M399511 五、新型說明: 【新型所屬之技術領域】 [0001]本創作涉及一種連接器,尤其涉及一種可進行光訊號傳 輸的連接器。 【先前技術】 [喔]與本創作相關之習知技藝可參閱於2〇〗〇年4月14曰公告之 中國大陸實用新型專利第CN201438225U號所揭示的一種 連接器’其包括絕緣本體、固持於絕緣本體上的導電端 子、光纖模組及連接於絕緣本體與光纖模組之間的彈簧 。所述絕緣本體設有自其下表面凹陷的收容槽、位於收 容槽後側之開槽、及位於開槽内並向前延伸的定位柱。 所述光纖模組包括一活動性地收容於收容槽内並可沿前 後方向移動的基座、及固持於基座上以進行光訊號傳輸 的光纖。所述基座上設有一向後延伸的凸柱,所述凸柱 與疋位柱沿前後方向位於同一直線上並相對設置 。所述 彈簧-端套於定位柱上’而另一端套於凸柱上。則當該 連接裔與-對接連接器進行播接時,對接連接器將基座 向後推’進而壓縮彈簧,使得彈簧受到壓縮後容易沿左 右或上下方向接起’此時套於凸柱上之彈菁對基座產生 偏離中心的作用力而帶動基座左右或上下移動,藉此造 成對接連接器上之光纖與該連接器上之光纖不能準確對 接,進而增加了光訊號傳輪的損耗。 [_是以’有必要提供-種具有改良結構的連接器,以克服 上述缺陷。 表單编號A0101 第3頁/共24頁 【新型内容】 ]鑒於上述内容,有必要提供一種可減小光訊號傳輸損耗 的連接器。 ' 陶本創作之目的係藉由如下技術方案達成的:—種連接器 ’其包括絕緣本體、活動性地固持於絕緣本體上的光纖 模組及連接於絕緣本體與域模組之間的彈性元件所 述彈性元件設有定位於絕緣本體上的第一端及抵接光纖 模、组的第二端’所述光纖模組設有—組裝於第二端上之 半球狀的m所述第二料雜元件義縮而沿左 右或上下方向拱起時圍繞所述半球狀的突出部滑動。 _6]才目較於習知技術,本創作連翁由▲光纖模組後端與 彈性兀件連接之凸柱改為組裝;性元件上的半球狀的 突出部,使得所述彈性元件被壓縮而沿左右或上下方向 拱起時可圍繞所述半球狀的突出部滑動,而不會帶動光 纖杈組整體擺動,進而消除彈性元件對光纖模組的側向 分力,減小光訊號傳輸的損耗。 【實施方式】 [0007]凊參照第一圖至第六圖所示,本創作連接器1〇〇之最佳實 施方式為—光電插頭連接器,其包括絕緣本體1、固持於 絕緣本體1上的複數導電端子2、活動性地固持於絕緣本 體1上的光纖模組3、連接於絕緣本體1與光纖模組3之間 的彈性元件4、固持於絕緣本體1上的座體5、與座體5相 配合的定位塊6、包覆絕緣本體1的遮蔽殼體7、圍繞於遮 蔽殼體7週邊的外絕緣層8以及與導電端子2及光纖模組3 連接的線纜9。所述線纜9包括電纜及光纜。 第4頁/共24頁 表單編號A0101 M399511 [0008] 請參照第二圖至第六圖所示,絕緣本體1設有上表面11及 下表面12 ’並包括有主體部13以及自主體部13之前端向 前延伸的舌板14。絕緣本體1之下表面12後端形成有複數 端子收容槽131 ’主體部13之上方設有自上表面11凹設的 收容腔132 ’所述座體5固定於收容腔132内。所述絕緣本 體1之舌板14下方設有自下表面12之前側凹陷的收容槽 141、位於收容槽141之後方並與收容槽!41沿前後方向 相貫通的浮動槽142、及位於浮動槽142之後方並與浮動 槽142沿前後方向貫通的開槽144。所述浮動槽142之底 壁上還進一步凹設有一弧形限位槽14 21,所述弧形限位 槽1421位於收容槽141與開槽144之間、並與收容槽141 和開槽14 4沿絕緣本體1前後方向相對連通,以收容彈簧4 並限制彈簧4左右擺動。 [0009] ·所述絕緣本體1上自下表面12還凹設有複數沿前後方向延 伸的凹槽143。所述凹槽143包括位於浮動槽142後側之 細長型第一凹槽ί 431及位於第一凹槽1431後側之第二凹 槽1432。所述第一凹槽1431沿絕唪本體1前後方向與浮 動槽142相貫通,並且沿絕緣本體1橫向方向位於開槽144 之兩側。所述第二凹槽1432沿絕緣本體1橫向方向延伸之 寬度大於第一凹槽1431沿絕緣本體1橫向方向延伸之寬度 。於本實施方式中’第二凹槽1432之寬度大於相鄰之兩 第一凹槽1431沿絕緣本體1橫向方向相連通後之寬度;誠 然’於其他實施方式中,所述第二凹槽1432也可僅稍大 於一個第一凹槽1431之寬度,也可與所有第一凹槽1431 沿絕緣本體1橫向方向相連通後之寬度相同或更大。所述 表單編號Α0101 第5頁/共24頁 M399511 浮動槽142沿絕緣本體1左右方向之寬度小於收容槽141之 寬度而大於第一凹槽1431與第二凹槽1432之寬度。所述 第一凹槽1432沿絕緣本體1前後方向與第一凹槽1431相 貫通。絕緣本體1於開槽14 4内設有向前凸伸的定位柱 1441 - [0010] 於本實施方式中,所述彈性元件4為一彈箸,所述彈簧4 沿絕緣本趙1前後方向延伸,並設有位於後端的第一端41 、位於前端的第二端42及連接於第一端41與第二端42之 間的中間部分43。所述第一端41收容於開槽144内並套於 定位柱1441周圍’以將彈簧4固定於絕緣本體1上,所述 彈簧4之中間部分43的下側收多於歧俾捧1421内以限制彈 簧4左右擺動。 t [0011] 所述絕緣本體1還設有一位於收容槽141後方並自下表面 12凹陷的凹陷部14 &,所述凹陷部14 6沿絕緣本體1上下 方向凹陷之深度小於收容槽141、浮動槽142、開槽144 及第一凹槽14 31沿絕緣本體1上下方向凹陷的深度。所述 凹陷部146與收容槽141沿前後方向相連通、與浮動槽 142、開槽144及第一凹槽1431沿上下方向相連通。所述 連接器100包括有一收容於凹陷部146内的蓋板10。所述 凹陷部14 6下方於浮動槽14 2之兩侧分別凹設有一圓孔 1461,所述蓋板1〇上設有一對固持柱1〇ι可分別固持於 第二圓孔1461内》另’所述蓋板1〇上還設有一沿絕緣本 體1上下方向與開槽144相對應設置的開口 1〇2,使得彈簧 4安裝於定位柱1441上時可沿上下方向擺動。所述收容槽 141内於舌板14的前端中間位置向下延伸形成一前寬後窄 表單编號Α0101 第6頁/共24頁 M399.511 大致呈V形的擋止塊145,並且於擋止塊145之左右兩側分 別形成一向下凸伸的凸塊147。舌板14之上方後側形成有 複數並排設置的端子槽148。於本實施例中絕緣本體1之 橫向方向即為左右方向、上下方向即為縱向方向。 [0012] 所述導電端子2之排佈符合USB 3. 0之傳輸標準,其包括 第一端子21以及第二端子22。所述第一端子21鑲埋成型 於絕緣本體1上,並設有位於舌板14之上端子槽148前方 的平板狀第一接觸部211、位於絕緣本體1之後端端子收 容槽131内以與線纜9電性連接的第一尾部212。所述第二 端子22固持於座體5内並包括延伸入舌板14上之端子槽 148内的彈性第二接觸部221、與線繞9電性連接的第二尾 部223以及連接第二接觸部221與第二尾部223的第二固 持部222。所述第一接觸部211與第二接觸部221共同位 於舌板14之上方並形成前後間隔排佈的兩排。所述光纖 模組3與第一接觸部211及第二接觸部221沿絕緣本體1上 下方向間隔開。所述座體5成矩形塊體設計並設有複數沿 前後方向貫穿座體5的端子收容孔51。所述第二固持部 222固持於座體5之端子收容孔51内β所述定位塊6突伸入 端子收容孔51之後端以將第二端子22穩固地固定於絕緣 本體1内。該第二端子22也可先鑲埋成型於座體5上後再 與座體5—同組裝至絕緣本體1上。 [0013] 請參照第三圖至第六圖所示,所述光纖模組3可於絕緣本 體1上沿前後方向滑動,其包括可於絕緣本體1的收容槽 141内沿前後方向滑動的基座30以及安裝於基座30上的光 纖35。所述基座30之前端中間位置設有與擋止塊145相配 表單編號Α0101 第7頁/共24頁 M399511 合且前寬後窄的V形槽31。基座30於V形槽31之左右兩側 为別6又有一對透鏡32。所述基座3〇於每一透鏡32之正後 方形成有一收容孔33。所述第一凹槽1431與收容孔33沿 則後方向一一對應。所述基座3 〇於每一對透鏡3 2之外側 設有定位孔34以與對接連接器(未圖示)上的柱體相對接 ’從而使插頭連接器與插座連接器的中心線完全對齊, 確保光訊號傳輪的品質。基座3〇之後端中部設有一向後 突伸的凸柱36。所述凸柱36後端設有一半球狀的突出部 361 »所述凸柱36與定位柱1441沿絕緣本體1前後方向位 於同一直線上並相向延伸。所述彈簧4之第二端42圍繞並 抵接於半球狀的突出部3 61 :b .,輿且當本創作連接器1 〇 〇 ·. - · - · 與對接光電連接器(未圖示養插海每,::,、所述禪簧4被壓縮 • · · ... - 而左右或上下擺動時’所述第二端42可圍·繞半球狀的突 出部361滑動,而不會帶動光纖模組3整體擺動,從而消 除對光纖模組3的側向分力’減小光訊號傳輸的損耗。誠 然’於其他實施方式中,所述半球狀的突出部361也可直 接自基座30上延伸形成,也可達到消除對光纖模組3的側 向分力,減小光訊號傳輸的損耗的技術效果;又,所述 基座30可由與透鏡32相同的材料、並與透鏡共同形成為 一整體,而減少安裝透鏡32的流程。 [0014]本創作連接器1〇〇包括有四根所述光纖35。每一光纖35設 有固定於透鏡32後端之收容孔33内以與透鏡32光耦合的 耦合部351、自耦合部351向後延伸並收容定位於浮動槽 142内的浮動部355、自浮動部355繼續向後延伸並收容 於第一凹槽1431内的定位部352、自定位部352向後延伸 表單编號A0101 第8頁/共24頁 並收容於第二凹槽1432内的彎曲部353、及自彎曲部353 向後延伸出絕緣本體1以連接線纜9的連接部354。本創作 連接器100中將每一光纖35前側之耦合部351分別固定於 基座30上與透鏡32——對應耦合以提供高速光學訊號傳 輸。 [0015] 所述浮動部355均收容於浮動槽142内並可沿絕緣本體1左 右或上下方向做小幅度的擺動。所述定位部352分別收容 於第一凹槽1431内以限制定位部352沿絕緣本體1橫向方 向過度移動,從而可有效牽制基座30,防止基座30沿絕 緣本體1橫向方向過度移動,進而使得本創作連接器100 上之光纖模組3與對接連接器.上之光纖模組(未圖示)對 接時可沿前後方向相互對準,確保與對接連接器上的光 ,·;'. 纖模組對接可靠。另,當光纖35安裝到絕緣本體1上後, 將所述蓋板10固定於凹陷部146内以將光纖35抵壓限制於 凹槽143内,可有效防止光纖35沿前後方向移動時向下翹 起,進而牽制基座30,防止基座30沿絕緣本體1上下方向 過度移動,使本創作連接器L00上之光纖模組3與對接連 / ·: 接器上之光纖模組可靠對接。本實施方式中藉由於絕緣 本體1上設置第一凹槽1431收容光纖35之定位部352以防 止其沿絕緣本體1橫向方向過度移動,並藉由蓋板10壓制 光纖35防止光纖35翹起;誠然,於其他實施方式中,也 可藉由於蓋板10上直接設置沿前後方向延伸的第一凹槽 以收容並定位光纖35,蓋板10安裝到絕緣本體1上後與絕 緣本體1共同壓制光纖35以防止光纖35翹起也可達到相同 目的。所述彎曲部353收容於沿絕緣本體1橫向方向較第 表單編號A0101 第9頁/共24頁 M399511 一凹槽1431寬的第二凹槽1432内,從而當本創作連接器 100後側的線纜9被拉伸時,可藉由光纖35之彎曲部353 伸直來消除或者減小光纖35因此受到的拉力,使得光纖 35不易被拉伸而損壞。 [0016] 遮蔽殼體7包括相互結合的上殼71及下殼72以將絕緣本體 1包覆於其中以起到很好地遮罩效果。上殼71包覆於舌板 14周圍且包括抵壓於舌板14之下表面的底壁711、與底壁 711相對之頂壁712以及連接底壁711與頂壁71 2的兩側壁 713。底壁711之前端向上一體衝壓形成一抵持於光纖模 組3下方的凸起75。 .、 . Ή …: :. 1 ·. · · ·. ,} [0017] 當本創作插頭連接器100插入帶逼相^纖壤、組的對接插 • (.入二· . V» 座連接器時,插頭連接器1 0:tf之德叙模紐导上的定位孔3 4 與對應的對接插座連接器之光纖模組上的柱體相配合, 當定位孔34之長短尺寸與柱體不一致時,該插頭連接器 100的光纖模組3可於彈簧4的作用力下沿前後方向滑動來 調整,使插頭連接器100上之光纖模組3與對應的插座連 接器上之光纖模組配合靈活、可靠,並且光纖35之定位 部352收容於第一凹槽1431内並於第一凹槽1431内沿前 後方向移動,則光纖35於初始位置及活動過程中之位置 均可得到有效控制,有利於光纖模組3整體的移動,而不 會過度偏移;此外因第二凹槽1432沿絕緣本體1橫向方向 之寬度大於第一凹槽1431,則定位部352沿前後方向移動 時可部分呈弩曲狀移入第二凹槽1432内,使得光纖模組3 於彈簧4的作用力下沿前後方向能夠順暢地移動。又,當 本創作插頭連接器100插入帶有相應光纖模組的對接插座 表單編號A0101 第10頁/共24頁 連接器時,彈|4因為受到壓縮 :::簧4之第一端41繞半球狀的突出部361滑動拱:不 二讀光纖模組3整體擺動,從而消除對光纖模組3之側 =力,使得光訊號對接準埃,進而減小光訊號傳輸的 [0018] 田插頭連接器100拔出後,基座3〇於彈簧4之作用力下向 前滑動,所述彈簧4之第141繞半球狀的突出部361滑 動而恢復原狀’此時’擋场145抵持於基細前端之v 形槽31内方面’該擔止塊145位於光纖模組3前端可 防止光纖模組3向前潸出收容槽141,另一方面該擋止 鬼145與光纖模組3上之v形槽31相配合從而可防止光纖模 組3於絕緣本體丨橫向方向上的晃動。基座3〇之前端下方 抵持於上殼71前端所設的凸起75上,基座3〇之前端下方 抵持於舌板14前端所設的凸塊147上,藉此,抵持於基座 30上之凸塊147與凸起75均可防止基座3〇於上下方向的 晃動,综上所述,擋止塊145 '凸塊147及凸起75均可形 成抵持於光纖模組3之抵持構件從而可防止光纖模組3於 垂直於前後方向的方向上晃動,將光纖模組3更好地恢復 到原始狀態,從而方便插頭連接器再次插入插座連接器 [0019] 本創作插頭連接器100於未插接時,光纖模組3受意外震 動或拉伸時,也可藉由光纖35後侧定位於第一凹槽1431 内進行牽制基座3〇,防止光織模組3過度擺動而影響與對 接連接器之光纖模組的可靠對接。也可藉由光纖35之f 曲部353伸直來消除或者減小光纖35因此受到的拉力,使 表單编號A0101 第11頁/共24頁 [0020]M399511 [0021] [0022] [0023] [0024] [0025] [0026] [0027] [0028] 表單編號Α0101 得光纖35不易被拉伸而損壞。 、上附圖所揭示的連接器⑽均為插頭連接器於本創作 之其他實把方式中’該連接器100也可為插座連接器。 ,.’τ'上所述’本創作符合新型專利要件,爰依法提出專利 申明。惟,以上所述者僅為本創作之較佳實施例,本創 作之範圍並不以上述實施例為限,舉凡熟習本案技藝之 人士援依本創作之精神所作之等效修飾或變化,皆應涵 蓋於以下申請專利範圍内。 【圖式簡單說明】 第一圖係本創作連接器的立體組哈爵。 ·. ·. -·. ;. 第二圖係本創作連接器將遮蔽i殼邊务解後之部分立體分 · · ·> 解圖。 第三圖係本創作連接器將遮蔽殼體分解後之另一角度的 部分立體分解圖。 第四圖係本創作連接器去掉遮蔽殼體後之部分立體組合 圖。 第五圖係本創作連接器去掉遮蔽殼體後之部分立體分解 圖。 第六圖係本創作連接器去掉遮蔽殼體後之另一角度的部 分立體分解圖。 【主要元件符號說明】 連接器:100 第丨2頁/共24頁 M399511M399511 V. New Description: [New Technology Field] [0001] The present invention relates to a connector, and more particularly to a connector capable of optical signal transmission. [Prior Art] [喔] The related art related to this creation can be referred to the connector disclosed in the Chinese Utility Model Patent No. CN201438225U published on April 14th of the next year, which includes an insulating body and holds a conductive terminal on the insulative housing, a fiber optic module, and a spring connected between the insulative housing and the fiber optic module. The insulating body is provided with a receiving groove recessed from a lower surface thereof, a groove located at a rear side of the receiving groove, and a positioning post located in the groove and extending forward. The optical fiber module includes a base that is movably received in the receiving slot and movable in the front and rear directions, and an optical fiber that is held on the base for optical signal transmission. The base is provided with a rearwardly extending protrusion, and the protrusion and the clamping column are located on the same straight line in the front-rear direction and are oppositely disposed. The spring end is sleeved on the positioning post and the other end is sleeved on the stud. When the connection and the docking connector are broadcasted, the docking connector pushes the base backwards to further compress the spring, so that the spring is easily compressed and then connected in the left and right or up and down directions. The elastic eccentricity generates an off-center force on the pedestal to drive the pedestal to move left and right or up and down, thereby causing the optical fiber on the docking connector to not accurately connect with the optical fiber on the connector, thereby increasing the loss of the optical signal transmission wheel. [_Yes] It is necessary to provide a connector with an improved structure to overcome the above drawbacks. Form No. A0101 Page 3 of 24 [New Content]] In view of the above, it is necessary to provide a connector that can reduce the transmission loss of optical signals. The purpose of Taoben's creation is achieved by the following technical solutions: a connector that includes an insulative housing, a fiber optic module that is movably held on the insulative housing, and an elasticity that is coupled between the insulative body and the domain module. The elastic member is provided with a first end positioned on the insulative housing and a second end abutting the optical fiber mold, the optical fiber module is provided with a hemispherical shape assembled on the second end When the two material elements are contracted and are arched in the left and right or up and down directions, they slide around the hemispherical protrusions. _6] Compared with the prior art, this creation is changed by the truss of the ▲ fiber optic module back end and the elastic element to the assembly; the hemispherical protrusion on the sexual element causes the elastic element to be compressed When it is arched in the left and right or up and down directions, it can slide around the hemispherical protruding portion without driving the overall swing of the fiber bundle, thereby eliminating the lateral component of the elastic component to the optical fiber module and reducing the optical signal transmission. loss. [Embodiment] [0007] Referring to the first to sixth figures, the preferred embodiment of the present invention is a photoelectric plug connector including an insulative housing 1 and being held on the insulative housing 1. The plurality of conductive terminals 2, the optical fiber module 3 movably held on the insulative housing 1, the elastic member 4 connected between the insulative housing 1 and the optical fiber module 3, the base 5 held on the insulative housing 1, and The positioning block 6 is matched with the seat body 5, the shielding shell 7 covering the insulating body 1, the outer insulating layer 8 surrounding the periphery of the shielding shell 7, and the cable 9 connected to the conductive terminal 2 and the optical fiber module 3. The cable 9 includes a cable and an optical cable. Page 4 of 24 Form No. A0101 M399511 [0008] Referring to FIGS. 2 to 6 , the insulative housing 1 is provided with an upper surface 11 and a lower surface 12 ′ and includes a main body portion 13 and the main body portion 13 . The tongue 14 extends forwardly from the front end. A plurality of terminal receiving grooves 131 are formed at the rear end of the lower surface 12 of the insulative housing 1. The upper portion of the main body portion 13 is provided with a receiving cavity 132 recessed from the upper surface 11. The base 5 is fixed in the receiving cavity 132. A receiving groove 141 recessed from the front side of the lower surface 12 is disposed below the tongue plate 14 of the insulating body 1, and is located behind the receiving groove 141 and the receiving groove! A floating groove 142 that penetrates in the front-rear direction and a groove 144 that is located behind the floating groove 142 and penetrates the floating groove 142 in the front-rear direction. An arc-shaped limiting slot 14 21 is further recessed on the bottom wall of the floating slot 142. The arc-shaped limiting slot 1421 is located between the receiving slot 141 and the slot 144, and is disposed with the receiving slot 141 and the slot 14 4 is relatively connected in the front-rear direction of the insulative housing 1 to accommodate the spring 4 and to restrict the spring 4 from swinging left and right. [0009] The insulating body 1 is further recessed from the lower surface 12 with a plurality of grooves 143 extending in the front-rear direction. The groove 143 includes an elongated first groove 431 at the rear side of the floating groove 142 and a second groove 1432 at the rear side of the first groove 1431. The first groove 1431 penetrates the floating groove 142 in the front-rear direction of the main body 1 and is located on both sides of the groove 144 in the lateral direction of the insulating body 1. The width of the second recess 1432 extending in the lateral direction of the insulative housing 1 is greater than the width of the first recess 1431 extending in the lateral direction of the insulative housing 1. In the present embodiment, the width of the second recess 1432 is greater than the width of the adjacent first recess 1431 in the lateral direction of the insulative housing 1; it is true that in other embodiments, the second recess 1432 It may also be slightly larger than the width of one of the first grooves 1431, or may be the same or larger than the width of all the first grooves 1431 in the lateral direction of the insulating body 1. The width of the floating groove 142 along the left-right direction of the insulating body 1 is smaller than the width of the receiving groove 141 and larger than the width of the first groove 1431 and the second groove 1432. The first recess 1432 penetrates the first recess 1431 along the front and rear direction of the insulative housing 1. The insulative housing 1 is provided with a positioning post 1441 extending forwardly in the slot 14 4 - [0010] In the embodiment, the elastic member 4 is a magazine, and the spring 4 is along the front and rear of the insulating body Extending, and having a first end 41 at the rear end, a second end 42 at the front end, and an intermediate portion 43 connected between the first end 41 and the second end 42. The first end 41 is received in the slot 144 and sleeved around the positioning post 1441 to fix the spring 4 to the insulative housing 1. The lower side of the middle portion 43 of the spring 4 is more than the inner portion 1421. The spring 4 is restrained from swinging left and right. [0011] The insulative housing 1 is further provided with a recessed portion 14 & behind the receiving groove 141 and recessed from the lower surface 12, the recessed portion 14 is recessed in the up and down direction of the insulative housing 1 to a depth smaller than the receiving slot 141, The floating groove 142, the groove 144 and the first groove 14 31 are recessed in the vertical direction of the insulating body 1. The recessed portion 146 communicates with the receiving groove 141 in the front-rear direction, and communicates with the floating groove 142, the slit 144, and the first groove 1431 in the up-and-down direction. The connector 100 includes a cover 10 received in the recess 146. A circular hole 1461 is respectively recessed on the two sides of the recessed portion 14 6 on the two sides of the floating slot 14 2 . The cover plate 1 is provided with a pair of holding columns 1 〇 可 can be respectively held in the second circular hole 1461 . The cover plate 1 is further provided with an opening 1〇2 corresponding to the slot 144 in the up and down direction of the insulative housing 1, so that the spring 4 can swing in the up and down direction when mounted on the positioning post 1441. The receiving groove 141 extends downwardly at a position intermediate the front end of the tongue plate 14 to form a front width and a rear narrow form number Α0101, page 6 / total 24 pages, M399.511, a substantially V-shaped stop block 145, and is blocked. The left and right sides of the block 145 respectively form a downwardly projecting protrusion 147. The rear side of the tongue plate 14 is formed with a plurality of terminal grooves 148 arranged side by side. In the present embodiment, the lateral direction of the insulative housing 1 is the left-right direction, and the vertical direction is the longitudinal direction. [0012] The arrangement of the conductive terminals 2 conforms to the transmission standard of USB 3.0, and includes a first terminal 21 and a second terminal 22. The first terminal 21 is embedded in the insulative housing 1 and is provided with a flat first contact portion 211 located in front of the terminal slot 148 of the tongue plate 14 and located in the rear end terminal receiving slot 131 of the insulative housing 1 to The cable 9 is electrically connected to the first tail portion 212. The second terminal 22 is retained in the base 5 and includes an elastic second contact portion 221 extending into the terminal slot 148 of the tongue plate 14, a second tail portion 223 electrically connected to the wire winding 9, and a second contact connection. The second holding portion 222 of the second portion 223 and the second portion 223. The first contact portion 211 and the second contact portion 221 are co-located above the tongue plate 14 and form two rows spaced apart from each other. The optical fiber module 3 is spaced apart from the first contact portion 211 and the second contact portion 221 in the upward and downward directions of the insulative housing 1. The base body 5 is formed in a rectangular block shape and is provided with a plurality of terminal receiving holes 51 penetrating the base body 5 in the front-rear direction. The second holding portion 222 is fixed in the terminal receiving hole 51 of the base 5. The positioning block 6 protrudes into the rear end of the terminal receiving hole 51 to firmly fix the second terminal 22 in the insulating body 1. The second terminal 22 can also be embedded in the base body 5 and then assembled to the insulative housing 1 together with the base body 5. [0013] Referring to the third to sixth embodiments, the optical fiber module 3 is slidable in the front-rear direction on the insulative housing 1, and includes a base that can slide in the front-rear direction in the receiving groove 141 of the insulative housing 1. The holder 30 and the optical fiber 35 mounted on the base 30. The intermediate position of the front end of the base 30 is provided with a stop-shaped block 145. The form number Α0101 7th page/total 24 pages M399511 is combined with the front wide and narrow V-shaped groove 31. The susceptor 30 has a pair of lenses 32 on the left and right sides of the V-shaped groove 31. The susceptor 3 is formed with a receiving hole 33 at the rear of each lens 32. The first groove 1431 and the receiving hole 33 are in one-to-one correspondence in the subsequent direction. The base 3 is provided with a positioning hole 34 on the outer side of each pair of lenses 3 2 to be in contact with the post on the mating connector (not shown) so that the center line of the plug connector and the socket connector are completely Align to ensure the quality of the optical signal transmission wheel. A rearwardly projecting stud 36 is provided in the middle of the rear end of the base 3〇. The rear end of the stud 36 is provided with a semi-spherical protrusion 361. The stud 36 and the positioning post 1441 are located on the same straight line in the front-rear direction of the insulative housing 1 and extend toward each other. The second end 42 of the spring 4 surrounds and abuts on the hemispherical protrusion 3 61 : b . , and when the present connector 1 〇〇·. - · - · and the docking optical connector (not shown Each of the seas is inserted, and the zen spring 4 is compressed. · · · ... - while swinging left and right or up and down 'the second end 42 can slide around the hemispherical protrusion 361 instead of The optical fiber module 3 is oscillated as a whole, thereby eliminating the lateral component of the fiber module 3 and reducing the loss of optical signal transmission. Indeed, in other embodiments, the hemispherical protrusion 361 can also directly The pedestal 30 is formed on the pedestal 30 to achieve the technical effect of eliminating the lateral component of the optical fiber module 3 and reducing the loss of the optical signal transmission. Moreover, the pedestal 30 can be made of the same material as the lens 32 and The lenses are collectively formed as one unit, and the flow of mounting the lens 32 is reduced. [0014] The authoring connector 1 includes four of the optical fibers 35. Each of the optical fibers 35 is provided with a receiving hole 33 fixed to the rear end of the lens 32. The coupling portion 351 that is optically coupled to the lens 32 and the self-coupling portion 351 extend rearward and receive the positioning and float. The floating portion 355 in the groove 142 and the positioning portion 352 extending from the floating portion 355 and extending in the first groove 1431 and extending from the positioning portion 352 are extended rearward. Form No. A0101 Page 8 of 24 The curved portion 353 in the two recesses 1432 and the connecting portion 354 extending rearward from the curved portion 353 to connect the cable 9. The coupling portion 351 on the front side of each of the optical fibers 35 is fixed to the original connector 100. The pedestal 30 is coupled to the lens 32 to provide high-speed optical signal transmission. [0015] The floating portion 355 is received in the floating slot 142 and can be oscillated along the left and right or the up and down direction of the insulating body 1. The positioning portions 352 are respectively received in the first recesses 1431 to restrict the positioning portions 352 from excessively moving in the lateral direction of the insulative housing 1 , thereby effectively holding the base 30 and preventing the base 30 from excessively moving in the lateral direction of the insulative housing 1 , thereby making The fiber optic module 3 on the authoring connector 100 and the fiber optic module (not shown) on the mating connector can be aligned with each other in the front-rear direction to ensure the light on the mating connector, and the fiber. Module docking In addition, after the optical fiber 35 is mounted on the insulative housing 1, the cover plate 10 is fixed in the recessed portion 146 to restrain the optical fiber 35 from being restrained in the recess 143, which can effectively prevent the optical fiber 35 from moving in the front-rear direction. Tilting downward, and then holding the base 30, preventing the base 30 from moving excessively in the up and down direction of the insulating body 1, so that the optical fiber module 3 on the present connector L00 and the fiber optic module on the docking/connection: In the embodiment, the positioning portion 352 of the optical fiber 35 is disposed on the insulative housing 1 to prevent the positioning portion 352 of the optical fiber 35 from being excessively moved in the lateral direction of the insulative housing 1 , and the optical fiber 35 is pressed by the cover 10 to prevent the optical fiber 35 from being tilted. As a matter of course, in other embodiments, the first recess extending in the front-rear direction is directly disposed on the cover 10 to receive and position the optical fiber 35, and the cover 10 is mounted on the insulative housing 1 and the insulative housing 1 The same purpose can be achieved by co-pressing the optical fiber 35 to prevent the optical fiber 35 from being lifted. The curved portion 353 is received in the second groove 1432 which is wider in the lateral direction of the insulative housing 1 than the first form number A0101, 9th page, or 24 pages, M399511, and a groove 1431, so that the line on the rear side of the present connector 100 When the cable 9 is stretched, the bending portion 353 of the optical fiber 35 can be straightened to eliminate or reduce the tensile force that the optical fiber 35 is subjected to, so that the optical fiber 35 is less likely to be stretched and damaged. [0016] The shield case 7 includes an upper case 71 and a lower case 72 that are coupled to each other to cover the insulating body 1 therein to provide a good masking effect. The upper case 71 is wrapped around the tongue plate 14 and includes a bottom wall 711 which is pressed against the lower surface of the tongue plate 14, a top wall 712 opposite to the bottom wall 711, and two side walls 713 which connect the bottom wall 711 and the top wall 71 2 . The front end of the bottom wall 711 is integrally stamped upward to form a projection 75 that abuts against the fiber mold set 3. . . . . Ή ...: :. 1 ·. · · ·. , } [0017] When the original plug connector 100 is inserted into the mating phase with the force of the phase, the pair of plugs • (. into the second · V » block connection When the device is connected, the positioning hole 3 4 of the plug connector 10 0 of the tf is matched with the cylinder on the fiber module of the corresponding mating socket connector, and the length and the size of the positioning hole 34 and the cylinder In case of inconsistency, the optical fiber module 3 of the plug connector 100 can be adjusted to slide in the front-rear direction under the force of the spring 4, so that the optical fiber module 3 on the plug connector 100 and the optical fiber module on the corresponding socket connector The positioning portion 352 of the optical fiber 35 is accommodated in the first groove 1431 and moves in the front-rear direction in the first groove 1431, so that the position of the optical fiber 35 in the initial position and during the active process can be effectively controlled. The movement of the optical fiber module 3 as a whole is not excessively offset; in addition, since the width of the second groove 1432 along the lateral direction of the insulating body 1 is larger than the first groove 1431, the positioning portion 352 can move in the front-rear direction. The portion is curved into the second recess 1432 to make the optical fiber module 3 The force of the spring 4 can be smoothly moved in the front-rear direction. Also, when the original plug connector 100 is inserted into the docking socket form number A0101 with the corresponding fiber optic module, the 10th/24th connector, the bomb|4 Because the compression::: the first end 41 of the spring 4 slides around the hemispherical protrusion 361: the optical fiber module 3 is not oscillated as a whole, thereby eliminating the side of the fiber module 3 = force, so that the optical signal is aligned [0018] After the field plug connector 100 is pulled out, the base 3 slides forward under the force of the spring 4, and the 141th of the spring 4 is wound around the hemispherical projection 361. Sliding and returning to the original state 'At this time' the retaining field 145 is in the v-shaped groove 31 of the front end of the base, and the supporting block 145 is located at the front end of the optical fiber module 3 to prevent the optical fiber module 3 from being pulled out of the receiving groove 141. On the other hand, the stopper 145 cooperates with the v-shaped groove 31 on the optical fiber module 3 to prevent the optical fiber module 3 from swaying in the lateral direction of the insulating body. The base 3 is biased to the upper side below the front end. 71 on the front end of the protrusion 75, the base 3 〇 before the front end is pressed against the tongue 14 The bumps 147 are disposed, whereby the bumps 147 and the protrusions 75 on the base 30 can prevent the base 3 from swaying in the up and down direction. As described above, the block 145 is convex. The block 147 and the protrusions 75 can form abutting members of the optical fiber module 3 to prevent the optical fiber module 3 from swaying in a direction perpendicular to the front-rear direction, thereby better recovering the optical fiber module 3 to the original state. Therefore, the plug connector can be inserted into the socket connector again. [0019] When the fiber connector module 3 is unintentionally vibrated or stretched when the plug connector 100 is unplugged, the rear side of the optical fiber 35 can also be positioned in the first recess. The pedestal 3 牵 is carried in the slot 1431 to prevent the optical woven module 3 from excessively swinging and affecting the reliable mating of the optical fiber module of the docking connector. It is also possible to eliminate or reduce the pulling force of the optical fiber 35 by straightening the curved portion 353 of the optical fiber 35, so that the form number A0101 is 11 pages/total 24 pages [0020] M399511 [0021] [0022] [0028] [0028] The form number Α0101 makes the optical fiber 35 less likely to be stretched and damaged. The connector (10) disclosed in the above drawings is a plug connector in the other embodiment of the present invention. The connector 100 can also be a socket connector. , .’τ’ stated above’ the creation meets the requirements of the new patent, and the patent declaration is filed according to law. However, the above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above embodiments, and those who are familiar with the skill of the present invention are equivalent to the equivalent modifications or changes made by the spirit of the present creation. It should be covered by the following patent application. [Simple description of the diagram] The first picture is the three-dimensional group of the author of the creation of the connector. ······. ;. The second picture is the part of the three-dimensional division of the creative connector that will obscure the shell of the shell. · · ·> Solution. The third figure is a partially exploded view of the angle at which the present connector will be disassembled from another angle. The fourth figure is a partial three-dimensional combination diagram of the original connector after the shielded housing is removed. The fifth figure is a partial exploded view of the original connector after the shielded housing is removed. The sixth figure is a partial exploded view of the angle at which the present connector is removed from the shielded housing. [Main component symbol description] Connector: 100 Page 2 of 24 M399511
[0029] 絕緣本體:1 [0030] 上表面:11 [0031] 下表面:12 [0032] 主體部:13 [0033] 端子收容槽:131 [0034] 收容腔:132 [0035] 舌板:14 [0036] 收容槽:141 [0037] 浮動槽:142 [0038] 限位槽:1421 [0039] 開槽:144 [0040] 定位柱:14 41 [0041] 凹槽:143 [0042] 第一凹槽:1431 [0043] 第二凹槽:1432 [0044] 凹陷部:146 [0045] 圓孔:1461 [0046] 擋止塊:145 [0047] 凸塊:147 表單編號A0101 第13頁/共24頁 M399511 [0048] 端子槽:148 [0049] 導電端子:2 [0050] 第一端子:21 [0051] 第一接觸部:211 [0052] 第一尾部:212 [0053] 第二端子:22 [0054] 第二接觸部:221 [0055] 第二固持部:222 [0056] 第二尾部:223 [0057] 光纖模組:3 [0058] 基座:30 [0059] V形槽:31 [0060] 透鏡:32 [0061] 收容孔:33 [0062] 定位孔:34 [0063] 凸柱:36 [0064] 突出部:361 [0065] 光纖:35 [0066] 耦合部:351 表單編號A0101 第14頁/共24頁 M399511[0029] Insulating body: 1 [0030] Upper surface: 11 [0031] Lower surface: 12 [0032] Main body: 13 [0033] Terminal receiving groove: 131 [0034] Containment cavity: 132 [0035] tongue plate: 14 [0036] Storage slot: 141 [0037] Floating slot: 142 [0038] Limiting slot: 1421 [0039] Slotting: 144 [0040] Positioning post: 14 41 [0041] Groove: 143 [0042] First recess Slot: 1431 [0043] Second groove: 1432 [0044] Depression: 146 [0045] Round hole: 1461 [0046] Stop block: 145 [0047] Bump: 147 Form No. A0101 Page 13 of 24 Page M399511 [0048] Terminal slot: 148 [0049] Conductive terminal: 2 [0050] First terminal: 21 [0051] First contact: 211 [0052] First tail: 212 [0053] Second terminal: 22 [ 0054] Second contact: 221 [0055] Second holding: 222 [0056] Second tail: 223 [0057] Fiber optic module: 3 [0058] Base: 30 [0059] V-groove: 31 [0060] Lens: 32 [0061] accommodating hole: 33 [0062] Locating hole: 34 [0063] Columb: 36 [0064] Projection: 361 [0065] Fiber: 35 [0066] Coupling: 351 Form No. A0101 No. 14 Page / Total 24 pages M 399511
[0067] 定位部:352 [0068] 彎曲部:353 [0069] 連接部:354 [0070] 浮動部:355 [0071] 彈簧:4 [0072] 第一端:41 [0073] 第二端:42 [0074] 中間部分:43 [0075] 座體:5 [0076] 端子收容孔:51 [0077] 定位塊:6 [0078] 遮蔽殼體:7 [0079] 上殼:71 [0080] 底壁:711 [0081] 頂壁:712 [0082] 側壁:713 [0083] 凸起:75 [0084] 下殼:72 [0085] 外絕緣層:8 表單編號A0101 第15頁/共24頁 M399511 [0086] 線纜: [0087] 蓋板: [0088] 固持柱 [0089] 開口: ίο:101 102 表單編號A0101 第16頁/共24頁[0067] Positioning portion: 352 [0068] Bending portion: 353 [0069] Connecting portion: 354 [0070] Floating portion: 355 [0071] Spring: 4 [0072] First end: 41 [0073] Second end: 42 Intermediate part: 43 [0075] Seat: 5 [0076] Terminal receiving hole: 51 [0077] Positioning block: 6 [0078] Shading housing: 7 [0079] Upper case: 71 [0080] Bottom wall: 711 [0081] Top wall: 712 [0082] Side wall: 713 [0083] Bump: 75 [0084] Lower case: 72 [0085] Outer insulation: 8 Form No. A0101 Page 15 of 24 M399511 [0086] Cable: [0087] Cover: [0088] Hold column [0089] Opening: ίο: 101 102 Form No. A0101 Page 16 of 24