M395296 五、新型說明: 【新型所屬之技術領域】 本創作係有關於一種光纖通訊轉換設備,特別有關於一 需進行光纖理線的光纖通訊轉換設備。 ' 【先前技術】 光纖通訊由於具有長距離及高速傳輸的特色,近年已有遂 漸取代傳統銅線通訊的態勢。此外,亦有愈來愈多的通訊應 用,諸如網際網路、有線電視、網路電話、甚至電表/水表的' 度數查詢等,可以與光纖通訊設備整合,故使光纖通訊的廊用 層面不斷的擴大,與一般曰常甚至家居生活息息相關。 基於此原因,許多建物在新建之時,即有考劇光纖到府 (Fto To The Home)的目標而在每戶預先進行光纖線路的佈 建。然而,在大部分的情況下,於光纖佈建時,並益法預先考 慮或決定各用戶是否欲使用光纖通訊設備以及使用的需求。另 一方面,由於光纖線價格相當昂貴且易斷,又受限其本身的材 巧性’並無法在舰施X現場自行魏,故需在完成光纖配 線後預留-段適當長度的光纖,並用獨立且額外設置的一理線 盒(cablemanager),來收藏與保護過長的光纖線。 圖1為一習知光纖理線盒之使用示意圖。光纖理線盒1 具有殼體U、光纖繞線結構12及舰13。通孔13形成於殼 f 11上,以便光纖線5可以經由通孔13被引入光纖 内部。 f進行光纖佈線時,首先將光纖理線盒j安裝於牆上(圖 ^的適當位置,之後再經通孔13將光纖線5引入光纖理 ^益j部,並纏繞於光纖繞線結構12。如此-來,光纖線5 f配,,的過長部分’即可被整理安置於光纖理線盒i中 而受到保護。 4 M395296 裝狀序方面,仍有進—步研究改善的空間。 由以上敍述可知,f知安裝光纖的M395296 V. New Description: [New Technology Field] This creation department is about a fiber-optic communication conversion equipment, especially for a fiber-optic communication conversion equipment that needs to be fiber-optic cable. [Prior Art] Due to its long-distance and high-speed transmission characteristics, optical fiber communication has gradually replaced the traditional copper communication in recent years. In addition, there are more and more communication applications, such as Internet, cable TV, Internet telephony, and even meter/water meter 'inquiries, etc., which can be integrated with fiber-optic communication equipment, so the use of optical fiber communication is constantly changing. The expansion is closely related to the general and even home life. For this reason, many buildings were built at the time of the new construction, that is, the Fto To The Home target was pre-wired in each household. However, in most cases, when the fiber is deployed, the benefits are pre-considered or determined by each user's desire to use fiber-optic communication equipment and usage. On the other hand, because the price of the optical fiber cable is quite expensive and fragile, and it is limited by its own materiality, it cannot be self-propagated in the ship X. Therefore, it is necessary to reserve a fiber of appropriate length after completing the fiber wiring. And use a separate and additionally set cablemanager to collect and protect the long fiber optic cable. FIG. 1 is a schematic diagram of the use of a conventional fiber optic cable management box. The fiber management box 1 has a housing U, a fiber winding structure 12 and a ship 13. A through hole 13 is formed in the case f 11 so that the optical fiber 5 can be introduced into the inside of the optical fiber via the through hole 13. f When performing fiber-optic wiring, first install the fiber management box j on the wall (the appropriate position of the figure), and then introduce the fiber-optic line 5 into the fiber-optic structure via the through-hole 13, and wrap around the fiber-wound structure 12 In this way, the fiber-optic line 5 f, the over-length portion can be arranged and placed in the fiber management box i to be protected. 4 M395296 In terms of the order, there is still room for further research and improvement. As can be seen from the above description, it is known that the optical fiber is mounted.
中容易造成光纖損壞,即是安裝丰M J 的浪f,且f知技術中的光纖皆只 月匕收藏在固疋的位置’欠缺因應不同安裝需求時的 此些缺失,顯皆有亟待改進之處。 【新型内容】It is easy to cause damage to the fiber, that is, the wave of the MJ is installed, and the fiber in the technology knows that the fiber is only stored in the solid state. The lack of such a lack of installation requirements is obvious. At the office. [New content]
A本作之主要目的為提供光纖通訊設備轉換裝置在不同 安裝模式下的光纖理線裝置。 本„之另-目的為提供方便簡單且不浪 資源的光纖理線裝置。 1The main purpose of this work is to provide a fiber optic cable management device with different optical fiber communication equipment conversion devices in different installation modes. The other purpose of this is to provide a fiber optic cable device that is convenient, simple, and resource-free.
本創作提供了一種光纖通訊設備轉換裝置,包括:一殼 體;-光纖線’用以提供-光通訊信號;—光電轉麵組,安 裝於該殼體内;-第-光纖繞線結構,形成於該光電轉換模組 士:以於該,電轉換模組安裝於該殼體_,提供光纖理線功 月b,以及第一光纖繞線結構,形成於該殼體内側,以提供光 纖理線功能;其巾’該光纖線侧繞於該第—與第二 結構中之任一者處。 光電轉換模組可以包括:至少一個電子元件;一用以安裝 該至少-個電子it件的電路板;以及—安裝於該電路板上的丄 殼體其巾,m錄結獅成於上殼體之上方表面。 殼體更可包括-第-通孔,俾於光電轉換模組安裝於殼體 内時,使光纖線經第一通孔進入殼體,並纒繞於第一光纖繞線 結構上。其中,第一通孔位於殼體的一侧邊。 至少一個電子元件可與上殼體安裝於電路板的同一侧,且 上殼體設有複數個散熱孔。 用 殼體更可包括複數個卡合結構’俾供與電路板相互卡合之 6 M395296 至>、二個電子元件可包括:至少一個光電訊號轉換元件, 用以將該巧訊錢轉換成—電子通訊信號,絲該電子通訊 k號轉換成该光通訊信號;至少一個網路通訊元件與該至少 -個光電訊賴換元件電連接,轉遞處職電子通訊信號; 以及至少-個電子通訊連接器,電連接至網路通訊元件,以 輸出及輸入該電子通訊信號。 设體可以包括:一底座,設有一第二通孔;其中,該第二 光纖繞線結構形成於底座内側’俾使光纖線可經第二通孔進入 设體’並ϋ繞於第二光纖繞線結構或第一光纖繞線結構上;以 及一上蓋,樞接於該底座。 光纖通訊設備轉換裝置更可包括:一電源裝置,連接一外 部電源,以提供該光電轉換模組電力;以及一備用電源,内建 於該殼體中,以於外部電源中斷供電時,提供光電轉換模组電 力。 本創作亦提供一種光纖通訊設備轉換裝置,包括:一殼 體:一光纖線,用以提供一光通訊信號;一光纖繞線結構,設 於,體内側,以提供該光纖線之光纖理線功能;複數個光電轉 換模組卡合結構,設於殼體内側,其用以與一光電轉換模組相 卡合;以及一光電轉換模組’於其上形成有另一光纖繞線結 構,以於該光電轉換模組安裝於該殼體内後,提供該光纖線之 光纖理線功能。 【實施方式】 為方便說明起見,茲先行說明下列各圖式;其中,圖2及 圖3分別為本案之一較佳光纖通訊轉換裝置2的頂部及底部之 立體視圖;又,圖4係為圖2所示之光纖通訊轉換設備已安裝 光電轉換模組之示意圖;至於圖5,其則為圖2所示之光纖通 訊轉換設備之分解圖。 申言之,在圖2與圖3中,光纖通訊設備轉換裝置2係被 設計成可容置安裝一光電轉換模組21,且其外部為一殼體22。 7 M395296 其中’光電轉換模組21將留待後續詳述;至於殼體22, 其則包括底座221及上蓋222。亦即,在殼體22的一側邊開 有第一通孔223,以容許光纖線通過。而在底座上221上亦開 有可容許光纖線通過的第二通孔224。底座221上更具有壁& 固定結構226,以便殼體22可以安裝固定在牆上。 底座221與上蓋222之間係以框接結構225結合,使上蓋 222可相對底座221樞轉,俾提供殼體22開閉之功能。另外, 底座221與上蓋222上分別設有相對應的卡合結構2214盘 2223(參見圖4),以及2213與2222(參見圖5),以於上蓋2^2 關閉於底座221上時,提供卡合功能。 請再參閱圖4及圖5,其中,光電轉換模組21包括一上 殼體211、一電路板212以及安裝於電路板上的至少一個電子 元件213。 其中,上殼體211與電子元件213皆安裝在電路板212的 同一侧。上殼體211與電路板212間,係以數個固定柱215固 疋,其中母一固定柱215的兩端分別穿透位於上殼體211上的 固定孔2113及電路板212上的固定孔2121。 又,上殼體211的上方表面形成有一第一光纖繞線結構 2111,以提供光纖理線功能。此外,上殼體211以側邊2114 與電路板212保持一適當距離’且其表面尚分佈有多個散熱孔 2112» * 光電轉換模組21的最基本功能,為提供光通訊線路/電子 通ifl線路的連接及訊號的轉換,因此,電子元件213至少具有 以下的幾種元件:至少一個將光通訊信號轉換成電子通訊信 號’或將電子通訊信號轉換成光通訊信號的光電訊號轉換元件 2131,至少一個網路通訊元件2132 ,與該至少一個光電訊號 轉換元件2131電連接,以傳遞/處理電子通訊信號;以及至少 一個電子通訊連接器2133,用以連接網路通訊元件2132與電 子通線路(圖中未示)。 除網路通訊信號外,光纖通訊設備轉換裝置2更可整合連 8 M395296 接其他的域線路如树電視麟、傳統電話線料。也就是 說,光纖通訊設備轉換裝置2可以是一個家用閛道器 (Residential Gateway),整合路由器(R〇uter)、交換式 (Switching Hub)、纜線/xDSL數據機等設備,而連結了兩種^ ΐΓ 3 ί的網路架構’提供了—種使不同網路架構上的設備 月b相互連接、運作的多功能平台。 ^如’如圖5所示,由槽型開口 229露出殼體22外的一 ΪΪί通訊連接11 2133巾,可以包括各式網路及電話插座、 頭等連接器,而提供網路線7電視電纜線連接 ^戈電話線輸入/輸出(Hne in/line 〇ut)等功能,並進而提供網際 祐…i網路電#(V〇IP)、傳統電話、及有,線電視等之連接服務: ίϊίί 轉換裝置2整合了網際網路、傳統電話:路 元㈣㈣酬路服務。#然,前述網路通訊 整合的麵路或服務及制連接轉制個別或 顯干fίί 212上更安裝有數個發光二極體2134,用以 態’並以導光元件216使各發光二極體 觀察β X〜、丨至上蓋222的視窗222卜以便供使用者 以使於底座-内側, 22内還包細。如圖5所示’殼體 只要將電路板212對準卡合結構瓜2的位 竹^使光纖通訊設備轉換裝置2的-f功能能正常運 作’光電轉換模組21必需外接雷为 二力月匕此正吊運 電源接頭2Π,在岭完=接,;^市電等)。圖5所示的 部電中未孔227,而與外 電話等功能正常運作,如Η 5所為一了在^電時仍能使例如網路 借用雷、s < 如圖5所不’在殼體22内另提供了一 電源6 ’崎外部魏帽供電時,提供光電轉換模組Μ 9 M395296 電力。備用電源6可為-電池,安裝於電池槽228中,方便於 需要時更換。 藉由在光電轉換模組21及殼體22上分別提供第一光纖繞 ,結構2ΐιι及m錄結構2211,规通訊設備轉換裝置 可在下列兩種安裝模式下提供光纖理線功能。 ±第一種模式,如圖4所示,是在光電轉換模組21已安裝在 j體22的情泥下進行光纖理線;亦即,此時將光纖線3經由第 通孔223穿巧體22 β ’即可直接纒繞於第一光纖繞線結構 迠上。由於第一通孔223是位於殼體22的側邊,且第一光纖 二線,構2111是形成在光電轉換模組21的上殼體211或其他 便操作繞線之處,故使用者只要打開上蓋222即可進行理線 動作’極為方便。 & m ^二種模式,是在没有安裝光電轉換模組21的情況下,直 忒體22進行光纖理線。應用此種模式時,如圖5所示,將 雉έ士經由第二通孔224引入殼體22内,並使用第二光纖繞 燄二1 λ/11整理光纖線3。如此一來,殼體22本身就成為光 f理線盒,而在日後若欲安裝光電轉換模組21時,只要 蓋^22,並將光電轉換模組21卡合至殼體22的卡合結 各的時上^可’完全不需要再使用安裝工具’而原先作為理線 2^-2 2,因為已與容置光電轉換模組21的功能整合,故 @ i 或另外加裝殼體。在安裝光電轉換模組21時,光纖 要骆在第二光纖繞線結構2211的部分可以不需取下’只 件連接至光纖接頭214 ’ 接接至光電訊號轉換元 2211 若實際的應用情況有需要,繞於第二光纖繞線結構 纖繞線可部分或全部取下’並重新纏繞在第一光 進绫i使ΐ第一種模式理線時’光纖線3除了自第一通孔223 摆卜可自第二通孔224進入殼體22。請參見圖3,若選 (I7較靠近壁掛固定結構226)的第二通孔224引進光纖 10 M395296 線上,因為該位置靠近光電轉換模組21與殼體22並未完全密 合安裝的—端(參見圖4),使光纖線3得以自第二通孔224引入 殼體22後,再自光電轉換模組21的下方引至第一光纖繞 構2111進行理線。 …The present invention provides a fiber optic communication device conversion device, comprising: a casing; an optical fiber cable for providing an optical communication signal; a photoelectric conversion surface group installed in the casing; and a - fiber-optic winding structure, Formed in the photoelectric conversion module: the electrical conversion module is mounted on the housing _, providing the fiber management line b, and the first fiber winding structure is formed on the inner side of the housing to provide the optical fiber a cable function; the towel's fiber line is wound around either the first and second structures. The photoelectric conversion module may include: at least one electronic component; a circuit board for mounting the at least one electronic component; and a cymbal casing mounted on the circuit board, and the lion is formed in the upper shell The upper surface of the body. The housing may further include a first through hole for inserting the optical fiber into the housing through the first through hole and surrounding the first optical fiber winding structure when the photoelectric conversion module is mounted in the housing. Wherein, the first through hole is located at one side of the housing. At least one electronic component can be mounted on the same side of the circuit board as the upper casing, and the upper casing is provided with a plurality of heat dissipation holes. The housing may further include a plurality of engaging structures 俾6 M395296 to >, and the two electronic components may include: at least one photoelectric signal conversion component for converting the smart money into - an electronic communication signal, the electronic communication k is converted into the optical communication signal; at least one network communication component is electrically connected to the at least one photoelectric communication component, and the electronic communication signal is transmitted; and at least one electronic The communication connector is electrically connected to the network communication component to output and input the electronic communication signal. The installation body may include: a base, and a second through hole; wherein the second optical fiber winding structure is formed on the inner side of the base, so that the optical fiber wire can enter the installation body through the second through hole and wrap around the second optical fiber a winding structure or a first fiber winding structure; and an upper cover pivotally connected to the base. The optical fiber communication device conversion device may further include: a power supply device connected to an external power supply to provide power of the photoelectric conversion module; and a backup power source built in the casing to provide photoelectricity when the external power supply is interrupted Convert module power. The present invention also provides a fiber optic communication device conversion device, comprising: a casing: a fiber optic cable for providing an optical communication signal; and a fiber winding structure disposed on the inner side of the body to provide the fiber optic cable of the fiber optic cable a plurality of photoelectric conversion module engagement structures disposed on the inner side of the casing for engaging with a photoelectric conversion module; and a photoelectric conversion module 'having another optical fiber winding structure thereon After the photoelectric conversion module is installed in the casing, the fiber optic cable function of the optical fiber line is provided. [Embodiment] For convenience of description, the following figures are first described; wherein, FIG. 2 and FIG. 3 are respectively a perspective view of the top and bottom of a preferred optical fiber communication conversion device 2; FIG. 5 is an exploded view of the optical fiber communication conversion device shown in FIG. 2; In other words, in FIG. 2 and FIG. 3, the optical fiber communication device conversion device 2 is designed to accommodate a photoelectric conversion module 21, and the outside thereof is a casing 22. 7 M395296 wherein the 'optoelectronic conversion module 21 will be left to be described in detail later; as for the housing 22, it includes a base 221 and an upper cover 222. That is, a first through hole 223 is formed in one side of the casing 22 to allow the optical fiber to pass. A second through hole 224 is also formed in the base 221 for allowing the optical fiber to pass. The base 221 further has a wall & fixing structure 226 so that the housing 22 can be mounted and fixed to the wall. The base 221 and the upper cover 222 are coupled by a frame structure 225, so that the upper cover 222 can pivot relative to the base 221, and the function of opening and closing the housing 22 is provided. In addition, the base 221 and the upper cover 222 are respectively provided with corresponding engaging structures 2214, 2223 (see FIG. 4), and 2213 and 2222 (see FIG. 5), when the upper cover 2^2 is closed on the base 221, The snap function. Referring to FIG. 4 and FIG. 5, the photoelectric conversion module 21 includes an upper casing 211, a circuit board 212, and at least one electronic component 213 mounted on the circuit board. The upper casing 211 and the electronic component 213 are all mounted on the same side of the circuit board 212. The upper housing 211 and the circuit board 212 are fixed by a plurality of fixing posts 215. The two ends of the female fixing post 215 respectively penetrate the fixing holes 2113 on the upper casing 211 and the fixing holes on the circuit board 212. 2121. Further, a first optical fiber winding structure 2111 is formed on the upper surface of the upper casing 211 to provide a fiber optic cable function. In addition, the upper casing 211 is maintained at an appropriate distance from the circuit board 212 by the side 2114 and a plurality of heat dissipation holes 2112 are disposed on the surface thereof. The most basic function of the photoelectric conversion module 21 is to provide an optical communication line/electronic communication. The connection of the ifl line and the conversion of the signal, therefore, the electronic component 213 has at least the following components: at least one photoelectric signal conversion component 2131 that converts the optical communication signal into an electronic communication signal' or converts the electronic communication signal into an optical communication signal. At least one network communication component 2132 electrically coupled to the at least one optoelectronic signal conversion component 2131 for transmitting/processing electronic communication signals; and at least one electronic communication connector 2133 for connecting the network communication component 2132 to the electronic communication line (not shown). In addition to the network communication signal, the fiber-optic communication device conversion device 2 can be integrated with 8 M395296 to connect other domain lines such as tree TV Lin, traditional telephone line material. That is to say, the optical fiber communication device conversion device 2 can be a residential gateway, an integrated router (R〇uter), a switching (Switching Hub), a cable/xDSL data device, and the like. The network architecture of ^ 3 ί provides a versatile platform for interconnecting and operating devices on different network architectures. ^ As shown in FIG. 5, a slot-shaped opening 229 exposes a communication connection 11 2133 outside the housing 22, which can include various types of network and telephone sockets, first-class connectors, and provides a network route 7 television cable. Line connection ^G telephone line input / output (Hne in / line 〇ut) and other functions, and then provide Internet access ... i network electricity # (V〇IP), traditional telephone, and cable TV, etc. connection services: Ίϊίί The conversion device 2 integrates the Internet and traditional telephones: Lu Yuan (4) (4) Reward Service. #然, the aforementioned network communication integration of the way or service and the connection and conversion of the individual or the display of the individual or the display of the light-emitting diode 2134 is also installed with a light-emitting element 216 to make each light-emitting diode The window 222 of the upper cover 222 is observed for the user to make the base-inside 22 also thin. As shown in FIG. 5, the housing of the optical fiber communication device conversion device 2 can be operated normally by simply aligning the circuit board 212 with the positioning structure of the melon 2, and the photoelectric conversion module 21 must be externally connected. This month, we are lifting the power connector 2Π, at the end of the Ling = connection, ; ^ city power, etc.). The part shown in Figure 5 has no holes 227, and the functions such as the external telephone are normally operated. For example, when the power is 5, the network can still borrow, for example, the network, and the s < The housing 22 is additionally provided with a power supply 6 'Saki external Wei Cap power supply when providing photoelectric conversion module Μ 9 M395296 power. The backup power source 6 can be a battery and is mounted in the battery compartment 228 for easy replacement when needed. The first optical fiber winding is provided on the photoelectric conversion module 21 and the casing 22, and the structure 2ΐιι and the m recording structure 2211, and the communication device conversion device can provide the optical fiber management function in the following two installation modes. The first mode, as shown in FIG. 4, is to perform optical fiber management under the condition that the photoelectric conversion module 21 has been mounted on the j body 22; that is, the optical fiber 3 is worn through the through hole 223 at this time. The body 22 β ' can be directly wound around the first fiber winding structure. Since the first through hole 223 is located at the side of the casing 22 and the first optical fiber is in two lines, the structure 2111 is formed in the upper casing 211 of the photoelectric conversion module 21 or other operation winding, so the user only needs It is extremely convenient to open the upper cover 222 to perform the cable management operation. In the case of & m ^, the straight body 22 performs fiber processing without the photoelectric conversion module 21 being mounted. When this mode is applied, as shown in Fig. 5, the gentleman is introduced into the casing 22 via the second through hole 224, and the optical fiber 3 is finished using the second optical fiber flame 1 λ/11. In this way, the housing 22 itself becomes an optical cable management box, and if the photoelectric conversion module 21 is to be mounted in the future, the cover 22 and the photoelectric conversion module 21 are engaged to the housing 22. At the time of the knot, the 'installation tool' is not needed at all, but originally used as the cable 2^-2 2, because it has been integrated with the function of the accommodating photoelectric conversion module 21, so @ i or another housing . When the photoelectric conversion module 21 is installed, the portion of the optical fiber to be wound on the second optical fiber winding structure 2211 can be removed from the optical fiber connector 214 without the 'only piece connected to the optical fiber connector 214'. It is required that the fiber winding around the second fiber winding structure can be partially or completely removed and re-wound in the first light input 绫i so that the first mode is wired. The housing 22 can be accessed from the second through hole 224. Referring to FIG. 3, if the second through hole 224 of the I7 is closer to the wall mounting structure 226, the optical fiber 10 M395296 is introduced, because the position is close to the photoelectric conversion module 21 and the housing 22 is not completely tightly mounted. (See FIG. 4), after the optical fiber 3 is introduced into the casing 22 from the second through hole 224, it is led from the lower side of the photoelectric conversion module 21 to the first optical fiber winding 2111 for wiring. ...
在進行有關本案之光纖通訊設備轉換裝置2的安裝時,首 先對光纖佈線後之預留長度的光纖線3的末端,提 進行理線及/或光電雛模_钱。 X 上述的光纖佈線程序通常但不限為一光纖到府佈線程序。 且,在佈線至每一戶或每一使用單位時,由於光纖線本身的特 性二需預留一定長度的光纖以利後續安裝及所欲連接設備位置 的彈性配置,故’通常不會在佈線現場直接裁剪。是以光纖佈 f程序進行至光纖線末端的光纖理線及/或裝置安裝的程序 時,又以佈線當時是否已確定要安裝光電轉換模組 如下二種安裝模式: 刀為 模式一:佈線時已確定要安裝光電轉換模組,則提供且鱗 線結構的光電轉換模組,即將圖5所示的上殼體211以固g 至電路板212上,以組合成一完整的光電轉換模組21。 再來將光電轉換模組21對準殼體22上的卡合結構2212推入, 以將光電轉換模組21卡合於殼體22中,形成如圖4所示之釺 合狀態。將光纖線3自第一通孔223或第二通孔224弓丨入並= 於第光纖繞線結構2111上,最後再連結至光纖接頭214卜 即可完成安裝。 模式二:佈線時並未確定是否要安裝光電轉換模組, ,不安裝光電轉換模組21至殼體22的情況下,將光纖線3自 第二通孔224引入,並繞於第二光纖繞線結構221丨上。 ίΪΪϋ,將上蓋222與底座221蓋合,即可將光纖線3 適的收藏於殻體22中。 若曰後又決定要增加安裝光電轉換模組21時,則 安裝光電轉換模組21於殼體22中。其中,在大部分的 並不需要取下已繞在第二光纖繞線結構训上的光纖線'3,而 11 可^接將光電轉換模組21卡合入殼體2 C接至光_ 214,或直接接至光f訊_=2= 22 η 把ΐ=部繞於第二光纖繞線結構 取下後女裝光電轉換模纟且2丨於糾<§* ·> ==21Γ雜湖棘214,_接至光電訊 ,ίίί,極易f拉扯或折麗等動作而受損,故於上述的 將殼體22固定於所欲安裝的位置(如利 用圖3所不的壁掛固疋結構226將殼體22固定於牆上卜 -22的安裝位置的選擇更具彈性,無論是第 ^ 或疋第二通_孔224均可在殼體22上的多個位置同時 1留。-如圖4所示,可在殼體22的兩側均開設第-通孔 進行光纖理線程序時再擇一引入光纖線3 ,抑或如圖3 由=^底座221上預留二個以上可開通的圓孔位置,於需使 第一光纖繞線結構2211進行光纖理線時選擇直中一個適當 的圓孔位置:開通後形成第二通孔224,以便引^光纖線3。 本巧作藉由在光纖通訊設備轉換裝置中提供二種不同的安 裝理線模式及結構,將可使得同—聽可整合理線盒及安裝光 換模組的功能,如此-來,不但大幅簡化諸如家用閘道器 等光電轉換裝置於光纖佈線時的安裝程序,也使得佈線之程序 及空間利用更為簡潔,降低光纖線受損的機會。 上述各實施僅為說明而非限制本創作,熟習本創作技術之 人士得以其他方式變化實施之,然皆不脫申請專利範圍所欲保 護之範疇。 M395296 【圖式簡單說明】 圖1為習知光纖理線盒立體視圖。 圖2為根據本創作之光纖通訊轉換設備較佳實施例之立體視 圖。 圖3為圖2所示之光纖通訊轉換設備的底端之立體視圖。 圖4為圖2所示之光纖通訊轉換設備已安裝光電轉換模組之示 意圖。 圖5為圖2所示之光纖通訊轉換設備之分解圖。 【主要元件符號說明】 2光纖通訊設備轉換裝置 21光電轉換模組 211上殼體 2111第一光纖繞線結構 2112散熱孔 2113固定孔 2114側邊 212電路板 2121固定孔 213電子元件 2131光電訊號轉換元件 2132網路通訊元件 2133電子通訊連接器 2134發光二極體 214光纖接頭 215固定柱 216導光元件 217電源接頭 22殼體 13 M395296 221底座 2211第二光纖繞線結構 2212卡合結構 2213卡合結構 2214卡合結構 222上蓋 2221視窗 2222卡合結構 2223卡合結構 223第一通孔 224第二通孔 225樞接結構 226壁掛固定結構 227電源孔 228電池槽 229槽狀開口 3光纖線 6備用電源When the installation of the optical fiber communication device conversion device 2 of the present invention is carried out, the end of the optical fiber cable 3 of the reserved length after the optical fiber wiring is firstly provided for cable management and/or optical mode. X The above fiber routing program is usually, but not limited to, a fiber-to-the-home wiring program. Moreover, when wiring to each household or each unit of use, due to the characteristics of the optical fiber line itself, a certain length of optical fiber needs to be reserved for the subsequent installation and the elastic configuration of the position of the device to be connected, so 'it is usually not wired. Direct cutting on site. When the fiber optic cloth f program is used to carry out the procedure of the fiber optic cable and/or device installation at the end of the fiber optic cable, the following two installation modes are determined whether the wiring is installed at the time: the knife is the mode one: when wiring It has been determined that the photoelectric conversion module is to be installed, and the photoelectric conversion module of the scale structure is provided, that is, the upper casing 211 shown in FIG. 5 is fixed to the circuit board 212 to be combined into a complete photoelectric conversion module 21 . Then, the photoelectric conversion module 21 is pushed into the engaging structure 2212 on the casing 22 to engage the photoelectric conversion module 21 in the casing 22 to form a coupled state as shown in FIG. The optical fiber 3 is bowed from the first through hole 223 or the second through hole 224 and is connected to the second optical fiber winding structure 2111, and finally connected to the optical fiber connector 214 to complete the installation. Mode 2: When the wiring is not determined whether the photoelectric conversion module is to be installed, if the photoelectric conversion module 21 is not mounted to the casing 22, the optical fiber 3 is introduced from the second through hole 224 and wound around the second optical fiber. The winding structure 221 is on the top. In other words, the upper cover 222 and the base 221 are covered, so that the optical fiber 3 can be appropriately stored in the casing 22. If it is later decided to add the photoelectric conversion module 21, the photoelectric conversion module 21 is mounted in the casing 22. Among them, most of the optical fiber wires '3 that have been wound around the second optical fiber winding structure training need not be removed, and 11 can be connected to the photoelectric conversion module 21 to be connected to the housing 2 C to the light _ 214, or directly connected to the light f _ = 2 = 22 η ΐ = part of the second fiber winding structure is removed after the women's photoelectric conversion module and 2 丨 纠 § § § § § 21 Γ 湖 棘 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The choice of the wall-mounted solid structure 226 to fix the housing 22 to the mounting position of the wall -22 is more flexible, whether the second or second vent 224 can be simultaneously located at multiple positions on the housing 22. If the first-through hole is opened on both sides of the casing 22 for the fiber management process, the fiber-optic cable 3 may be introduced, or as shown in FIG. For more than one openable hole position, when the first fiber winding structure 2211 is required to perform fiber processing, a suitable round hole position is selected: after opening, a second through hole 224 is formed to lead the optical fiber line. 3. By providing two different installation cable modes and structures in the fiber-optic communication device conversion device, the function of the same---------------------------------------- It not only greatly simplifies the installation procedure of the photoelectric conversion device such as the home gateway device in the optical fiber wiring, but also makes the wiring program and space utilization more compact and reduces the chance of damage of the optical fiber line. The above embodiments are merely illustrative and not limiting. Creation, those who are familiar with the creative technology can be implemented in other ways, but they do not deviate from the scope of the patent application scope. M395296 [Simple diagram of the diagram] Figure 1 is a perspective view of a conventional fiber optic cable box. 3 is a perspective view of a preferred embodiment of the optical fiber communication conversion device according to the present invention. Figure 3 is a perspective view of the bottom end of the optical fiber communication conversion device shown in Figure 2. Figure 4 is a perspective view of the optical fiber communication conversion device shown in Figure 2 Figure 5 is an exploded view of the optical fiber communication conversion device shown in Figure 2. [Main component symbol description] 2 optical fiber communication device conversion device 21 Photoelectric conversion module 211 upper housing 2111 first optical fiber winding structure 2112 heat dissipation hole 2113 fixing hole 2114 side 212 circuit board 2121 fixing hole 213 electronic component 2131 photoelectric signal conversion component 2132 network communication component 2133 electronic communication connector 2134 light Diode 214 fiber connector 215 fixing post 216 light guiding element 217 power connector 22 housing 13 M395296 221 base 2211 second fiber winding structure 2212 engaging structure 2213 engaging structure 2214 engaging structure 222 upper cover 2221 window 2222 engaging structure 2223 engaging structure 223 first through hole 224 second through hole 225 pivot structure 226 wall hanging fixed structure 227 power hole 228 battery slot 229 slot opening 3 fiber line 6 standby power supply