1359292 九、發明說明: 【發明所屬之技術領域】 本發係關於一種連接保持器,尤指一種用於保持至少一 個適用於耦合兩條光纖的連接套管的連接保持器,以及用 5於女裝連接保持器的資訊插座,資訊插座用於連接通信網 路中的光纜和電纜。 ( 【先前技術】 在光纖到戶(FTTH)和光纖到桌面(FTTD)的應用中,資 1〇訊插座可以用作例如電纜、光纜或者同轴電纜的終端接續 設備。目前市場上的傳統資訊插座被安裝於房屋或者家中 的牆面上。資訊插座允許光纖跳線和電纜連接到家裏或者 房屋的内壁中或者牆面上所安裝的網路光纜和電纜。通 吊,光纖連接需要三個單獨的部件、跳線上的光纖連接器 15插頭、連接到被安裝的網路光纜的尾纖上的光纖連接器插 頭以及光纖連接器插座。光纖連接器插座用作兩個光纖連 接器插頭之間的連接並能保護光纖連接點。相比較而言, 電纜連接具有兩部分結構,包括可以插入到插座中的電纜 連接器或者插頭,插座連接到被安裝的電纜。由於它們安 20裝方便、靈活的連接方式,這樣的資訊插座受到消費者和 安裝人員的歡迎β 疋flb夠各納電魔和光纖連接的、現有的資訊插座通常 體積較大’這樣只能單獨安裝或者在特殊的㈣盒上安 裝,並且不能與普遍的牆裝標準底盒配合。 5 1359292 在現有技術令揭露了這種牆裝資訊插座,插座可以同時 放置多個光纖和電纜連接器,並具有光纖存儲功能。但是 盒體的體積較大很難和現有牆裝底盒配套安裝,例如不能 與86 X 86 mm標準的牆裝底盒匹配,並且不能提供線镜全 5 方向的接納功能。 儘管壁裝式資訊插座已知是同時容納多個光纖和電窥 連接器’但是這些資訊插座太大而不能與當前的壁裝盒(例 如,86mm X 86mm標準壁裝盒)進行配合。 • 在現有的建築網路佈線中,光纖透過熔接或者機械連接 10而連接到光纖尾纖上。在一些情況下,光纖與光纖之間的 • 連接點不能配合在現有的盒子的内部,因此,必須放在盒 的外部。這就使得連接點得不到適當的保護,或者導致了 需要增加額外的盒子來保護連接點的額外成本。此外,傳 統的資訊插座不能提供有效的解決方案來以緊湊的尺寸容 15 納連接點同時還確保不防礙光纖的最小彎曲半徑。 因此,需要一種符合86 X 86 mm標準且可以在其内部 • 谷納連接點的資訊插座,以進一步在房屋或者家中擴展 FTTH和FTTD網路。 【發明内容】 因此,本發明的第一實施例提供一種連接保持器,此連 接保持器在資訊插座的㈣容納光纖的連接點,從而使得 位於資訊插座中的電欖和光纖更整潔、同時使得資訊插座 的操作更方便。 6 1359292 此外,本發明進一步提供一種連接保持器,可以保洪光 纖的最小弯曲半徑,同時允許在資訊插座中存儲光境广 本發明更進一步地提供一種連接保持器,連接保持器可 以與資訊插座,例如86 X 86 mm標準的資訊插座,一起使 5用。透過本發明的該連接保持器,可以解決本發明的現有 技術中所存在的缺點。 本發明還提供了一種資訊插座,資訊插座包括本發明 連接保持器。 本發明的連接保持器,係用於保持至少一個連接套管, 10每一個連接套管可以用於耦合兩個光纖,連接保持器包 括:主體;設置在所述主體上的至少一個連接通道;彈性 裝置,所述彈性裝置設置在每一個所述連接通道中,所述 彈性裝置將所述連接套管彈性地保持在所述連接通道中; 以及光纖引導部,所述光纖引導部向遠離設置了連接通道 15的連接保持器的側面彎曲,並形成具有斜坡形狀的光纖入 口部0 根據本發明的另一目的,係提供了一種資訊插座,此資 訊插座包括:底座,所述底座具有底壁和多個側壁;盒蓋, 所述盒蓋與所述底座可拆卸地配合;在底座的底壁和側壁 2〇 上設置的多個進纖口;以及根據本發明的連接保持器,所 述連接保持器設置在所述底座上。 【實施方式】 7 1359292 -月參考圖1至圖8’其為根據本發明實施例的連接保持器 以及連接保持器的資訊插座。 圖1係為根據本發明實施例的資訊插座1〇〇的立體分解 圖:如圖1所禾資訊插座100包括有底座1和盒蓋2。底座% 5 ^蓋2透過可拆仰的連接結構配合在—《,例如透過搭扣連 接的方式。在本實施例中底座〗和盒蓋2的形狀爲矩形,此 外,底座1和盒蓋也可採用其他形狀。 盒蓋2包括有頂壁2a和四個側壁2b。侧壁2b可以連接到 丨頂壁的底部邊沿並從頂壁側向延伸。在一些實施例中,側 10壁沘可以大體上垂直於頂壁2a »侧壁2b中的其中之一可以 從頂壁傾斜延伸0 —個或者多個連接埠116可以形成在蓋的 側壁中,以允許外部端接的光纖和電·纜連接到資訊插座 100 〇 底座1包括底壁la和四個側壁lb,侧壁la可以連接到底 15 壁的邊沿並從底壁lb延伸,側壁la可以大體上垂直於底壁。 在本發明最佳實施例中,資訊插座1〇〇用於容納並固定 光纖連接器插座3以將外部預先端接好的光跳線與可被連 接的光纖尾纖相互連接。在本發明的一個實施例中,資訊 插座100還可以同時容納並固定電纜連接器插座19,插座19 2〇 可以容納外部電纜插頭。 資訊插座内可以容納光纖連接器插座3、及尾纖 (pigtail ’圖未不)’輸入光纖可以透過尾纖連接至光纖連 接器插座3 ;用於實現兩條光纖之間的連接的光纖連接套管 4。電徵連接器插座19、例如Keystone連接插頭等用於連接 8 1359292 輸入電縵的電纜連接器。埠盲板2〇,當資訊插座1〇〇中沒有 安裝光纖連接器或電纜連接器時,可以將埠盲板20放置在 這些連接器的位置,從而封閉資訊插座的内部。進一步地, 爲了標識的作用,標籤18可以放置在盒蓋2上,且被標籤蓋 5 17所蓋住,從而保護標籤18,防止受到損壞。 下面結合附圖6詳細描述本發明的資訊插座的底座1的 結構。在最佳實施例中,底座1具有底壁^和多個側壁lb。 用於安裝光纖連接器插座3的光纖插座安裝部23以及用於 女裝電纜連接器插座19的電纜插座安裝部24設置在底座i 10 的底壁1 &上。在一實施例中’安裝部23和24分別包括垂直 於底壁延伸的兩個立柱231、241,立柱231、241上均設有 相對的槽’用於插入光纖連接器插座3或其他類似的連接 器’設置在立柱上的槽用於插入電纜連接器插座19。另外, 每個用於插入光纖連接器的立柱可以包括用於將連接器插 15 座鎖定到它們的各安裝部的球形突起25。當連接器插入到 匕們對應的連接器安裝部上時’安裝部的位置對應於設置 在殼體側壁上的連接埠的位置》特別注意的是,光纖插座 女裝部23、電'纜插座安裝部分24的數量可以根據網路的需 要來設置。在如圖6所示的典型實施例中,顯示了 3個安裝 20 部(即一個電纜插座安裝部分24和兩個光纖插座安裝部' 23)。 當連接埠116未使用時’可以利用埠盲板2〇將其封閉β 可選地,連接埠116可以透過形成在盒蓋2的側壁上的可移 除部分(例如敲落部分)來形成連接埠丨16。 9 1359292 多個安裝孔27設置在資訊插座100的底壁la上。因此, 參考圖4,底座1具有兩個安裝方向,這樣資訊插座的埠可 以向下以保證安全的操作。 光纖連接器例如可以是8(:、厘11、37'、?(:或1^型連 5 接器,也可以是PC或 APC(angled polished connector)型連接 器。連接器的實例包括3Mtm No Polish Connector SC插頭, 3Mtm 熱熔LC 連接器,以及3Mtm CRIMPLOKtm ST SM 1 26 UM連接器,這些連接器都可以從3M公司(美國明尼蘇達 州聖保羅)獲得。光纖連接器插座選擇成與跳線上的連接器 10 類型和光纖尾纖的連接器類型相匹配。電纜連接器可以是 RJ-11、RJ-45或同軸連接器。電纜插座可以選擇成與外部 線上的電纜連接器匹配。 連接套管可以是熱熔套管、機械連接套管。 請同時參考1至3圖來描述根據本發明的實施例的連接 15 保持器60。連接保持器60可以與上面說明的資訊插座相結 合使用(這將在下面詳細說明)。連接保持器60適於連接 到底座1並安裝在底座1之上。光纖冗余的長度存儲在與底 座1的底壁相鄰的第一高度處。將被連接在一起的兩個光纖 的端部被引導到連接保持器60的第二高度。 20 連接保持器60用於保持至少一個連接套管4,每一個連 接套管4用於耦合兩個光纖。連接保持器60包括主體21;兩 個側壁,兩個側壁從主體21的表面一體延伸;以及中央分 隔件73,分隔件73安置在側壁之間並與側壁平行。 10 1359292 如圖2中所示,連接保持器6〇包括第一連接通道和第 二連接通道7be這樣,在一方面中,第一連接通道7a可以 固定一個機械連接件,第二連接通道7b可以固定熔接連接 件,反過來也可以。儘管在此實施例中只顯示了作爲連接 5通道的兩個單獨的槽,連接保持器60可以配置成包括更多 個連接通道,以固定例如3個連接件、4個連接件等。 每個連接通道7a、7b包括一個或者更多個可變形的臂, 例如彈性裝置9。在一方面中,每個槽包括沿著連接通道的 _ &度分開的多個可變形臂。可變形臂配置成對連接件或者 • 1〇相似結構(例如參考圖2)提供阻力。可選地,可變形臂可 以⑨置在連接通道7a、7b的中央分隔件73上,以與連接通 道7a、7b的侧壁相對,從而相對於側壁保持連接套管。第 -連接通道7a的可變形臂9a和第二連接通道几的可變形臂 9b可以從側壁72延伸。在如圖2中所示的實施例中,臂%從 15與第-連接通道73相鄰的側壁延伸,可變形臂外從與第二 j接槽7b相鄰的側壁72延伸。此外,可變形臂側向延伸到 • ^的各連接通道巾,其延伸量大體上爲連接通道的整個 寬疳。 利用該可變形臂’可將不同類型的連接套管適用於光纖 連接,並將其固定到連接通道中。 ==中央區域,包括主體21和兩個弧形光 纖引導錢5丨導部咖於主體21任—側上的光纖。 20 1359292 光纖引導部ίο包括:第一光纖引導壁211,該第一光纖 引導壁211由主體21的兩端向外一體地延伸所形成;以及第 二光纖引導壁212,第二光纖引導壁212由與第二連接通道 7b相鄰的側壁72的每端向外一體地延伸所形成,這樣光纖 5 就可罪在第一光纖引導壁211並被支撐在光纖引導壁72上 進入或者引出連接套管4 » 從圖2中可見,光纖引導部10在與甩於保持連接套管的 連接通道7a、7b所安裝的主體的表面遠離的方向上彎曲。 _ 需要注意的是’當光纖在該光纖人口或者出π處具有最小 1〇的彎曲半徑時,這種彎曲的曲率要以不影響光纖傳導信號 的傳輸爲宜。在一種實施例中,光纖引導部1〇形成具有斜 皮形狀12的光纖入口或出口,以過渡光纖,使光纖從光纖 存儲的第一高度平滑地連接到連接保持器中的第二高度。 光纖引導部ίο可以進一步包括第三光纖引導壁213,第 15三光纖引導壁213與第一光纖引導壁212大致平行地相對設 置並大體上垂直於第二光纖引導壁212和從第二光纖引導 • #212延伸。第三光纖引導壁213可以比第-光纖引導壁211 紐這樣可使設有用於保持連接套管4的連接通道7a、外的 主體21露出,從而方便地安裝或拆卸光纖連接套管4,並可 2〇以避免在操作中損壞光纖。第三光纖引導壁213確保光纖設 置在資訊插座的結構範圍之内。從而當盒蓋被蓋在底座之 上時,光纖不會由於在資訊插座的底座和盒蓋之 者夾住而損壞光纖。 、5 12 1359292 如圖2、3所示,爲了防止光纖脫離光纖引導部1〇,在第 三光纖引導壁213的遠端侧處設有翼215 在一種實施例 中,翼215位於光纖引導部1〇的遠離主體21的一端,從而在 光纖引導部10的外部由該翼215、第一、第二、第三光纖引 5 導壁21卜212和213限定成可供光纖進入光纖引導部1〇的光 纖入口 ’這樣,翼215更爲穩定地保持光纖。當然,本發明 的實施例不限於上述翼215的具體結構,翼215可以採用任 何可以讓光纖可靠地容納在光纖引導部10中的結構設計。 > 進一步地’本發明的實施例的連接保持器6〇包括至少一 •10 個安裝件’用於將連接保持器接合到本發明的資訊插座。 安裝件11可以是搭扣。搭扣可以與容納在資訊插座1〇〇的底 座1上的孔13匹配。當需要從資訊插座1〇〇上拆除連接保持 器60時,可以將搭扣11從孔13中拔出。可選地,搭扣可以 設置在底座上,扎可以在連接保持器上形成。在另一個實 15 施例中,也可以將連接保持器透過插銷結構(未示出)連 接到資訊插座中。在另一個實施例中,連接保持器螺釘或 .者其他機械固定件連接到資訊插座中。上述的示例不是爲 了進行限制,只是爲了說明的目的。如圖4所示,多個薄壁 部14以允許光纖進入資訊插座。在資訊插座安裝前,這些 20薄壁部被一體形成在側壁上。在接入光纖時,可以在所需 位置將這些.4壁部敲落從而形成光纖可以透過的開口。 該開口相對底壁la的法向方向的位置低於光纖連接器插座 3被安裝在資訊插座中的高度。這樣’在底座丨的底壁^和 光纖連接器插座3之間形成空間從而存儲光纖。這樣,當從 13 1359292 .· 移除薄壁部14所產生的開口通入光纖或電纜時,光纖或電 缓可以從光纖連接器插座3與底座1之間的空間透過。該空 間對於連接光纖特別有利,光纖可以在安裝部23、24的附 近進入資訊插座。從而真正實現了全方位地接入光纖。這 5 就提向了接入光纖的靈活性。根據本發明,普通技術人員 可以根據光纖引入的需要而設置額外的開口。 此外’根據本發明的實施例,光纖插座安裝部23設置成 可以沿垂直於底座1的底壁la的方向安裝至少兩個光纖連 ® 接器。因此,光織插座安裝部23的安裝高度可以大於或等 10 於光纖連接器插座3的安裝高度的兩倍。當兩根光纖通入這 兩個光纖連接器時,它們在相同的光纖插座安裝部23中可 以分成上下兩層。 由此’在保證光纖最小彎曲半徑的同時,可以使資訊插 座的尺寸盡可能的小◊此外爲了使上下兩層的光纖在面板 15 殼體内部的路徑明確並避免光纖損壞,資訊插座1〇〇還可 以包括在底壁la上一體形成的光纖引導件26(參看圖6)。 φ 光纖引導件26包括處於相對底壁不同高度位置上的兩個光 纖保持部26a和26b,用於保持平行鋪設的上下兩層光纖, 光纖保持部26a和26b的垂直方向的高度位置可以與安裝 20 在光纖插座安裝部23中的兩個光纖插座對應。 圖4顯示了本發明的資訊插座的實施例進一步包括多個 進纖口 15,進纖口 15被設置成透過底座1的底壁la。進纖口 15可以用於從底座的後侧引入光纖。圖4中顯示了八個進纖 口 15,但是如果網路設計需要,可以設置不同數目的進纖 1359292 •ψ % 口。這些進纖口 15都採用了傾斜彎曲的結構,.這樣既能保 證光纖從底壁後方平滑地進入資訊插座1〇〇 ,又能保證光 纖的彎曲半徑,避免因彎曲半徑過小而損壞光纖。 請參閱圖4至圖6,基座1的底壁ia的中央位置設有一個 5 較大的電纜孔8,用於將電纜從底座的下部引入到資訊插座 中。電纜孔的形狀不局限於圖示的圓形,其他形狀也適用。 此外’在中央孔8的周圍立設有多個環形壁部4〇 ,它們 形成了 一個存儲光纖用的環形區域。該環形區域可以在滿 • 足光纖最小彎曲半徑的前提下容納存儲光纖。此外,多個 • 1〇 光纖固定槽32可以靠近薄壁部14與底座1的側壁lb相鄰一 體形成。沿著光纖固定槽的側部設有多個固定凸肋321,以 夾住通入的纜線以及消除應力。如圖4所示,凸肋呈魚翅 狀’以便夾住光纜的保護套。當使用小直徑光纜時,本實 施例的資訊插座100可以包括光纜適配器5〇。光魔適配器50 15 包括底部1和從底部50-1的頂側延伸出的至少一個側 壁50-2 ^至少一個側壁50_2包括在光纖固定槽32中、形狀 • 與固定凸肋321配合的凸部50-3。光纜適配器50還可以包括 從與側壁50-2相對的、底部50-1的底側延伸出的至少一個 鈎子50-4。透過將鈎子50-4與光纖固定槽32中的孔322配 20 合’適配器50可以牢靠地固定到資訊插座上。可選地,光 纜適配器5 0可以包括從底部5 〇,1的頂側延伸出的兩個側壁 50-2。側壁50·2間形成槽50_5,槽5〇_5的内表面延伸設有 用於夾住電纜保護套的凸肋50-6。 15 1359292 此外,本實施例的資訊插座100還提供了連接器適配器 61’參見圖8,不同類型的光纖連接器插座可以透過連接器 適配器61安裝在光纖插座安裝部23和電纜插座安裝部24 中。例如,適配器61用於安裝雙LC光纖連接,但也適於 5 安裝其他小尺寸的連接器。 此外,當將連接保持器60放置在插座的基座1上時,在 保持器2和資訊插座的基座1的底壁1 a之間形成空間。光纖 和電纜可以透過此空間並且此空間可以被用作存儲多餘長 度的光纖。 10 下面描述在使用根據本發明的連接保持器60將光纖固 定到如圖1中所示的資訊插座1〇〇的操作過程。 首先’將連接保持器60透過安裝件安裝到資訊插座1 〇〇 的靠近孔13處的壁表面131上。將具有光纖的光纜從形成在 底座1的側壁上的開口或者底座1的底壁la中的進纖口引入 15 到資訊插座中’開口是透過移除底座1的側壁la中的薄壁部 之一而形成的。需要注意的是,可以使用如圖7中所示的光 纜適配器50來安裝具有不同規格的電纜。可選地,在一些 情況下’也可以先將兩個光纖耦合之後,放入連接保持器 60中,再將連接保持器安裝到基座!上。值得注意的是,當 20 光纜從靠近連接保持器安装位置的進纜孔進入時,應首先 把光纜引入並固定在固定槽中,然後方能安裝連接保持器。 然後,將引入到資訊插座内的光纜的其中一條光纖和來 自光纖尾纖的光纖從相對端插入到連接套管4中。光纖透過 熱熔接合或者機械接合而彼此連接。然後連接套管4可以插 1359292 入和固定到連接保持器22的連接通道7a、%中。接著,光 纖尾纖的[端插人到光纖連接器插座3卜光纖連接器插 座3放置在資訊插座1〇〇的底座丨中的光纖插座安裝部幻中 的支柱56M目對槽6t。同時,對於多餘的域可以存儲在 5連接保持器22和資訊插座底座1的底壁之間形成的空間 中’從而使得資訊插座100的内部更整潔。 另外,根據實際需要,將電纜從位於底座上的中央孔8 插入,並連接至電纜連接器插座19,之後將電欖連接器插 座19安裝到位於立柱231、241上的槽中,從而完成使該資 1〇 訊插座具有連接電纜的功能。需要說明的是,可根據實際 需要,使該資訊插座具有連接光纜和/或電纜的作用。 最後,用盒蓋2蓋住底座1,從而完成資訊插座的整個操 作。 從上述的說明可見,根據本發明的具有連接保持器60 15 的資訊插座10〇在資訊插座内部實現兩條光纖的端接。這樣 就增加了在相同的資訊插座中連接和安裝電纜和光纖的方 便性。此外’根據本發明的連接保持器以及對應的資訊插 座’可以減小資訊插座的尺寸且在資訊墙座中保證光纖的 最小弯曲半徑。 2〇 需要說明的是,本發明的資訊插座100與連接保持器6〇 也可以應用到小型的壁挂式光纖終端盒上,另外其也可以 應用到小光纖分配盒中,從而用於保護光纖連接點。 17 1359292 上述實施例僅係為了方便說明而舉例而已,本發明所 主張之權利範圍自應以申請專利範圍所述為準,而非僅限 於上述實施例。 5 【圖式簡單說明】 圖1是根據本發明的資訊插座的立體分解圖。 圖2是根據本發明用於資訊插座的連接保持器的立體圖。 圖3是圖2所示的連接保持器的後視圓。 圖4是根據本發明的圖丨的資訊插座的底座的俯視圖。 1〇圖5是將根據本發明的連接保持器安裝到資訊插座的組裝 視圖。 圖6是圖1所示的資訊插座的詳細結構視圖。 圖7是光鐵適配器的立體圖。 圖8是連接器適配器的立體圖。 【主要元件符號說明】1359292 IX. Description of the Invention: [Technical Field] The present invention relates to a connection holder, and more particularly to a connection holder for holding at least one connection sleeve suitable for coupling two optical fibers, and An information socket is connected to the holder, and the information socket is used to connect the optical cable and cable in the communication network. (Prior Art) In fiber-to-the-home (FTTH) and fiber-to-the-desktop (FTTD) applications, the socket can be used as a terminal connection device such as cable, fiber optic cable or coaxial cable. The socket is installed on the wall of the house or home. The information socket allows the fiber jumper and cable to be connected to the network cable and cable installed in the house or on the inner wall of the house or on the wall. The cable connection requires three separate cables. The components, the fiber optic connector 15 plug on the jumper, the fiber optic connector plug on the pigtail of the installed network cable, and the fiber optic connector socket. The fiber optic connector socket is used between the two fiber optic connector plugs It is connected and protects the fiber connection point. In comparison, the cable connection has a two-part structure, including a cable connector or plug that can be inserted into the socket, and the socket is connected to the installed cable. Because of their convenient and flexible installation Connection method, such information socket is welcomed by consumers and installers. β 疋flb is enough for each electric magic and fiber connection. Information sockets are usually bulky' so they can only be installed separately or on special (4) boxes and cannot be combined with the popular wall mounted standard back box. 5 1359292 This wall-mounted information socket, socket is disclosed in the prior art. Multiple fiber and cable connectors can be placed at the same time, and have fiber storage capabilities. However, the bulk of the case is difficult to install with existing wall-mounted bottom boxes, for example, it cannot match the 86 X 86 mm standard wall-mounted bottom box. And it can't provide the full-direction reception function of the line mirror. Although the wall-mounted information socket is known to accommodate multiple optical fibers and electro-optical connectors at the same time, these information sockets are too large to be compatible with the current wall-mounted boxes (for example, 86mm X 86mm standard wall box). • In existing building network cabling, the fiber is connected to the fiber pigtail through a splice or mechanical connection 10. In some cases, the connection point between the fiber and the fiber cannot Fitted inside the existing box, therefore, must be placed outside the box. This makes the connection point not properly protected or leads to the need Additional boxes are added to protect the extra cost of the connection points. In addition, traditional information outlets do not provide an effective solution to accommodate 15 nanometer connection points in a compact size while also ensuring that the minimum bend radius of the fiber is not impeded. An information socket that conforms to the 86 X 86 mm standard and can be in its internal • Ganna connection point to further expand the FTTH and FTTD networks in a house or home. [Invention] Therefore, the first embodiment of the present invention provides a connection hold The connection holder is at the connection point of the information socket (4) for accommodating the optical fiber, thereby making the electric ram and the optical fiber located in the information socket more tidy, and at the same time making the operation of the information socket more convenient. 6 1359292 Furthermore, the present invention further provides a connection. The holder can maintain the minimum bending radius of the fiber while allowing the storage of the light in the information socket. The invention further provides a connection holder which can be connected to an information socket, such as a 86 X 86 mm standard information socket. Let's use 5 together. The disadvantages of the prior art of the present invention can be solved by the connection holder of the present invention. The present invention also provides an information outlet comprising the connection holder of the present invention. The connecting holder of the present invention is for holding at least one connecting sleeve, 10 each connecting sleeve can be used for coupling two optical fibers, and the connecting holder comprises: a main body; at least one connecting passage provided on the main body; a resilient means, the resilient means being disposed in each of the connecting passages, the resilient means resiliently retaining the connecting sleeve in the connecting passage; and a fiber guiding portion, the optical fiber guiding portion being disposed away from the The side of the connection holder of the connection channel 15 is curved and forms a fiber-optic inlet portion having a slope shape. According to another object of the present invention, an information socket is provided, the information socket comprising: a base having a bottom wall And a plurality of side walls; a cover, the cover detachably mating with the base; a plurality of fiber inlets provided on the bottom wall and the side wall 2 of the base; and the connection holder according to the present invention, A connection holder is disposed on the base. [Embodiment] 7 1359292 - month Referring to Figs. 1 to 8', there is shown a connection holder and an information socket for connecting a holder according to an embodiment of the present invention. 1 is an exploded perspective view of an information socket 1 according to an embodiment of the present invention: the information socket 100 of FIG. 1 includes a base 1 and a cover 2. The base % 5 ^ cover 2 is fitted through a detachable connection structure, for example, by means of a buckle connection. In the present embodiment, the shape of the base and the cover 2 are rectangular, and in addition, the base 1 and the cover may take other shapes. The cover 2 includes a top wall 2a and four side walls 2b. The side wall 2b can be attached to the bottom edge of the dome wall and laterally extending from the top wall. In some embodiments, the side 10 niche may be substantially perpendicular to the top wall 2a. One of the side walls 2b may extend obliquely from the top wall 0 - one or more ports 116 may be formed in the side wall of the cover, The optical fiber and the electric cable that allow external termination are connected to the information socket 100. The base 1 includes a bottom wall la and four side walls lb. The side wall la may be connected to the edge of the bottom wall 15 and extend from the bottom wall lb. The side wall la may be substantially The upper side is perpendicular to the bottom wall. In a preferred embodiment of the invention, the information socket 1 is used to receive and secure the fiber optic connector receptacle 3 to interconnect the external pre-terminated optical patch cords with the fiber pigtails that can be connected. In one embodiment of the invention, the information outlet 100 can also accommodate and secure the cable connector receptacle 19 at the same time, and the receptacle 19 2 can accommodate an external cable plug. The information socket can accommodate the fiber optic connector socket 3, and the pigtail (pigtail 'picture not only' input fiber can be connected to the fiber connector socket 3 through the pigtail; the fiber connection sleeve for connecting the two fibers Tube 4. A cable connector socket 19, such as a Keystone connector plug, is used to connect the cable connector of the 8 1359292 input port.埠Blind board 2〇, when the fiber optic connector or cable connector is not installed in the information socket 1〇〇, the 埠 blind plate 20 can be placed at these connectors to close the inside of the information socket. Further, for the purpose of the marking, the label 18 can be placed on the lid 2 and covered by the label cover 517 to protect the label 18 from damage. The structure of the base 1 of the information outlet of the present invention will be described in detail below with reference to FIG. In a preferred embodiment, the base 1 has a bottom wall and a plurality of side walls lb. A fiber socket mounting portion 23 for mounting the fiber optic connector socket 3 and a cable socket mounting portion 24 for the women's cable connector socket 19 are provided on the bottom wall 1 & In one embodiment, the mounting portions 23 and 24 respectively include two uprights 231, 241 extending perpendicularly to the bottom wall, and the posts 231, 241 are each provided with opposing slots for inserting the fiber optic connector socket 3 or the like. The connector 'slot provided on the post is for inserting the cable connector socket 19. Additionally, each of the posts for inserting the fiber optic connector can include a spherical projection 25 for locking the connector inserts 15 to their respective mounting portions. When the connector is inserted into our corresponding connector mounting portion, the position of the mounting portion corresponds to the position of the connecting jaw provided on the side wall of the housing. Special attention is paid to the fiber optic socket women's section 23, the electric cable socket. The number of mounting portions 24 can be set according to the needs of the network. In the exemplary embodiment shown in Fig. 6, three mountings 20 (i.e., one cable socket mounting portion 24 and two fiber socket mounting portions '23) are shown. When the port 埠 116 is not in use, it can be closed by the 埠 blind plate 2 可选. Optionally, the port 埠 116 can form a connection through a removable portion (eg, a knock-out portion) formed on the side wall of the cover 2埠丨16. 9 1359292 A plurality of mounting holes 27 are provided on the bottom wall 1a of the information outlet 100. Therefore, referring to Figure 4, the base 1 has two mounting orientations so that the turns of the information socket can be lowered to ensure safe operation. The optical fiber connector may be, for example, a 8 (:, PCT 11, 37', ? (or 1) type connector, or a PC or an angled polished connector type connector. Examples of the connector include 3Mtm No Polish Connector SC plug, 3Mtm hot melt LC connector, and 3Mtm CRIMPLOKtm ST SM 1 26 UM connector, all available from 3M Company (St. Paul, Minnesota, USA). Fiber optic connector sockets are selected to be connected to jumpers The connector type of the type 10 matches the fiber pigtail. The cable connector can be an RJ-11, RJ-45 or coaxial connector. The cable socket can be selected to match the cable connector on the external cable. Hot-melt sleeve, mechanical connection sleeve. Please refer to Figures 1 to 3 to describe the connection 15 holder 60 according to an embodiment of the invention. The connection holder 60 can be used in combination with the information socket described above (this will be The connection holder 60 is adapted to be attached to the base 1 and mounted on the base 1. The length of the fiber redundancy is stored at a first height adjacent to the bottom wall of the base 1. The ends of the two fibers that are joined together are directed to a second height of the connection holder 60. 20 The connection holder 60 is used to hold at least one connection sleeve 4, each connection sleeve 4 for coupling two fibers. The connection holder 60 includes a main body 21; two side walls, two side walls integrally extending from the surface of the main body 21; and a center partition 73, the partition member 73 being disposed between the side walls and parallel to the side walls. 10 1359292 as shown in FIG. The connecting holder 6〇 comprises a first connecting passage and a second connecting passage 7be. In one aspect, the first connecting passage 7a can fix a mechanical connecting member, and the second connecting passage 7b can fix the welded connecting member, and vice versa. Yes. Although only two separate slots are shown in this embodiment as the connection 5 channels, the connection holder 60 can be configured to include more connection channels to secure, for example, 3 connectors, 4 connectors, and the like. Each connecting channel 7a, 7b comprises one or more deformable arms, such as resilient means 9. In one aspect, each slot comprises a plurality of detachable degrees along the connecting channel. The deformable arm is configured to provide resistance to the connector or a similar structure (e.g., with reference to Figure 2). Alternatively, the deformable arm 9 can be placed on the central divider 73 of the connecting channel 7a, 7b to Opposite the side walls of the connecting passages 7a, 7b, thereby maintaining a connecting sleeve with respect to the side walls. The deformable arm 9a of the first connecting passage 7a and the deformable arm 9b of the second connecting passage may extend from the side wall 72. In the embodiment shown in Fig. 2, the arm % extends from the side wall adjacent the first connecting passage 73 and the outer side of the deformable arm extends from the side wall 72 adjacent to the second j-joint 7b. In addition, each of the connecting passages, which extend laterally to the deformable arm, extends substantially the entire width of the connecting passage. With this deformable arm', different types of connecting sleeves can be used for fiber optic connections and secured in the connecting channels. == The central area, including the main body 21 and the two curved optical fibers, guide the money to the optical fiber on the side of the main body 21. 20 1359292 The fiber guiding portion ίο includes: a first fiber guiding wall 211 formed integrally extending outwardly from both ends of the body 21; and a second fiber guiding wall 212, the second fiber guiding wall 212 Formed integrally outwardly from each end of the side wall 72 adjacent to the second connecting passage 7b, such that the optical fiber 5 can be sinned on the first optical fiber guiding wall 211 and supported on the optical fiber guiding wall 72 to enter or lead out the connecting sleeve. Tube 4 » As can be seen from Fig. 2, the fiber guiding portion 10 is bent in a direction away from the surface of the body to which the connecting passages 7a, 7b holding the connecting sleeve are attached. _ It should be noted that when the fiber has a minimum radius of curvature of 光纤 at the π population, the curvature of the bend is preferably such that it does not affect the transmission of the fiber-conducting signal. In one embodiment, the fiber guide 1A forms an optical fiber inlet or outlet having a slanted shape 12 to transition the fiber to smoothly connect the fiber from a first height stored in the fiber to a second height in the connection holder. The fiber guiding portion ίο may further include a third fiber guiding wall 213, the 15th fiber guiding wall 213 being disposed substantially parallel to the first fiber guiding wall 212 and substantially perpendicular to and guiding from the second fiber guiding wall 212 • #212 extension. The third fiber guiding wall 213 may be exposed than the first fiber guiding wall 211 so that the main body 21 provided for holding the connecting channel 7a of the connecting sleeve 4 is exposed, thereby conveniently mounting or dismounting the fiber connecting sleeve 4, and Can be used to avoid damage to the fiber during operation. The third fiber guiding wall 213 ensures that the fiber is disposed within the structure of the information socket. Thus, when the cover is placed over the base, the optical fiber does not damage the optical fiber by being caught by the base of the information socket and the cover. 5 12 1359292 As shown in FIGS. 2 and 3, in order to prevent the optical fiber from coming off the fiber guiding portion 1 , a wing 215 is provided at the distal end side of the third fiber guiding wall 213. In one embodiment, the wing 215 is located at the fiber guiding portion. One end away from the main body 21 so that the outer side of the optical fiber guiding portion 10 is defined by the wing 215, the first, second, and third optical fiber guiding walls 21 and 212 and 213 for allowing the optical fiber to enter the optical fiber guiding portion 1 The fiber optic inlet of the crucible is such that the wing 215 holds the fiber more stably. Of course, embodiments of the present invention are not limited to the specific configuration of the wings 215 described above, and the wings 215 may employ any structural design that allows the fibers to be securely received in the fiber guide 10. > Further, the connection holder 6 of the embodiment of the present invention includes at least one • 10 mounts for engaging the connection holder to the information outlet of the present invention. The mounting member 11 can be a buckle. The buckle can be mated with the hole 13 received in the base 1 of the information socket 1 . When it is necessary to remove the connection holder 60 from the information socket 1 , the buckle 11 can be pulled out of the hole 13. Alternatively, the buckle can be placed on the base and the tie can be formed on the connection holder. In another embodiment, the connection holder can also be connected to the information outlet via a latch structure (not shown). In another embodiment, a connector retainer screw or other mechanical fastener is attached to the information outlet. The above examples are not intended to be limiting, but for illustrative purposes only. As shown in Figure 4, a plurality of thin portions 14 are provided to allow the fibers to enter the information outlet. These 20 thin wall portions are integrally formed on the side walls before the information socket is installed. When the fiber is accessed, the .4 walls can be knocked down at the desired location to form an aperture through which the fiber can pass. The position of the opening relative to the normal direction of the bottom wall 1a is lower than the height at which the fiber optic connector socket 3 is mounted in the information socket. Thus, a space is formed between the bottom wall of the base cymbal and the optical fiber connector socket 3 to store the optical fiber. Thus, when the opening resulting from the removal of the thin portion 14 from 13 1359292 . . . is passed into the optical fiber or cable, the optical fiber or the snubber can be transmitted from the space between the optical connector socket 3 and the base 1. This space is particularly advantageous for connecting optical fibers that can enter the information outlet near the mounting portions 23, 24. Thereby realizing the full access to the optical fiber. This 5 gives the flexibility to access the fiber. In accordance with the present invention, one of ordinary skill can provide additional openings as needed for fiber introduction. Further, according to an embodiment of the present invention, the optical fiber socket mounting portion 23 is provided to be capable of mounting at least two optical fiber connectors in a direction perpendicular to the bottom wall 1a of the base 1. Therefore, the mounting height of the optical woven socket mounting portion 23 can be greater than or equal to twice the mounting height of the optical fiber connector socket 3. When the two fibers pass into the two fiber connectors, they can be divided into upper and lower layers in the same fiber socket mounting portion 23. Therefore, while ensuring the minimum bending radius of the optical fiber, the size of the information socket can be made as small as possible. In addition, in order to make the path of the upper and lower layers of the optical fiber inside the casing of the panel 15 clear and avoid fiber damage, the information socket 1〇〇 It is also possible to include a fiber guide 26 integrally formed on the bottom wall 1a (see Fig. 6). The φ fiber guide 26 includes two fiber holding portions 26a and 26b at different height positions with respect to the bottom wall for holding the upper and lower layers of the optical fibers laid in parallel, and the height positions of the fiber holding portions 26a and 26b in the vertical direction can be mounted. 20 corresponds to two fiber sockets in the fiber socket mounting portion 23. Figure 4 shows an embodiment of the information socket of the present invention further comprising a plurality of fiber inlets 15, the fiber inlets 15 being arranged to pass through the bottom wall 1a of the base 1. The fiber inlet port 15 can be used to introduce an optical fiber from the rear side of the base. Figure 8 shows eight inlets 15, but if the network design requires it, you can set a different number of inlets 1359292 • ψ %. These fiber inlets 15 are inclined and curved, which ensures that the fiber smoothly enters the information socket from the back of the bottom wall, and ensures the bending radius of the fiber to avoid damage to the fiber due to the bending radius being too small. Referring to Figures 4 through 6, a central portion of the bottom wall ia of the base 1 is provided with a 5 large cable opening 8 for introducing a cable from the lower portion of the base into the information outlet. The shape of the cable hole is not limited to the circular shape shown, and other shapes are also applicable. Further, a plurality of annular wall portions 4 are formed around the central hole 8, which form an annular region for storing the optical fibers. The annular region accommodates the storage fiber with a minimum bend radius of the fiber. Further, a plurality of 1 光纤 fiber fixing grooves 32 may be formed adjacent to the thin wall portion 14 adjacent to the side wall 1b of the base 1. A plurality of fixing ribs 321 are provided along the side of the fiber fixing groove to sandwich the incoming cable and to relieve stress. As shown in Fig. 4, the ribs are in the shape of a shark fin so as to sandwich the protective cover of the optical cable. When a small diameter cable is used, the information outlet 100 of the present embodiment may include a cable adapter 5A. The light magic adapter 50 15 includes a bottom portion 1 and at least one side wall 50-2 extending from a top side of the bottom portion 50-1. At least one side wall 50_2 includes a convex portion in the fiber fixing groove 32 and having a shape matching the fixing convex rib 321 50-3. The cable adapter 50 can also include at least one hook 50-4 extending from the bottom side of the bottom 50-1 opposite the side wall 50-2. The adapter 50 can be securely attached to the information outlet by mating the hook 50-4 with the aperture 322 in the fiber securing slot 32. Alternatively, the cable adapter 50 may include two side walls 50-2 extending from the top side of the bottom 5 〇,1. A groove 50_5 is formed between the side walls 50·2, and an inner surface of the groove 5〇_5 is extended with a rib 50-6 for clamping the cable sheath. 15 1359292 In addition, the information outlet 100 of the present embodiment further provides a connector adapter 61'. Referring to FIG. 8, different types of fiber optic connector sockets may be installed in the fiber socket mounting portion 23 and the cable socket mounting portion 24 through the connector adapter 61. . For example, the adapter 61 is used to mount a dual LC fiber connection, but is also suitable for 5 other small size connectors. Further, when the connection holder 60 is placed on the base 1 of the socket, a space is formed between the holder 2 and the bottom wall 1a of the base 1 of the information socket. Fibers and cables can pass through this space and this space can be used to store excess length of fiber. 10 The following describes the operation of fixing the optical fiber to the information outlet 1 shown in Fig. 1 using the connection holder 60 according to the present invention. First, the connection holder 60 is mounted through the mounting member to the wall surface 131 of the information socket 1 靠近 near the hole 13. Introducing a fiber optic cable from an opening formed in a side wall of the base 1 or a fiber inlet port in the bottom wall 1a of the base 1 into the information socket. The opening is through the thin wall portion of the side wall 1a of the base 1 Formed one by one. It is to be noted that the cable adapter 50 as shown in Fig. 7 can be used to mount cables having different specifications. Alternatively, in some cases, it is also possible to couple the two fibers before placing them in the connection holder 60 and then attaching the connection holder to the base! on. It is worth noting that when the 20 fiber cable enters from the cable entry hole near the connection position of the connection holder, the fiber cable should first be introduced and fixed in the fixing groove before the connection holder can be installed. Then, one of the optical fibers of the optical cable introduced into the information socket and the optical fiber from the fiber pigtail are inserted into the connecting sleeve 4 from the opposite end. The optical fibers are connected to each other by heat fusion bonding or mechanical bonding. The connecting sleeve 4 can then be inserted 1359292 into and fixed into the connecting channels 7a, % of the connection holder 22. Next, the end of the optical fiber pigtail is inserted into the optical fiber connector socket 3, and the optical fiber connector socket 3 is placed in the optical fiber socket mounting portion of the information socket 1 in the cradle 56M to the slot 6t. At the same time, the redundant domain can be stored in the space formed between the 5 connection holder 22 and the bottom wall of the information socket base 1 to make the interior of the information outlet 100 cleaner. In addition, according to actual needs, the cable is inserted from the central hole 8 on the base and connected to the cable connector socket 19, and then the electric connector socket 19 is mounted in the slot on the columns 231, 241, thereby completing The 1st socket has the function of connecting cables. It should be noted that the information socket can be connected to the optical cable and/or the cable according to actual needs. Finally, the base 1 is covered with a cover 2 to complete the entire operation of the information outlet. As can be seen from the above description, the information outlet 10 with the connection holder 60 15 according to the present invention implements the termination of two optical fibers inside the information socket. This increases the ease of connecting and installing cables and fibers in the same information outlet. Furthermore, the connector holder according to the present invention and the corresponding information socket can reduce the size of the information socket and ensure the minimum bending radius of the fiber in the information wall socket. 2) It should be noted that the information socket 100 and the connection holder 6 of the present invention can also be applied to a small wall-mounted fiber terminal box, and can also be applied to a small fiber distribution box for protecting the fiber connection. point. 17 1359292 The above-described embodiments are merely examples for the convenience of the description, and the scope of the claims is intended to be limited to the above embodiments. 5 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exploded perspective view of an information socket in accordance with the present invention. 2 is a perspective view of a connection holder for an information outlet in accordance with the present invention. Figure 3 is a rear view circle of the connection holder shown in Figure 2. 4 is a top plan view of the base of the information outlet of the figure in accordance with the present invention. Figure 5 is an assembled view of a connection holder according to the present invention mounted to an information outlet. Figure 6 is a detailed structural view of the information outlet shown in Figure 1. Figure 7 is a perspective view of the light iron adapter. Figure 8 is a perspective view of the connector adapter. [Main component symbol description]
底座1 光纖引導部10 連接埠116 壁表面131 標籤蓋17 主體21 光纖插座安裝部23 底壁la 資訊插座100 斜坡形狀12 薄壁部14 插座19 翼 215. 側壁lb 安裝件11 孔13 進纖口 15 埠盲板20 連接保持器22 電窥插座安裝部24立柱231,241 18Base 1 fiber guide 10 connection 埠 116 wall surface 131 label cover 17 body 21 fiber socket mounting 23 bottom wall la information socket 100 ramp shape 12 thin wall 14 socket 19 wing 215. side wall lb mount 11 hole 13 15 埠 blind plate 20 connection holder 22 electro-optical socket mounting portion 24 upright 231, 241 18