙條光境凹槽的一側,且以 =可塑性的防水膠帶7〇3緊密包捲纏繞於即將在 纖^ 線6的情形下對f之後讀條光_形切過該連接部 接線殼1進行巾途服分歧接續作業的域 …、" 與該緊束外殼701相結合的部位,再用替 °、又'条光纜準備 70! « , " 水襯塾7〇4置於該連接部3準備與該緊束外殼加相體防 再將準備進行中途引接分歧作業的域5穿 二°的部位’ 接線殼1 N,再將該緊束外殼7〇1盘 3進入該 合,形成-緊密的第二防水結完^ 13 201202774 分歧接續规5與該纜線進出端面2間的防水處理作業。 其/,1參1第4圖(A)至第4圖(C)’為本案實施例1採用彈性收縮 二田? ί!丨接分歧接續作業光纜5的防水處理之示意圖,當 二彈I·級縮8進仃巾糾接分歧_作業纖5的防水處理 不:除連接部3内緣的第—中空管柱4,而須使轉性收縮 :及真縫防水辅助裝置,本f實施例丨之填縫防水輔助裝置, 二括-片+橢_具收容雙條光_槽的緊束殼體剛、迫緊 螺絲802、雙面具黏性和可塑性的防水膠帶8〇3及單面具黏性 ^防水料_ (第4 _);先將雙面具雜和可雜的防水 4 803鋪3又於其中的—片半橢圓形觀緊束殼體具收容雙 條光,’見凹槽#側’並將雙面具黏性和可塑性的防水膠帶⑽纏 2於即將在不麟域魏6的情釘對彎之後以雙條光_形 ’穿過該第-巾空纽4進人該接線殼丨進行巾途引接分歧接續 作業的光瘦5之該雙條光_備與辭麵形緊錢體· 相結合的部位’再用迫緊螺絲8〇2將該二片半橢圓形齡緊束殼 體鎖緊,形成-姻柱形的防水結構,再去除二片半擴圓形 魔線緊束殼體8G1外側接缝處因鎖緊而被擠壓出之多餘殘留的雙 面具黏性和可塑性的防水膠帶8〇3,再用單面具黏性的彈性體防水 膠帶綱纏繞於已形成-橢圓柱形的二片半__線緊束殼體 801的外侧,而該雙條光镜與二片半橢圓形麗線緊束殼體8〇ι間形 成一第四防水結構(第4圖(B));再將該彈性收縮管8套入該已形 成第四防水結構而即將進行巾剌接分歧接續作業而準備以彈性 收縮管8進行防水處理的賴5 ’顧已職第喷水結構之該光 缓5在不截斷光纖芯線6的情形下對f之後以雙條光境的形式穿 過該第-中空管柱4進入該接線殼】並予固定,再用該彈性收縮 管8收束包覆於該苐-中空管柱4的外部及該第四防水处構未穿 14 201202774 管检4之類觀形柱體,形成一第五防水結構(第4 圖(Q) ’即元成該中途引接分歧接續规5與該鐵 的防水處理作業。 卬%面2間 請f閱第5圖’為本案實施例丨所使用之—種適於 分歧接續健的_殼i之纜線糾端面2示相,^齡 進«面2還形成有六根第二中空管柱1〇可供即將進行直線^ 及分歧接續作業的光繞u穿過而進出該接線殼i,而驾二中二 崎隨鮮8 (也可崎娜_管201202774 VI. Description of the invention: [Technical field to which the invention pertains]. Ben, Ming Department of a light-mirror wiring shell suitable for mid-way divergence and subsequent operations, especially - Guanshan? The cable connection shell of the cable-connecting end of the water-repellent treatment method of the diverging towel is connected to the structure of the cable entrance and exit end, and the function is integrated. The Zhongtian k has been upgraded to the light and the cable is waterproof. The selectivity of the method increases the flexibility of the operation of the I, reduces the cost of the telecom operators, and solves the problem of limited selection of the waterproofing treatment method for the light-shielding waterproofing method. This has led to many problems such as the increase in the cost of transportation for telecom operators. [Prior Art] In the technical field of telecommunications, cable TV, and monitoring, each of the "technical fields" has used the information of the voice, data, and video, and transmitted the message to various places. _Continue and separate lines in the cable connector housing. The light and wire shells are provided with _ in and out end faces, and the ingress and egress end faces are provided with a pro-in and out Π ‘ for the connection and the entry of the terminal housing (10) for the splicing and branching operations. In the past, the regulations of the 'Daijian towel' were used for the trunk line, and the light_wire shells were connected by a straight line (the thief _ light _ other - the same core number of fiber optic domain) and the splicing Multi-core optical _ optical cable, shouting a few fewer core fiber divergent light _ continuous operation); today's communication network has moved toward the era of optical fiber to the FTTH of the FTTH, a large number of Lai, must cut the wire The shell is distributed to the silk equipment of the user side; therefore, in addition to the complicated straight-line connection and the divergent connection, the money connection is connected to the squad, and the main operation of the core fiber is In the middle of the view _, when encountering the use of fiber optic services, the - light _ wire shell, the small part has not yet made (four) fiber, the disk is another splicing after the continuation of 'lead to new users, and most of the main light The 201202774 fiber optic core wire system is an optical fiber core that has been made by other customers and cannot be cut off. In the prior art, the optical winding terminal shell, an iron wire inlet and outlet end face can be used for the waterproof treatment of the diverging operation optical cable entering the terminal housing in the middle, and there are mechanical and heat-shrinking type, and the towel is mechanically waterproofed. · The structure of the entrance and exit end faces is divided into single pieces. Two-piece and multi-piece, and the heat-shrinkable water-repellent treatment of the end face is monolithic; the two-piece and multi-piece cable with mechanical waterproof treatment is in and out of the end surface. The _ entry and exit end face is complicated, the cost is high, the assembly is cumbersome, and the ratio of inadvertently affecting the waterproof performance due to the construction is also higher than that of the single piece type; and the mechanically waterproofing single piece type wire entering and exiting the end face, In terms of the cost of the thin-and-light-in and out-out of the diverging and thinning in the middle, it is almost the same as the cost of the monolithic lining in and out of the heat-shrinkable water-repellent treatment; therefore, the use of a single-cable-in and out-out end is provided for intermediate connection. It is better to choose a field wiring shell that is mechanically or heat-shrinkable. In the prior art, the above-mentioned single-in-one-in and out-out end faces are used for the intermediate connection of the fiber-optic terminal shells which are mechanically or thermally shrink-treated, and the medium-mechanical and water-treated practiced wiring shells. The advantage is that the construction does not need to be fire-proof, the heat-shrinking type is higher, the waterproof performance is better (the construction is rigorous), and the underground light inspection is suitable for the hole in the long-term water accumulation, and the shortcoming is the ratio of the matching materials processed by the team_ There are many matching parts and material cost ratio-(4) heat-shrinking type; the heat- and water-repellent light-only wiring shell's advantages are fewer than the mechanical type, and the general mechanical type is low. It is necessary for the construction to be hot, the construction quality is difficult to be consistent, and the light is easy to light. 'If the rest is moving, the water is waterproof.' It is more suitable for overhead and wall hanging. It is not suitable for underground light inspection in the hole of people who have accumulated water for many years. Therefore, in the case of the innocent telecom industry, it can be used in the frame and wall mount (four), _ to; waterproof _ light _ wire shell to save costs, secret cable and * should be fired in the 201202774 environment should be adopted Heat-shrinkable waterproofing of the light_wire shell with miscellaneous quality and All 0 + So, if you can provide a kind of miscellaneous towel, the cable connection shell of the divergent connection will be connected to the end of the cable. The single-chip-in and out-out end faces can be used either mechanically or by heat-shrinking. The waterproof treatment will inevitably solve the many costs and problems caused by the cable entering and exiting the end face with different functions. Although we have overcome the problem of the prior art, we have invented the components that are waterproof in a fine manner. And a plastic waterproof rubber or elastomer waterproof gasket, which is screwed to the end surface of the monolithic winding which is mechanically waterproofed; however, the disadvantage still includes the structure of the cable entering and exiting the end surface and thus losing the integration (the aforementioned monolithic) advantages, and increase the complexity of the parts 'and increase the process of connecting by screwing, and increase the cost of materials, etc. Therefore, if the optical cable terminal shell of the prior art can be improved, In the middle of the diversion, the lack of light _ waterproof treatment function, high cost, construction quality is not - and construction safety and many other defects, not only can improve the construction quality and Safety of work can greatly reduce the cost of construction and maintenance of the industry. • For the sake of the job, the inventor of this case, based on the lack of knowledge in the prior art, is carefully researched and explored, and has a hard-working In the spirit, I finally conceived the "communication cable with the connection part and the hollow pipe string and the connected part to connect the splitter case" in the present case. The following is a brief description of the case. SUMMARY OF THE INVENTION In order to overcome the deficiencies of the prior art, an object of the present invention is to provide a fiber optic cable terminal housing suitable for midway diverging and splicing operations, the terminal housing includes at least one cable entry and exit end face, and the at least one cable entry and exit end face is formed. At least one connecting portion is prepared for waterproofing with a mechanical waterproof member in the middle of the diverging connection operation. 201202774, in the case of breaking the optical fiber core wire, after the material is passed through the at least one connection in the form of double light. The terminal enters and exits the terminal housing; and the at least one-at-the-seat tube string is available for the mid-way to lead to the divergence of the two divisions. The two imitations are selected from the 夹f with the differential clamp fittings and the Wei waterproof auxiliary equipment. The elastic shrinkage tube - the system for waterproofing, in the absence of a cross-section: a joint for the upcoming midway lead divergence of the joint / mechanical waterproof parts for waterproofing _ domain, without intercepting the fiber: :Friend's love Xuan 'after f, in the form of double light _ 戦 at least one connected core, in the case of 'after the bend, through the double gauge form through the at least one = Empty pipe string enters and exits the terminal block. Therefore, the hair _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ . In the prior art, the light-difficult wire shell has a single-structure (-piece) fiber connection, or a single structure (one-piece) cable entry and exit end face, and only an eight-hollow residual supply is set to be diverted in the middle. a field in which the heat-shrinkable tube of the accessory is prepared for subsequent operation, and in the case where the first core is not cut off, the pair is then passed through the at least the first hollow column in the form of a double-fiber cable. shell. Therefore, the key to the invention is to use a single-knot = ' _ ~ silk _ butterfly age-long cable, select mechanical waterproof parts or miscellaneous wire or mirror f for financial processing, and the wire into and out of the end structure _ body The design of the comprehensive and Wei-wide, large-scale ^ iron wiring shell towel approach divergent connection level waterproof section financial _ 纽, construction work flexibility, reduce Thunder force [中错#cost' completely solved the existing technology," wiring Dare to cover the different joints, the waterproof treatment method is limited, the construction is inconvenient, and the cost of the maintenance of the operator is increased. Further, the light-difficult shell of the present invention further includes the at least the first hollow column 201202774—At least the connection part of the cable entry and exit end. Because the optical and cable connections are more suitable for receiving and setting, and the _ entrance and exit end face is in and out, it is convenient for the connection and branching operation of _, and one Light, cable to - the difference between the continuation _ import and export, the divergent light is more and better (usually four) 'In order to allow the limited area of the cable to enter, Milt is enough to fully rely on the invention _ Lin in and out of the end of the supply of the first - middle The empty pipe string and the intermediate connection may be connected to each other. The joint may share the same inclined wire inlet and outlet. Therefore, the first and second s columns may be formed on the connecting portion of the cable entrance and exit end faces. 4 The light county wire shell of the present invention has at least one mechanical two #卩彳, and the mechanical waterproof component can enter the wiring with the connecting portion of the pair of light beams. The shell is connected to the diverging connection in combination with the 'forming-first-waterproof structure, and the at least-mechanical anti-private one can be combined with the connecting portion to form a second waterproof structure. Therefore, the wiring shell of the 2 Ming can be made of mechanical waterproof parts, and the waterproofing operation between the optical fiber cable and the cable entry and exit end faces can be completed. The invention relates to the domain wiring shell of the invention, and further comprises a professional waterproofing component selected from the group consisting of a tight outer layer 4, a tight lion, a waterproof glue with a miscellaneous and a neon, an elastic waterproof pad and a combination thereof. One of the groups. a tube and at least one of the diverging clips, and the at least one of the 'integrated wiring shells of the present invention, further comprising at least one heat-shrinkable heat-shrinkable tube that can be wrapped on the outside of the IT coil after heating and shrinking Covered in a double light _ form through the L Γ U vacant into the terminal shell to carry out the divergence of the splicing of the splicing splicing = = = connected to the outer section of the first hollow tube column to form a third waterproof ΐ Therefore, the wiring shell of the present invention can be used as a heat-shrinkable tube with a bifurcated clip fitting, and the diverging light is circumscribing in the middle of the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The difference between the two bundles of the heat-shrinkable tube will be wrapped between the two bundles of the heat-shrinkable tube. Furthermore, the light-iron wiring shell of the present invention further includes at least one elastic shrink tube and at least the true seam waterproofing assistant, and at least the water-filling auxiliary device of the present invention can be combined with a double light _ form Passing through at least the first hollow tube column 2, the wiring shell is combined to form a water connection structure in the middle of the connection, and the at least-hetero-shrink tube can be used to receive the at least one first hollow The outer portion of the tubular string also covers at least one joint waterproofing auxiliary device that is coupled to the outer end of the first hollow tubular string to form a fifth waterproof structure. Therefore, the wiring shell of the present invention I uses an elastic shrink tube having a joint waterproofing I-mounting fitting to complete the waterproof processing between the optical fiber cable and the cable entrance and exit end faces. Elastic shrinkage tube system =, = Elongation) and high tensile strength (Tensile stren_ elastomer made of 'elastic shrinkable tube lined with plastic strips that can be stripped out 2 A's aperture, miscellaneous shrink tube waterproof way, the system will be The elastic contraction tube of the large 2 is partially sleeved on the outside of the tubular string, and the other rear second elastic (10)# is restored to be close to the (four) large filament before the diameter of the cord, and the comparison is filled by =ρί; Auxiliary device 'formed - tight bundle:: structure = center line is connected to the outer joint of the first - (four) pipe column waterproofing auxiliary = installed, 3 pumping _ in the elastic shrink tube plastic inspection tube, ... The parent has a small aperture, and is strong, the outer diameter of a hollow tube and the outer diameter of the caulking waterproof auxiliary device. By the radial contraction force of the constricted tube, the elastic contraction tube is tightly wrapped around the first continuous optical cable 2 The purpose of the seam waterproofing aid is because the gap between the strips and the strips must be passed by the difference between the strips and the strips. The caulking waterproof auxiliary device first 201202774 l into a bomb 丨 收 & tube shrinkage, there is no recess gap that can not be tightly covered The fourth waterproof structure of the circular cylinder or the circular cylinder. The cable connector housing of the present invention further includes the at least one sealing waterproof auxiliary device selected from the cable tight casing and the tightening screw. And one of a group consisting of a viscous and plastic waterproof rubber, an elastomer waterproof gasket, and a combination thereof. Furthermore, the optical cable terminal housing of the present invention, wherein the at least one cable entry and exit end faces are further formed There is at least one second hollow pipe string for the cable that is about to be linearly connected and diverged to pass through, and enters and exits the terminal casing. Further, the cable terminal casing of the present invention, wherein the at least one second hollow pipe string The outer casing of the at least one second hollow tubular string may be coated with a bundle selected from the elastic tube and the scale tube, and also wrapped around the second hollow tubular string to enter the terminal shell. And a part of the cable connected to the outer end of the second hollow pipe string forms a waterproof structure. The light is wound in the straight, continuous and divergent operation, in the case of the cut-off core wire. Passing through the second hollow column to enter and exit the terminal housing When using the elastic shrink tube for waterproofing of the cable, it is not necessary to use the caulking waterproof auxiliary device', and the heat-shrinkable tube is used for the waterproofing operation, and there is no time difference. • ★ repeatedly, the optical cable terminal housing of the present invention includes The terminal housing has at least a first fixing device, and the at least one first fixing device is one of a group consisting of a tight beam ring and a tight beam combination, and the wire winding of the wire is introduced Solidified in the at least "first" device. Since the cable outside the connection is often shaken or waterproofed by the influence of external force and inertia, the cable terminal of the present invention: ° 疋 device for solids introduction The rule of the line is to avoid the connection of the == gauge's extension to the outer wire of the terminal shell, which is affected by the sound and vibration, thereby improving and ensuring the transmission quality and waterproof effect. Furthermore, the optical cable terminal housing of the present invention further includes at least a 201202774 optical fiber receiving disk bracket inside the wiring housing, and at least one of the at least one cable entry and exit end faces is disposed at the position of the optical cable via the optical cable. The linear stroke of the at least one first hollow tube into the connector is not blocked or interfered by the fiber receiving device on the at least one fiber receiving disk holder. Therefore, it is possible to avoid the cable connector shell with a small internal space. After entering the terminal housing, the trunk cable has to be blocked and interfered by the fiber receiving tray and must be bent immediately, resulting in poor transmission quality, thereby improving the transmission quality of the cable. The communication cable is connected to the splitter case to be further miniaturized. Furthermore, the cable connector housing of the present invention further includes the at least one cable entry and exit end surface = at least one second hollow tubular string position, which is disposed after the optical cable enters the terminal housing via at least the second hollow tubular string The linear stroke is not blocked or interfered by the fiber receiving tray on the at least one of the optical disk holders. The fixed device can cooperate with the at least one-out-out end face for the trunk cable to pass through: the position is different, and the at least one fiber-receiving disk bracket is fixed to the fiber-optic receiving disk bracket. Containment = industry and _ component inspections have a number of established and technical requirements, the position of the mouth is not suitable for arbitrary conversion 'only if necessary, change the main light sign in and out, the cable terminal shell of the present invention, including the wiring The inside of the shell has at least one second solid-finished 'fixed at least-light enemy pod core, and the at least one first configuration _ knows the best benefit; therefore, the button shell of the present invention shouts for the main light environment At the same time, you can choose 'cable in and out of the end face ^ not fixed, count σ ' into the wiring shell' and its associated with the fiber storage tray bracket _ drag configuration amount can be established in the technical capture operation to reduce the horizon The adverse effects caused by 'increasing Wei Jin's end face, ', import and export applications (4) and ensuring the technical quality of related operations. The light surface of the present invention further includes the terminal housing having at least - the first: the first mounting portion is coupled with the at least - the third fixing means = 201202774 = the first fixed portion is snail Connecting the second fixing device to at least the at least one of the ingress and egress end faces of the boundary line - the second SSI beam of the connecting portion is attached to the second fixing portion of the connecting case, and the selected component is adopted: the at least 4 ;; = Among them - the two - the waterproofing of the light is fixed at == solid-state device. Because it is connected to the field wiring shell object viewing line, often due to the external force and inertia effect, the end face is _ anti-set to j. The third fixing device is fixedly connected to the anti-two == set effect ==:: end-simplified waterproof structure, The light is affected by the light or the pulling of the outer surface of the anti-duplex to affect the waterproof structure of the waterproof structure. = This: The light of the light wire shell of the Ming dynasty _ at least one third fixed device 丄 V-the first fixed part to include a group selected from the group consisting of a screw joint, a β joint, a 裱, and a tight band, and/or a tight bundle in and out (4) h is fixed to the at least one lining, and the second fixed portion is included to include a tight loop a group consisting of a tight band, and a combination thereof - a second fixture. The outer part of the introduction of the wiring is fixed to the at least the connection, including the front end; the cover is covered with the opposite and the financial device to assist the h #射, the water device is free - the joint waterproof A group consisting of a heat-shrinking officer and an elastic shrink tube. The inner wire pair H-cut joint portion enters one of the terminal shells 201202774 * The present invention further proposes a bus suitable for midway connection of different connection operations The wiring shell 'the wiring shell includes: - a wire entrance and exit end face; a connecting portion disposed on the mirror wire inlet and outlet end face; and - a joint waterproofing auxiliary device connected to the connecting portion and used to cover the collar - _, job-first-waterproof structure, the first waterproof structure is connected to the connecting portion. [Embodiment] * The "light-wound wiring case suitable for mid-way divergence and subsequent connection" proposed in this case will be fully understood by the following system, so that those skilled in the art can complete the The embodiments of the present invention are not limited by the following examples, and those skilled in the art can still practice other embodiments in accordance with the spirit of the embodiments disclosed herein, and such embodiments are within the scope of the present invention. Embodiment 1 Please refer to FIG. 1(A) to FIG. 1(9), which is a schematic diagram of a light-wound wiring shell i suitable for mid-way divergence and connection operation, which has a cable, and enters and exits the end face 2, which is used in the embodiment of the present invention. The lining in and out end face 2 is formed with a connecting portion 3 and a first hollow & column 4_'. The first hollow tubular string 4 is integrally formed on the inner edge of the connecting portion 3, and is intended to be connected to the downstream connection. The light parent 5 can enter the terminal housing 1 through the first hollow tube column 4 and the connecting portion 3 in the form of double light rays after the bending of the optical fiber core 6 is not cut off. 1 picture (4)). In the first embodiment of the present invention, when the water-repellent treatment of the differentially-connected optical cable 5 is carried out in the middle, the mechanical waterproof member 7 or the hybrid shrink tube 8 or the tube 9 can be selected to carry out the differential connection, 5 _ water treatment (the first Figure (8)), the embodiment of which is as follows. Eight π refers to the second ® 'The heat-shrinkable tube 9 made in the first embodiment of the present invention is connected in the middle: the waterproof treatment of the support and the smashing operation 5, when the heat-shrinkable tube 9 is used to carry out the waterproofing of the differentially-connected optical cable 5 In the treatment, in addition to the use of heat-shrinkable tubes 9 12 201202774, 'different 901 must be used; and the sleeve is placed on the first hollow column 4 and through the hollow tube column 4 into the shell of the Wei shell 1 After the diverging tube 9 and the divergent cooling 901 force heat on the branching field 5 are connected, the heat shrinkable tube 9 can be tightly shrunk and coated on the outside of the first hollow tube column 4 and also coated on the first The hollow tube column end = two strips of light _ form through the smear-toothed bee column 4 and enter the wiring shell to guide the divergent operation - part of the light mirror 5 to form a third waterproof structure into the middle Lead the divergence splicing rule 5 and the line of entry and exit 2 _ waterproof = work. Please refer to the 3rd to 3rd _. For the example of this case, use the mechanical waterproof county 7-in-line to guide the water-proof treatment of the divergent operation light gauge 5, and the mechanical waterproof parts of this case 7, including two pieces of tight-fitting screws 702, viscous and plastic waterproof tape 7 〇 3 and 赖 1 (Figure 3 (A)); when the case of this case uses mechanical waterproof parts to lead to different connections When the waterproof processing of the work button 5 is under midway========================================================================================== The bundle casing 7〇1 has a side for accommodating the double-groove grooves, and is tightly wrapped and wound with a plastic waterproof tape 7〇3, which is about to be read in the case of the fiber 6 Through the connection part, the wiring case 1 performs the field of the towel to serve the different connection operations, and the part that is combined with the tight-fitting outer casing 701, and then prepares 70! « , " water lining 7〇4 is placed in the connecting portion 3 to be prepared in conjunction with the tight-fitting outer casing to prevent the field 5 from being diverted to work in the middle. The part 'the wiring case 1 N, and then the tight-fitting outer casing 7〇1 disk 3 enters the joint, forming a tight second waterproof joint ^ 13 201202774 The differential connection between the differential connection 5 and the cable entry and exit end 2 The operation of the water-repellent treatment of the optical fiber cable 5 of the first embodiment (A) to the fourth figure (C) of the present embodiment is the elastic shrinkage of the second embodiment of the present invention. The bomb is I-staged and the 8th indented towel is used to correct the difference. The waterproof treatment of the working fiber 5 is not: except for the first hollow column 4 of the inner edge of the connecting portion 3, the rotation shrinkage must be made: and the genuine seam waterproofing auxiliary device, The fracturing waterproof auxiliary device of the f embodiment of the present invention, the two-piece piece + the ellipse _ the tight-fitting shell of the double-light _ trough, the tightening screw 802, the double-mask adhesive and the plastic waterproof tape 8〇 3 and single mask adhesive ^ waterproof material _ (4th _); first double mask and miscellaneous waterproof 4 803 shop 3 - in which - a semi-elliptical view of the tight beam housing with double light , 'See the groove # side' and wrap the double-mask viscous and plastic waterproof tape (10) in the 2nd light _ shape 'to pass through the first towel air 4 enter the wiring shell 丨 巾 巾 巾 巾 分歧 分歧 分歧 分歧 分歧 分歧 分歧 分歧 分歧 分歧 分歧 分歧 分歧 分歧 分歧 分歧 接 接 接 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The semi-elliptical tight-fitting shell is locked to form a waterproof structure of the marriage-like column shape, and then the excess residue which is squeezed out due to the locking at the outer joint of the two-piece semi-expanded round magical shell 8G1 is removed. The double-mask adhesive and plastic waterproof tape 8〇3, and then wrapped with a single-mask viscous elastomer waterproof tape, is wound on the outer side of the two-and-a-half __ wire-tight shell 801 which has been formed into an elliptical cylinder. The double light mirror and the two semi-elliptical ray lines are formed in a tightly packed housing 8〇 to form a fourth waterproof structure (Fig. 4(B)); and the elastic shrinkable tube 8 is inserted into the formed first The waterproof structure of the four water-repellent structures and the preparation of the water-repellent treatment by the elastic shrink tube 8 is to be carried out by the elastic shrink tube 8 . Passing through the first hollow tube column 4 into the terminal housing in the form of a double-gloss environment and fixing it, and then covering and covering the elastic shrink tube 8 The outer portion of the 苐- hollow column 4 and the fourth waterproof structure are not worn by the observation cylinder such as the 201202774 tube inspection 4, forming a fifth waterproof structure (Fig. 4 (Q)' The divergence of the splicing rule 5 and the waterproofing operation of the iron are introduced.卬%面2, please read the 5th figure, which is used in the embodiment of this case, which is suitable for the continuation of the _ shell i cable rectification end 2, and the age of the The second hollow column 1〇 allows the light to be passed through the straight line ^ and the branching operation to pass through the terminal housing i, and the second in the second is the second.
覆於该第—中空錄1G的外部同時也包覆於穿過該第二" ,入該接線殼而銜接於該第二中空管柱外端的—部份觀= 成一防水結構(第5圖)。而該第二中空管柱1G及觀u的外徑較 細小或刮傷時’可以採用單面具黏性的彈性體防水膠帶_纏繞 以擴大其特至適於該㈣f 8收束包覆时的尺寸及填補 刮痕。 、 請參閱第6圖,為本案實施例i所使用之一種適於中途引接 ^歧接續作業的光雜線殼i内部之示意圖,其接線殼i内部還 =置有第i定裝置12’而該f—固定|置12係以不_緊束環 ,將引進該接線殼之光㈣外被固定於該第—固定裝置12。 請參閱第7圖,為本案實施例i所使用之一種適於中途引接 ^歧接續健的紐接線殼i内部之示意圖,其接線殼丨内部還 叹置有光纖收容盤核14,而纖線進出端面2供中途引接分歧 接續之主幹规5穿過㈣—中空管柱4及供直線接續主幹紐 501穿過之第一中工纽1〇的位置’係設置於主幹光規$、训 進入該接驗丨後的錢行程,骑被該先雜支架14上的 光纖收容盤I5所阻齡干涉的位置;且接線殼〗㈣還設置有第 -固疋裝置16 ’用於m定光纖收容盤支架14,且該第二固定裝置 15 201202774 16可以配合職線進出端面2供主幹光㊆、5㈣過之進 置的不同,而固定該光纖收容盤支架14於不同的位置(第 此外’本案實施例i所使用之一種適於中途引接分歧接續)的 光祕線殼1,其瘦線進出端面2的第二中空管柱1〇供分歧脖 光纜11穿過之進出σ的位置,亦係設置於賴6進人該接1 後的直線行程’不會被該光敵容盤支架14上的賴收容盤又】 所阻播和干涉的位置(第6圖)。 請參閱第8 ® ’為本㈣齡u所使狀—種適於 續健的规接線殼〗之轉圖,熱縮f 9 ^私歧接續作業光纜5的防水處理時,可以採用 : 裝置π ’於接線殼1的外部,固定穿過第—中空管柱4錢^ 9進行防水處理的光纜,而該第三 二鈿吕 :=方式將該第三固定裝置17固定於觀進出端面2的連接 ir 2〇 =一只螺接固定孔上,而該第二固定部19係以不鏽鋼緊 ^輪,防水結構料的域5外棚定於該第三固定 裝置17上’以避免移動接線殼j時,連接於接線殼” 5被彎曲扭動的影塑,導致兮潑^ ’光緩 鬆脫。 進出端面1 2的熱縮管9防水結構 實施例2 請參閱第9圖’為本案實施例2所使用之 分歧接續作業的光鐵接線殼j ,於中途引接 的連接部3及第-中力紐4 Γ 其線進出端面2形成 置。 巾工&柱4 ’也可以分別獨立形成於不同的位 16 1 〜2的說明’本發明之一種具有連接部及中 2 μ柱及被連接部的通信纜線接續分線殼,克服了現有技射的 201202774 功能不足、成本過高、施工品質不一及施工安全等諸多缺失,不 僅強化了整體功能’更提升了施工品質及施工安全,並且大幅的 降低了相關業者的建設及維運的成本。 本案得由熟悉此技藝之人任施匠思而為諸般修飾,然皆不脫 如附申請範圍所欲保護者。 【圖式簡單說明】 第1圖(A)〜(B)為本案貫施例1之一種適於中途引接分歧接續 • 作業的光纜接線殼之示意圖,及可以選擇採用機械式防水部件或 彈性收縮管或熱縮管進行中途引接分歧接續光纜的防水處理的示 意圖。 、♦第2圖為本案實施例1之一種適於中途引接分歧接續作業的 光繞接線殼採用熱縮管進行中途引接分歧接續作業光_防水處 理之不意圖。 ,第3圖(A)〜(D)為本案貫施例1之一種適於中途引接分歧接續 作業的光纜接線殼採用機械式防水部件進行中途引接分歧接續作 # 業光繞咐方水處理之示意圖,及其進行防水處理的操作示意圖。 第4圖(A)〜(〇為本案貫施例1之一種適於中途引接分歧接續 作業的光纜接線殼採用彈性收縮管進行中途引接分歧接續作業= 纜的防水處理之示意圖,及其進行防水處理的操作示意圖。 第5圖為本案實施例1之-種適於中途引接分歧接續作業的 光規接線殼之進出端面還形成有六根第二中空管柱採用彈性 收細管進行防水處理之示意圖。 第6圖為本案實施例i之一種適於中途引接分歧接續作業的 光纜接線殼内部設有第一固定裝置之示意圖。 、 第7圖為本案實施例i之一種適於中途引接分歧接續作業的 17 201202774 光纜接線殼内部設有第二固定骏置之示立 第8圖為本案實施例1之一 圖 光雜線殼外部設有S三@ “ 針接分歧接續作業的 、夏《-不意圖。 第9圖為本案實施例2之一籍 夹纜接線嗖1螬飧抱Φ被而从太週於中途引接分歧接續作業的 光祕線4觀進出_的連接部 巾 成於不同的位置之示意圖。 中工s柱刀別獨立形 【主要元件符號說明】 第 1 圖(Α)〜(Β) 1 光纜接線殼 6 2 纜線進出端面 7 3 連接部 8 4 第一中空管柱 9 5 中途引接分歧接續光纜 第2圖 2 纜線進出端面 6 3 連接部 9 4 第一中空管柱 901 5 中途引接分歧接續光纜 光纖芯線 機械式防水部件 彈性收縮管 熱縮管 光纖芯線 熱縮管 分歧失 第3圖(Α)〜(Ε〇 2纜線進出端面 7機械式防水部件 3連接部 701緊束外殼 4 第一中空管柱 702迫緊螺絲 5 中途引接分歧接續光纜703具黏性和可塑性的防水膠帶 6 光纖芯線 704彈性體防水襯墊 第4圖(AHC) 201202774 2 纜線進出端面 3 連接部 4 第一中空管柱 5 中途引接分歧接續光纜 6 光纖芯線 第5圖 2 纜線進出端面 3 連接部 4 第一中空管柱 第6圖 1 光纜接線殼 2 纜線進出端面 4 第一中空管柱 10 第二中空管柱 11 直線及分歧接續光纜 第7圖 1 光纜接線殼 2 纜錶進出端面 3 連接部 4 第一中空管柱 5 中途引接分歧接續光纜 6 光纖芯線 第 8圖 1 光纜接線殼 彈性收縮管 纜線緊束殼體 迫緊螺絲 雙面具黏性和可塑性的防 水膠帶 單面具黏性的彈性體防水 膠帶 彈性收縮管 第二中空管柱 直線及分歧接續光纜 第一固定裝置 不鏽鋼緊束環 光纖收容盤支架 光纖收容盤 第二中空管柱 光纖收容盤支架 光纖收容盤 第二固定裝置 直線接續主幹光纜 第三固定裝置 201202774 2 纜線進出端面 18 3 連接部 19 5 中途引接分歧接續光纜20 9 熱縮管 第9圖 2 纜線進出端面 4 3 連接部 10 第一固定部 第二固定部 不鏽鋼緊束環 第一中空管柱 第二中空管柱The exterior of the first hollow cover 1G is also covered by the second " into the terminal housing and is connected to the outer end of the second hollow tubular string. Figure). When the outer diameter of the second hollow column 1G and the view u is small or scratched, a single-mask adhesive elastomer waterproof tape can be used to wrap around to expand the special shape for the (4) f 8 bundle coating. The size and fill the scratches. Please refer to FIG. 6 , which is a schematic diagram of the interior of the optical hybrid housing i used for the intermediate connection and the connection operation of the present invention. The wiring housing i also has an ith device 12 ′. The f-fixing|setting 12 is fixed to the first fixing device 12 by the light (4) which is introduced into the wiring case. Please refer to FIG. 7 , which is a schematic diagram of the inside of the button housing i used for the intermediate connection of the embodiment of the present invention. The wiring housing 还 also has a fiber receiving disk core 14 and a fiber line. In and out of the end face 2 for the middle of the way to lead the divergence of the main trunk 5 through (four) - the hollow pipe column 4 and the position of the first medium-working slab 1 for the straight-line continuation trunk 501 to pass through is set in the main light gauge $, training Entering the money journey after the inspection, riding the position interfered by the optical fiber receiving tray I5 on the first hybrid bracket 14; and the wiring shell (4) is also provided with the first solid-state device 16' for the m-fixing fiber The disk holder 14 is accommodated, and the second fixing device 15201202774 16 can be used for the difference between the entrance and exit end faces 2 for the main dry light VII, 5 (4), and the fiber accommodating disk holder 14 is fixed at different positions (the other ' The light secret wire shell 1 used in the embodiment i of the present invention is suitable for the middle of the divergent connection, and the second hollow pipe string 1 of the thin wire entering and exiting the end face 2 is for the position of the branch cable 11 to pass through the σ. Also set in the line of the Lai 6 into the person after the line 1 'will not be The position of the light-retaining tray holder 14 on the tray is also blocked and interfered (Fig. 6). Please refer to the diagram of the 8th ''is (4) age u-type of the type of wiring shell suitable for continuous health, heat shrinking f 9 ^ privately connected continuous operation cable 5 waterproof treatment, can be used: 'On the outside of the wiring case 1, fixed to the optical fiber cable through the first hollow column 4, and the third fixing device 17 is fixed to the viewing end face 2 The connection ir 2 〇 = one screw fixing hole, and the second fixing portion 19 is made of a stainless steel tight wheel, and the field 5 of the waterproof structural material is fixed on the third fixing device 17 to avoid moving the wire When the shell j is connected to the terminal housing 5, the shadow is twisted and twisted, causing the smashing of the light. The light-tight structure of the heat-shrinkable tube 9 that enters and exits the end surface 1 2 is as shown in Fig. 9 The bare iron junction housing j used in the second embodiment is connected to the connecting portion 3 and the intermediate-incorporated core 4 中 in the middle thereof. The wire inlet and outlet end faces 2 are formed. The toweler & column 4' can also be independent. Description of the different positions 16 1 to 2 'One of the present invention having a connection portion and a 2 μ column and a connected portion The letter cable is connected to the splitter shell, which overcomes the shortcomings of the existing technical features of 201202774, such as insufficient function, high cost, different construction quality and construction safety. It not only strengthens the overall function, but also improves the construction quality and construction safety. This reduces the cost of construction and maintenance of the relevant industry. This case has been modified by people who are familiar with this skill, but it is not to be removed as required by the scope of application. [Simplified description] 1 (A) to (B) are schematic diagrams of a fiber optic cable connection housing suitable for midway divergence and connection operation in the first embodiment of the present invention, and may be selected by mechanical waterproof components or elastic shrink tubes or heat shrink tubes. Schematic diagram of the waterproof treatment of the diverging and connecting optical cable. ♦ Figure 2 is a light-wound wiring shell suitable for the mid-way divergence and connection operation of the first embodiment of the present invention, which adopts a heat-shrinkable tube to carry out the divergent connection operation light _ waterproof treatment Intention, Fig. 3 (A) ~ (D) is a kind of optical cable connection shell suitable for midway divergence and connection operation of the first embodiment of the present invention, which is mechanically waterproofed. In the middle of the road, the divergence is continued as a schematic diagram of the process of processing the glaze around the water, and the operation diagram of the water-repellent treatment. Figure 4 (A) ~ (〇 is a suitable one for the case of the divergent connection in the middle of the case The optical cable terminal shell adopts an elastic shrinking tube to carry out the divergent connection operation in the middle of the connection = the schematic diagram of the waterproof treatment of the cable, and the operation diagram of the waterproof processing. The fifth figure is the light suitable for the middle and the divergent connection operation in the first embodiment of the present invention. The inlet and outlet end faces of the gauge terminal shell are also formed with six second hollow tubular columns which are treated with an elastic shrink tube for waterproof treatment. Fig. 6 is a schematic diagram of an optical cable terminal housing suitable for midway diversion and connection operation in the embodiment i of the present invention. A schematic diagram of the first fixing device. Fig. 7 is a schematic diagram of an embodiment of the present invention, which is suitable for midway divergence and subsequent connection operation. 201202774 The cable terminal housing is provided with a second fixed permanent device. FIG. 8 is the first embodiment of the present invention. One of the maps of the optical cable shell is provided with S three @" pin connected to the different operations, Xia "- not intended. Fig. 9 is a schematic view showing the connection of the connecting portion of the optical cable 4 in the middle of the second embodiment of the present invention. . The middle s column knife is not independent. [Main component symbol description] 1st drawing (Α)~(Β) 1 Optical cable terminal housing 6 2 Cable entry and exit end face 7 3 Connection part 8 4 First hollow pipe column 9 5 Divided connection cable 2D 2 Cable entry and exit end face 6 3 Connection part 9 4 First hollow pipe column 901 5 Midway lead divergent cable Optical fiber core mechanical waterproof component elastic shrink tube heat shrinkable tube fiber core heat shrinkable tube divergence 3 (Α)~(Ε〇2 cable entry and exit end face 7 mechanical waterproof member 3 connection portion 701 tight bundle outer casing 4 first hollow tubular string 702 tightening screw 5 midway lead divergent cable 703 is viscous and plastic Waterproof tape 6 Optical fiber core 704 Elastomer waterproof gasket Figure 4 (AHC) 201202774 2 Cable entry and exit end face 3 Connection part 4 First hollow pipe column 5 Midway lead divergent cable 6 Fiber optic core wire 5 Figure 2 Cable entry and exit end face 3 Connection part 4 First hollow tube column 6 Figure 1 Cable connection shell 2 Cable entry and exit end face 4 First hollow tube column 10 Second hollow tube column 11 Straight line and divergent connection cable Figure 7 Optical cable terminal housing 2 Cable entry and exit 3 Connection part 4 The first hollow column 5 is connected to the downstream of the optical fiber cable 6 Optical fiber core wire 8 Figure 1 Optical cable connection shell elastic shrinkable tube cable tight bundle shell tightening screw Double mask viscous and plastic waterproof tape single mask Viscous elastomer waterproof tape elastic shrink tube second hollow tube straight line and divergent connection cable first fixing device stainless steel tight bundle fiber storage tray bracket fiber storage tray second hollow tube fiber storage tray bracket fiber storage tray Second fixed device linear connection trunk cable third fixing device 201202774 2 cable entry and exit end face 18 3 connecting portion 19 5 midway connecting diverging connecting cable 20 9 heat shrinkable tube 9th drawing 2 cable entry and exit end face 4 3 connecting part 10 first fixing part Second fixed part stainless steel tight-wound ring first hollow pipe column second hollow pipe column
2020