M414731 .五、新型說明: i· 【新型所屬之技術領域】 本創作關於一種連接器之改良結構設計,尤指一種高頻通訊連接 器’能節省组裝程序並提升品質。 【先前技術】 • 尚頻通訊能夠提供快速且良好的資料傳輸,已為市場廣泛採用。 • 高頻通訊常採用同轴電纜線來傳輸,而線上的資料要經由線端連接器 與系統電路板端的連接器連接才能輪入。 在第一圖顯示了一種目前市面常見的高頻通訊線端連接器,其主 要由-個筒狀的前主體91組合一方型之後主體9 2以構成外殼主體 、…構另外’在刖主體9 1峨序先組裝—爪體9 3、—絕緣體9 4 及一中心導體9 5後,再與後主體9 2組合。 由於前主體91及後主體9 2是兩個分離的零件,在連接後易發 • 生同心度偏差的問題’同時使得整體連接器的_性低,更會使得組 裝程序複雜困難,提高工時與成本,不利市場競爭,有待改善。 【新型内容】 針對於先前技術之問題點,本創作提供了一種高頻通訊連接器, 連接於一同軸電纜線末端,並插 係包括. 人電路板端之插座而傳輸訊號;其 一主體,係為中空狀,且有一古刑# -有方型部,其前面以高同心度一體延 3 伸出一長筒體;該方型部後面形成一開口,且中空内部形成一第一段 差面; 一内爪體’自該主體後方開口置入,其前方形成四片爪片並位於 該長筒體前緣内’後方形成一凸環部以卡持於該方形部内之第一段差 面;又,其後方内部形成一第二段差面; -絕緣體,自該内爪體後方置入,中心有一通道,其前方為一直 k最小的小徑部,後方為一直徑最大的凸緣部以卡持於該内爪體内之 第二段差面; 一中心導體,其前方形成一針部貫穿該絕緣體之通道,且其前端 =出該絕緣體之前端面並位於該爪片之中心位置,後方形成一擴大部 犬出於該絕緣體之後端面並位於該方型部内;及 一導線筒體’連接於該方型部以導引制軸電境線。 本創作所提供的高頻通訊連接^於主體之方型部與長筒體一 體成型’攻將提〶整體連接器的同心度,使得品質較習知結構大為改 =同時ώ於主體、内爪體、絕緣體及巾心、導體尺寸配合設計,使 得整個連接H喊程序節省,減少坤鱗低成本。 進者’本創作提供的高頻通訊連接器,其中絕緣體為模組化單一 零件’可減少待料要求,並還可目應不同規格增加絕緣筒更為降低 製造成本,而具備市場競爭力。 _ 另,本創作提供的高頻觀連接IIH前方之體接近方 型部之位置形成-圓錐部,該圓錐部外表上開設有兩道凹槽,每一凹 槽適以緊迫套合-橡膠套圈1樣的設計,使得長筒難人電路板端 4 插座時’該橡膠套圈能與插座上的外殼孔緊密接觸,達到防異物入侵 之功能。 以下,將依據圖面所示之實施例而詳加說明本創作之結構特點及 使用功效。 [實施方式】 請參見第二圖至第四圖,係為本創作所提供的一種高頻通訊連接 器第一種實施例,其係連接於一同轴電纜線(圖未示)末端,並插入 一電路板端之插座(圖未示)而傳輸訊號。本創作之連接器主要以二 主體11 '一内爪體12、一絕緣體13、一中心導體14及一導線 筒體15所構成。 配合第五圖,本創作的主體丄丄係為中空狀,具有一方型部工工 1 ’其前面以高同心度-體延伸出-長筒體1 12 ;該方型部1 11 後面形成-開π 1 13 ’且中空内部形成—第—段差面i丄4,可參 見第四圖或第五圖。 進者,本創作的内爪體12自主體11後方開u113置入,其 刖方形成四片爪片121並位於長筒體112前緣内,後方形成-凸 環2 2以卡持於方形部工丄丄内之第—段差面丄i 4 (如第四圖 所不又’其後方内部形成—第二段差面丄2 3,並在内部適當位置 形成一内倒刺環12 4。 邑緣體13自内爪體12後方置人’中心有-通道131,其前 、 &最小的小也邹13 2,後方為-直徑最大的凸緣部13 3 以卡持於内爪體1 9 之第二段差面12 3。内爪體12内部之内倒 刺環12 4刺入絕緣體13外表面。 中心導體14前方形成一針部i 4丄貫穿絕緣體丄3之通道工3 1,且其前端穿出絕緣體13之前端面並位於爪片丄2丄之中心位 置,後方形成一擴大部14 2突出於絕緣體χ 3之後端面並位於方型 部1 1 1内。針部141形成有一第一外倒刺環丄43以刺入絕緣體 13之通道131表面。 另,導線筒體15連接於主體1丄之方型部工1工側面以導引同 軸電纜線穿出。 請參見第六A圖至第六B圖,係為本創作之組裝動作圖。在第六 A圖中,先將中心導體14穿入絕緣體χ 3 »然後,如第六8圖所示, 將内爪體12自主體1 1後方開口1工3穿入至凸環部12 2卡持於 第一段差面1 14 »之後,如第六c圖所示,將絕緣體丄3及中心導 體14自開口113穿入内爪體12内,至凸緣部13 3卡持於第二 段差面12 3 »最後,如第六〇圖所示,將導線筒體15組裝連接於 主體11之方型部111側面。 顯然地,本創作由於主體1 1之方型部^丄丄與長筒體丄丄2一 體成型,這將提咼整體連接器的同心度,使得品質較習知結構大為改 善》同時,由於主體11、内爪體丄2、絕緣體13及中心導體工4 尺寸配合設計,使得整個連接器組裝程序節省,減少工時且降低成本。 在第二圖所示之本創作第一種實施例,其中主體1 1整體長度為 13.8mm且長筒體1 1 2長度為8_,同時絕緣體1 3長度為7.55mm。 但有些規格的連接器之主體及長筒體長度會被要求增加,如第七 圖至第九圖所示本創作第二種實施例,主要以一主體2 1、一内爪體 2 2、一絕緣體2 3、一中心導體2 4、一導線筒體2 5及一絕緣筒 m斗丄4/31 ,2 6所構成,其中主體2 1整體長度為2〇2mm且長筒趙2丄2長度為 ⑽聰。由於内爪體2 2及中心導體2 4長度增長,但絕緣體2 3為 模組化維持長度為W則主體2工之長筒趙2丄2長度大絕緣體 2 3 ’而中心導體2 4之針部2 41前方進一步套接絕緣筒2 6。中 心導體2 4之針部2 4 1除了第_外_環2 4 3外還職有一第二 外倒刺環2 4 4以刺入絕緣筒2 6内部表面。 本創作的絕緣體13或2 3為模組化單-零件,可減少待料要 求,並還可因應不隨格增加絕緣筒2 6,更絲低製造成本,而且 胃 備市場競爭力。 ' 進者’本創作所提供的高頻通訊連接器,也可如第十圖至第十二 圖所示的第三種實施例,主要以-主體3!、-内爪體3 2、-絕緣 體3 3 '-中心導體3 4、-後連接體3 5及後絕緣體3 6所構成。 其中大。[^主要結構皆與第—種實施例類似,但主體3丨後面延 伸一外螺紋柱315,中心導體34後方形成-爪片座344 ’後連 接體3 5連接於主體3!後面之外螺紋柱3丄5,而後絕緣體3 6設 • 置於後連接體3 5内以包覆中心導體3 4之爪片座3 4 4外,其前方 形成一圈封環3 61與絕緣體3 3後端面緊密接觸。 此第二實施例,使得連接器後方形成可插入另一連接器的結構。 另外在主體31前方之長筒體312接近方型部311之位置 形成;:圓錐部318,該圓錐部318外表上開設有兩道凹槽3丄 6母凹槽316適以緊迫套合一橡膠套圈317,其短合可參見 第十®及第十二圖所示。這樣的設計,使得長筒體3丄㈣入電路 板端插座時,該橡膠套圈317能與插座上的外殼孔緊密接觸,達到 防異物入侵之功能。 7 M414731 , 進者,橡縣圏也可應用在第二圖至第四圖所示之第—種實施例 中。如第十三圖所示本創作第四種實施例,其中主體41、内爪體4 2 .邑緣體4 3、中心導體4 4及導線筒!|4 5皆與第—種實施例類 似,但在主體41前方之長筒體412接近方型部4工i之位置形成 一圓雜部418,該圓錐部418外表上開設有兩道凹槽416,每 -凹槽4 1 6軸緊迫套合—橡圈4 i 7,其魏與前一實施例 相同。 综上所陳’本創作所提供的高頻通訊連接器,完全符合專利的新 • 娜及進步性要件,爰依法提出申請。 【圖式簡單說明】 第圖代表—種習知的高頻通訊連接器之剖面視圓, 第一圖代表本創作第一種實施例之分解圖, 第二圓代表本創作第一種實施例之組合圖, 第四圖代表本創作第一種實施例之剖面視圖, • 帛五圓代表本創作第-種實施例主體之剖面視圖, 第六A圖至第六〇圖代表本創作第一種實施例組裝動作圖, 第七圖代表本創作第二種實施例之分解圖, 第八圖代表本創作第二種實施例之組合圖, 第九圖代表本創作第二種實施例之剖面視圖, 第十圖代表本創作第三種實施例之分解圖, 第十圖代表本創作第三種實施例之組合圖, 第十一圖代表本創作第三種實施例之剖面視圖, 第十—圖代表本創作第四種實施例之剖面視圖。 8 M414731 【主要元件符號說明】 主體1 1 方型部111 長筒體112 開口 1 1 3 第一段差面114 内爪體1 2 爪片1 2 1 凸環部12 2 第二段差面12 3 内倒刺環12 4 絕緣體1 3 通道1 3 1 小徑部13 2 凸緣部13 3 中心導體14 針部1 4 1 擴大部14 2 第一外倒刺環14 3 導線筒體15 主體2 1 長筒體212 内爪體2 2 絕緣體2 3 中心導體2 4 針部2 4 1 第一外倒刺環2 4 3 第二外倒刺環2 4 4 導線筒體25 絕緣筒2 6 主體3 1 方型部311 長筒體312 外螺紋柱315 凹槽3 1 6 橡膠套圈317 圓錐部318 内爪體3 2 絕緣體3 3 中心導體3 4 爪片座3 4 4 後連接體3 5 後絕緣體3 6 圈封環3 61 主體4 1 方型部411 長筒體412 M414731 凹槽4 1 6 導線筒體4 5 橡膠套圈417 前主體9 1 圓錐部4 1 8 後主體9 2 内爪體4 2 爪體9 3 絕緣體4 3 絕緣體9 4 中心導體4 4 中心導體9 5M414731 . V. New description: i· [New technical field] This creation relates to an improved structural design of a connector, especially a high-frequency communication connector, which saves assembly procedures and improves quality. [Prior Art] • The frequency communication has been able to provide fast and good data transmission and has been widely adopted in the market. • High-frequency communication is often transmitted using a coaxial cable, and the data on the line is connected to the connector on the system board side via the line connector to be wheeled. In the first figure, a high-frequency communication line end connector which is common in the market is shown, which is mainly composed of a cylindrical front body 91 and a main body 9 2 to constitute a housing main body, and the other is in the main body 9 The first assembly is first assembled with the claw body 9 3, the insulator 94 and a center conductor 95, and then combined with the rear body 92. Since the front main body 91 and the rear main body 92 are two separate parts, the problem of the deviation of the concentricity after the connection is made, and the overall connector has a low _ property, which makes the assembly process complicated and difficult, and improves the working hours. With the cost, unfavorable market competition, there is room for improvement. [New content] In view of the problems of the prior art, the present invention provides a high-frequency communication connector, which is connected to the end of a coaxial cable, and the plug-in includes a socket on the side of the circuit board to transmit a signal; The system is hollow, and has an ancient penalty #-square shape, the front of which is extended with a high concentricity 3 to extend a long cylinder; an opening is formed behind the square portion, and a hollow first surface is formed. An inner claw body is inserted from the rear opening of the main body, four claw pieces are formed in the front side thereof, and a convex ring portion is formed behind the front edge of the long cylinder body to be clamped on the first step difference surface in the square portion; Further, a second step surface is formed in the rear portion thereof; an insulator is inserted from the rear of the inner claw body, and a channel is formed in the center, the front side is a small diameter portion having a minimum of k, and the rear side is a flange portion having the largest diameter to be card a second segment of the inner body of the inner claw; a central conductor having a needle extending through the passageway in front of the insulator, and having a front end = a front end face of the insulator and located at a center of the claw piece, forming a rear portion Expansion department The dog is located in the square portion from the rear end face of the insulator; and a wire barrel body ' is attached to the square portion to guide the shaft axis. The high-frequency communication connection provided by the creation is integrated with the square body of the main body and the long cylinder. The attack will improve the concentricity of the overall connector, so that the quality is much better than the conventional structure. The claw body, the insulator and the towel core and the conductor are matched in size design, so that the entire connection H is saved by the program, and the Kun scale is reduced in cost. The high-frequency communication connector provided by the author, in which the insulator is a modular single part, can reduce the requirements for the material to be expected, and can also increase the insulation barrel by different specifications to reduce the manufacturing cost, and has market competitiveness. _ In addition, the high-frequency connection provided by the creation of the IIH front body is close to the square portion to form a conical portion, and the conical portion is provided with two grooves on the outer surface, and each groove is adapted to be tightly fitted-rubber sleeve The design of the circle 1 makes the long sleeve difficult for the 4th socket of the circuit board. 'The rubber ferrule can be in close contact with the hole of the casing on the socket, so as to prevent the invasion of foreign matter. Hereinafter, the structural features and functions of the present invention will be described in detail based on the embodiments shown in the drawings. [Embodiment] Please refer to the second to fourth figures, which is a first embodiment of a high frequency communication connector provided by the present invention, which is connected to the end of a coaxial cable (not shown), and Insert a signal on the socket of the board (not shown) to transmit the signal. The connector of the present invention is mainly composed of a main body 11', an inner claw body 12, an insulator 13, a center conductor 14, and a wire barrel 15. In conjunction with the fifth figure, the main body of the creation is hollow, with one type of workman 1 'the front with a high concentricity - the body extends - the long cylinder 1 12; the square part 1 11 is formed behind - π 1 13 ' is opened and the hollow interior is formed - the first step is i丄4, see Fig. 4 or Fig. 5. In addition, the inner claw body 12 of the present invention is inserted from the rear of the main body 11 into the u113, and the square side forms four claw pieces 121 and is located in the front edge of the long cylinder 112, and the rear forms a convex ring 2 2 to be held in the square shape. The first section of the Ministry of Industry is the same as the section 丄i 4 (as shown in the fourth figure, the inside of the rear section is formed - the second section of the surface 丄 2 3, and an internal barbed ring 12 4 is formed at an appropriate position inside. The edge body 13 is placed from the rear of the inner claw body 12 to the center of the passage 131, and the front portion thereof is the smallest and the smallest flange portion 13 3 is retained to the inner claw body 1 . The second step of the second step 12 is 13. The barb ring 12 4 inside the inner claw body 12 penetrates the outer surface of the insulator 13. A front portion of the center conductor 14 forms a needle portion 4 4 through the insulator 33, and The front end of the insulator 13 passes through the front end of the insulator 13 and is located at the center of the claw 丄2丄, and an enlarged portion 14 2 is formed at the rear to protrude from the rear end surface of the insulator χ 3 and is located in the square portion 11 1 . The needle portion 141 is formed with a first portion. The outer barbed ring 43 penetrates the surface of the channel 131 of the insulator 13. In addition, the wire barrel 15 is connected to the side of the body 1 Refer to the sixth A to sixth figure, which is the assembly action diagram of the present creation. In the sixth diagram, the center conductor 14 is first inserted into the insulator χ 3 » As shown in FIG. 8 , the inner claw body 12 is inserted from the rear opening 1 of the main body 1 1 until the convex ring portion 12 2 is held by the first step surface 1 14 », as shown in the sixth c. The insulator 丄3 and the center conductor 14 are inserted into the inner claw body 12 from the opening 113, and the flange portion 13 3 is held by the second step surface 12 3 » Finally, as shown in the sixth drawing, the wire barrel 15 is assembled. It is connected to the side of the square portion 111 of the main body 11. Obviously, the creation of the main body 11 is formed integrally with the long tubular body 2, which will improve the concentricity of the integral connector, so that the quality Compared with the conventional structure, the size of the main body 11, the inner claw body 2, the insulator 13 and the center conductor 4 are designed to save the entire assembly process, reduce man-hours and reduce costs. The first embodiment of the present invention is shown, wherein the main body 11 has an overall length of 13.8 mm and the length of the long cylinder 1 1 2 is 8_, while the length of the insulator 13 is 7.55mm. However, the length of the body and the length of the long barrel of some specifications will be required to be increased. As shown in the seventh to ninth drawings, the second embodiment of the present invention is mainly The main body 2 1 , an inner claw body 2 2 , an insulator 2 3 , a center conductor 24 , a wire barrel body 25 and an insulating cylinder m 4/31, 26 are formed, wherein the overall length of the main body 2 1 It is 2〇2mm and the length of the long tube Zhao 2丄2 is (10) Cong. Because the length of the inner claw body 2 2 and the center conductor 24 is increased, but the insulator 2 3 is modularized to maintain the length W, then the main body 2 work long tube Zhao The insulating member 2 6 is further sleeved in front of the second conductor 2 2 ' and the needle portion 2 41 of the center conductor 24 is further sleeved. The needle portion 2 4 1 of the center conductor 24 has a second outer barb ring 24 4 in addition to the first outer ring 2 4 3 to pierce the inner surface of the insulating cylinder 26. The insulators 13 or 23 of the present invention are modular single-parts, which can reduce the requirements of the materials to be inspected, and can also increase the insulation cost of the insulation cylinders according to the grid, and the manufacturing cost is competitive. The 'high-frequency communication connector provided by the author's creation can also be the third embodiment shown in the tenth to twelfth figures, mainly - the main body 3!, the inner claw body 3 2 - The insulator 3 3 '-the center conductor 3 4, the rear connector 35 and the rear insulator 36 are formed. Which is big. [^ The main structure is similar to that of the first embodiment, but an externally threaded post 315 extends behind the main body 3, and the rear end of the center conductor 34 forms a claw seat 344'. The rear connecting body 35 is connected to the main body 3! The post 3丄5, and the rear insulator 36 is disposed in the rear connecting body 35 to cover the claw piece holder 34 of the center conductor 34, and a ring ring 3 61 and a rear end face of the insulator 3 3 are formed in front of the body. Close contact. This second embodiment allows the rear of the connector to form a structure into which another connector can be inserted. In addition, the long cylinder 312 in front of the main body 31 is formed near the square portion 311; the conical portion 318 is provided with two grooves 3 丄 6 and the female groove 316 is adapted to tightly fit a rubber Ferrule 317, the short fit can be seen in the tenth and twelfth figures. Such a design enables the rubber ferrule 317 to be in close contact with the outer casing hole of the socket when the long cylinder 3 (four) is inserted into the circuit board end socket, thereby achieving the function of preventing foreign matter from invading. 7 M414731, Into, Oak County can also be applied in the first embodiment shown in the second to fourth figures. As shown in Fig. 13, a fourth embodiment of the present invention, in which the main body 41, the inner claw body 4 2 , the rim body 4 3 , the center conductor 4 4 and the wire barrel are shown! 4 is similar to the first embodiment, but a long cylindrical body 412 in front of the main body 41 forms a circular portion 418 near the square portion 4, and the concave portion 418 is provided with two grooves 416 on the outer surface. The per-groove 4 1 6 axis is tightly fitted - the rubber ring 4 i 7 , which is the same as the previous embodiment. In summary, the high-frequency communication connector provided by Chen's creation is fully in line with the patented new and progressive requirements, and is submitted in accordance with the law. BRIEF DESCRIPTION OF THE DRAWINGS The figure represents a cross-sectional circle of a conventional high-frequency communication connector, the first figure represents an exploded view of the first embodiment of the present creation, and the second circle represents the first embodiment of the present creation. The combination diagram, the fourth diagram represents a cross-sectional view of the first embodiment of the present creation, • The fifth circle represents the cross-sectional view of the main body of the first embodiment of the present creation, and the sixth to sixth diagrams represent the first creation of the present invention. The embodiment is an assembly action diagram, the seventh diagram represents an exploded view of the second embodiment of the present creation, the eighth diagram represents a combination diagram of the second embodiment of the creation, and the ninth diagram represents a section of the second embodiment of the creation. View, the tenth figure represents an exploded view of the third embodiment of the present creation, the tenth figure represents a combination diagram of the third embodiment of the present creation, and the eleventh figure represents a sectional view of the third embodiment of the present creation, the tenth - The figure represents a cross-sectional view of a fourth embodiment of the present creation. 8 M414731 [Description of main component symbols] Main body 1 1 Square part 111 Long cylinder 112 Opening 1 1 3 First section difference surface 114 Inner claw body 1 2 Claw piece 1 2 1 Convex ring part 12 2 Second section difference surface 12 3 Barbed ring 12 4 insulator 1 3 channel 1 3 1 small diameter portion 13 2 flange portion 13 3 center conductor 14 needle portion 1 4 1 enlarged portion 14 2 first outer barbed ring 14 3 wire barrel 15 body 2 1 long Cylinder 212 Inner claw 2 2 Insulator 2 3 Center conductor 2 4 Needle 2 4 1 First outer barbed ring 2 4 3 Second outer barbed ring 2 4 4 Wire barrel 25 Insulation tube 2 6 Body 3 1 square Form 311 Long cylinder 312 Externally threaded column 315 Groove 3 1 6 Rubber ferrule 317 Conical part 318 Inner claw 3 2 Insulator 3 3 Center conductor 3 4 Peg holder 3 4 4 Rear connection body 3 5 Rear insulator 3 6 Ring seal ring 3 61 Body 4 1 Square section 411 Long cylinder 412 M414731 Groove 4 1 6 Wire cylinder 4 5 Rubber collar 417 Front body 9 1 Cone 4 1 8 Rear body 9 2 Inner claw 4 2 Claw Body 9 3 insulator 4 3 insulator 9 4 center conductor 4 4 center conductor 9 5