1354132 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種被動式光元件模組化光纜配線箱,特 別是指一種以被動式光元件模組上之卡榫固定在光纜配線 箱内,以作為電信機房内不同電信網路架構之光纜終端使用 之被動式光元件模叙化光纜配線箱。 【先前技術】 Φ 隨著全球網際網路的風行,用戶對於通信頻寬的需求也 急遽成長,以光纖取代銅線作為資訊傳輸媒介已成為電信先 進國家建設電信基礎網路之政策,但在眾多的光纖通訊技術 中’被動式光纖網路(passive 〇ptical netw〇rks)挾其建設成本 低及谷易維護之特點,被評估為最符合經濟有效之用戶接取 網路之一。為了因應此被動式光纖網路系統未來大量使用 後,線路人員在機房端能有效率的完成溝槽型光纜之終端及 收谷並,’工由對光鐵之測試以確定此線路品質,有必要發明可 ' ϋ槽型光I终端、收容及測試使用之被動式光元件模組化 光瘦配線箱。 早期電信基礎網路建設都是以銅纜為主,隨著通信技術 的蓬Μ展才改採以優異傳輸特性的光纖取代了傳輸頻寬 受限的㈣。初_設域環路時,因建設成本及傳輸容量 的考量’係以96芯之#嶝氩+ ^之九&為主幹,依次是48芯與24芯作 為配規使用。因此在雷作施庋α 電。機房Jr而所使用之光纜配線箱也配合 5 1354132 著光瘦芯數之終端需求而分別採用96芯、48芯與24芯之光 纜配線箱。此類光纜配線箱之特點是集結光纜終端、接續及 乂 收容等三項功能於一體且由於早期建設之光纜係屬於束管 塑或套官型結構之光纜,因此光纜配線箱内部之裝置組件係 配合束管型或套管型光纜之結構而設計。 現階段隨著肖音、數據及影像三合-(Triple Play)通訊技 術的而求,促使各類通信新技術相繼提出且被應用在用戶 • 「最後—哩」(意指離用戶最近的一段通信線路)上。其中被 夕個先進國豕所採用之被動式光纖網路已被證實是最經濟 有效提ί、用戶覓頻服務的網路。此被動式光纖網路係使用光 分歧器模組於網路中以構成點對多點之配線架構。由於用戶 者甲夕為節省官道資源及建設成本,在光纜的結構上也改 抹小外徑部具有大芯數(綱芯以上)之溝槽型光纜,此光魔 之〜線係以4 4或8芯單芯光纖所組成之光纖帶為最小‘纖 籲單7C &於溝槽型光纔之特性與早期使用之光缓結構迴然不 ,同’因此無法適用既有傳統之光纜配線箱。 , 由此可見,上述習用方式仍有諸多缺失,實非一良善之 设a十,而函待加以改良。 基於用戶光纜迴路建設效率之需求及建置成本之考量並 兼顧日後、.隹3蔓通仏線路品質之需要,應研發設計符合被動式 光’戴’罔路所使用之被動式光元件模組化光纜配線箱以作為 1354132 光纜終端收容測試使用。 本案么月人鑑於上述習用方式所衍生的各項缺點,乃亟 匕力以改良創斩’並經多年苦心孤詣潛心研究後,終於成功 研發完成本件被動式光元件模組化光境配線箱。 【發明内容】 本^月之目的即在於提供一種作為電信經營業者在建設 被動式光纖網路時,能對大量使用之被動式光元件(如:光纖 扇出跳接線模組、光分歧器模組及光耦合器模組)及大芯數之 溝槽型光纜提供光纖終端收容及測試之介接措施。 本發明之次一目的係在於提供一種採模組化設計完成, 在建δ又時可充分減少裝置工時而提高施工效率。並可依建設 規模及進度需要而隨時安裝被動式光元件模組以降低初期 建置網路之成本。 可達成上述發明目的之被動式光元件模組化光纜配線. 箱’係由被動式光元件模組、溝槽底座、光纜固定座、免纖 帶扣環、光纖跳接線弓丨導板及箱體等構件所組成;其中,該 被動式光元件模組係將被動式光元件(如:光纖扇出跳接線模 組、光分歧器棋組及光輛合器模組)安裝於由A B S樹脂材質 所構成之收容盒内’以組成被動式光元件模組。各種被動式 光元件模組之前端接取介面都裝置LC光纖連接器以作為與 通信設備側連接之介面。模組後端介面依據模組内被動元件 U54132 光纖扇出跳接線模組、光分歧器模組及光耦合器模組之不同 ·· *分別裝置LC光纖連接器及Μτ光纖連接器,以利於快速 '與溝㈣域連接。被動式光元件模輯槽底座,係提供被 動式光元件模組直立固^使用。光€g^座,係、提供光境引 -進光纜配線箱時固定使用。光纖帶扣環,係作為光纜引進光 .纜配線箱後,域頭端之光纖帶分流固定使用4纖跳接線 引導板,係提供光纖跳接線在光纜配線箱内作引進/出時,導 .弓丨光纖跳接線整齊化使用。㈣,係提供上述各項組件裝置 並組成被動式光元件模組化光纜配線箱,以作為電信機房内 不同電#網路架構之光繼終端使用 【實施方式】 請參閱圖一至圖三所示,為本發明之被動式光元件模組 化光缓配線箱,主要係由箱體i及光纜配線架2所組成,該 箱體1至少包括: 一箱體1,該箱體丨内具有至少一個以上之溝槽底座U,. .並於溝槽底座11設置有被動式光元件模組12,且於被▲式 ’ 光70件棋組12連接一光纖跳接線引導板13,再於箱體丨之 側邊設置有一清槽型光纜3,並將溝槽型光纜3引進至光纜 配線架2内’而該溝槽型光境3透過一光瘦固定座4將其固 定於箱體1側邊處,再依據光規頭端的光纖帶5編號,依序 將光纖T 5为別以光纖帶扣環6加以固定,並以清潔帶清潔 1354132 光纖帶頭端之MT光纖連接器後,以保護套帽保護備用·;該 箱體1係架設於光纜配線架2上;該箱體i係提供各元件裝 置後組成被動式光元件模組化光纜配線箱,作為電信機房内 不同電信網路架構之光纜終端使用;該被動式光元件模組12 引入配線箱内係採直立式固定於溝槽底座u;該被動式光元 件模組12係為光纖扇出跳接線模組、光分歧器模組或光耦 合器模組或其他被動式光元件模組;該動式光元件模組Η 之前端接取介面都裝置LC光纖連接器以作為與通信設備側 連接之介面;該動式光元件模組12後端介面依據模組内被 動式光元件之不同,而分別裝置Μτ光纖連接器、Lc光纖連 接器或其他光纖連接器,以利於快速與溝槽型光纜3連接; 该光纖跳接線引導板13係將來自通信設備側之光纖跳接線 連接至被動式光元件模組12前端之LC光纖連接器插座上; 該光纖跳接線引導板13係作為通信設備側之光纖跳接線引 進/出光纜配線箱内時,導引光纖跳接線至被動式光元件模組 别端處且不影響整體系統之光傳輸特性及整齊美觀使用。 本發明所提供之被動式光元件模組化光纜配線箱,為其 他習用技術相互比較時,更具有下列之優點: 1 ·本發明係在於提供一種可大幅提升網管人員管理效 率,由單一的使用者管理介面,可以管理由多種設備商,多 種網路技術建構之大型光傳送網路。 2·本發明係在於提佴_ Λ '、種讓整合網管系統可以有彈性納 管不同設備商、不同锏枚 ‘ •.路技術所建構之光傳送網路。 上列詳細說明係針對太 于本發月之一可行實施例之具體說 明,惟該實施例並非用LV i t 限制本發明之專利範圍,凡未脫離 本發明技藝精神所為之箅钕音尬+ h 6 寻放實施或變更’均應包含於本案之 專利範圍中。 .不上所述4案不但在技術思想上峰屬創新,並能較習 用物口口 &進上述多項功效’應已充分符合新穎性及進步性之 法定發明專利要件’爰依法提出申請H貴局核准本件 發明專利申請案’以勵發明,至感德便。 【圖式簡單說明】 明參閱以下有關本發明一較佳實施例之詳細說明及其附 圖,將可進一步瞭解本發明之技術内容及其目的功效;有關 該實施例之附圖為: 圖一為本發明被動式光元件模組化光纜配線箱與光纜配 線架結合之架構圖; 圓二為該被動式光元件模組化光纜配線箱之結構配置. 圖;以及 · 圖三為該被動式光元件模組化光纜配線箱之被動式光元 件模組構造圓。 【主要元件符號說明】 1354132 1箱體 11溝槽底座 1 2被動式光元件模組 13光纖跳接線引導板 2光纜配線架 3溝槽梨光纜 4光觀固定座 5光纖帶 6光纖帶扣環1354132 IX. Description of the Invention: [Technical Field] The present invention relates to a passive optical component modularized optical cable distribution box, and more particularly to a cable clamp on a passive optical component module, which is fixed in a cable distribution box. A passive optical component modeled cable distribution box used as a fiber optic cable terminal for different telecommunication network architectures in a telecommunications room. [Prior Art] Φ With the popularity of the global Internet, users' demand for communication bandwidth has also grown rapidly. The replacement of copper wire as an information transmission medium by optical fiber has become a policy for building advanced telecommunications networks in advanced telecommunications countries, but in many The passive optical fiber network (passive 〇ptical netw〇rks), which is characterized by its low construction cost and easy maintenance, is evaluated as one of the most cost-effective user access networks. In order to cope with the large-scale use of this passive optical network system in the future, the line personnel can efficiently complete the terminal and the valley of the grooved optical cable at the machine room end, and it is necessary to test the light iron to determine the quality of the line. The invention can be used as a "slotted type light I terminal", a passive optical element modular light thin wiring box used for housing and testing. The construction of the early telecommunication basic network was mainly based on copper cables. With the expansion of communication technology, the optical fiber with excellent transmission characteristics was replaced by the transmission bandwidth (4). When the initial _ domain loop is used, the consideration of construction cost and transmission capacity is based on the 96-core #嶝 ++^九& and the 48-core and 24-core are used as the standard. Therefore, the lightning is applied to the alpha. The fiber optic cable distribution box used in the equipment room Jr also uses the 96-core, 48-core and 24-core optical cable distribution boxes for the terminal requirements of the 5 1354132 light-thin core. The cable distribution box of this type is characterized by the integration of the three functions of the cable terminal, the connection and the storage of the cable. Since the optical cable of the early construction belongs to the optical fiber cable of the bundle tube plastic or the sleeve type structure, the device components inside the cable distribution box are Designed in accordance with the structure of the bundle tube or casing type cable. At this stage, with the Xiaoyin, data and video triple-play communication technology, various new communication technologies have been proposed and applied to users. “Last-哩” (meaning the nearest segment to the user) Communication line). Passive fiber-optic networks, adopted by Xi'an Advanced State, have proven to be the most cost-effective and user-friendly network. This passive fiber optic network uses optical splitter modules in the network to form a point-to-multipoint wiring architecture. In order to save the official resources and construction costs, the user also changed the structure of the optical cable to a small-sized outer diameter grooved optical cable with a large core number (above the core). The fiber ribbon consisting of 4 or 8-core single-core fiber is the smallest fiber-optic single 7C & the characteristics of the grooved light and the early use of the light-sinking structure are not the same, so it is not applicable to the traditional optical cable Wiring box. From this, it can be seen that there are still many shortcomings in the above-mentioned methods of use, and it is not a good one to set a ten, but the letter is to be improved. Based on the requirements of the construction efficiency of the user's optical cable circuit and the consideration of the construction cost, and taking into account the needs of the future, the quality of the line, the passive optical component modularized optical cable used in the passive light 'Dai' 罔 road should be developed. The wiring box is used as a 1354132 cable termination test. In view of the shortcomings derived from the above-mentioned conventional methods, this month, the people of 月 匕 以 改良 改良 改良 改良 改良 改良 改良 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并 并SUMMARY OF THE INVENTION The purpose of this month is to provide a passive optical component (such as a fiber-optic fan-out jumper module and an optical splitter module) that can be used as a telecom operator in building a passive optical network. The optical coupler module) and the large-core grooved optical cable provide the interface for receiving and testing the optical fiber terminal. The second object of the present invention is to provide a modular design design, which can reduce the working time of the device and improve the construction efficiency when the δ is built. Passive optics modules can be installed at any time to meet the scale and schedule requirements to reduce the cost of initial network construction. The passive optical component modularized optical cable wiring can achieve the above object. The box is composed of a passive optical component module, a groove base, a cable fixing base, a fiber-free buckle, a fiber jumper bow guide, a box, and the like. The passive optical component module is configured to be a passive optical component (such as a fiber optic fanout jumper module, a light splitter chess set, and a light clutcher module). Inside the storage box to form a passive optical component module. The front end interface of each passive optical module is equipped with an LC fiber connector as an interface to the communication device side. The rear-end interface of the module is based on the difference between the passive component U54132, the fiber-optic fan-out jumper module, the optical splitter module and the optocoupler module. * The LC fiber connector and the Μτ fiber connector are respectively installed to facilitate the module. Quickly connect with the ditch (four) domain. The passive optical component module slot base provides an illuminating optical component module for use in an upright position. Light €g^ seat, system, provide light guide - fixed use when entering the cable distribution box. The optical fiber ribbon buckle is used as the optical cable to introduce the optical cable trunking box. The fiber ribbon of the domain end is shunted and fixed. The 4-fiber jump wiring guide board is used to provide the optical fiber jumper cable for introduction/exit in the cable distribution box. The bow and fiber optic patch cords are neatly used. (4) Providing the above-mentioned various component devices and forming a passive optical component modular optical cable distribution box for use as a light relay terminal of different electrical network structures in the telecommunications equipment room [Embodiment] Please refer to FIG. 1 to FIG. The passive optical component modular light-harvesting wiring box of the present invention is mainly composed of a box body i and a cable distribution frame 2, and the box body 1 at least includes: a box body 1 having at least one or more inside the box body The groove base U, . . . is provided with a passive optical component module 12 on the groove base 11, and is connected to a fiber jumper guide plate 13 by the ▲ type 'light 70 pieces of the chess set 12, and then the box body A clearing type optical cable 3 is disposed on the side, and the grooved optical cable 3 is introduced into the optical cable distribution frame 2, and the groove type optical environment 3 is fixed to the side of the casing 1 through a thin and thin fixing base 4. Then, according to the number of the optical fiber ribbons 5 at the head end of the optical gauge, the optical fiber T 5 is sequentially fixed by the optical fiber buckle 6 and cleaned with the cleaning tape to clean the 1534132 fiber-optic headed MT optical fiber connector, and then protected by a protective cap. Spare; the cabinet 1 is erected on the optical fiber distribution frame 2; The box i is provided with various component devices to form a passive optical component modular cable distribution box, which is used as a cable terminal of different telecommunication network structures in the telecommunication room; the passive optical component module 12 is introduced into the wiring box and is fixed vertically. The passive optical component module 12 is a fiber optic fanout jumper module, an optical splitter module or an optocoupler module or other passive optical component module; the movable optical component module The front end interface is equipped with an LC fiber connector as an interface for connecting to the communication device side; the rear end interface of the dynamic optical device module 12 is respectively configured with a Μτ fiber connector according to different passive optical components in the module. Lc fiber optic connector or other fiber optic connector to facilitate quick connection to the trench cable 3; the fiber patch cord guide panel 13 is to connect the fiber patch cord from the communication device side to the LC fiber at the front end of the passive optical component module 12. The fiber optic patch cord guide board 13 is used as a fiber optic patch cord on the communication device side when the fiber optic patch cord is introduced into the egress cable distribution box, and the fiber optic patch cord is connected to the Optical-module do not affect the end element of the optical transmission characteristics of the overall system and tidy to use. The passive optical component modular optical cable distribution box provided by the invention has the following advantages when compared with other conventional technologies: 1. The invention provides a system for improving the management efficiency of the network management personnel by a single user. Management interface, which can manage large optical transmission networks constructed by multiple equipment vendors and multiple network technologies. 2. The invention is based on the invention that the integrated network management system can flexibly manage the optical transmission network constructed by different equipment vendors and different technologies. The detailed description above is for the specific description of one of the possible embodiments of the present invention, but the embodiment does not limit the scope of the invention by LV it, and the sound is not deviated from the spirit of the present invention. 6 The search for implementation or change 'should be included in the patent scope of this case. Not the above-mentioned 4 cases are not only innovative in terms of technical thinking, but also able to apply for H in accordance with the legal requirements of the above-mentioned multi-functions that should be fully in line with novelty and progressiveness. You have approved the invention patent application of this article to encourage the invention. BRIEF DESCRIPTION OF THE DRAWINGS The technical contents of the present invention and the effects of the objects of the present invention will be further understood from the following detailed description of the preferred embodiments of the invention and the accompanying drawings. The structural diagram of the combination of the passive optical component modularized optical cable distribution box and the optical fiber distribution frame of the present invention; the second is the structural configuration of the passive optical component modularized optical cable distribution box. Fig. 3 and Fig. 3 shows the passive optical component module The passive optical component module of the assembled optical cable distribution box is constructed in a circle. [Main component symbol description] 1354132 1 box body 11 groove base 1 2 passive optical element module 13 fiber jumper guide board 2 fiber distribution frame 3 grooved pear cable 4 light view fixed seat 5 fiber ribbon 6 fiber ribbon buckle