M308413 八、新型說明: 【新型所屬之技術領域】 本創作係關於一種通訊裝置及其通訊模組,特別是關於 一種光纖通訊裝置及其光纖通訊模組。 【先前技術】 隨著電腦系統以及相關周邊配備在近幾年快速的發展,因此增加 資訊傳輸速度以因應執行高複雜度之工作,例如數位訊號傳輸及影像 分析等功能為時勢所趨,在這樣的需求下,光纖技術順應而生,其可 應用於長距離或短距離的訊號傳輸,利用高速度光訊號取代習知電連 接來達到資訊傳輸速度增加之目的。 光纖通訊模組(fiber optical communication module)係提供作為電 子裝置間之訊號傳送’其係由一光纖傳接模組(flber optical transceiver module)與一驅動/接收電路模組(driver/receiver circuitry module)結合組 成’其中光纖傳接模組通常包括一光發射裝置(light emitting device)以 及一光彳貞測裝置(light detecting device)。 如圖1所示,一種習知之光纖通訊裝置丨包括一光纖通訊模組1〇 插入架置於一電路板11上之一外殼12(cage)中,而與電路板η上之 一連接器13連結,之後再整個組立於一主系統例如一路由器或是電腦 中。其中,為提供系統規格之可變通性,光纖通訊模組1〇係以可插拔 之方式容置於外殼12中,更詳細的說,光纖通訊模組1〇通常包括一 閂鎖機構101(latch mechanism),其可提供鎖固與使光纖通訊模组1〇 退出外殼12之功能。 ''' 請參照圖2 ,其為圖1中習知之光纖通訊模組之閂鎖機構的示衰 圖二如圖2所示,一種習知之光纖通訊模組1〇之閂鎖機構ι〇ι係^包二 一第一滑動臂102、一第二滑動臂1〇3及一拉把1〇4,第—滑動臂 5 M3 08413 與第二滑動臂103係實質上平行且面對外殼12之相對細設置;另 外,在該等滑動臂1〇2、1G3之-端分別具有—凸部1G5且在該等滑動 臂102、103之内面分別設置有一彈性元件1〇6。當拉把1〇4垂直抵接 該等滑動臂102、1G3時,凸部!〇5係與外殼12侧面向内突設之一彈 片121卡合,而鎖固光纖通訊模組1〇於外殼12中,於此滑動臂、 103上之彈性元件1〇6係被壓縮,而當旋轉拉把1〇4使滑動臂 鬆脫時,藉由彈性元件1〇6之回復力,光纖通訊模組1〇係沿一方向滑 動而從外殼12中退出。 、承上所述,由於習知之閂鎖機構101在設計上需多個構件組立而 成,除了組裝上的困難外,亦提高了製造與構件管理成本,且上述之 閃鎖機構101必須使用彈性元件106,故因彈性元件1〇6容易在反覆 卡入與退出作動過程中造成彈性疲乏,而喪失應有之功能,導致整體 閂鎖機構101甚至光纖通訊模組1〇無法重複插拔。 有鑑於此,如何提供一種組立簡單且結構穩固以有效降低製造與 構件官理成本,以及提高產品之可靠度的光纖通訊裝置及其光纖通訊 模組,實為重要課題之一。 ΰ 【新型内容】 有鏗於上述課題,本創作之目的為提供一種組立簡單且結構穩固 之光纖通訊裝置及其光纖通訊模組。 緣疋,為達上述目的,依據本創作之一種光纖通訊模組係套置於 外豉中,包括一本體、一拉把以及一滑動元件。該拉把係樞接於該 本體;該滑動元件具有至少一滑動臂,該滑動臂係滑設於該本體之一 滑槽中,當該拉把被旋轉時,該滑動元件係沿該滑槽滑動。其中該滑 動元件上具有一突出之螺孔,且該滑動元件係以一連接件螺接於該螺 6 M308413 孔中,使得該滑動元件與該拉把相連接。 為達上述目的,依據本創作之一種光纖通訊襄置包括一電路板、 -外殼以及-光纖通訊模組。其中,該外殼係連結於該電路板上;該 光纖通訊模組係套置於該外殼中,該絲通訊模組包括—本體、一拉 把及-滑動元件’該拉把係樞接於該本體,贿動元件具有至少一滑 動臂,該滑動臂係滑設於該本體之一滑槽中,當該拉把被旋轉時,該 滑動元件係沿該賴滑動。其巾該滑動元件上具有—突出之螺孔,且 該滑動元件係i連接件螺接_螺射,使__元件與該拉把 相連接。 承上所述,0錄賴作之—縣纖軌裝置及其賴通訊模組 係利用樞接於规通賴組本狀拉把帶崎動元件,畴除光纖通 訊模組與肢之卡’使賴軌微得崎餘把錢漏固 與退出外殼,由於本創狀先纖通賴組僅彻—拉把與—滑動元件 之構件來使織軌麵可輕純插拔於歧巾,錄把與滑動元件 係可-體成型為-單-鋪,她於w知技術,由於構件簡單因此可 有效降低製造、構件管理成本餘裝勞力,另外,由於本創作係運用 機械帶動關係來使光纖通訊模組在_與釋放狀態中轉換,除了具有 結構個之獅且免除了習知雜元件造雜性歧=失機構 功能之可能,因此提高了產品之可靠度。 【實施方式】 為讓本創作之上述和其他目的、特徵、和伽缺鶴易僅,下 7 M308413 文特舉一較佳實施例,並配合所附圖式,作詳細說明如下: 以下將參照相關圖式,說明依據本創作較佳實施例之一種光纖通 汛裝置及其光纖通訊模組,其中相同的元件將以相同的參照符號加以 說明。 ^ 少請參考圖3所示,依據本創作較佳實施例之一種光纖通訊裝置2 係包括一電路板21、一外殼22以及一光纖通訊模組2〇。其中,光纖 通訊裝置2係可為一電腦系統之一部分。 光纖通訊模組20係容置於外殼22中,外殼22係連結於電路板 21上。另外,在外殼22中亦容置一與電路板21電連結之連接器μ, 且光纖通訊模組20則經由與連接器23而與電路板21上之直 生電性連結。其中,光纖通訊模組20係以可插拔的方式設置於外殼 如圖4所示,光纖通訊模組2〇主要係包括一本體2〇ι、一拉把观 及:滑動元件203。本體加包括一殼體則,殼體2⑽内係容置執 2收發功能之構件例如·射裝置、光侧裝置及驅動/接收電路模 在本實施例巾,拉把2〇2係呈一门字 =連接請柩接於本體2〇1之至少一側面。、=== 材質係選自塑膠、金屬、合金 拉把02 ^ 接件綱係可為-插梢。 鋼調請錢族群之-,而連 滑動元件2〇3係以-連接件2〇5與拉把 中,拉把202係具有一第一 1描i 逻得在本實她例 具有一第二導槽則,於此目對第一導槽雇 二導槽2〇13後,以可於兩導槽2〇2 第^=21及第 滑動元件203與本體201。其中, 二目由'月動之方式而固接 金屬、合金、不鏽鋼或陶究所^ ^ = 3之材質係選自塑谬、 ,、、成族群之一,而連接件205係可為- 8 M3 08413 in 為前段與後段兩個部分,前段為-滑_,後段則 2^ 於滑動元件2G3上則相對應地具有突出之螺孔 分邻2,件203、拉把2G2與本體201組立時,連接件205之 拉把202之第一導槽2021進入本體201之第二導槽 夕*山且連接件205之後段部分則以其上之螺紋鎖固於滑動元件203 之犬出之螺孔2035,藉以使連接件2㈣全固接於滑動元件2〇3上。 如此-來,當施-外力轉動拉把2〇2時,拉把加之第一導槽期 件2〇5滑動於本體2〇1之第二導槽則中,進而帶動固定 於連接件205上的滑動元件2〇3,完成連動。M308413 VIII. New description: [New technical field] This creation is about a communication device and its communication module, especially a fiber-optic communication device and its optical fiber communication module. [Prior Art] With the rapid development of computer systems and related peripherals in recent years, the speed of information transmission has increased to cope with the implementation of high-complexity tasks such as digital signal transmission and image analysis. Under the demand, fiber optic technology is compliant. It can be applied to long-distance or short-distance signal transmission, and high-speed optical signals are used to replace the traditional electrical connection to achieve the purpose of increasing information transmission speed. A fiber optic communication module is provided as a signal transmission between electronic devices. It is composed of a fiber optic transceiver module and a driver/receiver circuitry module. The combination of the components 'the fiber optic transmission module generally includes a light emitting device and a light detecting device. As shown in FIG. 1, a conventional optical fiber communication device includes a fiber optic communication module 1 〇 insertion frame disposed in a casing 12 on a circuit board 11 and a connector 13 on the circuit board η. The link is then integrated into a main system such as a router or computer. In order to provide the flexibility of the system specifications, the optical fiber communication module 1 is detachably housed in the casing 12. In more detail, the optical fiber communication module 1A generally includes a latch mechanism 101 ( A latch mechanism that provides the function of locking and ejecting the fiber optic communication module 1 from the housing 12. ''' Please refer to FIG. 2 , which is a schematic diagram of the latching mechanism of the conventional fiber optic communication module of FIG. 1 . FIG. 2 shows a conventional fiber optic communication module 1 闩 latch mechanism ι〇ι The first slide arm 102, the second slide arm 1〇3 and a pull handle 1〇4 are mounted, and the first slide arm 5 M3 08413 is substantially parallel to the second slide arm 103 and faces the outer casing 12. In addition, the end portions of the sliding arms 1〇2 and 1G3 respectively have a convex portion 1G5 and an elastic member 1〇6 is disposed on the inner surfaces of the sliding arms 102 and 103, respectively. When the pull handle 1〇4 vertically abuts the sliding arms 102, 1G3, the convex part! The 〇5 series is inwardly projecting with one of the elastic members 121 of the outer casing 12, and the locking optical fiber communication module 1 is engaged in the outer casing 12, and the elastic members 1 〇 6 on the sliding arm 103 are compressed. When the sliding handle 1〇4 is rotated to release the sliding arm, the optical fiber communication module 1 is slid in one direction and is withdrawn from the outer casing 12 by the restoring force of the elastic member 1〇6. As described above, since the conventional latch mechanism 101 requires a plurality of components to be assembled in design, in addition to the assembly difficulties, the manufacturing and component management costs are also increased, and the above-described flash lock mechanism 101 must use elasticity. The component 106 is so that the elastic component 1 容易 6 is liable to cause elastic fatigue during the reverse snap-in and withdrawal operations, and the function is lost, so that the overall latch mechanism 101 and even the optical fiber communication module 1 〇 cannot be repeatedly inserted and removed. In view of this, it is an important subject to provide a fiber optic communication device and an optical fiber communication module that are simple in structure and structurally stable to effectively reduce manufacturing and component cost, and improve product reliability. ΰ 【New content】 In view of the above issues, the purpose of this creation is to provide a simple and stable optical fiber communication device and its optical fiber communication module. For the above purpose, a fiber optic communication module sleeve according to the present invention is placed in the outer casing, and includes a body, a pull handle and a sliding component. The sliding member is pivotally connected to the body; the sliding member has at least one sliding arm, the sliding arm is slidably disposed in a sliding slot of the body, and the sliding member is along the sliding slot when the pulling handle is rotated slide. The sliding component has a protruding screw hole, and the sliding component is screwed into the hole of the screw 6 M308413 by a connecting member, so that the sliding component is connected to the pulling handle. To achieve the above object, a fiber optic communication device according to the present invention comprises a circuit board, a housing and a fiber optic communication module. Wherein, the outer casing is coupled to the circuit board; the optical fiber communication module is sleeved in the outer casing, and the wire communication module comprises a body, a pull handle and a sliding component. The body has a sliding arm that is slidably disposed in a sliding slot of the body. When the pulling handle is rotated, the sliding member slides along the sliding portion. The sliding member has a protruding screw hole on the sliding member, and the sliding member i is connected to the connector to be screwed to the yoke. According to the above, the 0-recorded--the county's fiber-optic device and its communication module are pivoted to the standard of the tongs, and the band-like components are removed, and the fiber-optic communication module and the limb card are removed. So that the track is slightly loose and the money is leaked out and exited from the outer casing. Because the creation of the first fiber is only through the components of the sliding and sliding components, the weaving surface can be easily inserted into the scarf. The sliding element can be formed into a single-sand, and she knows the technology. Because of the simple structure, it can effectively reduce the cost of manufacturing and component management. In addition, the author uses the mechanical driving relationship to make the fiber. The communication module is switched between the _ and the release state, and the reliability of the product is improved, in addition to having the structure of the lion and eliminating the possibility of the miscellaneous components of the conventional miscellaneous components. [Embodiment] In order to make the above and other objects, features, and gamma of the present invention easy, the following 7 M308413 is a preferred embodiment, and is described in detail with reference to the following drawings: In the related drawings, a fiber optic communication device and a fiber optic communication module thereof according to a preferred embodiment of the present invention will be described, in which the same elements will be described with the same reference numerals. Referring to FIG. 3, a fiber optic communication device 2 according to the preferred embodiment of the present invention includes a circuit board 21, a housing 22, and a fiber optic communication module 2A. Among them, the optical fiber communication device 2 can be a part of a computer system. The optical fiber communication module 20 is housed in the outer casing 22, and the outer casing 22 is coupled to the circuit board 21. In addition, a connector μ electrically connected to the circuit board 21 is also accommodated in the outer casing 22, and the optical fiber communication module 20 is electrically coupled to the circuit board 21 via the connector 23. The optical fiber communication module 20 is disposed in the outer casing in a pluggable manner. As shown in FIG. 4, the optical fiber communication module 2 is mainly composed of a main body 2, a pull handle and a sliding member 203. The main body includes a casing, and the casing 2 (10) is provided with a member for transmitting and receiving functions, for example, a radiation device, a light side device, and a driving/receiving circuit module. In the present embodiment, the handle 2 2 is a door. Word=Connection Please connect to at least one side of the body 2〇1. , === The material is selected from plastic, metal, and alloy. The pull handle 02 ^ can be used as a plug. The steel is transferred to the money group, and even the sliding element 2〇3 is connected with the connecting piece 2〇5 and the pull handle, and the pull handle 202 has a first 1 drawing, which has a second in the case. The guide groove, after the second guide groove 2〇13 is employed for the first guide groove, can be used in the two guide grooves 2〇2 and the sliding member 203 and the body 201. Among them, the second item is fixed by metal, alloy, stainless steel or ceramics by means of 'monthly movement' ^ ^ = 3 is selected from one of plastic, , and , and the connecting member 205 can be - 8 M3 08413 in is the front and rear sections, the front section is -slip _, the rear section is 2^ on the sliding element 2G3, correspondingly has the protruding screw holes 2, the piece 203, the handle 2G2 and the body 201 are assembled The first guide groove 2021 of the pull tab 202 of the connecting member 205 enters the second guiding groove of the body 201 and the rear portion of the connecting member 205 is screwed to the snail of the sliding member 203 by the thread thereon. The hole 2035 is used to fully fix the connecting member 2 (4) to the sliding member 2〇3. In this way, when the external force rotates the pull handle 2〇2, the pull handle and the first guide period member 2〇5 slide in the second guide groove of the body 2〇1, and then are driven and fixed on the connecting member 205. The sliding element 2〇3 completes the linkage.
劈㈣中,滑動元件2〇3係包括二個滑動臂細,該等滑動 # 2〇31係相互平行設置,且本體加之相對兩侧面亦分別具有一滑槽 12 ’滑動臂2031則滑設於滑槽繼中。滑動臂肅更包括至少一 ,折4 2032 ’即滑動臂2〇31係相對滑槽2〇12向内形成一轉折,且在 …之-端部係具有-凸部2〇33,轉折部搬與凸部期之間係具有 -斜面2034 ’在本實施例中,凸部則係可為一模形塊。 ^圖5所示’外< 22之相對側面係分別具有至少_彈性元件 =,彈性元件221係相對轉折部2〇32向内突設,當光纖通訊模組如 固於外殼22中時,拉把2〇2與滑動臂細係呈垂直,且滑動臂細 糸正確地容置於賴2G12 +,使光魏賴組2()插人外殼22中時, 得以藉彈性元件221抵接於轉折部細时醜纖通賴組2〇 殼22中。 另外’如圖4與圖5所示,其中本體2〇1更具有一第一卡固部 施1 ’拉把2〇2更具有-第二卡固部麗,第一卡固部麗係與第 二卡固部2062相卡固’㈣吏拉把2〇2卡固於本體2〇1上。其中,第— 卡固部2嶋可以是-突出部,則第二卡固部麗可以是一凹部,當 然,第-卡固部2061亦可以是一凹部,而第二卡固部2〇62可以是_ 9 M3 08413 突出部。 另外’請同時參照如圖4與圖6至圖9,其所示為本創作較佳實 施例之光纖通訊模組2〇自外殼22釋放之一組作動圖。如圖6所示, 拉把202係卡固於本體2〇1上,而使光纖通訊模組2〇處於鎖固狀態。 接,,如圖7與圖8所示,當施一外力將拉把2〇2旋轉一角度A時, 係帶動連接拉把202之滑動元件2〇3往一方向D滑動,此時,抵接於 轉折部2032之彈性元件221則沿斜面2034被凸部2033推動,而解除 光纖通訊模組20與外殼22的卡固狀態,如圖9所示。 、’π上所述,依據本創作之一種光纖通訊裝置及其光纖通訊模組係 ,用樞接於光舰賴組賴之拉把帶紐動元件,畴除光纖通訊 =與外殼之卡_係,使先纖通賴組㈣藉錄把之補鎖固與 i丛1卜殼’由於本創作之光纖通訊模組僅_—拉把與—滑動元件之 可輕易地插拔於外殼中,且拉把與滑動元件係 效降㈣? *早:個體’相較於f知技術,由於構件簡單因此可有 械帶動理成本與組裝勞力,另外,由於本創作係運用機 ^動關係來使先纖通訊模組在鎖固與釋放狀態中轉換 構穩固之特點且免除了習知運用 ::八有、 能之可能,嶋高了说件痛性㈣喪失機構功 上所述僅為本創作之較佳實施例 以:=;==作之”專利範圍 範園所作之均等變圍本創作申請專利 白應屬本創作之涵蓋範圍。 【圖式簡單說明】 圖1為一種習知之光纖通訊裝置的示意圖; ^為㈣f _纖_組^機構的示意圖; M308413 圖3為依據本創作較佳實施例之一種光纖通訊裝置的示意圖, 圖4為依據本創作較佳實施例之一種光纖通訊模組的分解示意 圖, 圖5為依據本創作較佳實施例之光纖通訊模組鎖固於外殼的示意 圖;以及 圖6至圖9為依據本創作較佳實施例之光纖通訊模組自外殼釋放 的一組作動示意圖。 【主要元件符號說明】 1 光纖通訊裝置 2013 第二導槽 10 光纖通訊模組 202 拉把 101 閂鎖機構 2021 第一導槽 102 第一滑動臂 203 滑動元件 103 弟一滑動臂 2031 滑動臂 104 拉把 2032 轉折部 105 凸部 2033 凸部 106 彈性元件 2034 斜面 11 電路板 2035 螺孔 12 外殼 204、 205連接件 121 彈片 2061 第—^塊 13 連接器 2062 第二卡塊 2 光纖通訊裝置 21 電路板 20 光纖通訊模組 22 外殼 11 M308413 201 2011 2012 本體 221 殼體 23 滑槽 彈性元件 連接器 12In 劈(4), the sliding member 2〇3 includes two sliding arms which are arranged in parallel with each other, and the body and the opposite sides also have a sliding groove 12 respectively. The sliding arm 2031 is slidably disposed on The chute is in the middle. The sliding arm further comprises at least one, folding 4 2032 ′′, that is, the sliding arm 2〇31 forms a turning inward with respect to the sliding groove 2〇12, and has a convex portion 2〇33 at the end of the end, the turning part is moved There is a bevel 2034 between the convex portion and the convex portion. In the present embodiment, the convex portion may be a molded block. The opposite side of the 'outer' 22 has at least _ elastic element = respectively, and the elastic element 221 protrudes inwardly relative to the turning portion 2 〇 32, when the optical fiber communication module is fixed in the outer casing 22, The pull handle 2〇2 is perpendicular to the sliding arm fineness, and the sliding arm is correctly accommodated in the Lai 2G12+, so that when the optical Weilai group 2() is inserted into the outer casing 22, the elastic member 221 is abutted When the turning part is fine, the ugly fiber passes through the group 2 of the clamshell 22. In addition, as shown in FIG. 4 and FIG. 5, wherein the body 2〇1 has a first fastening portion 1 'pull 2 2 and 2 has a second fastening portion, the first fastening portion is The second fastening portion 2062 is clamped to the 'fourth' pull tab 2〇2 to the body 2〇1. Wherein, the first fastening portion 2 can be a protruding portion, and the second fastening portion can be a concave portion. Of course, the first fastening portion 2061 can also be a concave portion, and the second fastening portion 2〇62 Can be _ 9 M3 08413 protrusions. In addition, please refer to FIG. 4 and FIG. 6 to FIG. 9 at the same time, which is a group diagram of the release of the optical fiber communication module 2 from the outer casing 22 of the preferred embodiment. As shown in FIG. 6, the pull handle 202 is fastened to the main body 2〇1, and the optical fiber communication module 2 is locked. Then, as shown in FIG. 7 and FIG. 8, when an external force is applied to rotate the handle 2〇2 by an angle A, the sliding member 2〇3 of the connecting handle 202 is slid in a direction D. The elastic member 221 connected to the turning portion 2032 is pushed along the inclined surface 2034 by the convex portion 2033 to release the locking state of the optical fiber communication module 20 and the outer casing 22, as shown in FIG. According to the π, the optical fiber communication device and the optical fiber communication module thereof according to the present invention are pivotally connected to the light ship Lai's group, and the optical fiber communication = the card with the outer casing. Department, so that the first fiber through the group (four) borrowed to make up the lock and i cluster 1 shell 'because the fiber optic communication module of this creation only _ - pull and slide elements can be easily inserted into the shell, And the pull handle and the sliding element system are reduced (4)? *Early: the individual's compared with the f-knowledge technology, because of the simple structure, it can have the mechanical driving cost and the assembly labor. In addition, because the creation system uses the machine-action relationship to make The fiber-optic communication module is stable and stable in the state of locking and releasing, and it is exempt from the conventional use:: eight, can be possible, high-speaking pain (4) loss of the body is only the creation The preferred embodiment of the invention is as follows: "====" The patent application scope of the patent scope is the scope of the creation of the patent application. [Figure is a simple description] Figure 1 is a conventional optical fiber communication Schematic diagram of the device; ^ is a schematic diagram of the (four) f _ fiber _ group ^ mechanism; M308413 3 is a schematic diagram of a fiber optic communication device according to a preferred embodiment of the present invention, FIG. 4 is an exploded perspective view of a fiber optic communication module according to a preferred embodiment of the present invention, and FIG. 5 is a fiber optic communication according to a preferred embodiment of the present invention. A schematic diagram of the module being locked to the outer casing; and FIGS. 6 to 9 are a set of actuation diagrams of the optical fiber communication module released from the outer casing according to the preferred embodiment of the present invention. [Main component symbol description] 1 optical fiber communication device 2013 second Guide groove 10 optical fiber communication module 202 pull handle 101 latch mechanism 2021 first guide groove 102 first sliding arm 203 sliding element 103 brother sliding arm 2031 sliding arm 104 pull handle 2032 turning portion 105 convex portion 2033 convex portion 106 elastic element 2034 Bevel 11 Circuit board 2035 Screw hole 12 Housing 204, 205 Connector 121 Spring piece 2061 No. 13 Connector 2062 Second card 2 Optical fiber communication device 21 Circuit board 20 Optical fiber communication module 22 Housing 11 M308413 201 2011 2012 Ontology 221 housing 23 chute elastic element connector 12