M324885 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一光纖面板結構,尤指一種適用於埋 入式壁面插座之面板,以面板上所預留之光纖插座,提供 施工單位更容易將預留之光纖纜線配置於一般家庭或辦 公室中,進一步可降低配線組裝成本者。 【先前技術】 隨著網路科技時代的來臨,家用網路的普及上網的需 求速度也同樣大幅提昇,而既有的網路顯然無法負荷日益 增加的網路資料傳輸,故政府機關大力推動光纖骨幹架 設’以光纖傳輸之高速資料傳遞的特性來因應資訊爆炸的 時代,傳統電話系統的銅電線已經逐漸被光纖電繞取代。 而光纖(Opticalfibre)是光導纖維的簡寫,是一種利 用光在玻璃或塑膠製成的纖維中的全反射原理而達成的 光傳導工具。微細的光纖封裝在塑膠護套中,使得它能多句 彎曲而不至於斷裂。通常,光纖的一端的發射裝置使用發 光二極管(light emitting diode,LED)或一束鐳射將光脈衝 傳送至光纖,光纖的另一端的接收裝置使用光敏元件檢測 脈衝。在曰常生活中,由於光在光導纖維的傳導損耗比電 在電線傳導的損耗低得多,光纖被用作長距離的資訊傳 遞,隨著光纖的價格日漸降低,光纖也被用於醫療和娛樂 的用途。 ’、 W> 光纖的結構為圓形且細如髮絲之玻璃纖維,主要分為 M324885 兩部分,裏層稱核心(Core)通常以玻璃做成,而外層則 稱為纖殼(Clad)。因為光纖是屬於介質波導之一種,故 只要條件許可,也可使用特殊的塑膠材料或液體材料。由 於光纖的核心的直徑只有數個微米(百萬分之一米)至數 十微米,而纖殼的直徑也僅在一百至兩百微米之間,其本 身相當弱。因此,在一般應用中,會於外層再鍍上一層 塑膠’並再加一層尼龍,以免受到外界化學物質的侵蝕。 若將幾條如上述一般之光纖維起來,就可形成所謂的光纖 電纜了,即簡稱為光纜。 光纖傳輸的優點包括了 : 1·低損失與寬頻帶;2·尺寸 小及彎曲半徑小;3·不導電、不輻射、不感應;4·重量輕 等等。低損失與寬頻帶所提供的超大傳輸量,甚至一條光 纖中一次可容納二萬四仟門電話同時通話傳送。貝爾實驗 所發展的光導系統,更可結合聲音、類比數據、數位數據、 影像電話及各種視訊的服務,因此,這對資訊的傳輸產生 了相當大的革命,這種傳輸方式將會是未來有線電視臺傳 播視訊的主流,更以光纖傳輸的方式深入每一個家庭。 因此’於未來新的建築物内均會預留以及埋設光纖纜 線’並分佈於各樓層以及各間隔所使用空間内,而往往該 光纖網路也就是與電話線路以及一般室内電源線路或電 源開關埋設於同一通道之内以節省埋設時所需之施工成 本’故如何適用於各種不同埋設方式以及不同用途所設置 之配電盒,進而將其覆蓋並予以美化,同時又能兼具預留 光纖連接埠的魏,是為本創狀最大的特色。 M324885 【新型内容】 本創作之第一目的,在於提供一種光纖面板結構,其 係利用具有光纖插座之面板,可直接替換原有家用壁上配 電盒之蓋板,使其埋設壁中之光纖纜線於配線施工時可輕 易與本創作之面板所提供之光纖連接器連結。 本創作之另一目的,在於提供一種光纖面板結構,其 係利用該面板上所設之理線單元可提供過長之光纖電纜 固定並繞線於該面板之上,達到可避免光纖電纜因繞線拱 起所造成施工不便,進而影響施工效率者。 本創作之又一目的,在於提供一種光纖面板結構,其 係利用該兩相對應開孔所對應之結合機構,可分別置入一 拉門模組以及一檔板,並可配合該光纖連接器結合位置所 對應之該開孔,可將該拉門模組與該檔板於該兩結合機構 内任意取出對調交換組裝者。 ^本創作之再一目的,在於提供一種光纖面板結構,其 係利用一塞板將該光纖面板結構之該容置孔未使用之部 分予以封閉者。 為達上述之目的,在於提供一種光纖面板結構,其係 主要包括有:一蓋板、至少一容置孔、複數個理線單元、 至夕兩開孔、至少一固定座、至少一光纖連接器、至少一 ,合機構、以及至少—閘門。該蓋板其係具有一預設板 厚二且更包括有一第一板面及一第二板面。該閘門係結合 於該結合機構之内,其至少包括下列其—:—拉門模組或 M324885 一檔板。 該容置孔係可將複數個模組化之插座透過該容置孔 顯露於該光纖插座之面板外,提供使用者控制電源開關或 透過不同性質之插座連接藉由電信電纜獲取數據資料。 該兩開孔係設置於該預設板厚之相對兩侧邊處,且該 兩開孔之位置係相互對應,並位於該蓋板同一侧邊。該第 二板面上且相對於該兩開孔後方之預設位置處設置有該 固定座,係可將該光纖連接器擇一固接於該兩固定座内; 更於該第二板面上且大致相對位於該兩開孔位置處後方 分別設置有該結合機構,其係可令該閘門或該拉門模組固 接於該結合機構之内。 於該第二板面上設置有複數個理線單元,可將該光纖 電纜沿著該理線單元纏繞,並固定於該理線單元之上,可 避免光纖電纜因線頭過長且繞線拱起所造成施工不便,進 而影響施工效率者。利用該塞板結合於該容置孔之内,令 該容置孔未使用之部分予以封閉,且該塞板結合於該容置 孔内恰與該蓋板之該第一板面呈水平狀態者。於該蓋板之 該第一板面上設置有複數個接合孔,並透過複數個螺絲結 合於相符規格之一配電模組上。 【實施方式】 為了能更清楚地描述本創作所提出之光纖面板結 構,以下將配合圖示詳細說明之。 請參閱圖一、圖二所示,圖一、圖二為本創作之光纖 M324885 面板結構第一較佳實施例之三視圖以及後側視圖。其中, 光纖面板結構1主要係由··一蓋板u、至少一容置孔12、 複數個理線單元13、至少兩開孔14、至少一固定座15、 至少一光纖連接器16、至少一結合機構17、以及至少一 閘門18所共同組成。該蓋板丨丨其係具有一預設板厚11〇, 且更包括有一第一板面11卜一第二板面112以及複數個 接合孔113。該閘門is係結合於該結合機構17之内,其 至少包括下列其中之一··一拉門模組181或是一檔板182。 该光纖面板結構1係可藉由該蓋板η上所設置之複 數個接合孔113透過複數個螺絲2結合於相符規格之一配 電模組3 (另示於圖三)之上者。 請參閱圖三所示,圖三為本創作之光纖面板結構第一 較佳實施例之組裝示意圖。其中,該配電模組3係埋設於 牆壁之内並將該配電模組3之開口處裸露於外,其包括 有·一配電盒31、至少一插座框架32、以及至少一插座 33。該配電盒31内緣預留複數個穿孔311,於該配電盒 31埋設於牆壁時,可將埋設於牆壁内所預留之管線(電 源線、電話線、光纖、以及其他電纜線)透過該穿孔311 匯集於該配電盒31巾,並預留各別管線之線頭於該配電 盒31内,以利與不同用途之該插座33做電性連接。該配 電益31預δ又有複數個螺孔M2,可與該插座框架32上所 預没之複數個螺孔321藉由複數個螺絲2相互結合,且該 配電盒31可以結合至少一個插座框架32於其上。 忒插座框架32上預設有一固定框322,該固定框322 M324885 大致可卡固三個插座33,於同一固定框322内可卡固組 裝不同用途之插座33以提供不同之用途使用,故該插座 33更可以是··電話插座、網路插座、電視(同軸電纜) 插座、壁面開關、3孔AC插座、以及2孔八匚插座其中 之一° 更於該插座框架32之螺孔321上方設置有一結合孔 323,可提供該光纖面板結構丨上之複數個接合孔ιΐ3藉 由複數個螺絲2結合於該插座框架32之上。由於該插座 33以及該插座框架32與該配電盒31係皆為制式模組化 之產品,且亦有固定的規格與尺寸協定,係屬於業界廣泛 使用之技術規範,而非本創作之重點技術特徵,故在此不 再逐一贅述。 該光纖面板結構1之該容置孔12係設置於該第一板 面111上並貝穿於該第二板面H2。於圖三所示之本創作 第-較佳實細巾,該域面減構丨係包括有三組容置 孔12,其結合於具有三組插座框架32之該配電盒31之 上,使該光纖面板結構丨上所設置之各別該容置孔12可 與忒配電盒31上各別該插座框架32上之該固定框322 相對應,進而令該固定框322上所卡固之該插座33置入 於該容置孔12之内,並與該蓋板u之第一板面m大致 保持為同-水平面上,以提供外界連接該插頭33做電性 連接者。 请參閱圖四A所示,圖四A為本創作之光纖面板結 構之第二較佳實施侧。由於圖四A之本創作光纖面板 M324885 結構第二較佳實施例其大體上與圖三所示之第一較佳實 施例類似,故相同之元件與結構以下將不再贅述。 本創作之第二較佳實施例的光纖面板結構與前述第 一較佳實施例之不同點在於,該第一板面U1係僅有一組 該容置孔12並貫穿於該第二板面n2者。 請參閱圖四B所示,圖四b為本創作之光纖面板結 構之第三較佳實施例圖。由於圖四B之本創作光纖面板 結構第三較佳實施例其大體上與圖三所示之第一較佳實 施例類似,故相同之元件與結構以下將不再贅述。 本創作之第三較佳實施例的光纖面板結構與前述第 一較佳實施例之不同點在於,該第一板面ln係有二組該 容置孔12並貫穿於該第二板面112者。 請參閱圖五A、圖五B並參考圖二所示,圖五A、 圖五B為本創作之光纖面板結構之立體示意圖及另一視 角之立體示思圖。其巾,該光纖面板結構丨其該兩開孔 14係分別設置於該預設板厚11〇冑,且該兩開孔14之位 置係相互對應,並位於該蓋板u之同―侧。藉由此種獨 特的設計,使得本創作之光纖面板結構i可以藉由把蓋板 11順時鐘(或逆時鐘)水平旋轉18〇度角,而把兩開孔 14的位置從蓋板li的-側邊旋轉至另—侧邊(例如從圖 五A的左邊轉至右邊),而同時仍可選擇把光纖連接器6 設置在蓋板η下侧(亦即圖五A之前側)或上侧之開孔 14附近。也就纽,本創作之獨特同做相對應之兩開 孔14的結構設計,可使光纖連接 6可被裝設在蓋板η M324885 四個角洛中的任一角落位置。 於該蓋板11之該第二板面112上,且相對於該兩開 孔14之後方預設位置處分別設有該固定座15 (如圖二所 示)’該光纖連接器16係可結合於該兩固定座15其中之 一上。該光纖連接器16係包括有··一輸出端 161、以及M324885 VIII. New description: [New technical field] This creation is about a fiber-optic panel structure, especially a panel suitable for embedded wall sockets. The fiber-optic socket reserved on the panel provides the construction unit. It is easy to arrange the reserved fiber optic cable in a general home or office, and further reduce the wiring assembly cost. [Prior Art] With the advent of the Internet technology era, the demand for Internet access in home networks has also increased dramatically, and the existing networks are obviously unable to load the increasing transmission of network data. The erection of the backbone is based on the characteristics of high-speed data transmission of optical fiber transmission. In response to the era of information explosion, the copper wire of the traditional telephone system has been gradually replaced by the optical fiber winding. Optical Fibre is a shorthand for optical fiber, a light-conducting tool that uses the principle of total reflection of light in fibers made of glass or plastic. The tiny fiber is encapsulated in a plastic sheath so that it can be bent in multiple sentences without breaking. Typically, the emitting device at one end of the fiber transmits light pulses to the fiber using a light emitting diode (LED) or a beam of laser light, and the receiving device at the other end of the fiber detects the pulse using a light sensitive element. In normal life, since the conduction loss of light in the optical fiber is much lower than that of the electric conduction in the electric wire, the optical fiber is used as a long-distance information transmission, and as the price of the optical fiber is gradually reduced, the optical fiber is also used for medical treatment. The purpose of entertainment. ‘, W> The structure of the fiber is round and thin as the fiberglass of the hair. It is mainly divided into two parts, M324885. The inner layer is called the core, which is usually made of glass, and the outer layer is called the clad. Since the optical fiber is one of the dielectric waveguides, special plastic materials or liquid materials can be used as long as the conditions permit. Since the core of the fiber is only a few micrometers (millionths of a meter) to several tens of micrometers in diameter, and the diameter of the shell is only between one hundred and two hundred micrometers, it is quite weak in itself. Therefore, in general applications, a layer of plastic is placed on the outer layer and a layer of nylon is added to protect it from external chemicals. If a plurality of optical fibers as described above are used, a so-called optical fiber cable can be formed, which is simply referred to as an optical cable. The advantages of optical fiber transmission include: 1. Low loss and wide frequency band; 2. Small size and small bending radius; 3. Non-conducting, non-radiating, non-inductive; 4. Light weight and so on. The low loss and the large amount of transmission provided by the wide band, even one fiber can accommodate 24,000 calls at a time for simultaneous call transmission. The light guide system developed by Bell Experiment can combine sound, analog data, digital data, video telephony and various video services. Therefore, this transmission of information has produced a considerable revolution. This transmission method will be wired in the future. The TV station spreads the mainstream of video and penetrates into every family in the form of optical fiber transmission. Therefore, 'the fiber optic cable will be reserved and buried in the new buildings in the future' and distributed in the space used in each floor and each interval, and the fiber network is often the same as the telephone line and the general indoor power line or power supply. The switch is buried in the same channel to save the construction cost required for burying. So how to apply it to various distribution modes and distribution boxes set up for different purposes, and then cover and beautify it, and at the same time, it can also have reserved fiber. The connection between Wei and Wei is the biggest feature of this creation. M324885 [New content] The first purpose of this creation is to provide a fiber optic panel structure, which uses a panel with a fiber optic socket to directly replace the cover of the power distribution box on the original household wall to embed the fiber optic cable in the wall. The wire can be easily connected to the fiber connector provided by the panel of this creation during wiring construction. Another object of the present invention is to provide a fiber optic panel structure, which utilizes a cable management unit provided on the panel to provide an elongated fiber optic cable to be fixed and wound on the panel, thereby avoiding the fiber optic cable being wound. The construction of the line arching is inconvenient, which in turn affects the construction efficiency. Another object of the present invention is to provide a fiber optic panel structure that utilizes a combination mechanism corresponding to the two corresponding openings, and can respectively insert a sliding door module and a baffle plate, and can cooperate with the optical fiber connector. In combination with the opening corresponding to the position, the sliding door module and the baffle can be arbitrarily taken out of the two coupling mechanisms to exchange the assembly. A further object of the present invention is to provide a fiber optic panel structure that utilizes a plug plate to enclose the unused portion of the receiving aperture of the fiber optic panel structure. The object of the present invention is to provide a fiber optic panel structure, which mainly includes: a cover plate, at least one receiving hole, a plurality of cable management units, two openings, at least one fixing seat, and at least one optical fiber connection. , at least one, a mechanism, and at least a gate. The cover plate has a predetermined thickness 2 and further includes a first plate surface and a second plate surface. The gate is incorporated into the coupling mechanism and includes at least the following: - a sliding door module or a M324885 first baffle. The accommodating hole can expose a plurality of modular sockets through the accommodating hole to the outside of the panel of the fiber socket, and provide a user to control the power switch or obtain data through the telecommunication cable through the socket connection of different nature. The two openings are disposed at opposite side edges of the predetermined plate thickness, and the positions of the two openings correspond to each other and are located on the same side of the cover. The fixing seat is disposed on the second board surface at a predetermined position behind the two opening holes, and the optical fiber connector is selectively fixed in the two fixing bases; and the second board surface is further The coupling mechanism is disposed at a position substantially opposite to the rear of the two opening positions, wherein the gate or the sliding door module is fixed in the coupling mechanism. A plurality of cable management units are disposed on the second board surface, and the fiber optic cable is wound along the cable management unit and fixed on the cable management unit to prevent the optical fiber cable from being too long and winding. The construction caused by the arching is inconvenient, which in turn affects the construction efficiency. The plug plate is coupled to the accommodating hole to close the unused portion of the accommodating hole, and the plug plate is coupled to the accommodating hole to be horizontal with the first plate surface of the cover plate. By. A plurality of engaging holes are disposed on the first plate surface of the cover plate, and are coupled to one of the power distribution modules of the matching specifications through a plurality of screws. [Embodiment] In order to more clearly describe the structure of the optical fiber panel proposed by the present invention, the following will be described in detail with reference to the drawings. Referring to FIG. 1 and FIG. 2, FIG. 1 and FIG. 2 are three views and a rear side view of a first preferred embodiment of the fiber optic M324885 panel structure. The fiber optic panel structure 1 is mainly composed of a cover u, at least one receiving hole 12, a plurality of cable management units 13, at least two openings 14, at least one fixing seat 15, at least one optical fiber connector 16, at least A combination mechanism 17 and at least one gate 18 are combined. The cover plate has a predetermined thickness 11 〇 and further includes a first plate surface 11 and a second plate surface 112 and a plurality of engaging holes 113. The gate is coupled to the coupling mechanism 17, and includes at least one of the following: a sliding door module 181 or a baffle 182. The fiber optic panel structure 1 can be coupled to one of the matching modules 1 (shown in FIG. 3) through a plurality of screws 2 through a plurality of engaging holes 113 provided in the cover η. Referring to FIG. 3, FIG. 3 is a schematic view showing the assembly of the first preferred embodiment of the optical fiber panel structure. The power distribution module 3 is embedded in the wall and exposes the opening of the power distribution module 3, and includes a power distribution box 31, at least one socket frame 32, and at least one socket 33. A plurality of through holes 311 are reserved in the inner edge of the power distribution box 31. When the power distribution box 31 is buried in the wall, the pipeline (power line, telephone line, optical fiber, and other cable lines) buried in the wall can be passed through the wall. The through holes 311 are collected in the power distribution box 31, and the wire ends of the respective pipelines are reserved in the power distribution box 31 to electrically connect the sockets 33 for different purposes. The power distribution benefit 31 pre-δ has a plurality of screw holes M2, which can be combined with a plurality of screw holes 321 which are not mentioned on the socket frame 32 by a plurality of screws 2, and the power distribution box 31 can be combined with at least one socket frame. 32 on it. A fixing frame 322 is preset on the socket frame 32. The fixing frame 322 M324885 can substantially secure three sockets 33. The sockets 33 for different purposes can be assembled and assembled in the same fixing frame 322 to provide different uses. The socket 33 can be a telephone socket, a network socket, a television (coaxial cable) socket, a wall switch, a 3-hole AC socket, and one of the 2-hole gossip sockets. More than the screw hole 321 of the socket frame 32. A coupling hole 323 is provided, and a plurality of engaging holes ι3 on the fiber panel structure are provided on the socket frame 32 by a plurality of screws 2. Since the socket 33 and the socket frame 32 and the power distribution box 31 are both modular and modular, and have fixed specifications and size agreements, they are widely used in the industry, rather than the key technologies of the creation. Features, so they are not repeated here. The accommodating hole 12 of the fiber optic panel structure 1 is disposed on the first plate surface 111 and penetrates the second plate surface H2. In the present invention, the field-defining tissue comprises three sets of receiving holes 12 which are coupled to the power distribution box 31 having three sets of socket frames 32. The respective receiving holes 12 disposed on the fiber optic panel structure 可 can correspond to the fixing frame 322 on the socket frame 32 of the 忒 power distribution box 31, and the socket affixed on the fixing frame 322 33 is placed in the receiving hole 12 and substantially maintained on the same-horizontal surface with the first plate surface m of the cover plate u to provide external connection of the plug 33 for electrical connection. Referring to Figure 4A, Figure 4A shows a second preferred embodiment of the fiber optic panel structure of the present invention. Since the second preferred embodiment of the present invention is similar to the first preferred embodiment shown in FIG. 3, the same components and structures will not be described below. The fiber optic panel structure of the second preferred embodiment of the present invention is different from the first preferred embodiment in that the first plate surface U1 has only one set of the receiving holes 12 and penetrates the second plate surface n2. By. Referring to Figure 4B, Figure 4b is a third preferred embodiment of the fiber optic panel structure of the present invention. Since the third preferred embodiment of the present invention is similar to the first preferred embodiment shown in FIG. 3, the same components and structures will not be described below. The optical fiber panel structure of the third preferred embodiment of the present invention is different from the first preferred embodiment in that the first board surface ln has two sets of the receiving holes 12 and penetrates the second board surface 112. By. Referring to FIG. 5A and FIG. 5B and referring to FIG. 2, FIG. 5A and FIG. 5B are a perspective view of the optical fiber panel structure and a perspective view of another viewing angle. The optical fiber panel structure, the two openings 14 are respectively disposed on the predetermined thickness 11 〇胄, and the positions of the two openings 14 correspond to each other and are located on the same side of the cover u. With this unique design, the fiber optic panel structure i of the present invention can be rotated from the cover plate 11 horizontally (or counterclockwise) by 18 degrees, and the positions of the two openings 14 from the cover li - the side is rotated to the other side (for example from the left to the right of Figure 5A), while still having the fiber connector 6 placed on the underside of the cover η (i.e., on the front side of Figure 5A) or on Near the opening 14 of the side. In other words, the unique design of the two openings corresponding to the creation of the hole 14 allows the fiber connection 6 to be mounted at any of the four corners of the cover η M324885. The fixing plate 15 (shown in FIG. 2) is respectively disposed on the second plate surface 112 of the cover plate 11 and opposite to the rear surface of the two openings 14 (the optical fiber connector 16 is Bonded to one of the two mounts 15. The fiber optic connector 16 includes an output end 161, and
-連接端I62。該輸出端⑹係與該開孔Μ相對應,可 透過该開孔14與外界之—光纖連接線5做電性連接,而 絲纖連接$ 16之另—連接端162賴該配電盒31内所 預留之-先賴線4透過—光纖連接器6做電性連接。由 於此所述之該先_難10収該錢雜器6係屬市 面上了購#之元件’於業界亦廣泛使用而非本創作之重點 技術特徵,故不再贅述其詳細構成。- Connection end I62. The output end (6) corresponds to the opening hole, and the optical fiber connection line 5 is electrically connected to the outside through the opening 14 , and the other end of the wire connection 16 is connected to the power distribution box 31. The reserved-first line 4 is electrically connected through the optical fiber connector 6. As described above, the first component is a component of the commercially available device. The component is widely used in the industry rather than the key technical features of the present invention, and the detailed configuration thereof will not be described again.
於該第二板面112上且相對位於該兩· 14與該 固定座15中央預設位置處分別設置有該結合機構Π, 以提供該_ 18付組合’錄該· 14所屬之該光 連接器16之輸出端⑹在不使用時可利用該閉門㈣ 開孔14賴之,或是_未結合光親接H 16之該固 座15所對應之該開孔14,運用該閘Η 18固定於其後 所設之該結合機構17⑽該鼠14 _,以防止^ 異物侵入破壞内部線路品f,待其欲連接 時’再將關Η 18於該結合機構17中橫 門 Μ,使該· Η内之該光纖連接器16之輪出端= 釋放並提餅界之該光義麟5進行插接者。 於該光纖連接1丨6結合之細U叫相對應之The bonding mechanism 设置 is respectively disposed on the second board surface 112 and opposite to the central preset position of the two 14 and the fixing base 15 to provide the _ 18 paying combination 'recording the optical connection of the 14 The output end (6) of the device 16 can be utilized by the closed door (4) opening 14 when it is not in use, or the opening 14 corresponding to the fixed seat 15 of the H 16 is not bonded to the light, and is fixed by the brake 18 The binding mechanism 17 (10) is provided to the mouse 14 _ to prevent the foreign matter from invading and destroying the internal circuit product f, and when it is to be connected, the gate Μ 18 is again placed in the coupling mechanism 17 to make the The round end of the fiber optic connector 16 in the crucible = the release and picking up the optical Yilun 5 for the connector. Corresponding to the fine U of the fiber connection 1丨6
12 M324885 開孔14更可以運用該拉門模組181組合於該結合機構口 内’於另侧未結合該光纖連接器16之該固定座15所相 對應之該開孔14可藉由該檔板182組合於相對應之該結 合機構17内,將其所對應之該開孔14封閉。該拉門模= 181以及該檔板182可配合該光纖連接器16所對應之該 開孔14位置,加以取出且相互對調並組合於不同之結合 機構17内者。 於上述該結合機構17内之該拉門模組181 ,可運用 該拉門模組181上所設之彈性閘門原理,於該光纖連接器 16之該輸出端161與外界所連接之該光纖連接線5拔除 時可自動封閉該開孔14者。由於該拉門模組181係屬市 面上可購得之元件,為習用之一般彈性閘門,於業界亦廣 泛使用而非本創作之重點技術特徵,故不再贅述其詳細構 成。 請參閱圖六A、圖六B所示,圖六a、圖六B為本 創作之光纖面板結構與配電模組之結合示意圖。其中,於 本創作光纖面板結構1中,由於該兩開孔14係位於該蓋 板11之同一侧,且於該預設板厚11〇之相對兩侧邊相互 對應,故可隨該配電模組3内之該光纖纜線4於不同施工 後透過該穿孔311所預留於該配電盒31内之線頭位置, 以忒光纖連接器16所對應之該開孔14位置距離該光纖纜 線4之線頭最近處與該配電盒31上之該插座框架&予以 結合。 也就是說,於施工時所預留埋設於牆壁中之光纖纜線 13 * 乂 > M324885 4,透過不同方向位置之該穿孔311將該光纖纜線4之線 頭導入該配電盒31内,該蓋板11(如圖六A所示)則可轉 向180度(如圖六B所示),與該配電模組3上之該插座 框架32相結合,以配合該光纖纜線4之線頭導入於該配 電盒31内之預留位置處做反向組裝。 以一般於使用上來說,該光纖連接器16之該輸出端 161均設置於該蓋板η之朝下方處,搭配該拉門模組181 作為該輸出端161之閘門18,不僅美觀且兼具保護的功 能更有利於提供外界該光纖連接線5插接使用,於該輸出 端161相對應另一邊預設板厚no處所未使用之開孔μ 則可運用該檔板182結合於所屬之該結合機構17内,將 該未使用之開孔14予以封閉,以防止異物侵入,達到本 創作光纖面板結構1僅需改變該光纖連接器16於該第二 板面112上所結合之固定座15位置,以及配合轉向18〇 度安裝於該配電模組3上,即可適用於不同方向導入於該 配電盒31内所埋設之光纖纜線4線頭位置與該配電模組 3結合者。 請參閱圖七並參考圖六A、圖六B所示,圖七為本 創作之光纖面板結構之域理線示意圖。首先,請參考圖 六A、圖六B所示,該配電模組3之該配電盒31内所預 留之該光纖纜線4,於該配電盒31内容易造成擠壓彎折, 導致該光纖齡4之線頭過長邱繞線拱起所造成施工 不便,進而影響施工效率;請參閱圖七所示,於本創作光 纖面板結構1之該第二板面112上之預設位置處設置有複 M324885 數個理線單元13,可令該配電盒31内之該光纖纜線4藉 由複數個理線單元13固定並繞線於該第二面板丨12之上。 該理線單元13係為兩相對應之弧形凸出塊,且相對 兩弧形凸出塊之弧頂所預留之間隔空間係用以將該光纖 纜線4卡固於其間隔空間内,並藉由兩弧形凸出塊之弧面 曲度可將该光纖纜線4沿其兩弧形凸出塊之弧面兩末端 彎折繞線於另一端預設之該理線單元13上,使該光纖纜 線4分別沿著該理線單元13之間纏繞,再與該固定座15 上之該光纖連接器16利用該光纖連接器6做電性連接, 以確保該光纖纜線4之連線品質。於圖八a所示之實施 例中,於第二板面112上之每一個容置孔12的四個角落 附近均分別設置有-理線單元13。換句話說,在兩相鄰 容置孔12之間的角落處,就會有設置有兩麵斜、相鄰 且互呈9G度角設置的理線單元13。藉由此種設計,使得 無論光纖麟4是從那個方向開始繞起、或是要繞向那個 方向’都可藉由本創作之理線單元13㈣達成繞線功能 者。 請參閱圖八A所示,圖八A為本創作之光纖面板結 構之塞板與蓋板之立體分解示賴。其中,該先纖面板結 構1 ^包括有-塞板7;該塞板7更包括有:一卡扣7ι 以及凸出面72。於該第二板面112上且位於該容置孔 I2兩側邊置有相對於該塞板7兩卡扣π之複數個定位 結構8,吨_軸7之針扣71結合於較位結構8 内’進而將該容置孔12未使狀部好以賴,且於該 15 (S :) M324885 塞板7結合於該容置孔12内之同時,該塞板7之該凸出 面72恰與該蓋板11之該第一板面ui呈水平狀態者。 請參閱所示,圖^為本創作之光纖面板結 構之塞板與蓋板之結合示意圖。於本實施例中,該容置孔 12可分別將二組塞板7置入其内,且利用該卡扣71分別 結合於该容置孔12兩侧邊所設置之該定位結構8内,使 该凸出面72與該蓋板11之該第一板面m呈水平狀態, 亦可將該容置孔12内未設置有該插座33之鏤空部分,利 用該塞板7可將其鏤空處填補,可兼具美觀以及防止異物 侵入導致短路者。 請參閱圖九,為本創作光纖面板結構之拉門模組181 的一實施例與蓋板11之開孔14相結合處的局部放大圖。 於本實施例中,該拉門模組181並非單純的單片門板,而 係為一模組化的拉門結構,其包括有··一拉門板183、一 彈簧184、以及一中空殼體185。該殼體185係由兩蓋體 相夾合所構成,並在殼體185内部形成一中空部分。該拉 門板183與彈簧184都是容置於殼體185内之中空部分且 可滑動。該彈簧184的一端係抵頂住殼體185 —端之内表 面、而彈簧184另一端則是抵頂住拉門板183之一端。如 此,當拉門板183受外力搬動而開啟時將會使彈簧ι84 變形並產生一回復力;而當施加在拉門板183之外力消失 時,拉門板183將會因彈簧184之回復力而自動回復原來 關閉的位置。在本實施例中,於蓋板11之結合機構17的 近兩末端處更分別設有一組凸肋171結構,且在拉門模組 M324885 181之殼體185的近兩末端處亦分別設有與前述凸肋171 相對應的卡溝1851結構。使拉門模組181之殼體185可 藉由將卡溝1851嵌合入對應之凸肋171中而使拉門模組 181被疋位到結合機構17内,不僅定位更確實牢固,且 更因凸肋171的設計而大幅提高蓋板n在該結合機構17 處的結構強度。 綜上所述,本創作之光纖面板結構1,其中,該蓋板 11之該第二板面H2上設置有該結合機構17,該閘門18 係結合於該結合機構17之内,且該開孔14其係設置於該 預設板厚110之相對兩侧邊處,且該兩開孔14之位置係 相互對應,並位於該蓋板U同一側。於該第二板面112 上且相對於該兩開孔14後方位置處各別設置有該固定座 15,係可將該光纖連接器16擇一固接於該固定座15内。 該第二板面112上設置有複數個理線單元13,可將 該光纖纜線4沿著該理線單元13纏繞,並固定於該理線 單元13之上,可避免光纖纜線4所預留在該配電盒31 内之線頭過長且因繞線拱起所造成施工不便影響施工效 率者。 该塞板7更包括有:一^^扣71以及一凸出面72。於 該第二板面112上且位於該容置孔12兩侧邊設置有相對 於該塞板7兩卡扣71之複數個定位結構8,以提供該塞 板7之該卡扣71結合於該定位結構8内,進而將該容置 孔12未使用之部分予以封閉者。 唯以上所述之實施例不應用於限制本創作之可應用 17 M324885 範圍’本創作之保護顧應財創作之中請專利範圍内容 所界定技騎概其均㈣化所含括之範圍社者。即大 凡依本創作申請專概_做之解瓶及修飾,仍將不 失本創作之要義所在,料脫離本創作之精神和範圍,故 都應視為本創作的進一步實施狀況。 【圖式簡單說明】 一圖一係為本創作之光纖面板結構第一較佳實施例之 視圖。 圖二係為本創作之光纖面板結構第一較佳實施例之 後侧視圖。 圖三係為本創作之光纖面板結構第一較佳實施例之 組裝示意圖。 圖四A係為本創作之光纖面板結構之第二較佳實施 例圖。 圖四B係為本創作之光纖面板結構之第三較佳實施 例圖。 圖五A係為本創作之光纖面板結構之立體示意圖。 圖五B係為本創作之光纖面板結構另一視角之立體 示意圖。 圖六A、圖六B係為本創作之光纖面板結構與配電 模組之結合示意圖。 圖七係為本創作之光纖面板結構之光纖理線示意圖。 圖八A係為本創作之光纖面板結構之塞板與蓋板之 18 M324885 立體分解示意圖。 圖八B係為本創作之光纖面板結構之塞板與蓋板之 結合示意圖。 —圖九為本創作光纖面板結構之朗模組的一實施例 與蓋板之開孔相結合處的局部放大圖。 【主要元件符號說明】12 M324885 opening 14 can be combined with the sliding door module 181 in the joint mechanism port. The opening 14 corresponding to the fixing seat 15 on the other side of the optical fiber connector 16 can be used by the baffle plate. The 182 is combined in the corresponding coupling mechanism 17, and the corresponding opening 14 is closed. The sliding door mold = 181 and the baffle 182 can be combined with the position of the opening 14 corresponding to the optical fiber connector 16, and taken out and adjusted to each other and combined in different bonding mechanisms 17. The sliding door module 181 in the bonding mechanism 17 can be connected to the optical fiber connected to the outside at the output end 161 of the optical fiber connector 16 by using the elastic shutter principle provided on the sliding door module 181. The opening 14 can be automatically closed when the wire 5 is removed. Since the sliding door module 181 is a commercially available component and is a general elastic gate that is conventionally used in the industry, rather than the key technical features of the present invention, the detailed construction thereof will not be described again. Please refer to Figure 6A and Figure 6B. Figure 6a and Figure 6B show the combination of the fiber-optic panel structure and the power distribution module. In the fiber optic panel structure 1 of the present invention, since the two openings 14 are located on the same side of the cover 11 and correspond to opposite sides of the predetermined thickness 11 ,, the distribution mode can be used. The fiber optic cable 4 in the group 3 is reserved at the position of the wire in the power distribution box 31 through the through hole 311 after different construction, so that the opening 14 corresponding to the fiber connector 16 is located at a distance from the fiber cable. The wire head of 4 is recently combined with the socket frame & on the power distribution box 31. That is, the optical fiber cable 13* 乂> M324885 4, which is buried in the wall, is placed in the wall, and the wire end of the optical fiber cable 4 is introduced into the power distribution box 31 through the through hole 311 in different direction positions. The cover plate 11 (shown in FIG. 6A) can be turned 180 degrees (as shown in FIG. 6B), and combined with the socket frame 32 on the power distribution module 3 to match the line of the optical fiber cable 4. The head is introduced into the reserved position in the power distribution box 31 for reverse assembly. Generally speaking, the output end 161 of the optical fiber connector 16 is disposed at a downward direction of the cover η, and the sliding door module 181 is used as the gate 18 of the output end 161, which is not only beautiful but also has both The protection function is more advantageous for providing external use of the optical fiber connecting cable 5, and the output end 161 corresponding to the other side of the predetermined thickness of the no-opening hole μ can be used to bind the baffle 182 to the associated The unused opening 14 is closed in the bonding mechanism 17 to prevent intrusion of foreign matter. The optical fiber panel structure 1 of the present invention only needs to change the fixing seat 15 of the optical fiber connector 16 coupled to the second surface 112. The position and the steering angle are mounted on the power distribution module 3 at a height of 18 degrees, which can be applied to the fiber cable 4 wire position embedded in the power distribution box 31 in different directions and combined with the power distribution module 3. Please refer to Figure 7 and refer to Figure 6A and Figure 6B. Figure 7 is a schematic diagram of the domain of the fiber optic panel structure. First, referring to FIG. 6A and FIG. 6B, the optical fiber cable 4 reserved in the power distribution box 31 of the power distribution module 3 is easily bent and bent in the power distribution box 31, thereby causing the The fiber-optic age 4 is too long for the construction of the Qiu winding to cause inconvenience, which affects the construction efficiency; see Figure 7 at the preset position on the second plate 112 of the fiber-optic panel structure 1 of the present invention. A plurality of cable management units 13 are provided for the M324885, so that the optical fiber cable 4 in the power distribution box 31 can be fixed and wound on the second panel 丨12 by a plurality of cable management units 13. The cable management unit 13 is a corresponding arcuate projection block, and the space reserved for the arc top of the two arcuate projection blocks is used to fix the optical fiber cable 4 in its space. And the optical fiber cable 4 is bent along the curved ends of the two arcuate protruding blocks by the curved curvature of the two curved protruding blocks, and the cable management unit 13 is preset at the other end. The optical fiber cable 4 is wound between the cable management unit 13 and electrically connected to the optical fiber connector 16 on the fixing base 15 to ensure the optical fiber cable. 4 connection quality. In the embodiment shown in Fig. 8a, a wire management unit 13 is disposed adjacent each of the four corners of each of the accommodating holes 12 on the second plate surface 112. In other words, at the corner between the two adjacent receiving holes 12, there will be a cable management unit 13 provided with two sides inclined, adjacent to each other and arranged at an angle of 9G. With this design, the winding function can be achieved by the creative unit 13 (4) regardless of whether the fiber bundle 4 is wound up from that direction or is to be wound in that direction. Please refer to FIG. 8A, which is a perspective exploded view of the plug and the cover of the fiber optic panel structure of the present invention. The pre-fiber panel structure 1 ^ includes a plug plate 7; the plug plate 7 further includes: a snap button 7ι and a convex surface 72. A plurality of positioning structures 8 are provided on the second plate surface 112 and on both sides of the receiving hole I2, and the pin buckles 71 of the ton_shaft 7 are coupled to the positioning structure. 8 and then the receiving hole 12 is not made to be good, and the convex surface 72 of the plug plate 7 is simultaneously inserted into the receiving hole 12 of the 15 (S:) M324885 plug plate 7. The first plate surface ui of the cover plate 11 is in a horizontal state. Please refer to the figure, which is a schematic diagram of the combination of the plug plate and the cover plate of the fiber optic panel structure of the present invention. In the present embodiment, the accommodating hole 12 can be respectively disposed in the positioning structure 8 disposed on both sides of the accommodating hole 12 by using the two latching plates 7 respectively. The protruding surface 72 and the first plate surface m of the cover 11 are horizontal, and the hollow portion of the socket 33 is not disposed in the receiving hole 12, and the slot 7 can be used for hollowing out. Filled, can be both aesthetic and prevent foreign matter from invading and causing a short circuit. Please refer to FIG. 9 , which is a partially enlarged view showing the combination of an embodiment of the sliding door module 181 of the optical fiber panel structure and the opening 14 of the cover 11 . In the embodiment, the sliding door module 181 is not a simple single-piece door panel, but is a modular sliding door structure, which comprises a sliding door panel 183, a spring 184, and a hollow shell. Body 185. The housing 185 is formed by sandwiching two cover bodies and forming a hollow portion inside the housing 185. The sliding plate 183 and the spring 184 are both received in a hollow portion in the housing 185 and slidable. One end of the spring 184 abuts against the inner surface of the end of the housing 185, and the other end of the spring 184 abuts against one end of the sliding door 183. Thus, when the sliding door 183 is opened by the external force, the spring ι84 will be deformed and a restoring force will be generated; and when the force is applied to the sliding door 183, the sliding door 183 will automatically be restored by the restoring force of the spring 184. Revert to the original closed position. In the present embodiment, a plurality of rib 171 structures are respectively disposed at the proximal ends of the coupling mechanism 17 of the cover plate 11, and are respectively disposed at the proximal ends of the housing 185 of the sliding door module M324885 181. The structure of the card groove 1851 corresponding to the aforementioned rib 171. The housing 185 of the sliding door module 181 can be clamped into the coupling mechanism 17 by fitting the locking groove 1851 into the corresponding rib 171, so that the positioning is more secure and more secure. Due to the design of the rib 171, the structural strength of the cover n at the coupling mechanism 17 is greatly increased. In summary, the fiber optic panel structure 1 of the present invention, wherein the second plate surface H2 of the cover plate 11 is provided with the coupling mechanism 17, and the gate 18 is coupled to the coupling mechanism 17, and the opening The holes 14 are disposed at opposite side edges of the preset plate thickness 110, and the positions of the two openings 14 correspond to each other and are located on the same side of the cover plate U. The fixing seat 15 is disposed on the second board surface 112 and opposite to the two opening holes 14 , and the optical fiber connector 16 can be fixedly fixed in the fixing base 15 . The second board surface 112 is provided with a plurality of cable management units 13 , and the optical fiber cable 4 can be wound along the cable management unit 13 and fixed on the cable management unit 13 to avoid the optical fiber cable 4 The wire head reserved in the power distribution box 31 is too long and the construction inconvenience caused by the winding arching affects the construction efficiency. The plug plate 7 further includes: a button 71 and a protruding surface 72. A plurality of positioning structures 8 are disposed on the second plate surface 112 and disposed on opposite sides of the receiving hole 12 with respect to the two latches 71 of the plug plate 7 to provide the latch 71 of the plug plate 7 In the positioning structure 8, the unused portion of the receiving hole 12 is closed. The above-mentioned embodiments are not intended to limit the application of this creation. 17 M324885 Scope The protection of this creation is in the scope of the patent scope. That is to say, according to the application for the creation of the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a view of a first preferred embodiment of the fiber optic panel structure of the present invention. Figure 2 is a rear elevational view of the first preferred embodiment of the fiber optic panel structure of the present invention. Figure 3 is a schematic view showing the assembly of the first preferred embodiment of the fiber optic panel structure of the present invention. Figure 4A is a second preferred embodiment of the fiber optic panel structure of the present invention. Figure 4B is a third preferred embodiment of the fiber optic panel structure of the present invention. Figure 5A is a perspective view of the fiber optic panel structure of the present invention. Figure 5B is a perspective view of another perspective of the fiber optic panel structure of the present invention. Figure 6A and Figure 6B show the combination of the fiber optic panel structure and the power distribution module. Figure 7 is a schematic diagram of the fiber optic cable of the fiber optic panel structure of the present invention. Figure 8A is a perspective exploded view of the 18 M324885 of the plug and cover of the fiber optic panel structure of the present invention. Figure 8B is a schematic view showing the combination of the plug plate and the cover plate of the optical fiber panel structure of the present invention. - Figure 9 is a partial enlarged view of an embodiment of a slab of a fiber optic panel structure in combination with an opening of a cover plate. [Main component symbol description]
1〜光纖面板結構 110〜預設板厚 112〜第二板面 12〜容置孔 14〜開孔 16〜光纖連接器 162〜連接端 171〜凸肋 181〜拉門模組 183〜拉門板 185〜中空殼體 2〜螺絲 3〜配電模組 311〜穿孔 321〜螺孔 323〜結合孔 4〜光纖纜線 11〜蓋板 111〜第一板面 113〜接合孔 13〜理線單元 15〜固定座 161〜輸出端 17〜結合機構 18〜閘門 182〜檔板 184〜彈簧 1851〜卡溝 31〜配電盒 32〜插座框架 322〜固定框 3 3〜插座 5〜光纖連接線 19 M324885 6〜光纖連接器 71〜卡扣 8〜定位結構 7〜塞板 72〜凸出面1 to optical fiber panel structure 110 to preset plate thickness 112 to second plate surface 12 to accommodating hole 14 to opening 16 to optical fiber connector 162 to connecting end 171 to rib 181 to sliding door module 183 to sliding door plate 185 ~ hollow housing 2 - screw 3 - power distribution module 311 - through hole 321 - screw hole 323 ~ coupling hole 4 - fiber cable 11 - cover plate 111 - first plate surface 113 - engagement hole 13 - cable management unit 15 Fixing seat 161 to output end 17 to coupling mechanism 18 to gate 182 to baffle 184 to spring 1851 to card groove 31 to power distribution box 32 to socket frame 322 to fixed frame 3 3 to socket 5 to optical fiber connecting line 19 M324885 6 to optical fiber Connector 71 to buckle 8 to positioning structure 7 to plug 72 to convex surface