M356282 八、新型說明: 【新型所屬之技術領域】 本創作係提供一種線纜連接器組合,尤指一種固持於電子設備内部的線纜 連接Is組合。 【先前技術】 請參閱第一圖和第二圖所示,為一種線纜連接器組合200,其包括絕緣本體 201、導電端子(未圖示)及導線203,所述絕緣本體201上設有複數貫穿絕緣 -本體201的收容通道202 ’所述導電端子被收容於收容通道202中,所述導線 _ 203電性連接於端子上並延伸出絕緣本體2〇1,所述線纜連接器組合2〇〇可以與 ® 對接連接器配合以實現信號或電源的傳輸。然,該線纜連接器組合200在實際 使用中往往只是被放置於機箱内部而未進行有效的固定,這樣機箱在搬運中該 線規連接器組合200的絕緣本體2〇1很容易晃動而使導線2〇3受到拉力而受損, 有可能影響該線纜連接器200的使用壽命。 因此’有必要設計一種線纜連接器組合來克服上述缺點。 【新型内容】 本創作之目的在於提供一種線纜連接器組合,其可以穩定的固持於電子設 備内部的固持機構上。 為解決前述技侧題’本__連懸組合係包滅緣本體、複數導電 主辦f複數導線,所述絕緣本體包括主體部和位於主體部後側的平板部,所述 、容诵設有複數貫穿主體部的收容通道,所述複數導電端子被收容於複數收 •向所Ϊ主體線紐連接於導電端子上並延伸出絕緣本體,所述平板部面 肋^有定位醜,所駐體部壯表面和下表面上且有凸 ;凸_翻持機構配合將本創作賴連接器組合 ^防止機》受雜力喊 、、⑽麟上而此 【實施方式】 、生 為了能夠徹底理解本創作,許多詳細的描㈣字在下文令展開。 6 M356282 請參閱第三圖、第四圖及第六圖所示,本創作線纜連接器組合包括絕緣本 體卜複數導電端子(未圖示)及複數導線203,絕緣本體丨包括主體部1〇和位於 主體部10後側的平板部103,主體部1〇上設有複數貫穿主體部1〇的收容通道 105 ’複數導電端子被收容於對應的收容通道1〇5中,導線2〇3電性連接於導電端 子上並延伸出絕緣本體1,從而形成一個完整的線纜連接器組合,其可以與對接 連接器配合以實現信號或電源傳輸。 本創作線規連接器組合的絕緣本體1是由絕緣材料射出成型而成,平板部 103具有一定彈性,主體部1〇具有一前端1〇1和一後端1〇2 ,平板部1〇3由後端1()2 向外延伸出,主體部10的上表面104和其相對的下表面(未標示)上各設有複數凸 •肋1040,凸肋1040呈長方體狀,平板部103面向主體部1〇的表面1〇3〇上設有複數 疋位凸點1031,平板部1〇3上設有複數和凸肋1〇4〇相對應的通孔1032,通孔1〇32 垂直於平板部103的投影面積和凸肋1〇4〇垂直於平板部103的投影面積相同或要 比凸肋1040垂直於平板部1〇3的投影面積要大,這樣在注塑成型時成型工藝簡單 而不必用到滑塊。 = 請參閱第三圖及第四圖所示,固持機構2為電子設備内部框架的一部分板 體。固持機構2上設有一開口21,開口21的寬度比主體部10的上表面1〇4和下表 面之間的寬度要稍寬但是沒有上表面104上的凸肋1〇4〇與下表面上的凸肋1〇4〇 之間的寬度寬,這樣可以恰好將主體部1〇收容於開口21中。開口21的兩側開設 有複數和平板部103上的定位凸點1〇31相對應的孔22,孔22可以和定位凸點1031 •相配合。凸肋1040和平板部1〇3之間有一定間距,該間距比固持機構2的厚度要 .寬。凸點1031和凸肋1040之間有一定間距,該間距比固持機構2的厚度要窄。 請參閱第三圖至第六圖所示,本創作線纜連接器組合組裝方法如下:首先, 將絕緣本體1放於開口 21外使主體部1〇的上表面104和下表面和開口 21的兩側相 對應,然後,將絕緣本體1沿固持機構2的開口21的方向向開口21裡推並使平板 部103卡於基板2的第一表面23上,使凸肋卡於第二表面24上,然後,再繼續向 開口21裡推絕緣本體1,當平板部1〇3上的定位凸點1〇31碰到基板2的邊緣時,由 於平板部103和凸肋1040已經把固持機構2卡於其間,繼續向開口21裡推絕緣本 體1時,由於定位凸點1031具有一定的高度,推力便迫使平板部1〇31發生一定的 彈性變形使絕緣本體1可以繼續被推向開口21裡,然後再推行一段距離,定位凸 點1031便卡於相對應的固持機構2上的孔22中同時平板部1〇3也恢復彈性變形, 7 M356282 至此本雜連接驗合髓«湘賴構2上,所料板㈣泳凸肋麵可 以防止絕緣本體丨沿餘測賴構2的第—方向獅,所収位凸賴31可以 和固持機構2上相對應的孔22配合防止絕緣本體〗朝退出開口咖第二方 動,從而,凸肋翻提供了線鏡連接器組合在第一方向上的定位,凸點ι〇 = 驗合在錢於第—方向㈣二方向上的定位,使本線纜連 接盗組合穩定的固持於固持機構2上。 見逆 綜上所述,本創作確已符合新型專利之要件,爰依法提出專利申請。惟, 以上所述者僅係本_之雛實施方式,本_之範隨抑前述實施 限二舉凡熟f本隸藝之人士援依本新型之精神所狀等效修飾或變化庫 涵羞於以下申請專利範圍内。 應 【圖式簡單說明】 第一圖係先前技術之線纜連接器組合之立體組合圖。 ,二圖係第一圖所示線纜連接器組合之另一視角之視圖。 f三圖係本創作線纜連接器組合之立體組合圖,其未組裝於固持機構上。 第四圖係第三圖所示線纜連接器組合另一個視角之視圖。 圖係本創作線纜連接器組合之立體組合圖,其組裝於固持機構上。 f 圖係第五圖所示線纜連接器組合另一個視角之視圖。 第七圖係第六圖所示線纜連接器組合沿πν_Ην線之剖視圖。 【主要元件符號說明】 絕緣本體 1、201 前端 101 平板部 103 通孔 1032 凸肋 1040 固持機構 2 導線 203 孔 22 第二表面 24 主體部 10 後端 102 凸點 1031 上表面 104 收容通道 105、202 線纜連接器組合 200 開口 21 第一表面 23M356282 VIII. New Description: [New Technology Field] This creation provides a cable connector combination, especially a cable connection Is combination that is held inside an electronic device. [Previous Art] Referring to the first and second figures, a cable connector assembly 200 includes an insulative housing 201, a conductive terminal (not shown), and a wire 203. The insulative housing 201 is provided. The conductive terminal is inserted into the receiving passage 202, and the conductive wire 203 is electrically connected to the terminal and extends out of the insulating body 2〇1. The cable connector combination is connected to the receiving passage 202. 2〇〇 can be used with the® docking connector for signal or power transfer. However, in actual use, the cable connector assembly 200 is often only placed inside the chassis without being effectively fixed, so that the insulative housing 2〇1 of the wire gauge connector assembly 200 is easily shaken during handling. The wire 2〇3 is damaged by the pulling force, which may affect the service life of the cable connector 200. Therefore, it is necessary to design a cable connector combination to overcome the above disadvantages. [New Content] The purpose of this creation is to provide a cable connector assembly that can be stably held on a holding mechanism inside an electronic device. In order to solve the above-mentioned technical problem, the present invention includes a main body portion and a flat plate portion located at a rear side of the main body portion, and the housing is provided with a plurality of wires. a plurality of receiving passages penetrating through the main body portion, wherein the plurality of conductive terminals are received in the plurality of receiving and connecting main body wires to the conductive terminals and extend out of the insulating body, and the flat surface ribs are positioned ugly, and the standing body The strong surface and the lower surface are convex; the convex _ flip-up mechanism cooperates with the creation of the connector to prevent the machine from being shuffled, and (10) on the lining and the [implementation], in order to fully understand this Creation, many detailed descriptions (4) are in the following order. 6 M356282 Please refer to the third, fourth and sixth figures. The cable connector assembly includes an insulating body and a plurality of conductive terminals (not shown) and a plurality of wires 203. The insulating body includes a main body portion. And the flat plate portion 103 located on the rear side of the main body portion 10, the main body portion 1 is provided with a plurality of receiving passages 105 penetrating through the main body portion 1'. The plurality of conductive terminals are received in the corresponding receiving passages 1 and 5, and the wires 2〇3 are electrically connected. The electrical connection is connected to the conductive terminal and extends out of the insulative housing 1 to form a complete cable connector assembly that can cooperate with the docking connector for signal or power transmission. The insulative housing 1 of the combination of the wire gauge connector is formed by injection molding of an insulating material, and the flat plate portion 103 has a certain elasticity. The main body portion 1 has a front end 1〇1 and a rear end 1〇2, and the flat plate portion 1〇3 Extending outwardly from the rear end 1 () 2, the upper surface 104 of the main body portion 10 and its opposite lower surface (not shown) are each provided with a plurality of convex ribs 1040, and the rib 1040 has a rectangular parallelepiped shape, and the flat plate portion 103 faces The surface 1〇3〇 of the main body 1〇 is provided with a plurality of clamping bumps 1031, and the flat plate portion 1〇3 is provided with a plurality of through holes 1032 corresponding to the protruding ribs 1〇4〇, and the through holes 1〇32 are perpendicular to The projected area of the flat portion 103 and the projected area of the rib 1 〇 4 〇 perpendicular to the flat portion 103 are the same or larger than the projected area of the rib 1040 perpendicular to the flat portion 1 〇 3, so that the molding process is simple during injection molding. You don't have to use a slider. = Refer to the third and fourth figures, the holding mechanism 2 is a part of the board of the internal frame of the electronic device. The holding mechanism 2 is provided with an opening 21 having a width slightly wider than the width between the upper surface 1 〇 4 and the lower surface of the main body portion 10 but without the ribs 1 〇 4 〇 on the upper surface 104 and the lower surface The width between the ribs 1〇4〇 is wide, so that the main body portion 1〇 can be accommodated in the opening 21 just. Both sides of the opening 21 are provided with a plurality of holes 22 corresponding to the positioning bumps 1〇31 on the flat plate portion 103, and the holes 22 can be matched with the positioning bumps 1031. There is a certain distance between the rib 1040 and the flat plate portion 1〇3, which is wider than the thickness of the holding mechanism 2. There is a certain distance between the bump 1031 and the rib 1040, which is narrower than the thickness of the holding mechanism 2. Referring to the third to sixth figures, the assembly method of the present cable connector assembly is as follows: First, the insulating body 1 is placed outside the opening 21 so that the upper surface 104 and the lower surface of the main body portion 1 and the opening 21 are Corresponding to the two sides, the insulative housing 1 is pushed into the opening 21 in the direction of the opening 21 of the holding mechanism 2 and the flat plate portion 103 is caught on the first surface 23 of the substrate 2 so that the convex rib is caught on the second surface 24 Then, and then continue to push the insulating body 1 into the opening 21, when the positioning bump 1〇31 on the flat portion 1〇3 hits the edge of the substrate 2, since the flat portion 103 and the rib 1040 have already held the holding mechanism 2 During the process of pushing the insulating body 1 into the opening 21, since the positioning bump 1031 has a certain height, the pushing force forces the flat portion 1〇31 to undergo a certain elastic deformation so that the insulating body 1 can continue to be pushed into the opening 21. Then, a distance is extended, and the positioning bump 1031 is stuck in the hole 22 of the corresponding holding mechanism 2, and the flat portion 1〇3 is also restored to elastic deformation, 7 M356282 to this hybrid connection test Above, the material plate (four) swimming convex rib surface can be prevented The edge body is along the first direction lion of the remaining measurement structure 2, and the receiving protrusion 31 can cooperate with the corresponding hole 22 of the holding mechanism 2 to prevent the insulating body from moving toward the second side of the opening, thereby bulging the rib The positioning of the wire mirror connector combination in the first direction is provided, and the positioning of the bump ι〇= in the direction of the first direction (four) is performed, so that the cable connection combination is stably held on the holding mechanism 2 . See the reverse In summary, this creation has indeed met the requirements of the new patent, and filed a patent application according to law. However, the above-mentioned ones are only the implementation methods of the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The scope of the following patent application. [Simplified description of the drawings] The first figure is a three-dimensional combination of the prior art cable connector combinations. The second figure is a view of another perspective of the cable connector combination shown in the first figure. The f-picture is a three-dimensional combination of the present cable connector assembly, which is not assembled on the holding mechanism. The fourth figure is a view of the cable connector shown in the third figure in another view. The figure is a three-dimensional combination of the creation of the cable connector assembly, which is assembled on the holding mechanism. f Figure 5 is a view of the cable connector combined with another view. The seventh figure is a cross-sectional view of the cable connector assembly shown in the sixth figure along the line πν_Ην. [Main component symbol description] Insulating body 1, 201 front end 101 flat plate portion 103 through hole 1032 rib 1040 holding mechanism 2 wire 203 hole 22 second surface 24 main body portion 10 rear end 102 bump 1031 upper surface 104 receiving passage 105, 202 Cable connector assembly 200 opening 21 first surface 23