M318222 八、新型說明: 【新型所屬之技術領域】 本創作涉及一種電池連接器,尤其涉及〜種設置於移 動通訊產品内的電池連接器之端子改良結構。 【先前技術】 在移動通訊產品中,通常需要在移動手機主體内設置 電池連接為以實現電池與電路板之間的電性連接。相關的 現有技術請參見如第一圖所示,該圖示所揭露的電池連接 器50包括一端子座體1〇及設置於端子座體1Q内的複數 電性端子20,端子座體1〇内開設有複數與電性端子2〇 對應之容置槽30、30’ ,電性端子20具有呈矩形形狀的 焊接腳40,且烊接腳40、40,的彎折角呈9〇度,該焊接 腳40、40’收容於所述容置槽30、30’ 。 惟,上述結構中容置槽30、30’的空間較大,且電性 端子20的焊接腳40、40,呈矩形以使焊接腳4〇、4〇,無 法固定,如此,在組裝過程中,會造成電性端子2Q的焊接 腳40、40’陷入於容置槽30、30’中,而無法平整的與印 刷電路板相貼齊焊設,從而引起焊接腳40、40,平面度問 題導致的焊錫不良發生。 【新型内容】 本創作之目的係針對上述不足而提供一種電池連接 器’包括一絕緣本體、從絕緣本體上設有複數個端子容納 M318222 槽’以分別收納一第一導雪她孚 兩—對位於第—導電端子 ^^A 丁 /、〒弟一導電端子的一端各成 有接觸部’接觸部並從絕緣本體的前表面凸出於外,以 ^電池接點相接觸。在該接觸部最前端並向兩側外各延伸 設有凸片,於第―、二導電端子的另—端成型有—用於谭 接在外部電路板上的焊接尾部,該焊接尾㈣末端向兩側 外各凸伸形成凸邊,且該焊接尾部略微向内側傾斜呈非垂 直面。 藉此,當端子組裝於端子容納槽内時,焊接尾部之凸 邊會被緊貼在端子㈣㈣外壁上,使端子的焊接尾部無 法陷入於端子容_内,從而避免了端子焊接尾部因平面 度問題導致的焊錫不良發生。 【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。 請參閱第二圖、第三(A)圖及第三(B)圖,本創作電池 連接器100係包括絕緣本體丨、一第一導電端子2、一對第 二導電端子3及一對插置於絕緣本體丨兩側之接地彈片 4。其中絕緣本體1為矩形結構,自該絕緣本體丨底表面 11至上表面15並貫穿前表面12以形成供第 ^、二導電端 子2、3收容的端子容納槽13、13,,在該等端子容納槽 13、13内於底部邊緣處設有固定滑槽16、16,。 M318222 該第一導電端子2包括有一基部21,於基部21的一 端向上彎折延伸有一彈性部23,於彈性部23的末端再延 伸形成有接觸部22,在該接觸部22最前端並向兩側外各 延伸設有凸片221。另,在基部21的另一端則彎折有一 向内側傾斜的焊接尾部24,該焊接尾部24相對於基部21 的傾斜角度約為85度,呈一非垂直面,於所述焊接尾部 24的末端兩側則再向外延伸設有凸邊241。而基部21在 焊接尾部24的兩側另分別水平延伸設有倒刺25。 該第二導電端子3包括有一基部31,於基部31的一 端向上彎折延伸有一對並排彈性部33,於彈性部33的末 端再延伸形成有一對接觸部32,在該接觸部32最前端並 向兩側外各延伸設有凸片321。另,在基部31的另一端 則彎折有一向内側傾斜的焊接尾部34,該焊接尾部34相 對於基部31的傾斜角度約為85度,呈一非垂直面,於所 述焊接尾部34的末端兩側則再向外延伸設有凸邊341。 而基部31在焊接尾部34的兩側分別水平延伸設有倒刺 35 〇 第一導電端子2位於一對第二導電端子3的中間,其 中自第一導電端子2與第二導電端子3相間之底表面11 上開設有一對縱向延伸的收容槽17,該等收容槽17用於 收容接地彈片4。 接地彈片4的作用是提供電池連接器100於外部電路 7 M318222 板間形成更加牢固接合,所述接地彈片4具有—呈 體41 ’ π”型主體41之-外側處凸設有 ㈣達到干涉穩固的凸齒部&,而在主體41相 對另一外側向外縱向凸伸形成一固定柱43,該固定柱43 可插設於外部電路板上(圖中未示)。 請參閱第四圖並結合第三⑷圖及第三⑻圖,本創作 電池連接器_其將第…二導電端子2、3從絕緣本體 1底表面11導入至端子容納槽13、13,内,第一、一導 電端子,2、3的基部2卜31收容於絕緣本體i上固定滑槽 16、16,内’且基部2卜31上的倒刺μ、”與固定滑槽 16、16之外壁相卡持,以使第一、二導電端子23得 以固定於絕緣本體丨之端子容納槽13、13,内,使其彈 性部23、33容置於端子容納槽13、13,中,而接觸部 32則浮露於絕緣本體丨的前表面12,此時接觸部u、μ 最前端兩側凸片221、321抵頂於端子容納槽13、13,的 外壁上。而第一、二導電端子2、3的焊接尾部^、”則 會位於底表面1丨略上處並容置於端子容納槽13、13, 内,其末端兩側的凸邊241、341並抵頂於端子容納槽13、 13,的外壁上。該電池連接器1〇〇與外部電路板$焊接 時,接地彈片4藉由主體41内側的凸齒部42與收容槽 17達到干涉固定,藉由主體41外側的固定柱43插設在 外部電路板5上,這樣可避免電池多次抵接連接器時向— 8 M318222 方偏斜造成連接器100與電路板鬆動。 綜上所述,當導電端子2、3組裝於端子容納槽13、 13,内時,焊接尾部24、34之凸邊241、341會被緊貼在 端子容納槽13、13’的外壁上,使端子的焊接尾部24、34 無法陷入於端子容納槽13、13’内,從而避免了端子焊接 尾部24、34因平面度問題導致的焊錫不良發生。 本創作還有其它的改進或變形,如果本領域内的技術 人員在本創作的基礎上所做的顯而易見的等效改變和改 進均應該屬於本創作的保護範圍。 【圖式簡單說明】 第一圖係本創作電池連接器的立體圖。 第二圖係本創作電池連接器的立體分解圖。 第三(A)、三(B)圖係本創作電池連接器之組合後的立體 圖。 第四圖係本創作電池連接器安裝於外部電路板後的示意 圖。 【主要元件符號說明】 [習知技術] 端子座體 10 導電端子 20 容置槽 30、30’ 焊接腳 40、40’ 電池連接器 50 [本創作] M318222 絕緣本體 1 底表面 11 前表面 12 端子容納槽 13、13, 後表面 14 上表面 15 固定滑槽 16、16, 收容槽 17 第一導電端子 2 第二導電端子 3 基部 2卜31 接觸部 22 > 32 凸片 221 、 321 彈性部 23、33 焊接尾部 24、34 凸邊 241 、 341 倒刺 25、35 接地彈片 4 主體 41 凸齒部 42 固定柱 43 外部電路板 5 電池連接器 100M318222 VIII. New description: [New technical field] The present invention relates to a battery connector, and more particularly to a terminal improved structure of a battery connector disposed in a mobile communication product. [Prior Art] In mobile communication products, it is usually necessary to provide a battery connection in the mobile phone body to achieve an electrical connection between the battery and the circuit board. For the related prior art, as shown in the first figure, the battery connector 50 disclosed in the figure includes a terminal block body 1 and a plurality of electrical terminals 20 disposed in the terminal block body 1Q. The terminal block body 1〇 The inner opening is provided with a plurality of receiving slots 30, 30' corresponding to the electrical terminals 2, and the electrical terminal 20 has a soldering leg 40 having a rectangular shape, and the bending angle of the connecting legs 40, 40 is 9 degrees. The soldering legs 40, 40' are received in the accommodating grooves 30, 30'. However, in the above structure, the space for accommodating the grooves 30, 30' is large, and the soldering legs 40, 40 of the electrical terminal 20 are rectangular so that the soldering legs 4, 4, and cannot be fixed, so that during assembly, The soldering legs 40, 40' of the electrical terminal 2Q are trapped in the accommodating slots 30, 30', and cannot be flatly soldered to the printed circuit board, thereby causing soldering feet 40, 40, flatness problems. The resulting solder failure occurred. [New content] The purpose of the present invention is to provide a battery connector 'including an insulative housing, and a plurality of terminals are arranged on the insulative housing to accommodate the M318222 slot' to accommodate a first guide snow sheave two-pair respectively One end of the first conductive terminal of the first conductive terminal is formed with a contact portion 'contact portion and protrudes from the front surface of the insulating body to be in contact with the battery contact. At the foremost end of the contact portion and extending outwardly from both sides, a tab is formed, and the other end of the first and second conductive terminals is formed with a solder tail for the tandem on the external circuit board, and the solder tail (four) end A convex edge is formed to protrude outward from both sides, and the welded tail is inclined slightly inward to form a non-vertical surface. Therefore, when the terminal is assembled in the terminal receiving groove, the flange of the solder tail is closely attached to the outer wall of the terminal (4) (4), so that the solder tail of the terminal cannot be trapped in the terminal capacity, thereby avoiding the flatness of the terminal solder tail. The problem caused by poor soldering. [Embodiment] In order to explain in detail the technical contents, structural features, objectives and effects of the present invention, the following is a detailed description with reference to the drawings. Referring to FIG. 2, FIG. 3(A) and FIG. 3(B), the battery connector 100 of the present invention comprises an insulating body, a first conductive terminal 2, a pair of second conductive terminals 3 and a pair of plugs. Grounding shrapnel 4 placed on both sides of the insulating body. The insulative housing 1 has a rectangular structure, and extends from the bottom surface 11 to the upper surface 15 of the insulative housing through the front surface 12 to form terminal receiving slots 13 and 13 for receiving the second and second conductive terminals 2, 3 at the terminals. Fixed slots 16, 16 are provided in the receiving slots 13, 13 at the bottom edge. The first conductive terminal 2 includes a base portion 21, and an elastic portion 23 is bent upwardly at one end of the base portion 21, and a contact portion 22 is further formed at the end of the elastic portion 23, and the front end of the contact portion 22 is opposite to the two ends. A tab 221 is extended on each side of the side. In addition, at the other end of the base portion 21, a solder tail portion 24 is formed which is inclined inwardly. The solder tail portion 24 is inclined at an angle of about 85 degrees with respect to the base portion 21 to form a non-vertical surface at the end of the solder tail portion 24. On both sides, a convex edge 241 is further extended outward. The base portion 21 is further horizontally extended with barbs 25 on both sides of the welding tail portion 24. The second conductive terminal 3 includes a base portion 31, and a pair of side-by-side elastic portions 33 are bent upwardly at one end of the base portion 31, and a pair of contact portions 32 are further formed at the end of the elastic portion 33 at the foremost end of the contact portion 32. A tab 321 is extended to each of the two sides. In addition, at the other end of the base portion 31, there is a solder tail portion 34 which is inclined inwardly. The solder tail portion 34 has an inclination angle of about 85 degrees with respect to the base portion 31, and has a non-vertical surface at the end of the solder tail portion 34. On both sides, a convex edge 341 is further extended outward. The base portion 31 is horizontally extended with barbs 35 on both sides of the solder tail portion 34. The first conductive terminal 2 is located between the pair of second conductive terminals 3, wherein the first conductive terminal 2 and the second conductive terminal 3 are interposed therebetween. A pair of longitudinally extending receiving slots 17 are defined in the bottom surface 11 for receiving the grounding springs 4. The function of the grounding elastic piece 4 is to provide a more secure joint between the battery connector 100 and the external circuit 7 M318222. The grounding elastic piece 4 has a body 41' π" type main body 41 and is convexly disposed at the outer side (4) to achieve interference stability. The protruding portion & and the main body 41 protrudes outwardly outwardly from the other outer side to form a fixing post 43 which can be inserted on an external circuit board (not shown). In combination with the third (4) diagram and the third (8) diagram, the battery connector of the present invention introduces the second conductive terminals 2, 3 from the bottom surface 11 of the insulative housing 1 into the terminal receiving slots 13, 13 for the first, first The bases 2 and 31 of the conductive terminals 2 and 3 are received in the insulating body i to fix the sliding grooves 16 and 16. The inner bar and the barbs on the base portion 31 are clamped to the outer walls of the fixed sliding grooves 16 and 16. So that the first and second conductive terminals 23 are fixed in the terminal receiving grooves 13, 13 of the insulating body ,, so that the elastic portions 23, 33 are received in the terminal accommodating grooves 13, 13, and the contact portion 32 is Floating on the front surface 12 of the insulating body ,, at this time, the contact portions u, μ are front-end tabs 221 321 is abutted against the outer wall of the terminal accommodating grooves 13, 13. The solder tails of the first and second conductive terminals 2, 3 are located slightly above the bottom surface 1 and are received in the terminal receiving slots 13, 13, and the flanges 241, 341 on both sides of the end are The grounding elastic piece 4 is interference-fixed by the convex tooth portion 42 on the inner side of the main body 41 and the receiving groove 17 when the battery connector 1 is soldered to the outer circuit board. The fixing post 43 on the outer side of the main body 41 is inserted on the external circuit board 5, so as to prevent the connector 100 and the circuit board from being loosened when the battery is abutted against the connector a plurality of times. When the conductive terminals 2, 3 are assembled in the terminal accommodating grooves 13, 13, the flanges 241, 341 of the solder tail portions 24, 34 are closely attached to the outer walls of the terminal accommodating grooves 13, 13', so that the solder tails of the terminals 24, 34 can not be trapped in the terminal accommodating grooves 13, 13', thereby avoiding the occurrence of solder failure due to the flatness problem of the terminal solder tails 24, 34. There are other improvements or variations in the creation, if the technology in the art The obviousness of the personnel on the basis of this creation Equivalent changes and improvements should fall within the scope of protection of this creation. [Simplified description of the drawings] The first figure is a perspective view of the battery connector of the present creation. The second figure is an exploded view of the battery connector of the present creation. The three (B) diagram is a perspective view of the combination of the battery connector of the present invention. The fourth diagram is a schematic diagram of the battery connector of the present invention mounted on an external circuit board. [Main component symbol description] [Prior Art] Terminal block Body 10 Conductive terminal 20 accommodating groove 30, 30' Soldering leg 40, 40' Battery connector 50 [This creation] M318222 Insulating body 1 Bottom surface 11 Front surface 12 Terminal receiving groove 13, 13, Rear surface 14 Upper surface 15 fixed Chute 16, 16, receiving groove 17 first conductive terminal 2 second conductive terminal 3 base portion 2 31 contact portion 22 > 32 tab 221, 321 elastic portion 23, 33 solder tail portion 24, 34 flange 241, 341 Thorn 25, 35 Grounding shrapnel 4 Main body 41 Concave toothing 42 Fixing post 43 External circuit board 5 Battery connector 100