M328691 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種電池連接器改良結構、連接器端子模組,以及具有該電 池連接器改良結構或連接器端子模組之行動數位裝置。特別是指一種當電池以 不正常方式插入電池室時,能保護端子免於直接遭受電池撞擊之電池連接器改 良結構、連接器端子模組,以及具有該電池連接器改良結構或連接器端子模組 •之行動數位裝置。 【先前技術】 眾所周知,手機、PDA或其他行動通訊裝置欲更換電池時,需從機殼内的 電池室掏出舊電池,並將新電池置人電池室,電池配合電池室的規格設計,搭 配使用。該電池室内側設置有單排或數排金屬導電端子,各端子得彎撓成各種 形狀,並預留部分端子結構裸露在外。當電池依照正常方式置入電池室後,電 池導電電極與端子外露部分會面對面接觸,因而產生預期導電效果。 然而,在生活實際運用上,使用者更換電池時,往往因為疏忽或不減、操作, 導致電池不正常放人電池室,此時,脆弱_子直接受到電池撞擊和壓迫,端 子,構很容易出現潰縮、變形,甚至短路等_而影響產品功能。為解決此一 =題’如第1圖及第2圖所示,業者積極f試各項端子模擬研究,例如改變端 式、機作舰力方向、施力重量或力臂運動額,又或是縮減端子 =^克服·下鮮。料些改良魏於端子接觸職電池連糾改良結構 的两度限制’設計上無法對端子本身改變太多,是故改善效果不彰。 【新型内容】 二接 5 M328691 若以電池連接器改良結構為例來說明本創作之主要技術,該電池連接器改声妹 ‘構係設置於電子裝置的電池室内,以與電池對應接_產生電轉通 •室周圍形成有防呆機構,引導電池沿特定方向置入電池室。其中,該電=連池 •器改良結構係由-絕緣本體底座、自該絕緣本體底座—體延伸並且平行賢立^ 複數個端子收納槽,以及多個彈性端子所構成,且各端子的至少—部分立係向 外伸出該端子收納槽,該絕緣本體底座於相鄰端子收納槽之間,形成有至少'二 •個與該絕緣本體底座-體成型之L型緩衝件,該L型緩衝件允許受力時定點傾 斜,且迎向電池之成有斜突出之接辆,#電池室内未安置電池時, 該L型緩衝件之接觸頭向外突出的伸長量,大於該彈性端子外露出端子收納槽 •的伸長量,使電池撞擊到電池連接器改良結構時,先撞擊到該接觸頭產生緩衝, 再碰觸端子,因而降低端子承受的電池衝撞力,避免端子毁損。 ▲因此’本創作主要目的在於提供一種避免端子直接承受電池置入電池室時, 撞擊之力道,以防端子受壓毁損之電池連接器改良結構。 本創作另-目的在於提供-種避免端子直接較電池置人電池瞒,撞擊之 力道,以防端子受壓毀損之連接器端子模組。 本創作另-目的在於提供_種避免軒直接錢電池置人電池室時,撞擊之 •力道,以防端子受壓毀損之行動數位裝置。 本創作另-目的在於提供-種當電池不正常放人電池室時,先由絕緣本體底 座提供防呆及緩衝,使端子不會直接遭到電池擠壓,兼能削減端子承受的電池 撞擊力之電池連接器改良結構。 本創作另-目的在於提供—種當電池不正常放人電池室時,先由絕緣本體底 f提供防呆及緩衝,使端子不會直接遭到電池擠壓,兼能削減端子承受的電池 揸擊力之連接器端子模組。 本創作另一目的在於提供一種當電池不正常放入電池室時,先由絕緣本體底 座提供防呆及緩衝,使端子不會直接遭到電池擠壓,兼能削減端子承受的電池 6 M328691 撞擊力之行動數位裝置。 【實施方式】 本創作係揭示-種當電池以不正常 域且有械力學原理與導電端子基本架構之f知技藝,已為相關技術領 ,上!能明瞭者’下文說明不再作完整描述。同時,以下文中所 >代、、之圖式’絲達與本創作槪錢之結構轉 寸完整職,盍先_。 ^ ^χ,/τ'κ 第一實施例 第3®及第4圖為本創作第一實施例之電池連接器改良結構之立體圖以及局 部放大示意圖。如騎示,魏錢接狀良_丨設置於手機、屬、刪、 黑莓機及掌中魏腦等f子裝置的電池室ω内,以搭配適用電池對應接觸而產 生電性導通。該電池室10周圍形成有防呆構造12 (例如:在電池室周圍殼體增 設卡摯片或在電池外殼角端設置凹凸缺口),以引導電池沿特定方向置入電池室 10。參閱第3圖所示,該電池連接器改良結構i係由一絕緣本體底座13、自該 絕緣本體底座13 -觀倾且平行g立的複數_子㈣槽14,以及多個彈性 端子15所構成,且各端子u的至少一部分,係向外伸出該端子收納槽M。其 中,本創作第一實施例之電池連接器改良結構丨,其主要結構在於,該絕緣本體 底座13於相鄰端子收納槽14之間,形成有至少一個與該絕緣本體底座13 一體 成型之L型緩衝件2,且L型緩衝件2迎向電池之一端形成有向外突出之接觸 頭20,當電池室10内未安置電池時,該L型緩衝件2之接觸頭2〇向外突出的 伸長量,明顯大於該彈性端子15外露出端子收納槽14的伸長量。 又,如第5A圖至第5C圖所示,該L型緩衝件2進一步包含有一體形成之 7 M328691 •縱向段^及榼向段22,該縱向段2i係由絕緣本體底座13為基礎向上延伸。 •該L型緩衝件2犬出於絕緣本體底座13的部分,突出高度小於電池厚度,並且, 於距離該絕緣本體底座13近端處,形成有一力矩支點端1如。另一方面,該橫 向段22則自該縱向段21另一相對端橫向延續,並外伸出端子收納槽(未圖示) 而連^該接觸頭2〇。其中,該接觸頭2〇由下往上逐步漸縮,並於最先觸及到電 池的刖端’域有-料該L型緩衝件2往接綱2Q反方向傾斜之阻撞面^, 該阻擋面23可為梯形斜面或圓角切面。該橫向段22向外延續之方向,與電池 置入方向互為相反’而且該橫向段22靠近接綱如之底部,一獅成有向下 1延伸之干^柱24,該干涉柱24的高度小於該縱向段21的縱長。其中,該干涉 柱的门度取决於該松向段22往電池下方前傾之幅度而定,當該橫向段^預 設的前傾幅度愈小,該干涉柱24的高度就愈大。 該L型緩衝件和絕緣本體底座通常藉由射出成型方法一體形成。接續第5a T至第5C圖所不’該L型緩衝件2在材質上需選擇略微有彈性的剛性材料來製 枪紅縣選自雜娜、延展性金屬、紐合金或雜絕緣樹脂。 =处所列之材質外,舉凡任何具有略微彈性之剛性材料,諸如橡勝、硬化 树月曰等,均涵蓋於本創作等效之可實施範圍。 人為力方里L型緩衝件2會以該力矩支點端130的近端為懸臂支點,配 11斜。尤其當電池室ω内未安置電池11時,該l型緩衝件2 出的伸長量,大於該彈性端子15外露出端子收納槽14的伸 背擊將八4里雷到電池連接器改良結構10時’該接觸頭20首當其衝接受電 力_,峨―酬嫩軒15繼電池撞擊 質,升電池導電部位與電池連接器改良結構外露端子的接觸品 兮電tutrrr佳實施態樣亦揭示另一種變化型態。參閱第6圖所示, …15文良、、'〇構(如第3圖電池連接器改良結構!所示)於絕緣本體底 8 M328691 座13遠離電池方向,位於相鄰端子收納槽14之間,自該絕緣本體底座13 —體 形成有一連續或不連續止擋牆131,或是一至數根止擋條131,。該止擋牆或止擋 條131之厚度經過精密計算,可配合縱向段21後傾幅度提供一反向作用力,阻 擋及制止該L型緩衝件2無限制傾斜,如此不僅能控制電池對於彈性端子15的 擠壓距離,也能有效防止端子過度擠壓毁損,或[型緩衝件2過度後傾而造成 縱向段21折斷。 第二實施例: 本創作第二實施例係揭示__種連接器端子模組,該連接器端子模組可與數 位電子產品的電崎應_,以產生雜料。其巾,連接_子模組各部元 =及立體結構均大致同於第__實施例,故本實施例與前述實補重複之處不另 贅述’此處鶴林實施例獨於前述實關之特點,以進―步細 他實施態樣。 八 參照第3圖、第4圖、第5A圖至第5C圖及第6圖所示,該連接器端子 =係由-絕緣本體底座13、自該絕緣本體底座13 一體延伸並且平行暨立_ 數個端子收_ 14,以及多個·端子15所構成,且各端子Μ的至少 3外伸出該端子收納槽14。其中,該絕緣本體底座13於相鄰 槽刀: ^ ;形财至少-健舰緣本體顧13 —體細之L魏衝件2 = ^衝件2允料力收麵斜,錢㈣狀—獅 i I::™"""""— 大於該彈性端子15外_子_ i4= 連接H舒敝m „轉最先淑雜綱M提供 電 池才里擊力道,以削減端子所承受的電池撞擊力。 77政電 第三實施例: 本創作第三實施例係揭示-種具有前述實施例所述之電池連接器改良結 9 M328691 構,或連接器端子模組之行動數位裝置Γ,,該行動數位裝置丨,,包含手機、pda、 MP3、黑莓機及掌巾型電腦等。其巾,該電池連接器改良結構1或連接器端子 模組Γ的各部元件及讀結構均大蘭於第-實關,故本實施顺前述實施 -例重複之處不另贅述,以下僅針對第三實施例不同於前述實施例之處進行說明。 該行動數位裝置1”係由一運算主體、電路板及一機殼體(俱為習知元件,M328691 VIII. New Description: [New Technical Field] This creation is about a battery connector improved structure, a connector terminal module, and an action digital device having the improved structure of the battery connector or the connector terminal module. In particular, it relates to a battery connector improved structure, a connector terminal module capable of protecting a terminal from being directly subjected to battery impact when the battery is inserted into the battery compartment in an abnormal manner, and having the battery connector improved structure or the connector terminal mold Group • Action digital device. [Prior Art] It is well known that when a mobile phone, PDA or other mobile communication device wants to replace the battery, the old battery needs to be taken out from the battery room in the casing, and the new battery is placed in the battery room, and the battery is designed in accordance with the specifications of the battery room. use. The inner side of the battery is provided with a single row or a plurality of rows of metal conductive terminals, and each terminal is bent into various shapes, and a part of the terminal structure is reserved for being exposed. When the battery is placed in the battery compartment in the normal manner, the battery conductive electrode and the exposed portion of the terminal will face each other, resulting in the desired conductive effect. However, in the actual use of life, when the user replaces the battery, it is often caused by inadvertent or unreduced operation, resulting in the battery not being properly placed in the battery compartment. At this time, the fragile _ sub is directly impacted and pressed by the battery, and the terminal and structure are easy. There are collapses, deformations, and even short circuits, which affect product functions. In order to solve this problem, as shown in Figures 1 and 2, the industry actively tests various terminal simulations, such as changing the end type, the machine direction, the weight of the force or the amount of arm movement, or Is to reduce the terminal = ^ overcome · under the fresh. It is expected that the two-way limit of the improved structure of the terminal contact battery is improved. The design cannot change the terminal itself too much, so the improvement effect is not good. [New content] Second connection 5 M328691 If the battery connector is modified as an example to illustrate the main technology of this creation, the battery connector is modified to be installed in the battery compartment of the electronic device to connect with the battery. A foolproof mechanism is formed around the electric conduction chamber to guide the battery into the battery compartment in a specific direction. Wherein, the electric=connected cell device improved structure is composed of an insulative body base, a body extending from the insulative body base, and a parallel plurality of terminal receiving slots, and a plurality of elastic terminals, and at least each of the terminals a part of the vertical system extends outwardly from the terminal receiving groove, and the insulating body is formed between the adjacent terminal receiving grooves, and at least two types of L-shaped cushioning members integrally formed with the insulating body base are formed. The buffer member is allowed to be tilted at a fixed point when the force is applied, and the battery is inclined to protrude from the battery. When the battery is not placed in the battery chamber, the extension of the contact head of the L-shaped cushioning member protrudes outward, which is larger than the elastic terminal. When the extension of the terminal receiving groove is exposed, when the battery hits the improved structure of the battery connector, the contact head is first hit to generate a buffer, and then the terminal is touched, thereby reducing the battery impact force of the terminal and preventing the terminal from being damaged. ▲The main purpose of this creation is to provide a battery connector improved structure that avoids the terminal directly bearing the force of the battery when it is placed in the battery compartment to prevent the terminal from being damaged by pressure. The purpose of this creation is to provide a connector terminal module that avoids direct contact with the battery and the impact of the battery to prevent damage to the terminal. Another purpose of this creation is to provide an action digital device that avoids the impact of the terminal when the battery is placed in the battery compartment. Another purpose of this creation is to provide a kind of anti-dwelling and buffering of the insulating body base when the battery is not properly placed in the battery compartment, so that the terminal is not directly squeezed by the battery, and the battery impact force of the terminal can be reduced. The battery connector has an improved structure. The purpose of this creation is to provide a kind of anti-dwelling and buffering of the bottom of the insulating body when the battery is not properly placed in the battery compartment, so that the terminal is not directly squeezed by the battery, and the battery of the terminal can be reduced. Strike connector terminal module. Another object of the present invention is to provide a foolproof and buffering of the insulating body base when the battery is not properly placed in the battery compartment, so that the terminal is not directly squeezed by the battery, and the battery can be cut by the terminal. The mobile digital device. [Embodiment] This creative system reveals that the basic technology of the battery is in the abnormal domain and has the mechanical mechanics and the basic structure of the conductive terminal, which has been the relevant technology, and can be clearly explained. . At the same time, in the following article, the generation of the figure, the style of the wire, and the structure of the creation of the money are converted into full-time jobs. ^^χ, /τ'κ First Embodiment Figs. 3 and 4 are a perspective view and a partially enlarged schematic view showing a modified structure of the battery connector of the first embodiment. Such as riding the show, Wei Qian connection _ 丨 丨 丨 丨 丨 丨 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机 手机A foolproof structure 12 is formed around the battery compartment 10 (e.g., a card is added to the casing around the battery compartment or a notch is provided at the corner end of the battery casing) to guide the battery into the battery compartment 10 in a specific direction. Referring to FIG. 3, the battery connector improved structure i is composed of an insulative housing base 13, a plurality of sub-four (four) slots 14 that are tilted from the insulative housing base 13 and parallel, and a plurality of elastic terminals 15 The terminal u is protruded outward from at least a part of each terminal u. The battery connector improved structure of the first embodiment of the present invention is mainly configured such that the insulating body base 13 is formed between the adjacent terminal receiving slots 14 and at least one integrally formed with the insulating body base 13 The buffer member 2 is formed, and the L-shaped cushioning member 2 is formed at one end of the battery to form an outwardly protruding contact head 20. When the battery is not disposed in the battery chamber 10, the contact head 2 of the L-shaped cushioning member 2 protrudes outward. The amount of elongation is significantly larger than the amount of elongation of the terminal receiving groove 14 exposed outside the elastic terminal 15. Further, as shown in FIGS. 5A to 5C, the L-shaped cushioning member 2 further includes an integrally formed 7 M328691 • a longitudinal section and a slanting section 22, which is based on the insulating body base 13 upward. extend. • The L-shaped cushioning member 2 is a portion of the insulative housing base 13 that protrudes less than the thickness of the battery, and a torque fulcrum end 1 is formed at a proximal end of the insulating body base 13. On the other hand, the lateral section 22 extends laterally from the other opposite end of the longitudinal section 21, and extends outwardly from the terminal receiving groove (not shown) to connect the contact head 2''. Wherein, the contact head 2 逐步 gradually tapers from bottom to top, and in the first end of the battery, the L-shaped cushioning member 2 is inclined to the opposite direction of the 2Q reverse direction. The blocking surface 23 can be a trapezoidal bevel or a rounded cut. The transverse section 22 extends outwardly in a direction opposite to the direction in which the battery is placed, and the transverse section 22 is adjacent to the bottom of the joint, and a lion has a stem 24 extending downwardly, the interference post 24 The height is less than the length of the longitudinal section 21. Wherein, the degree of the door of the interference column depends on the extent of the forward angle of the loose section 22 toward the bottom of the battery. The smaller the forward tilting amplitude of the horizontal section is, the larger the height of the interference column 24 is. The L-shaped cushioning member and the insulative housing base are generally integrally formed by an injection molding method. Continuing from the 5th to the 5th, the L-shaped cushioning member 2 is selected from a material having a slightly elastic material to be used in the manufacture of Gunhong County, which is selected from vana, ductile metal, neo-alloy or hetero-insulating resin. In addition to the materials listed at the table, any rigid material with a slight elasticity, such as rubber, hardened tree, etc., is covered by the scope of this creation equivalent. In the artificial force, the L-shaped cushioning member 2 will be the cantilever fulcrum with the proximal end of the torque fulcrum end 130, and the elbow is inclined. In particular, when the battery 11 is not disposed in the battery chamber ω, the elongation of the l-type cushioning member 2 is greater than that of the elastic terminal 15 and the extension of the terminal receiving groove 14 is extended by 8 to 4 lei to the battery connector improved structure 10 When the contact head 20 first received the power _, 峨 酬 嫩 轩 15 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继 继state. Referring to Figure 6, ... 15 Wenliang, '〇 structure (as shown in Figure 3, battery connector improved structure!) on the bottom of the insulating body 8 M328691 seat 13 away from the battery, located between the adjacent terminal receiving slots 14 A continuous or discontinuous stop wall 131 or one to several stop bars 131 are formed from the insulating body base 13 . The thickness of the retaining wall or the stop strip 131 is precisely calculated to provide a reverse force in conjunction with the back-tilt width of the longitudinal section 21 to block and prevent the L-shaped cushioning member 2 from tilting unrestricted, thus not only controlling the battery for elasticity The pressing distance of the terminal 15 can also effectively prevent the terminal from being excessively crushed and damaged, or [the type cushioning member 2 is excessively reclined to cause the longitudinal section 21 to be broken. Second Embodiment: The second embodiment of the present invention discloses a connector terminal module which can be used with a digital electronic product to generate a miscellaneous material. The towel, the connection_sub-module, and the three-dimensional structure are substantially the same as the first embodiment. Therefore, the present embodiment and the above-mentioned actual repetitions are not described separately. Here, the Helin embodiment is independent of the above-mentioned reality. The characteristics of it, in order to step into the details of his implementation. 8 Referring to FIG. 3, FIG. 4, FIG. 5A to FIG. 5C and FIG. 6, the connector terminal = is integrally extended from the insulating body base 13 and paralleled by the insulating body base 13 A plurality of terminals are connected to each other, and a plurality of terminals 15 are formed, and at least three of the respective terminal turns protrude from the terminal housing groove 14. Wherein, the insulating body base 13 is adjacent to the slot cutter: ^; shape wealth at least - Jian ship edge body Gu 13 - body fine L Wei Chong 2 = ^ punch 2 allow material to close the slope, money (four) shape - Lion i I::TM"""""- is greater than the elastic terminal 15 outside _子_ i4= connection H Shu 敝m „ turn the first syllabus M to provide the battery in the force to cut The battery impact force that the terminal is subjected to. 77. The third embodiment of the present invention: The third embodiment of the present invention discloses an action of the battery connector improved junction 9 M328691 structure or the connector terminal module described in the foregoing embodiment. The digital device, the mobile digital device, includes a mobile phone, a pda, an MP3, a BlackBerry, a palm-sized computer, etc. The towel, the battery connector improves the structure 1 or the components of the connector terminal module and reads The structure is greater than the first-real relationship, so the implementation is not described in detail in the above-mentioned embodiments - the examples are repeated, and only the third embodiment is different from the foregoing embodiment. The mobile digital device 1" is composed of An arithmetic body, a circuit board, and a casing (all of which are conventional components,
故此處未圖不)共同構成。該行動數位裝置丨,,於機殼體上形成有一提供電池U _安置之電池室1G,該電池室1G關形成有引導電池n沿特定方向置入電池室 ,10之防呆機構12,該電池室10 _形成有至少一排連接器端子模組i,,以與 鲁電池11對應接觸導電。如第3圖至第6圖所示,該連接器端子模組i,係由一絕 緣本體底座13、自該絕緣本體底座13 一體延伸並且平行g立的複數個端子收納 槽14,以及多個彈性端子15所構成,且該端子15之至少一部分向外伸出該端 子收納槽14。其中,如第4圖所示,該絕緣本體底座13於相鄰端子收納槽14 之間,形成有至少一個與該絕緣本體底座13 一體成型之L型緩衝件2,該乙型 $衝件2允許劲時定點傾斜,且迎向電池之_端形财向外突出之細頭2〇, :電池至ίο内未安置電池n時,該L型緩衝件2之接觸頭π向外突出的伸長 篁,明顯大於該彈性端子15外露出端子收納槽14的伸長量,使電池^撞擊到 該連接器端子模組1,時,先觸及該接觸頭2〇提供緩衝,以削減各彈性端子^ ,所承受的電池撞擊力。 以上所述僅為本創作之較佳實施例,並非用以限定本創作之權利範圍;同 時以上的描述,對於熟知本技術領域之專門人士應可明瞭及實施,因此其他未 脫離本創作觸示之精神τ所完成畴效改魏修飾,均聽 專利範圍中。 【圖式簡單說明】 第1圖為-剖面示意圖,係表示習知電池連接器改良結構遭受電池壓迫前 M328691 後,端子引導角變形之比較。 部放lit—立麵,絲林鑛第-實細之祕連接11料結構及其局 祕立體圖,係表林辦第—實施例之電池連接驗良結構中,該 、、、、、 -上及一體成型於該絕緣本體底座上之L·型緩衝件。 μ Α〜第5C圖為—剖面作動示意圖,係表示本創作第—實施例 減良結構中,該L型緩衝件受電池外力撞擊而前後傾斜的作動方式/接 %第6圖為—立體局部剖面圖,係表示本創作電池連接器改良結構^另 【主要元件符號說明】 電池連接器改良結構 i 連接器端子模組 1, 行動數位裝置1” 電池 11 電池室 10 防呆構造 12 絕緣本體底座13 力矩支點端 130 止擋牆131 止擋柱13Γ 端子收納槽14 彈性端子15 L型緩衝件2 11 M328691 接觸頭20 縱向段21 橫向段22 阻擋面 23 干涉柱24Therefore, it is not shown here. The operation digital device 丨, a battery compartment 1G for providing a battery U_ is disposed on the casing, and the battery compartment 1G is formed with a warning device 12 for guiding the battery n to be inserted into the battery compartment in a specific direction. The battery compartment 10_ is formed with at least one row of connector terminal modules i for conducting electrical contact with the corresponding contacts of the Lu battery 11. As shown in FIG. 3 to FIG. 6 , the connector terminal module i is composed of an insulative housing base 13 , a plurality of terminal receiving slots 14 extending integrally from the insulative housing base 13 and parallel to each other, and a plurality of terminal storage slots 14 The elastic terminal 15 is formed, and at least a part of the terminal 15 protrudes outward from the terminal receiving groove 14. As shown in FIG. 4, the insulative housing base 13 is formed between the adjacent terminal receiving slots 14 and has at least one L-shaped cushioning member 2 integrally formed with the insulative housing base 13, and the B-shaped stamping member 2 When the force is allowed to be fixed, the tilting is fixed, and the thin head of the battery is protruded toward the outer end of the battery. 2: When the battery is not placed in the battery ί, the contact head of the L-shaped cushioning member 2 protrudes outwardly.篁, obviously greater than the elongation of the terminal receiving groove 14 exposed outside the elastic terminal 15, so that when the battery hits the connector terminal module 1, the first contact with the contact head 2 〇 provides buffering to reduce the elastic terminals ^, The battery impact that it is subjected to. The above description is only the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention; the above description should be understood and implemented by those skilled in the art, so that the other does not deviate from the creation touch. The spirit of the τ completes the domain effect and the Wei modification, all of which are in the scope of patents. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view showing a comparison of the terminal lead angle deformation after the modified structure of the conventional battery connector is subjected to the M328691 before the battery is pressed. Part of the lit-facade, the secret of the first-order structure of the silk-line mine, and the secret structure of the bureau, and the secret connection structure of the battery-connected structure of the table--the embodiment, the,,,,, And an L-type cushioning member integrally formed on the base of the insulating body. μ Α ~ 5C is a schematic diagram of the cross-section actuation, which is shown in the first embodiment of the present invention. The L-shaped cushioning member is impacted by the external force of the battery and tilted forward and backward. The sixth figure is a three-dimensional part. The sectional view shows the improved structure of the battery connector of the present invention. [The main component symbol description] The battery connector improved structure i The connector terminal module 1, the mobile digital device 1" Battery 11 Battery chamber 10 The foolproof structure 12 The insulating body base 13 Torque fulcrum end 130 Stop wall 131 Stop post 13Γ Terminal receiving groove 14 Elastic terminal 15 L-shaped cushioning member 2 11 M328691 Contact head 20 Longitudinal section 21 Transverse section 22 Blocking surface 23 Interference column 24