M314437 八、新型說明: 【新型所屬之技術領域】 本創作涉及-種電池連接n,尤其涉及—種行動電話使用的 電池連接器。 【先如技術】 按,傳統的電池連接器中,例如大陸專利第02251929.7號所 揭露之電池連接H,包括絕緣座體,絕緣座體之端子收容槽以及 複數個導電辭’複數導電軒絲祕緣麵之軒收容槽中。 惟,當上述電池連接器與電池連接使用時,其導電端子接觸 部在電池讎下使整辦電軒產生變形,如果電池絲角度不 正確’使端子_量過大導致端子容祕細印刷電路板,造成 電路故障,同時也有可能因爲端子變形量過大錢端子失去彈 性,甚至因損壞而無法彈回。 【新型内容】 本創作之目的針對上述習知不足而提供了-種能夠避免上述 後果的電池連接器。 為達成上述目的’本創作所提供的電池連接器包括··絕緣座 體該絕緣座體包括_底板,底板兩侧及後端分別向上延伸形成 兩侧板及後壁,至小— 板女置於兩侧板之間並與底板、後壁相 連隔板將兩側板之間的空腔分割成複數端子收容槽 ,·及複數導 M314437 電端子’轉導電軒收容於絕緣鋪之減端子收容槽,其具 有向如伸出絕緣座體而與相應印刷電路板焊接之焊接部及一向 上伸出絕緣座體而與電池電性連接之接觸部;其特徵是:該絕緣 座體别端裝财—喊塊,該阻魏位於導電端子之接觸部前侧 而止擋其向前移動。 如上所述,當電池與本創作電池連接器組裝時,電池擠壓導 電端子之接觸部,接觸部向阻擋塊移動,並擠壓阻擋塊,直到電 池安裝完畢。藉此,即使電池安裝之角度不正確,導電端子之接 觸邛亦不會因過分擠壓而移動過大接觸到印刷電路板,從而造成 電路故障或使導電端子失去彈性而無法彈回之後果 ,俾可防止導 電端子彎曲量過大之效果者。並通過阻擋塊對接觸部之反作用力 使電池與導電端子之接觸更牢固。 【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 政,以下茲舉例並配合圖式詳予說明。 請參閱第一圖及第二圖,本創作電池連接器1包括阻擋塊10、 複數導電端子20、絕緣座體30以及外殼40。外殼40鑲嵌於絕緣 座體30表面保護絕緣座體3〇,複數導電端子2〇收容於絕緣座體 30中,阻擋塊10卡持於絕緣座體3〇面向印刷電路板(圖未示)一 側上端,亦即導電端子2〇的前方。 M31443 7 -月參閲第二圖’阻擋塊10大致呈橫向延伸之長方體狀,具有 頂面11、後端面12及兩側面19。頂面_後端面^之間通過一 ⑽© 13連接為—體’該弧形面13上等間距開設向後且向上貫 穿之複數第-缺口 14,該等第—缺口 14具有縱向延伸之底壁 141〜亥紐141後端連接有—傾斜向下延伸之第—引導面&兩 側面19下側分別向外凸伸形成一凸塊16,該凸塊16頂面後端亦 癱形成一傾斜向下之第一引導面15,該凸塊16下側向外凸伸形成一 卡持塊17,該卡持塊17外侧面後端形成一傾斜延伸至後端面a 之第二引導面18,後端面12底部經切割亦形成—傾斜之第一引導 面15。 請參閱第四圖,導電端子20包括基部2卜連接部23,用於 與印刷電路板焊接的焊接部22、用於與電池(圖未示)電性連接的 接觸部24。基部21 —端寬度逐漸增大並延伸形成卡持板211,卡 • 持板211前端中間向下彎折延伸形成焊接部22。基部21後端向上 %曲形成弟一彎弧231 ’第一彎弧231末端向前延伸形成第一連接 臂232,該第一連接臂232向上彎曲形成第二彎弧233,第二彎弧 233末端向後上方延伸形成第二連接臂234,第二連接臂234向上 彎曲形成第三彎弧235與接觸部24之第一彈臂241連接,第一彈 臂241斜向上延伸並向下彎曲形成接觸面242,接觸面242向下延 伸出第二彈臂243,第二彈臂243頂端向内彎折形成寬度較大之止 M314437 頂板244。 請參閱第五圖,絕緣座體30由一對侧板31、底板32、後壁 33與複數隔板34構成其主體結構。底板32兩側與後端分別向上 延伸形成兩侧板31與後壁33。至少有一塊隔板34安置於兩側板 31之間並與底壁32、後壁33相連。該等隔板34將絕緣座體3〇 中部之空腔分割成大小相同之複數端子收容槽35,每個端子收容 槽35底端如侧向兩侧延伸形成狹槽351,狹槽351寬度剛好容下 導電^&子20之卡持板211。兩個侧板31頂端分別向内侧延伸形成 播壁311 ’該播壁311前端面與底面相連接處經切割形成第三引導 面313於該擋壁311下侧,兩個侧板31之内側面與前端面相連接 處經切割形成第四引導面314。侧板31内侧面後側於靠近擋壁311 處開設有一縱向延伸之卡持槽312。在該等隔板34前端面靠近其 頂部處分別開設有等大小之第二缺口 34卜從而使得第二缺 口 341 頂。卩形成犬出塊342,該第二缺口 341之頂壁和底壁亦分別通過一 傾斜之第三引導面313連接至前端面。 ^a $圖及苐二圖至第五圖,於本創作電池連接器1組 破時,複數導電端子20收容於相應端子收容槽35内,並藉由卡 持片211卡持於狹槽351内而得以固定,浑接部^沿底板^之 前端面向下延伸以焊接於對應之印刷電路板(圖未示)上,接觸 # 24暴露於絕緣座體3〇上方,以與電池(圖未示)電性連接。 8 M314437 阻擂塊10通過第一導引面I5和絕緣座體30之第三引導面313相 互配合引導而插入於所賴緣座體3G第二缺口 341,此時絕緣座 體30之突出塊342插設於阻擋塊10之相應第—缺口 14處,同時 藉由阻擂塊1G之卡持塊17之第二引導面18和絕緣座體%之第 四引導面3M相互配合引導’而使得所述卡持* 1〇向後插設並卡 持於絕緣座體30之相應卡持槽312内,阻播塊⑴之凸塊16貼緊 於絕緣座體30側板31之内壁及側板頂部擋壁311,藉此,阻擒塊 1〇穩固卡持於絕緣座體30前端。外殼4〇包覆於絕緣座體3〇之侧 板31及後壁33。 當電池(圖未示)與本創作之電池連接器丨組裝時,電池(圖 未不)擠壓導電端子20之接觸面242,接觸面242帶動整個接觸 部24向下且向阻擔塊10移動,直到接觸部24之第二彈臂如擠 壓阻擋塊10之弧形面13,同時電池(圖未示)安裝完畢,如此, 即使電池(圖未示)安裝之角度不正確,導電端子2〇之接觸部% 亦不會因過分擠壓而移動過大接觸到印刷電路板(圖未示),從而 造成電路故障或使導電端子20失去彈性而無法彈回之後果,俾可 防止導電端子彎曲量過大之效果者。此外,通過阻擋塊1〇對第二 彈臂243之反作用力使電池(圖未示)與導電端子2〇接觸更牢固。 【圖式簡單說明】 第一圖係本創作電池連接器之的立體圖。 M314437 第二圖係本創作電池連接器之的立體分解圖。 第三圖係本創作電池連接器之阻擋塊的立體圖。 第四圖係本創作電池連接器之導電端子的立體圖。 第五圖係本創作電池連接器之絕緣座體的立體圖。 【主要元件符號說明】 電池連接器 導電端子 外殼 後端面 第一缺口 第一引導面 第二引導面 基部 凸耳 連接部 第一連接臂 第二連接臂 接觸部 阻擋塊 10 絕緣座體 30 頂面 11 弧形面 13 底壁 141 卡持塊 17 側面 19 卡持板 211 焊接部 22 第一彎弧 231 第二彎弧 233 第三彎弧 235 第一彈臂 241 1 20 40 12 14 16 18 21 212 23 232 234 24 接觸面 242 第二彈臂 243 止頂片 244 側板 31 M314437 播壁 311 卡持槽 312 第三引導面 313 第四引導面 314 底板 32 後壁 33 隔板 34 第二缺口 341 突出塊 342 端子收容槽 35 狹槽 351 11M314437 VIII. New description: [New technical field] This creation involves a kind of battery connection n, especially related to the battery connector used in mobile phones. [First as technology] According to the conventional battery connector, for example, the battery connection H disclosed in the Japanese Patent No. 02251929.7 includes an insulating base, a terminal receiving groove of the insulating base, and a plurality of conductive words. The edge of the porch is in the storage trough. However, when the battery connector is connected to the battery, the contact portion of the conductive terminal is deformed under the battery cymbal, and if the angle of the battery wire is incorrect, the terminal _ is too large to cause the terminal to be fine printed circuit board. , causing circuit failure, but also because the terminal deformation amount is too large, the terminal loses its elasticity, and even cannot be bounced due to damage. [New Content] The purpose of this creation is to provide a battery connector capable of avoiding the above-mentioned consequences in view of the above-mentioned deficiencies. In order to achieve the above objectives, the battery connector provided by the present invention includes: an insulating seat body. The insulating seat body includes a bottom plate, and the two sides and the rear end of the bottom plate respectively extend upward to form two side plates and a rear wall, to a small-plate female The partition between the two side plates and the bottom plate and the rear wall divides the cavity between the two side plates into a plurality of terminal receiving slots, and the plurality of M314437 electrical terminals are transferred to the insulating terminal to receive the terminal receiving slots. The utility model has a soldering portion welded to the corresponding printed circuit board, such as a soldering portion, and a contact portion extending upwardly from the battery to be electrically connected to the battery; and the insulating seat is mounted at the end - Shouting the block, which is located on the front side of the contact portion of the conductive terminal and stops it from moving forward. As described above, when the battery is assembled with the present battery connector, the battery squeezes the contact portion of the conductive terminal, the contact portion moves toward the blocking block, and the blocking block is pressed until the battery is mounted. Therefore, even if the angle of the battery installation is not correct, the contact 邛 of the conductive terminal does not move too much to contact the printed circuit board due to excessive squeezing, thereby causing a circuit failure or causing the conductive terminal to lose its elasticity and cannot be bounced back. It can prevent the effect of excessive bending of the conductive terminals. And the contact between the battery and the conductive terminal is made stronger by the reaction force of the blocking block on the contact portion. [Embodiment] In order to explain in detail the technical contents, structural features, objectives, and functions of the present invention, the following is a detailed description of the drawings. Referring to the first and second figures, the inventive battery connector 1 includes a blocking block 10, a plurality of conductive terminals 20, an insulating base 30, and a housing 40. The outer casing 40 is mounted on the surface of the insulating base 30 to protect the insulating base 3, and the plurality of conductive terminals 2 are received in the insulating base 30. The blocking block 10 is held on the insulating base 3 to face the printed circuit board (not shown). The upper side of the side, that is, the front of the conductive terminal 2〇. M31443 7-Month Referring to the second figure, the blocking block 10 has a rectangular parallelepiped shape extending substantially in the lateral direction, and has a top surface 11, a rear end surface 12 and two side surfaces 19. The top surface _ rear end surface ^ is connected by a (10) © 13 as a body. The curved surface 13 is equally spaced apart to open a plurality of first-notch portions 14 extending rearwardly and upwardly. The first-shaped notches 14 have a longitudinally extending bottom wall. The rear end of the 141~Hui 141 is connected with a slanting downwardly extending guide surface and a lower side of the two side surfaces 19 respectively protruding outwardly to form a projection 16 which also forms a slope at the rear end of the top surface of the projection 16 a lower guiding surface 15 is formed on the lower side of the protruding portion 16 to form a holding block 17 . The rear end of the outer side of the holding block 17 forms a second guiding surface 18 extending obliquely to the rear end surface a. The bottom portion of the rear end surface 12 is also cut to form a slanted first guiding surface 15. Referring to the fourth figure, the conductive terminal 20 includes a base portion 2, a connecting portion 23, a solder portion 22 for soldering to the printed circuit board, and a contact portion 24 for electrically connecting to a battery (not shown). The base portion 21 has a width gradually increasing and extending to form a holding plate 211, and the front end of the holding plate 211 is bent downward to form a welded portion 22. The rear end of the base portion 21 is bent upward to form a curved arc 231. The end of the first curved arc 231 extends forward to form a first connecting arm 232. The first connecting arm 232 is bent upward to form a second curved arc 233, and the second curved arc 233 The second connecting arm 234 is formed to extend rearward and upward to form a second connecting arm 234. The second connecting arm 234 is bent upward to form a third bending 235. The first elastic arm 241 is connected to the first elastic arm 241 of the contact portion 24, and the first elastic arm 241 extends obliquely upward and is bent downward to form a contact. The surface 242, the contact surface 242 extends downwardly from the second elastic arm 243, and the top end of the second elastic arm 243 is bent inward to form a top plate 244 having a larger width. Referring to the fifth drawing, the insulating base 30 is constituted by a pair of side plates 31, a bottom plate 32, a rear wall 33 and a plurality of partition plates 34. The two sides and the rear end of the bottom plate 32 respectively extend upward to form side plates 31 and rear walls 33. At least one partition 34 is disposed between the side plates 31 and connected to the bottom wall 32 and the rear wall 33. The partitions 34 divide the cavity in the middle of the insulating base 3 into a plurality of terminal receiving slots 35 of the same size. The bottom ends of each of the terminal receiving slots 35 extend laterally on both sides to form a slot 351. The slot 351 has a width just right. The holding plate 211 of the conductive ^& The top ends of the two side plates 31 extend inwardly to form a sowing wall 311. The front end surface of the wall 311 is cut to form a third guiding surface 313 on the lower side of the blocking wall 311, and the inner side of the two side plates 31. A fourth guiding surface 314 is formed by cutting at the junction with the front end face. A rearwardly extending retaining groove 312 is defined in the inner side of the inner side of the side panel 31 adjacent to the retaining wall 311. A second notch 34 of equal size is respectively opened at the front end surface of the partition plate 34 near the top thereof so that the second notch 341 is topped. The dog is formed into a block 342, and the top and bottom walls of the second notch 341 are also connected to the front end face by a slanted third guiding surface 313, respectively. In the case of the battery connector 1 of the present invention, the plurality of conductive terminals 20 are received in the corresponding terminal receiving slots 35, and are held in the slots 351 by the holding pieces 211. The inner portion is fixed, and the splicing portion is extended downward along the front end surface of the bottom plate to be soldered to the corresponding printed circuit board (not shown), and the contact #24 is exposed above the insulating base 3〇 to the battery (Fig. Show) electrical connection. 8 M314437 The block 10 is inserted into the second notch 341 of the flange body 3G by the first guiding surface I5 and the third guiding surface 313 of the insulating seat 30, and the protruding block of the insulating body 30 at this time The 342 is inserted into the corresponding first notch 14 of the blocking block 10, and at the same time, the second guiding surface 18 of the holding block 17 of the blocking block 1G and the fourth guiding surface 3M of the insulating housing % cooperate with each other. The latches 1 〇 are inserted backwards and held in the corresponding retaining slots 312 of the insulating base 30, and the bumps 16 of the blocking block (1) are in close contact with the inner wall of the side panel 31 of the insulating base 30 and the top retaining wall of the side panel 311, whereby the blocking block 1 is firmly held at the front end of the insulating base 30. The outer casing 4 is covered on the side plate 31 and the rear wall 33 of the insulating base 3〇. When the battery (not shown) is assembled with the battery connector of the present invention, the battery (not shown) squeezes the contact surface 242 of the conductive terminal 20, and the contact surface 242 drives the entire contact portion 24 downward and toward the resist block 10. Move until the second elastic arm of the contact portion 24 presses the curved surface 13 of the blocking block 10, and the battery (not shown) is installed, so that even if the angle of installation of the battery (not shown) is incorrect, the conductive terminal 2% of the contact portion % does not move excessively to the printed circuit board (not shown) due to excessive extrusion, thereby causing a circuit failure or causing the conductive terminal 20 to lose its elasticity and cannot be bounced back, thereby preventing the conductive terminal The effect of excessive bending is large. Further, the battery (not shown) is brought into firm contact with the conductive terminal 2 by the reaction force of the blocking block 1 〇 against the second elastic arm 243. [Simple diagram of the diagram] The first diagram is a perspective view of the battery connector of the present invention. M314437 The second figure is an exploded view of the battery connector of the present invention. The third figure is a perspective view of the barrier block of the present battery connector. The fourth figure is a perspective view of the conductive terminals of the present battery connector. The fifth figure is a perspective view of the insulating seat of the battery connector of the present invention. [Main component symbol description] Battery connector Conductive terminal housing Rear end face First notch First guiding surface Second guiding surface Base lug connecting portion First connecting arm Second connecting arm Contact blocking block 10 Insulating housing 30 Top surface 11 Curved surface 13 bottom wall 141 holding block 17 side 19 holding plate 211 welded portion 22 first curved arc 231 second curved arc 233 third curved arc 235 first elastic arm 241 1 20 40 12 14 16 18 21 212 23 232 234 24 contact surface 242 second elastic arm 243 stop top plate 244 side plate 31 M314437 broadcast wall 311 holding groove 312 third guiding surface 313 fourth guiding surface 314 bottom plate 32 rear wall 33 partition plate 34 second notch 341 protruding block 342 Terminal receiving groove 35 slot 351 11