M376948 五、新型說明: 【新型所屬之技術領域】 本創作涉及一種連接器技術,尤其涉及一種連接器端子及 應用了該連接器端子的電連接器。 【先前技術】 按,請參閱第五圖及第六圖,一種習知的電連接器1〇〇’ 具有一絕緣本體1’、複數接觸端子2’及複數支撐件3’。該絕 緣本體1’上設有複數貫穿絕緣本體Γ前端面及下端面之端子 槽11’及複數貫穿絕緣本體Γ後端面和下端面之卡固槽12’; 絕緣本體Γ後端面上設有複數定位槽13’,在裝配電連接器 100’時起定位作用;接觸端子2’包括一長條狀之連接部22’, 連接部22’上端前侧邊緣向前延伸形成一接觸部22’,連接部 22’下端向下延伸形成一焊腳24’,接觸部22’後側邊緣向後延 伸形成兩卡持部23’ ;支撐件3’具有一主體部31’、兩由主體 部31’上端前側邊緣向前延伸形成之固持部32’及一由主體部 31’下端向下延伸形成之固接腳33’ ;卡持部23’卡持收容於端 子槽11’内,接觸部22’由絕緣本體1’前端面伸出到絕緣本體Γ 外,焊腳2’由絕緣本體1’下端面伸出到絕緣本體Γ外,焊腳 24’焊接於電路板(圖未示)上,固持部32’固持於卡固槽12’ 内,固接腳24’由絕緣本體Γ下端面伸出到絕緣本體Γ外並固 持於電路板(圖未示)上。 惟,上述習知電連接器100’之接觸端子2’之焊腳24’焊接 於電路板時,需在電路板上破孔,佔用了電路板上其它電子元 件的空間,不利於產品向輕薄短小方向發展,且焊腳24’面積 過小,亦不利於焊接。 【新型内容】 3 本創作的主要目的係針對上述習知技術存在之缺陷提供 一種連接器端子焊接到電路板時不需在電路板破孔,從而可節 省電路板空間且利於焊接之連接器端子及電連接器。 為實現上述目的,本創作連接器端子包括一連接部,連接 部一端之一側邊緣向一側延伸形成一接觸部,另一端之一側邊 緣向一側水平延伸形成一焊腳。 本創作電連接器包括一絕緣本體及複數連接器端子。絕緣 本體上設有複數端子槽;複數連接器端子固持於端子槽内,其 包括一連接部,連接部一端之一側邊緣向一側延伸形成一接觸 部,另一端之一側邊緣向一側延伸形成一水平的焊腳。 由上所述,本創作電連接器之連接器端子之水平焊腳增加 了焊接面積,使得連接器端子焊接到電路板時更易於焊接,且 無需在電路板上破孔,從而無需佔用其它電子元件的空間。 【實施方式】 為詳細說明本創作之技術内容、構造特徵及其所達成之目 的與功效,下面將結合實施例並配合圖式詳予說明。 請參閱第一圖,本創作電連接器100包括一絕緣本體1、 複數連接器端子2及複數支撐件3。 請參閱第二圖至第四圖,絕緣本體1大致呈長方形塊狀, 絕緣本體1上設有複數端子槽11複數卡固槽12 ;絕緣本體1 後端面上設有複數定位槽13,在裝配電連接器100時起定位 作用。端子槽11具有一貫穿絕緣本體1前端面及下端面之連 接槽111、兩與連接槽111相連通之第一卡持槽112及一與連 接槽111相連通之第一收容槽113;卡固槽12包括一貫穿絕緣 本體1後端面及下端面之第二收容槽121及兩與第二收容槽 121相連通之第二卡持槽122。 M376948 請參閱第二圖,連接器端子2包括一長條片狀之連接部 21,連接部21上端之前側邊緣向前延伸形成一片狀之接觸部 22,連接部21下端前側邊緣向前延伸形成一水平的焊腳24, 接觸部22後側邊緣向後延伸形成兩卡持部25,連接部21上 與焊腳24相對之一側邊緣向後延伸形成一梯形的支撐板23, 支撐板23之底端及焊腳24之底端在同一平面上。 請繼續參閱第二圖,支撐件3具有一長條片狀之主體部 31、兩與主體部31相連之固持部32及一由主體部31下端向 下延伸形成之固接腳33。 連接器端子2之連接部21收容於連接槽111内,支撐板 23收容於第一收容槽113内,兩卡持部25分別卡持收容於一 第一卡持槽112内,接觸部22及焊腳24由絕緣本體1前端面 伸出到絕緣本體1外,焊腳24焊接於電路板(圖未示)上, 支撐件3之主體部31收容於第二收容槽121内,固持部32固 持於第二卡持槽122内,固接腳33由絕緣本體1下端面伸出 到絕緣本體1外並固持於電路板(圖未示)上。 由上所述,本創作電連接器100之連接器端子2之焊腳 24增加了焊接面積,使得連接器端子2焊接到電路板(圖未 示)時更易於焊接並提升了電連接器1〇〇的板上支撐力,且無 需在電路板(圖未示)上破孔,從而無需佔用其它電子元件的 空間,支撐板23之設計亦可增強電連接器100在板上的支撐 強度。 【圖式簡單說明】 第一圖係本創作電連接器一種實施例的立體圖。 第二圖係第一圖所示電連接器的立體分解圖。 第三圖係第一圖所示電連接器絕緣本體的部分剖解圖。 5 M376948 第四圖係第一圖所示電連接器絕緣本體另一部分剖解圖。 第五圖係習知電連接器的立體分解圖。 第六圖係第五圖所示絕緣本體另一角度的立體圖。 【主要元件符號說明】 電連接器 100 絕緣本體 1 端子槽 11 連接槽 111 第—^持槽 112 第一收容槽 113 卡固槽 12 第二收容槽 121 第二卡持槽 122 定位槽 13 連接器端子 2 連接部 21 接觸部 22 支撐板 23 焊腳 24 卡持部 25 支撐件 3 主體部 31 固持部 32 固接腳 33M376948 V. New Description: [New Technology Field] This creation relates to a connector technology, and more particularly to a connector terminal and an electrical connector to which the connector terminal is applied. [Prior Art] Referring to Figures 5 and 6, a conventional electrical connector 1' has an insulative housing 1', a plurality of contact terminals 2' and a plurality of support members 3'. The insulating body 1' is provided with a plurality of terminal slots 11' penetrating the front end surface and the lower end surface of the insulating body, and a plurality of fixing slots 12' penetrating the rear end surface and the lower end surface of the insulating body; the insulating body has a plurality of rear end faces The positioning slot 13' functions as a positioning when the electrical connector 100' is assembled; the contact terminal 2' includes a long connecting portion 22', and the front side edge of the upper end of the connecting portion 22' extends forward to form a contact portion 22'. The lower end of the connecting portion 22' extends downward to form a solder fillet 24', and the rear side edge of the contact portion 22' extends rearward to form two latching portions 23'; the support member 3' has a main body portion 31' and two upper ends of the main body portion 31' a retaining portion 32 ′ formed by the front side edge extending forwardly and a fixing leg 33 ′ extending downward from the lower end of the main body portion 31 ′; the latching portion 23 ′ is received in the terminal slot 11 ′, and the contact portion 22 ′ is The front end surface of the insulating body 1' protrudes out of the insulating body, the solder tail 2' protrudes from the lower end surface of the insulating body 1' to the outside of the insulating body, and the solder fillet 24' is soldered to the circuit board (not shown), and the holding portion 32' is held in the retaining groove 12', and the fixing leg 24' is The lower edge of the body extends to the outer end surface Γ Γ insulative housing and holding the circuit board (not shown). However, when the soldering leg 24' of the contact terminal 2' of the conventional electrical connector 100' is soldered to the circuit board, the hole is required to be broken on the circuit board, which occupies space of other electronic components on the circuit board, which is disadvantageous to the product being thin and light. The development in a short direction and the area of the solder fillet 24' is too small, which is not conducive to soldering. [New content] 3 The main purpose of this creation is to provide a connector terminal that is soldered to the circuit board without the need to break holes in the circuit board when the connector terminal is soldered to the circuit board, thereby saving the board space and facilitating soldering of the connector terminal. And electrical connectors. In order to achieve the above object, the connector terminal of the present invention includes a connecting portion, and one side edge of one end of the connecting portion extends to one side to form a contact portion, and one side edge of the other end horizontally extends to one side to form a solder fillet. The present electrical connector includes an insulative body and a plurality of connector terminals. A plurality of terminal slots are disposed on the insulative housing; the plurality of connector terminals are retained in the terminal slots, and include a connecting portion, one side edge of one end of the connecting portion extends to one side to form a contact portion, and one side edge of the other end is to one side Extend to form a horizontal solder fillet. As described above, the horizontal solder fillet of the connector terminal of the present electrical connector increases the soldering area, making the connector terminal easier to solder when soldered to the board, and eliminating the need for holes in the board, thereby eliminating the need to occupy other electronics. The space of the component. [Embodiment] In order to explain the technical contents, structural features, and the objects and effects of the present invention in detail, the embodiments will be described in detail below with reference to the drawings. Referring to the first figure, the present electrical connector 100 includes an insulative housing 1, a plurality of connector terminals 2, and a plurality of support members 3. Referring to FIG. 2 to FIG. 4 , the insulative housing 1 is substantially in the shape of a rectangular block. The insulative housing 1 is provided with a plurality of terminal slots 11 and a plurality of locking slots 12 . The rear end surface of the insulative housing 1 is provided with a plurality of positioning slots 13 . The power distribution connector 100 functions as a positioning. The terminal slot 11 has a connecting slot 111 extending through the front end surface and the lower end surface of the insulative housing 1, two first retaining slots 112 communicating with the connecting slot 111, and a first receiving slot 113 communicating with the connecting slot 111; The slot 12 includes a second receiving slot 121 extending through the rear end surface and the lower end surface of the insulative housing 1 and two second latching slots 122 communicating with the second receiving slot 121. M376948 Referring to the second figure, the connector terminal 2 includes a long strip-shaped connecting portion 21, and the front side edge of the upper end of the connecting portion 21 extends forward to form a strip-shaped contact portion 22, and the front end edge of the lower end portion of the connecting portion 21 extends forward. Forming a horizontal solder fillet 24, the rear side edge of the contact portion 22 extends rearward to form two latching portions 25, and a side edge of the connecting portion 21 opposite to the solder fillet 24 extends rearward to form a trapezoidal support plate 23, and the support plate 23 The bottom end and the bottom end of the solder fillet 24 are on the same plane. Referring to the second figure, the support member 3 has a long strip-shaped main body portion 31, two retaining portions 32 connected to the main body portion 31, and a fixing leg 33 extending downward from the lower end of the main body portion 31. The connecting portion 21 of the connector terminal 2 is received in the connecting slot 111, and the supporting plate 23 is received in the first receiving slot 113. The two latching portions 25 are respectively received in a first retaining slot 112, the contact portion 22 and The soldering leg 24 protrudes from the front end surface of the insulative housing 1 to the outside of the insulative housing 1. The soldering leg 24 is soldered to the circuit board (not shown). The main body portion 31 of the supporting member 3 is received in the second receiving slot 121. The fixing leg 33 is protruded from the lower end surface of the insulative housing 1 to the outside of the insulative housing 1 and is fixed on the circuit board (not shown). As described above, the solder fillet 24 of the connector terminal 2 of the present electrical connector 100 increases the soldering area, making it easier to solder and improve the electrical connector 1 when the connector terminal 2 is soldered to a circuit board (not shown). The supporting force of the board on the board does not need to be broken on the circuit board (not shown), so that the space of other electronic components is not required, and the design of the supporting board 23 can also enhance the supporting strength of the electrical connector 100 on the board. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a perspective view of an embodiment of the present electrical connector. The second figure is an exploded perspective view of the electrical connector shown in the first figure. The third figure is a partial cutaway view of the electrical connector insulative body shown in the first figure. 5 M376948 The fourth figure is a cross-sectional view of another part of the insulating body of the electrical connector shown in the first figure. The fifth figure is an exploded perspective view of a conventional electrical connector. The sixth figure is a perspective view of another angle of the insulating body shown in the fifth figure. [Explanation of main components] Electrical connector 100 Insulation body 1 Terminal slot 11 Connection slot 111 First - holder slot 112 First receiving slot 113 Card slot 12 Second receiving slot 121 Second latching slot 122 Positioning slot 13 Connector Terminal 2 connecting portion 21 contact portion 22 support plate 23 solder fillet 24 grip portion 25 support member 3 main body portion 31 holding portion 32 fixing leg 33