1380526 六、發明說明: 【發明所屬之技術領域】 本發明是有關於一種連接器,特別是有關於一種增 加導電端子之抗拉力的連接器及其組裝方法。 【先前技術】 按,連接器係一種以電氣方式連接電線、電路板和 其他電路元件的連接裝置。因此,廣泛地運用於吾人 生活周遭之各種電子產品,例如筆記本型電腦、手機 以及個人數位助理器(PDA)等。 一般習知之連接器的結構包括絕緣本體、收容在絕 緣本體内的導電端子、複數條導線以及遮覆絕緣本體 的金屬殼體。為了將導電端子固定於絕緣本體,導電 端子之左右兩側皆設有倒刺可干涉於絕緣本體,且導 電端子之上下兩側亦被絕緣本體整個覆蓋包圍,如此 導電端子可以得到非常穩定地固持狀態,不容易受到 拉力等外力影響而彎曲變形。 然而,此種連接器由於厚度較大,並不符合現今產 品薄型化的要求,因此需要發展一種既可穩定固持導 電端子並且又可薄型化的連接器。 【發明内容】 習知連接器之導電端子雖然可得到較佳之固定效 果,但是連接器的厚度較大,並不符合現今產品薄型 [S.1 3 化的要求。 本山發明提供一種連接器,其包括絕緣本體、複數個 導電端子、固^條、複數條導線以及上殼體,其中絕 緣本體設有-承載面及相對於該承载面之—支樓面, 承载面與切面係呈上下相對設置,承載面上設有複 數個端子插槽以及凹陷部。導電端子組裝於絕緣本體 之端子插槽内’每—導電端子包括—對接部、一嵌合 4 搭接相及—折彎部,對接部位於絕緣本體前 半社&接部位於絕緣本體後半部上,後合部位於 對接部與搭接敎料接於搭接部 ’該折彎 部係卡t頂抵於凹陷部中…固定條設置於承載面 上,且&跨錢端子插槽以及導電料上,其中固定 條係嵌合固定嵌合部。複數條導線連接固 定於該些導 電端子之搭接部上,上殼體組裝於絕緣本體上 ,其中 上殼體位於固定條之上。 本發明提供—種連接器組裝方法,其步驟包括:提 供-絕緣本體’其中絕緣本體設有—承載面及相對於 承載面之支樓面’承載面與支#面係呈上下相對設 置’承載面上設有複數個端子插槽以及凹陷部;組裝 複數個導電端子於絕緣本體之端子插槽内,其中每一 導電端子包括—賴部、—嵌合部、一搭接部以及一 折彎部,對接部係安裝於絕緣本體前半部上,搭接部 係安裝於絕緣本體後半部上,嵌合部位於對接部與搭 接部之間’折彎部連接於搭接部;f折每-導電端子 =折彎部,以使折彎部卡合頂抵於凹陷部;設置一固 2條於絕緣本體之承載面上’其巾以條橫跨端子插 糟及導電端子之上’且固定條係嵌合固定嵌合部;焊 接複數條導線於導電端子之搭接部上;以及組舻一上 殼體於絕緣本體上,其中上殼體位於固定條之上。 本發明所提供連接器,其係利用在導電端子上設有 一嵌合部及一折彎部,此折彎部係可卡合頂抵於絕緣 本體後半部上的凹陷部内,且在導電端子之上又設有 :固定條可嵌合固定此向上凸起的嵌合部,此固2條 係固定設置於絕緣本體上,如此即可達到穩定固持導 電端子於絕緣本體上之目的。與習知之連接器相比, 由於本發明之絕緣本體不需要整個覆蓋導電端子之上 下兩側’因此可縮小連接器結構的厚度大小,形成一 種既可穩定固持導電端子並且又可薄型化的連接器於 構,可解決習知連接器之厚度較大且不符合現今產2 薄型化的問題。 【實施方式】 請參照第一圖至第七圖,本發明之連接器1係包括 有絕緣本體10、複數個導電端子12、複數條導線19、 固定條14、絕緣片15、上殼體16以及下殼體18,其 中絕緣本體10設有一承載面106及相對於承戴面1〇6 之一支撐面108,承載面與支撐面108係呈上下 相對設置,且承載面1〇6上設有複數個端子插槽1〇〇 以及凹陷部107,在本實施例中,此絕緣片15係為麥 拉(MYLAR)絕緣片,用來防止上殼體16與導線19之 間的電性接觸所可能造成的短路問題,且上殼體16及 下殼體18係為利用金屬片沖壓成型的方法所製成。 導電端子12組裝於絕緣本體1〇之承載面1〇6上的 端子插槽100内,每一導電端子12 &括-對接部122、 一嵌合部126、-搭接部124以及一折料128,對接 部122位於絕緣本體1〇前半部上,搭接部124位於絕 緣本體10後半部上,嵌合部! 26位於對接㉝⑵與搭 接部124之間,折f部128連接於搭接部124,幻二 彎部128係卡合頂抵於位於絕緣本體10後半部上的凹 陷部107 Μ ’藉以增加導電端子12固持於絕緣本體 10上的作用力。在本實施例巾,此導電端子12係為 金屬片經由沖壓製程所製作而成,其中嵌合部126係 為經由撕開步驟所形成的向上凸起結構,折彎部128 則為經由f折步驟所形成的向下f曲結構,凹陷部107 係為一開口,且向下彎曲之折彎部128剛好可以卡合 頂抵於開口内,此折彎部128設置於搭接部124上且 位於導電端子12的末端’搭接部124之左右兩側皆設 有倒刺(未標示)可干涉於絕緣本體1〇。 固定條14設置於承載面1〇6上,且橫跨該些端子 插槽剛以及該些導電端子12上,其中固定條⑷系 可嵌合固料電端子12上凸起的嵌合部126,如此以 將導電端子12穩定地固持於絕緣本體1〇之承載面1〇6 上。在本實施例中,此固定條14除了具有固定導電端 子12的作用外,還具有支撐上殼體16的功用。複數 條導線19連接固定於該些導電端子12之搭接部124 上,上殼體16組裝於絕緣本體10上,其中上殼體16 位於固定條14之上,下殼體18相對於上殼體16組裝 於絕緣本體10之下,所以下殼體18係位於端子插槽 100、導電端子12以及導線19之下方。 在本實施例中,絕緣本體10後半部上設置有複數 個第一凸起部101,該些第一凸起部101係可導引該 些導線19先定位對齊於該些導電端子12之搭接部124 上,之後再加以焊接固定於搭揍部124上。此外,在 絕緣本體10前半部上還設置有複數個第二凸起部103 以及第三凸起部105,其中第三凸起部105係可支撐 上殼體16,該些第二凸起部103及第三凸起部105之 間係呈平行排列,且該些第二凸起部103及第三凸起 部105之間係設有一條狀溝槽102。絕緣本體10之前 半部與後半部之間設有一固定條14橫跨該些端子插 槽100以及導電端子12之上,以作為補強導電端子 12固定於絕緣本體10上的功用,其中固定條14係以 熱壓或超音波加工方式設置於絕緣本體10之承載面 106上,在本實施例中,此固定條14係剛好位於條狀 溝槽102之中,故可準確定位此固定條14的位置。此 外,固定條14上設有對應於嵌合部126之一凹槽 142,該嵌合部126係可嵌合固定於凹槽142内,如此 1380526 以將導電端子12緊密地固定於絕緣本體10上,並防 止導電端子12受到拉力影響而向上翹曲變形。 接地棒17設置於該些導線19上,藉以將該些導線 19組合成一體並且與導線19之間形成接地保護的狀 態,在本實施例中,導線19係為極細同轴線(Mini Coaxial Cable),且設置於導線19上之接地棒17係 組裝於絕緣本體10後半部上之容置空間104内。上殼 體16組裝於絕緣本體10上時,上殼體16之彈片162 係剛好可搭接於接地棒17上,如此即可形成具有電磁 波遮蔽作用以及接地功能之連接器結構。 另一種選擇,如第八圖至第九圖所示,可提供另一 種絕緣本體20以及下殼體28來替代前述之絕緣本體 10與下殼體18,此絕緣本體20具有類似於絕緣本體 10之第一凸起部201、第二凸起部203與第三凸起部 205,以及可用來卡合導電端子12之折彎部128的凹 陷部207,此絕緣本體20與前述之絕緣本體10的主 要差異在於絕緣本體20之容置空間204係由下殼體 28與絕緣本體20之後半部所共同形成,而絕緣本體 10之容置空間104則是僅由絕緣本體10之後半部所 直接形成。此種設計使得接地棒17組裝於容置空間 204内時,接地棒17可以抵靠接觸並且電性連接於下 殼體28及其延伸彎折的抵靠部282,如此即可達到定 位以及接地的效果。 1380526 請參閱第十圖,本發明係提供一種連接器組裝方法 3,其步驟包括:首先提供一絕緣本體31,其中絕緣 本體設有一承載面及相對於承載面之一支撐面,承載 面與支撐面係呈上下相對設置,承載面上設有複數個 端子插槽以及凹陷部;接著組裝一下殼體於絕緣本體 下32,其中下殼體位於端子插槽之下方;之後組裝複 數個導電端子於絕緣本體之該些端子插槽内33,其中 每一導電端子包括一對接部、一嵌合部、一搭接部以 及一折彎部,對接部係安裝於絕緣本體前半部上,搭 接部係安裝於絕緣本體後半部上,嵌合部位於對接部 與搭接部之間,折彎部連接於搭接部;彎折每一導電 端子之折彎部34,以使折彎部卡合頂抵於絕緣本體後 半部上的凹陷部内;然後設置一固定條於絕緣本體之 承載面上35,其中固定條係橫跨端子插槽以及導電端 子之上,且固定條係嵌合固定嵌合部;之後焊接複數 條導線於導電端子之搭接部上36 ;接著組裝一上殼體 於絕緣本體上37,其中上殼體位於固定條之上。在本 實施例中,設置固定條於絕緣本體上的加工手段包括 超音波振盡加工法或者是熱壓加工法。值得一提的 是,在組裝導電端子於絕緣本體之端子插槽内時,此 時的折彎部並未彎折定位於凹陷部内,所以必需要透 過一彎折步驟,以使導電端子之折彎部可彎折定位並 卡合頂抵於絕緣本體上的凹陷部内。 ? si 9 1380526 綜上所述’本發明之連接器,其係在導 有一嵌合部及一折彎部,此折彎部 〇x 緣本體後半部上械部内,且二== 嵌合固定此嵌合部於絕緣本體上, 疋條可 固持導電端子於锅缝太鲈p 此即了達到穩定 約Γ 緣本體上之目的。本發明之連接器 覆蓋2連接器相比,本發明之絕緣本體不需要整個1380526 VI. Description of the Invention: [Technical Field] The present invention relates to a connector, and more particularly to a connector for increasing the tensile strength of a conductive terminal and a method of assembling the same. [Prior Art] A connector is a connection device that electrically connects wires, boards, and other circuit components. Therefore, it is widely used in various electronic products around our lives, such as notebook computers, mobile phones, and personal digital assistants (PDAs). A conventional connector structure includes an insulative housing, a conductive terminal housed in the insulating body, a plurality of wires, and a metal housing covering the insulative housing. In order to fix the conductive terminal to the insulative housing, the left and right sides of the conductive terminal are provided with barbs to interfere with the insulative body, and the upper and lower sides of the conductive terminal are also surrounded by the entire covering body, so that the conductive terminal can be stably held. The state is not easily bent and deformed by an external force such as a pulling force. However, such a connector has a large thickness and is not in conformity with the requirements for thinning of the current product. Therefore, it is required to develop a connector which can stably hold the conductive terminal and is thinner. SUMMARY OF THE INVENTION Although the conductive terminals of the conventional connector can obtain a better fixing effect, the thickness of the connector is large, which does not meet the requirements of the current thin product [S.13]. The present invention provides a connector comprising an insulative body, a plurality of conductive terminals, a plurality of wires, a plurality of wires, and an upper casing, wherein the insulative body is provided with a bearing surface and a supporting floor surface with respect to the bearing surface, The surface and the cutting surface are arranged vertically opposite to each other, and the bearing surface is provided with a plurality of terminal slots and a recessed portion. The conductive terminal is assembled in the terminal slot of the insulative housing. Each of the conductive terminals includes abutting portion, a fitting 4 overlapping phase and a bent portion, and the abutting portion is located at the front half of the insulating body and the connecting portion is located at the rear half of the insulating body. The upper rear portion is located at the abutting portion and the lap joint is connected to the lap portion. The bent portion of the buckle portion is abutted against the recess portion. The fixing strip is disposed on the bearing surface, and the <cross-money terminal slot and In the conductive material, the fixing strip is fitted to the fixing fitting portion. A plurality of wire connections are fixed to the overlapping portions of the conductive terminals, and the upper casing is assembled on the insulating body, wherein the upper casing is located above the fixing bar. The invention provides a connector assembly method, the method comprising the steps of: providing an insulative body, wherein the insulating body is provided with a bearing surface and a supporting floor surface of the bearing surface is opposite to the supporting surface a plurality of terminal slots and recesses are disposed on the surface; a plurality of conductive terminals are assembled in the terminal slots of the insulative housing, wherein each of the conductive terminals includes a landing portion, a fitting portion, a lap portion, and a bend The abutting portion is mounted on the front half of the insulative housing, the overlapping portion is mounted on the rear half of the insulative housing, and the fitting portion is located between the abutting portion and the overlapping portion. The bent portion is connected to the overlapping portion; - a conductive terminal = a bent portion, such that the bent portion is engaged against the recessed portion; and a fixed two strips are provided on the bearing surface of the insulative housing - the strip spans the terminal insertion and the conductive terminal The fixing strip is fitted with the fixing fitting portion; the plurality of wires are welded on the overlapping portion of the conductive terminal; and the upper casing is assembled on the insulating body, wherein the upper casing is located above the fixing strip. The connector provided by the present invention is provided with a fitting portion and a bent portion on the conductive terminal, the bent portion being engageable against the recessed portion on the rear half of the insulating body, and at the conductive terminal The utility model is further provided with: the fixing strip can be fitted and fixed to the upwardly protruding fitting portion, and the solid two strips are fixedly disposed on the insulating body, so that the purpose of stably holding the conductive terminal on the insulating body can be achieved. Compared with the conventional connector, since the insulating body of the present invention does not need to cover the upper and lower sides of the conductive terminal entirely, the thickness of the connector structure can be reduced, and a connection capable of stably holding the conductive terminal and being thinned can be formed. The structure can solve the problem that the thickness of the conventional connector is large and does not conform to the current thinning. [Embodiment] Referring to the first to seventh figures, the connector 1 of the present invention includes an insulative housing 10, a plurality of conductive terminals 12, a plurality of wires 19, a fixing strip 14, an insulating sheet 15, and an upper housing 16. And the lower housing 18, wherein the insulative housing 10 is provided with a bearing surface 106 and a supporting surface 108 with respect to the receiving surface 1〇6. The bearing surface and the supporting surface 108 are vertically disposed opposite to each other, and the bearing surface 1〇6 is disposed. There are a plurality of terminal slots 1 〇〇 and a recessed portion 107. In the embodiment, the insulating sheet 15 is a MYLAR insulating sheet for preventing electrical contact between the upper casing 16 and the wires 19. The short circuit problem may be caused, and the upper casing 16 and the lower casing 18 are made by a method of stamping a metal sheet. The conductive terminals 12 are assembled in the terminal slot 100 on the bearing surface 1〇6 of the insulative housing 1 , and each of the conductive terminals 12 & abutting portion 122 , a fitting portion 126 , a lap portion 124 , and a fold The material is 128, the abutting portion 122 is located on the front half of the insulative housing 1 , and the overlapping portion 124 is located on the rear half of the insulative housing 10 , the fitting portion! 26 is located between the butt joint 33 ( 2 ) and the lap portion 124 , the fold f portion 128 is connected to the lap portion 124 , and the magic two-bend portion 128 is snapped against the recessed portion 107 位于 ' on the rear half of the insulative housing 10 to increase the conductive The force of the terminal 12 on the insulative housing 10 is maintained. In the embodiment, the conductive terminal 12 is made of a metal piece through a stamping process, wherein the fitting portion 126 is an upward convex structure formed through a tearing step, and the bent portion 128 is folded through f In the downward f-curve structure formed by the step, the depressed portion 107 is an opening, and the downwardly bent bent portion 128 is just engaged with the top against the opening, and the bent portion 128 is disposed on the overlapping portion 124 and The left and right sides of the apex portion 124 of the conductive terminal 12 are provided with barbs (not shown) to interfere with the insulating body 1 〇. The fixing strips 14 are disposed on the bearing surface 1〇6 and span the terminal slots and the conductive terminals 12, wherein the fixing strips (4) are engageable with the protruding fitting portions 126 of the fixed electrical terminals 12. Thus, the conductive terminal 12 is stably held on the bearing surface 1〇6 of the insulating body 1〇. In the present embodiment, the fixing strip 14 has the function of supporting the upper casing 16 in addition to the function of fixing the conductive terminal 12. A plurality of wires 19 are connected and fixed to the overlapping portions 124 of the conductive terminals 12, and the upper casing 16 is assembled on the insulating body 10. The upper casing 16 is located above the fixing bar 14, and the lower casing 18 is opposite to the upper casing. The body 16 is assembled under the insulative housing 10, and the lower housing 18 is located below the terminal slot 100, the conductive terminals 12, and the wires 19. In this embodiment, a plurality of first protrusions 101 are disposed on the rear half of the insulative housing 10, and the first protrusions 101 are configured to guide the wires 19 to be positioned and aligned with the conductive terminals 12 The joint portion 124 is then welded and fixed to the joint portion 124. In addition, a plurality of second protrusions 103 and a third protrusion 105 are further disposed on the front half of the insulative housing 10, wherein the third protrusions 105 support the upper housing 16, and the second protrusions The first protrusions 103 and the third protrusions 105 are arranged in parallel, and a plurality of grooves 102 are formed between the second protrusions 103 and the third protrusions 105. A fixing strip 14 is disposed between the front half and the rear half of the insulative housing 10 to extend over the terminal slots 100 and the conductive terminals 12 for fixing the conductive terminals 12 to the insulative housing 10, wherein the fixing strips 14 are fixed. The fixing strip 14 is disposed in the strip-shaped groove 102 in the embodiment, so that the fixing strip 14 can be accurately positioned. position. In addition, the fixing strip 14 is provided with a recess 142 corresponding to the fitting portion 126. The fitting portion 126 can be fitted and fixed in the recess 142, such that 1380526 is used to tightly fix the conductive terminal 12 to the insulative housing 10. And prevent the conductive terminal 12 from being warped and deformed by the tensile force. The grounding bar 17 is disposed on the wires 19, thereby combining the wires 19 into a single body and forming a grounding protection state with the wires 19. In the embodiment, the wires 19 are very coaxial coaxial wires (Mini Coaxial Cable). The grounding rod 17 disposed on the wire 19 is assembled in the accommodating space 104 on the rear half of the insulating body 10. When the upper casing 16 is assembled on the insulative housing 10, the elastic piece 162 of the upper casing 16 is just lapped on the grounding rod 17, so that a connector structure having electromagnetic shielding and grounding functions can be formed. Alternatively, as shown in the eighth to ninth embodiments, another insulative housing 20 and a lower housing 28 may be provided instead of the insulative housing 10 and the lower housing 18, the insulative housing 20 having an insulating body 10 similar to that. The first raised portion 201, the second raised portion 203 and the third raised portion 205, and the recessed portion 207 that can be used to engage the bent portion 128 of the conductive terminal 12, the insulative housing 20 and the insulative body 10 described above The main difference is that the accommodating space 204 of the insulative housing 20 is formed by the lower housing 28 and the rear half of the insulative housing 20, and the accommodating space 104 of the insulative housing 10 is directly formed only by the rear half of the insulative housing 10. form. When the grounding rod 17 is assembled in the accommodating space 204, the grounding rod 17 can be in contact with and electrically connected to the lower casing 28 and the bent and abutting portion 282 thereof, so that positioning and grounding can be achieved. Effect. 1380526 Referring to FIG. 10, the present invention provides a connector assembly method 3, the method comprising: firstly providing an insulative housing 31, wherein the insulative housing is provided with a bearing surface and a supporting surface with respect to the bearing surface, the bearing surface and the supporting surface The surface is vertically disposed oppositely, and the bearing surface is provided with a plurality of terminal slots and recesses; then the housing is assembled under the insulating body 32, wherein the lower housing is located below the terminal slot; and then a plurality of conductive terminals are assembled In the terminal slots 33 of the insulative housing, each of the conductive terminals includes a pair of connecting portions, a fitting portion, a lap portion and a bent portion, and the mating portion is mounted on the front half of the insulating body, the lap portion Attached to the rear half of the insulative housing, the fitting portion is located between the abutting portion and the overlapping portion, and the bent portion is connected to the overlapping portion; the bent portion 34 of each of the conductive terminals is bent to engage the bent portion Abutting against a recess in the rear half of the insulative housing; and then providing a fixing strip on the bearing surface 35 of the insulative housing, wherein the fixing strip is spanned over the terminal slot and the conductive terminal, and the fixing strip The fitting portion is fitted; then a plurality of wires are soldered to the overlapping portions of the conductive terminals 36; then an upper housing is assembled to the insulating body 37, wherein the upper housing is positioned above the fixing strip. In the present embodiment, the processing means for providing the fixing strip on the insulating body includes an ultrasonic vibration processing method or a hot pressing method. It is worth mentioning that when the conductive terminal is assembled in the terminal slot of the insulative housing, the bent portion at this time is not bent and positioned in the recessed portion, so it is necessary to pass through a bending step to fold the conductive terminal. The bent portion can be bent and positioned and engaged against the recess in the insulating body. Si 9 1380526 In summary, the connector of the present invention has a fitting portion and a bent portion, and the bent portion 〇x is in the upper half of the body of the body, and the second == fitting and fixing The fitting portion is on the insulating body, and the stringer can hold the conductive terminal to the socket, so that the purpose of stabilizing the edge of the flange body is achieved. The insulative body of the present invention does not require the entire connector of the present invention to cover the 2 connector.
==上下兩側’因此可縮小連接器結構的 薄二?成一種既可穩定固持導電端子並且又可 且2連接結構’可解決習知連接器之厚度較大 I不付合現今產品薄型化的問題。 述詳細說明為針對本發明—種較佳之可行實施 '"而已,惟該實施例並非用以限定本發明之申請 戶Α範圍,凡其它未脫離本發明所揭示之技藝精神下 =成之均等變化與修飾變更,均應包含於本發明所 涵盖之專利範圍中。==Up and down sides' thus reducing the thinness of the connector structure? It is a kind of problem that the conductive terminal can be stably held and the connection structure can be solved, which can solve the problem that the thickness of the conventional connector is large, and the current product is thinned. The detailed description is intended to be a preferred embodiment of the present invention, and is not intended to limit the scope of the application of the present invention. Variations and modifications are intended to be included in the scope of the patents covered by the present invention.
【圖式簡單說明】 圖係本發明之連接II的立體組合示意圖。 了圖係第—圖之連接器的立體分解示意圖。 〜圖係第i之連接器的部份分解示意圖。 四圖係第二圖之連接器之導電端子的立體示意圖。 ^圖係第二圖之連接器之固定條的立體示意圖。 六圖係第二圖之連接器之絕緣本體的立體示意圖。 圖係第一圖之連接器沿AA線段的别面示意圖。 I S.1 1380526 第八圖係本發明之連接器之另一絕緣本體與下殼體的立 體分解示意圖。 第九圖係本發明之連接器之另一絕緣本體與下殼體的立 體組合示意圖。 第十圖係本發明之連接器的組裝流程示意圖。 【主要元件符號說明】 1 連接器 10 絕緣本體 100端子插槽 101第一凸起部 102條狀溝槽 103第二凸起部 104容置空間 105第三凸起部 106承載面 107凹陷部 108支撐面 12 導電端子 122對接部 124搭接部 126嵌合部 128折彎部 14 固定條 1380526 142凹槽 15 絕緣片 16 上殼體 162彈片 17 接地棒 18 下殼體 19 導線 20 絕緣本體 201第一凸起部 203第二凸起部 204容置空間 205第三凸起部 207凹陷部 28 下殼體 282抵靠部 3 連接器組裝方法 31 提供一絕緣本體 32 組裝一下殼體於絕緣本體下 33 組裝導電端子於絕緣本體之端子插槽内 34 彎折導電端子之折彎部 35 設置一固定條於絕緣本體之承載面上 36 焊接導線於導電端子之搭接部上 37 組裝一上殼體於絕緣本體上 12BRIEF DESCRIPTION OF THE DRAWINGS The drawings are schematic views of a three-dimensional combination of the connection II of the present invention. The perspective exploded view of the connector of the figure. ~ Figure is a partial exploded view of the connector of the i-th. Figure 4 is a perspective view of the conductive terminals of the connector of the second figure. ^ Figure is a perspective view of the fixed strip of the connector of the second figure. Figure 6 is a perspective view of the insulative body of the connector of the second figure. The figure of the first figure of the connector is shown along the AA line. I S.1 1380526 The eighth figure is a schematic exploded view of another insulating body and a lower casing of the connector of the present invention. The ninth drawing is a schematic view showing the vertical assembly of the other insulating body and the lower casing of the connector of the present invention. The tenth figure is a schematic diagram of the assembly process of the connector of the present invention. [Main component symbol description] 1 Connector 10 Insulating body 100 Terminal slot 101 First boss portion 102 Strip groove 103 Second boss portion 104 accommodating space 105 Third boss portion 106 Bearing surface 107 recess portion 108 Support surface 12 Conductive terminal 122 abutting portion 124 lap portion 126 fitting portion 128 bent portion 14 fixing strip 1380526 142 groove 15 insulating sheet 16 upper housing 162 spring 17 ground rod 18 lower housing 19 wire 20 insulating body 201 a raised portion 203, a second raised portion 204, a receiving space 205, a third raised portion 207, a recessed portion 28, a lower housing 282, abutment portion 3, a connector assembly method 31, an insulative housing 32, a housing, and an insulating body 33, the conductive terminal is assembled in the terminal slot of the insulative housing, and the bent portion 35 of the conductive terminal is bent. A fixing strip is disposed on the bearing surface 36 of the insulating body. The welding wire is connected to the overlapping portion of the conductive terminal. On the insulating body 12