M382615 五、新型說明: 【新型所屬之技術領域】 本創作涉及-種連接器’尤其涉及—種直立式連接器。 【先前技術】 直立式安裝在電路板上的連接器在電連接器領域中應用 的越來越多,目前多數的直立式連接器,包括絕緣本體和收容 固定於絕緣本體的複數個導電端子,導電端子在設計上通常由 對接部、過渡部及焊接部構成。M382615 V. New description: [New technical field] This creation involves a kind of connector, especially involving a kind of vertical connector. [Prior Art] Connectors that are mounted vertically on a circuit board are increasingly used in the field of electrical connectors. Most of the current vertical connectors include an insulative housing and a plurality of conductive terminals that are received and fixed to the insulative housing. The conductive terminals are usually designed to be composed of a butt joint, a transition portion, and a welded portion.
取丁㈣钱部和焊接部分別位於不同 的平面上,且複數個端子的對接部在一平面上,焊接部也在同 一個平面上,同時複數個導電端子是等長的,形成—矩陣階梯 狀分佈,複數個導電端子的對接部與焊接部之間為過渡部,過 =部也在同-個平面上且都相對對接部朝同—個 7這樣,㈣因為導電端子排列過密而產生接點短路等問 碭,另外,需要擴大絕緣本體的收 你而光击括 空間以收容該導電端子, 從而並不能滿足連接n小魏的發展趨勢。 【新型内容】 本創作的目的在於針對上述 立式連接器,該直立式連技# 夂捉供種直 又能有效避免因導電端既能収連接器小型化的要求, 為實現上述目的,太名列過密而產生接點短路等問題。 焊接在電路板上,包括^作所提供—種直立式連接器,適於 體具有縱向設置的承栽、纟體和複數個導電端子,該絕緣本 向貫穿的端子槽;該導承載部開設有複數個縱向排列且橫 包括收容固定於端^槽端子與該端子槽一一對應,導電端子 接對接部與焊接部的過^對接部、與電路板焊接的焊接部及連 \部’該對接部末端彎折延伸形成與焊 3 M382615 接部連接的該過渡部;複數個導電端子中至少一個導電端子的 過渡部相對對接部彎折延伸的方向與其他導電端子的過渡部 相對對接部彎折延伸的方向相反。 如上所述,本創作直立式連接器的導電端子中至少一個 導電端子的過渡部相對對接部彎折延伸的方向與其他導電端 子的過渡部相對對接部彎折延伸的方向相反,從而在滿足連接 器小型化的前提下,能有效避免因導電端子排列過密而產生接 點短路等問題。 【實施方式】 為詳細說明本創作之技術内容、構造特徵、所達成目的及 功效,以下茲舉例並配合圖式詳予說明。 請參閱第一圖〜第五圖,為本創作直立式連接器100第一 優選實施例,該直立式連接器1〇〇包括絕緣本體20及複數個 導電端子30。 請參閱第一圖、第二圖及第三圖,該絕緣本體20呈一矩 形體,由相對的頂面201和底面202、相對的前表面203和後 表面204及相對的左侧面205和右側面206組成。該絕緣本體 20靠近右側面206縱向設有一容置腔210,且該容置腔210連 通該絕緣本體20的前表面203和後表面204。該絕緣本體20 在容置腔210内縱向設置有承載部22。該承載部22的左表面 221開設有複數個縱向排列且橫向貫穿的端子槽223。該端子 槽223用於收容導電端子30。該絕緣本體20的前表面203正 對該容置腔210設有複數個與承載部22的端子槽223 —一對 應連通的端子槽口 213,每一端子槽口 213的一端部2131向 兩側縱向延伸形成,使端子槽口 213形成T字型結構;該絕緣 本體20的後表面204正對該容置腔210設有插接口 214,導 4 M382615 電端子30通過該插接口 214與外部連接器實現對接。 請參閱第三圖,該導電端子30包括多個第一導電端子3〇a 和一個第二導電端子30b,該第—導電端子30a包括容置於承 載部22的第一對接部3〇la、與電路板焊接的第一焊接部3〇2& 及連接第一對接部3〇la和第一焊接部302a的第一過渡部 303a,該第一對接部3〇la末端彎折延伸形成與第一焊接部 302a連接的第一過渡部3〇3a’該第一過渡部3〇3a相對第一對 接部301a彎折延伸且第一過渡部3〇3a所在的平面與第一對接 部301a所在的平面垂直,該第一焊接部3〇2&相對第一過渡部 3〇3a垂直彎折延伸且第一焊接部3〇2a與第一過渡部3〇3&處於 同一平面。 該第二導電端子30b包括容置於承載部22的第二對接部 301b、與電路板焊接的第二焊接部302b及連接第二對接部 3〇lb和第二焊接部302b的第二過渡部3〇3b,該第二對接部 301b末端彎折延伸形成與第二焊接部3〇2b連接的第二過渡部 303b’該第二過渡部3〇3b相對第二對接部301b彎折延伸且第 二過渡部303b所在的平面與第二對接部301b所在的平面垂 直’該第一焊接部302b相對第二過渡部3 03b垂直臀折延伸且 第二焊接部302b與第二過渡部303b處於同一平面。其中,每 一第一導電端子30a的第一過渡部3〇3&相對第一對接部3〇la 向絕緣本體20的左側面205彎折延伸,而第二導電端子30b 的第二過渡部303b相對第二對接部301b向絕緣本體20的右 側面206彎折延伸。該第一對接部301a和第二對接部301b對 應穿過該絕緣本體20前表面203的端子槽口 213並收容固定 於承載部22的端子槽223中,且第一對接部301a和第二對接 部301b鄰接第一過渡部303a或第二過渡部303b的末端凸伸 出與該端子槽口 213相卡合的突出塊3012,該第一對接部301a 5 M382615 和第二對接部301b通過該突出塊3012與端子槽口 213的卡合 而收容固定於承載部22的端子槽223中。 請參閱第三圖、第四圖及第五圖,該絕緣本體20的前表 面203向内凹形成過渡腔220,該端子槽口 213與過渡腔220 連通’且每一第一導電端子30a的第一焊接部302和第一過渡 部303及第二導電端子30b的第二焊接部302b和第二過渡部 3〇3b收容於該過渡腔220並與形成過渡腔220的絕緣本體20 的前表面203貼合。該絕緣本體20的底面202開設有與過渡 腔220連通的收容腔230,該絕緣本體20還包括收容在該收 容腔230内的底蓋座體24,底蓋座體24上設有複數個端子導 孔243,該第一焊接部302a及第二焊接部302b對應固定在端 子導孔243中。該收容腔230的兩側壁上均凹設有第一卡扣槽 2301和第二卡扣槽2302,該底蓋座體24的兩側面向外延伸設 有與第一卡扣槽2301相扣合的第一卡扣塊241,該底蓋座體 24的上表面向上凸伸設有與第二卡扣槽2302相扣合的第二卡 扣塊242,該底蓋座體24通過第一卡扣塊241與第一卡扣槽 2301的扣合及第二卡扣塊242與二卡扣槽2302的扣合而與絕 緣本體20組合成一體。 較佳地,該絕緣本體20的前表面203在過渡腔220和收 容腔230之間還向内凹設有複數個端子導槽2033,該端子導 槽2033連通過渡腔220和收容腔230並與底蓋座體24的端子 導孔243 --對應連通。該第一焊接部302a和第二焊接部302b 穿過端子導槽2033並固定於端子導孔243中,且每一焊接部 302上設有凸出塊3021,以限定第一焊接部302a和第二焊接 部302b固定於該端子導孔243中的長度。 可理解地,本實施例容置腔210設在絕緣本體20上並連 通絕緣本體20的前表面203和後表面204即可,其設在絕緣 6 M382615 本體20的左部靠近左側面205或絕緣本體20的右部靠近右側 面206的位置並不影響本實施例的效果。另外,當導電端子 30的數量較大時’該絕緣本體20的承載部22可在其左表面 221和右表面222均設有收容該導電端子30的端子槽223,導 電端子30可分成兩排收容固定於該端子槽223中’並不影響 本實施例的實施。 請參閱第六圖,為本創作直立式連接器的第二實施例。與 第一優選實施例相同,本實施例的直立式連接器200包括絕緣 本體20’及複數個導電端子30’ 。本實施例與第一優選例的 不同在於:該絕緣本體20’在其中部縱向設有連通該絕緣本 體20’的前表面203’和後表面204’的容置腔210’ ,而該 導電端子30’包括多個第一導電端子30a’和與該多個第一 導電端子30a’相間排列的多個第二導電端子30b’ 。每一第 一導電端子30a’的第一過渡部303a’相對第一對接部 301a’彎折延伸的方向與每一第二導電端子30b’的第二過渡 部303b’相對第二對接部301b’彎折延伸的方向相反。可 見,本實施例使導電端子30’最大限度地收容固定於絕緣本 體20’ ,可達到與第一優選實施例同樣的實施效果。 綜上所述,本創作直立式連接器100的導電端子3〇中至 少一個導電端子3Ob的過渡部相對對接部% 1匕弯折延伸 的方向與其他導電端子30a的過渡部303a相對對接部3〇1&弯 折延伸的方向相反,從而在滿足連接器小型化的前提下,处有 效避免因導電端子排列過密而產生接點短路等問題。 【圖式簡單說明】 第一圖為本創作直立式連接器一種實施例的立體圖。 第二圖為第一圖所示直立式連接器的另一角度的立體圖。 7 M382615 第三圖為第一圖所示直立式連接器的立體分解圖。 第四圖為第一圖所示直立式連接器的絕緣本體與底蓋座體組 合前的正視圖。 第五圖為第一圖所示直立式連接器的絕緣本體與底蓋座體組 合前的仰視圖。 第六圖為本創作直立式連接器第二實施例的立體圖。 【主要元件符號說明】 直立式連接器 100 ' 200 絕緣本體 20 、20, 頂面 201 底面 202 前表面 203 、 203’ 後表面 204 、 204’ 左側面 205 右側面 206 容置腔 210、210’ 承載部 22 左表面 221 右表面 222 端子槽 223 端子檜口 213 端部 2131 過渡腔 220 收容腔 230 端子導槽 2033 第一卡扣槽 2301 第二卡扣槽 2302 底蓋座體 24 第一卡扣塊 241 第二卡扣塊 242 端子導孔 243 導電端子 30、30’ 第一導電端子 30a、30a’ 第一對接部 301a、301a, 第一焊接部 302a 第一過渡部 303a、303a, 第二導電端子 30b 、 30b’ 第二對接部 301b、301b, 第二焊接部 302b 第二過渡部 303b、303b’ 突出塊 3012 凸出塊 3021 插接口 214The D4 (4) money part and the welding part are respectively located on different planes, and the abutting parts of the plurality of terminals are on a plane, the welding part is also on the same plane, and the plurality of conductive terminals are equal in length, forming a matrix ladder a distribution, a plurality of conductive terminals between the abutting portion and the welded portion is a transition portion, the over = portion is also on the same plane and both are opposite to each other, such as 7; (4) because the conductive terminals are arranged too densely to be connected Point short circuit, etc. In addition, it is necessary to enlarge the space of the insulating body to cover the space to accommodate the conductive terminal, so that the development trend of connecting n Xiaowei cannot be satisfied. [New content] The purpose of this creation is to address the above-mentioned vertical connector. The vertical connection technology can effectively avoid the requirement of miniaturization of the connector due to the conductive end. To achieve the above purpose, the name is too The column is too dense and the contact is short-circuited. Soldering on a circuit board, comprising: a vertical connector provided for the body having a longitudinally disposed bearing, a body and a plurality of conductive terminals, the insulating inwardly extending through the terminal slot; the guiding bearing portion is opened There are a plurality of longitudinally arranged and horizontally including receiving and fixing the terminal slot terminals in one-to-one correspondence with the terminal slots, the conductive terminals are connected to the butting portions of the butting portions and the soldering portions, and the soldering portions and the connecting portions of the soldering plates are The end of the butt joint is bent to form the transition portion connected to the joint of the weld 3 M382615; the transition portion of the at least one of the plurality of conductive terminals is bent relative to the opposite portion of the conductive portion and the transition portion of the other conductive terminal is bent at the opposite portion The direction of the extension is reversed. As described above, the direction in which the transition portion of the at least one of the conductive terminals of the present invention is bent and extended with respect to the abutting portion is opposite to the direction in which the transition portion of the other conductive terminal is bent and extended, thereby satisfying the connection. Under the premise of miniaturization, it is possible to effectively avoid problems such as short-circuiting of contacts due to excessive arrangement of conductive terminals. [Embodiment] In order to explain in detail the technical contents, structural features, achieved goals and effects of the present invention, the following is a detailed description with reference to the drawings. Referring to the first to fifth figures, a first preferred embodiment of the present invention is the vertical connector 100. The vertical connector 1 includes an insulative housing 20 and a plurality of conductive terminals 30. Referring to the first, second and third figures, the insulative housing 20 is in the form of a rectangular body, and has an opposite top surface 201 and a bottom surface 202, opposite front and rear surfaces 203 and 204, and an opposite left side surface 205. The right side surface 206 is composed. An accommodating cavity 210 is disposed in the longitudinal direction of the insulative housing 20, and the accommodating cavity 210 communicates with the front surface 203 and the rear surface 204 of the insulating body 20. The insulating body 20 is longitudinally disposed with a bearing portion 22 in the accommodating cavity 210. The left surface 221 of the carrying portion 22 is provided with a plurality of longitudinally and laterally extending terminal slots 223. The terminal slot 223 is for receiving the conductive terminal 30. The front surface 203 of the insulative housing 20 is provided with a plurality of terminal notches 213 communicating with the terminal slots 223 of the carrying portion 22, and the end portions 2131 of each of the terminal slots 213 are opposite sides. The longitudinal extension is formed such that the terminal notch 213 forms a T-shaped structure; the rear surface 204 of the insulating body 20 is provided with a plug interface 214 for the accommodating cavity 210, and the electrical terminal 30 of the guide 4 M382615 is connected to the outside through the plug interface 214 The device is docked. Referring to the third figure, the conductive terminal 30 includes a plurality of first conductive terminals 3A and a second conductive terminal 30b. The first conductive terminal 30a includes a first butt portion 3〇1a received in the carrying portion 22. a first soldering portion 3〇2& and a first connecting portion 303a connecting the first butting portion 3a and the first soldering portion 302a, and the first butting portion 3〇la end is bent and extended to form a first portion The first transition portion 3〇3a′ connected to the soldering portion 302a is bent and extended relative to the first mating portion 301a, and the plane where the first transition portion 3〇3a is located and the first mating portion 301a are located. The plane is vertical, the first welded portion 3〇2& is vertically bent and extends relative to the first transition portion 3〇3a, and the first welded portion 3〇2a is in the same plane as the first transition portion 3〇3& The second conductive terminal 30b includes a second abutting portion 301b received in the carrying portion 22, a second welded portion 302b welded to the circuit board, and a second transition portion connecting the second butt portion 3b and the second welded portion 302b. 3〇3b, the second abutting portion 301b is bent and extended to form a second transition portion 303b' connected to the second welded portion 3〇2b. The second transition portion 3〇3b is bent and extended relative to the second butt portion 301b. The plane in which the two transition portions 303b are located is perpendicular to the plane in which the second butting portion 301b is located. The first welded portion 302b extends perpendicularly to the second transition portion 303b and the second welded portion 302b and the second transition portion 303b are in the same plane. . The first transition portion 3〇3& of each of the first conductive terminals 30a is bent and extended toward the left side surface 205 of the insulative housing 20, and the second transition portion 303b of the second conductive terminal 30b is extended. The second abutting portion 301b is bent and extended toward the right side surface 206 of the insulative housing 20. The first abutting portion 301a and the second butting portion 301b are corresponding to the terminal slot 213 of the front surface 203 of the insulative housing 20 and are received and fixed in the terminal slot 223 of the carrying portion 22, and the first butting portion 301a and the second butting portion The protruding portion 3012 of the portion 301b adjacent to the first transition portion 303a or the second transition portion 303b protrudes from the terminal slot 213, and the first butting portion 301a 5 M382615 and the second butting portion 301b pass the protrusion The block 3012 is engaged with the terminal slot 213 and housed and fixed in the terminal slot 223 of the carrier portion 22. Referring to the third, fourth and fifth figures, the front surface 203 of the insulative housing 20 is recessed inwardly to form a transition cavity 220. The terminal notch 213 is in communication with the transition cavity 220 and each of the first conductive terminals 30a The first soldering portion 302 and the second soldering portion 302b and the second transition portion 3〇3b of the first and second conductive portions 303 and 30b are received in the transition cavity 220 and the front surface of the insulating body 20 forming the transition cavity 220. 203 fit. The bottom surface 202 of the insulative housing 20 defines a receiving cavity 230 that communicates with the transition cavity 220. The insulative housing 20 further includes a bottom cover body 24 received in the receiving cavity 230. The bottom cover body 24 is provided with a plurality of terminals. The guiding hole 243, the first welding portion 302a and the second welding portion 302b are correspondingly fixed in the terminal guide hole 243. A first latching slot 2301 and a second latching slot 2302 are recessed on the two side walls of the receiving cavity 230. The two sides of the bottom cover body 24 extend outwardly and are engaged with the first latching slot 2301. The first latching block 241, the upper surface of the bottom cover body 24 protrudes upwardly and has a second latching block 242 that is engaged with the second latching slot 2302. The bottom cover body 24 passes the first card. The fastening block 241 is engaged with the first locking groove 2301 and the second fastening block 242 is engaged with the two locking grooves 2302 to be integrated with the insulating body 20. Preferably, the front surface 203 of the insulative housing 20 is further recessed between the transition cavity 220 and the receiving cavity 230 to form a plurality of terminal guiding grooves 2033. The terminal guiding groove 2033 communicates with the transition cavity 220 and the receiving cavity 230 and The terminal guide holes 243 of the bottom cover body 24 are correspondingly connected. The first soldering portion 302a and the second soldering portion 302b pass through the terminal guiding groove 2033 and are fixed in the terminal guiding hole 243, and each soldering portion 302 is provided with a protruding block 3021 to define the first soldering portion 302a and the first portion. The length of the second soldering portion 302b is fixed in the terminal via hole 243. It can be understood that the accommodating cavity 210 of the present embodiment is disposed on the insulative housing 20 and communicates with the front surface 203 and the rear surface 204 of the insulative housing 20, and is disposed on the left side of the insulating 6 M382615 body 20 near the left side surface 205 or insulated. The position of the right portion of the body 20 near the right side surface 206 does not affect the effect of the present embodiment. In addition, when the number of the conductive terminals 30 is large, the bearing portion 22 of the insulative housing 20 can be provided with a terminal slot 223 for receiving the conductive terminal 30 on the left surface 221 and the right surface 222 thereof. The conductive terminal 30 can be divided into two rows. The accommodation is fixed in the terminal groove 223' does not affect the implementation of the embodiment. Please refer to the sixth figure, which is a second embodiment of the present invention. As in the first preferred embodiment, the upright connector 200 of the present embodiment includes an insulative housing 20' and a plurality of conductive terminals 30'. The difference between the present embodiment and the first preferred embodiment is that the insulative housing 20' is longitudinally disposed with a receiving cavity 210' that communicates with the front surface 203' and the rear surface 204' of the insulative housing 20'. 30' includes a plurality of first conductive terminals 30a' and a plurality of second conductive terminals 30b' interposed with the plurality of first conductive terminals 30a'. The direction in which the first transition portion 303a' of each first conductive terminal 30a' is bent and extended relative to the first butt portion 301a' is opposite to the second transition portion 303b' of each second conductive terminal 30b'. The bend extends in the opposite direction. It can be seen that in the present embodiment, the conductive terminal 30' is maximally accommodated and fixed to the insulating body 20', and the same effects as those of the first preferred embodiment can be achieved. In summary, the transition portion of at least one of the conductive terminals 3Ob of the vertical connector 100 of the present invention is opposite to the abutment portion 303a of the other conductive terminals 30a. 〇1& bends and extends in the opposite direction, so that the connector can be prevented from being short-circuited due to the dense arrangement of the conductive terminals, etc., while satisfying the miniaturization of the connector. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a perspective view of an embodiment of a creative upright connector. The second figure is a perspective view of another angle of the upright connector shown in the first figure. 7 M382615 The third figure is an exploded perspective view of the vertical connector shown in the first figure. The fourth figure is a front view of the insulative housing and the bottom cover body of the vertical connector shown in the first figure. The fifth view is a bottom view of the front body of the vertical connector shown in the first figure in combination with the bottom cover body. Figure 6 is a perspective view of a second embodiment of the inventive vertical connector. [Main component symbol description] Vertical connector 100 '200 Insulating body 20, 20, top surface 201 bottom surface 202 Front surface 203, 203' Rear surface 204, 204' Left side surface 205 Right side surface 206 accommodating cavity 210, 210' Part 22 Left surface 221 Right surface 222 Terminal slot 223 Terminal port 213 End 2131 Transition cavity 220 Socket cavity 230 Terminal guide groove 2033 First snap groove 2301 Second snap groove 2302 Bottom cover body 24 First snap block 241 second snap block 242 terminal guide hole 243 conductive terminal 30, 30' first conductive terminal 30a, 30a' first butt joint 301a, 301a, first solder portion 302a first transition portion 303a, 303a, second conductive terminal 30b, 30b' second docking portions 301b, 301b, second soldering portion 302b second transition portion 303b, 303b' protruding block 3012 protruding block 3021 plug interface 214