料09549 五、新型說明: 【新型所屬之技術領域】 本新型是有關於一種電池卡合模組及其電子裝置。 【先前技術】 、隨著科技進步及現代生活資訊繁多,人們在此數位時 代對於資訊的需求與擷取過濾效率也益發重視。緣此,各 鲁項行動通訊及資料處理所需之可攜式電子裝置與設備於焉 產生,以提供人們更便捷與符合需求的使用方式。其中, 膝上型/筆記型電腦為桌上型/家用電腦之延伸,其為;^認促 ,電子商務之科技產物之一,並且具有輕量化、薄型化、 尚可攜度及低輻射性等諸多特性與研發趨勢。因此,為達 成前述技術減與實現,各廠商無不㈣所能_ .低 生產成本及消費者購買成本之各項相關配件及零組件,並 且期許透過各項成本之降低與品質之提昇,以主導市場價 格、消費者偏好以及品牌忠誠度。 冑纟針對筆5己型電腦之電池而言,使用電池以提供 電力為^接具有變壓器之電源線之外的另一選擇,而人們 可藉此享受到更無限制的使用便利性。其中,一般筆記型 電腦主體與其相對應電池之連接方式不一而足,例如扣 式、滑軌式、卡拴式以及樞接式等,並且前述相對應電池 之尺寸與外型往往因電腦款式及其電池容置處而有多種變 化與設計。以卡栓式之連接方式為例,目前電腦主體用以 固定電池的卡栓一般需要設計左卡拴、右卡拾及卡勾等三 套以上之模具,並不利於降低零件成本及組裝工時。 4 【新型内容】 雷習知技術之問題’本創作之-技術樣態是-種 m模組’其主要是將卡栓與卡扣結構直接一體成 、電子裝置之殼體(例如,筆記型電腦之D件下蓋 是單純滑動面的設計,改為有卡扣固定的結構,進 3一^成型的卡拴與卡扣結構能夠直接組裝至殼體。本 =:勾還進一步設計成具有懸臂的結構,使得本創作 ^電,卡合餘容易組裝。並且,藉由具錢臂的卡勾结 構’在崎至殼體時還具有Μ脫落的優點。 ' 子努3本創#料方式,—種電池卡合模組應用於電 電子裝置具有㈣。電池卡合模組用以將= 槽内。彀體具有滑槽 緣_;=具有至少—卡栓孔1池卡合模組包含有卡拾Ϊ 一卡扣結構、第二擋止部以及 弟 :合:::;移卡:結構。滑動塊可滑槽 二=:移放位置間。滑動塊包 =,卡合部突_===: =緣笛第:卡2構設置於滑槽中並與第-擔止二 殼體內』:ΐ止,置於殼體内側。第-卡扣結構穿入 ^ ^止部相互卡扣。彈性體連接滑動塊。當卡 2卡合位置移動至釋放位㈣,彈性體儲存彈性位能。 二卡拾藉由彈性位能而自釋放位置移動至卡合位置時,卡 合部卡合於電池之至少一卡拾孔。 5 M409549 本創作之另一技術樣態是一種電子裝置。 根據本創作另一實施方式,一種電子裝置包含殼體、 電池、卡拴、第二卡扣結構、第二擋止部以及彈性體。殼 體具有電池槽與滑槽。滑槽位於電池槽邊緣β電池用以卡 k ,至電池槽内。電池具有至少一卡拴孔。卡拴包含滑動塊、 «第一卡扣結構以及卡合部。滑動塊可滑動地設置於滑槽 中,以使卡拴可移動於卡合位置與釋放位置間,且滑動塊 匕S第擋止部。弟扣結構包含第一懸臂以及第___ # 第一懸臂設置於滑動塊邊緣。第一卡勾設置於第一懸 ί之末端。卡合部連接滑動塊,且當卡拴位於卡合位置時, 2 口。Ρ大出至電池槽中。第二卡扣結構包含限位部、第二 懸=以及第二卡勾。限位部設置於滑槽邊緣。第二懸臂之 f端,接限位部並延伸至滑槽中。第二卡勾設置於第二懸 摩末端,用以卡扣第一擋止部。第二檔止部設置於殼體内 ^第懸I穿入滅體内時,第一卡勾用以卡扣第二擔止 部。彈性體連接該滑動塊。當卡拴由卡合位置移動至釋放 _位置時’彈性體儲存彈性位能。當卡拴藉由彈性位能而自 .釋放位置移動至卡合位置時,卡合部卡合於電池之至少一 卡拾孔。 【實施方式】 =以下將以圖式揭露本創作之複數個實施方式,為明確 說月起見’許多貫務上的細節將在以下敛述中一併說明。 ’、:,’a應瞭解到’這些實務上的細節不應用卩限制本創作。 也就疋說在本創作部分實施方式中’這些實務上的細節 6 M409549 是非必要的。此外,為簡化圖式起見,一些習知慣用的結 構與元件在圖式中將以簡單示意的方式繪示之。 本創作之一技術態樣是一種電子裝置。更具體地說, 其主要是將卡拴與卡扣結構直接一體成型,並將電子裝置 " 之殼體原本只是早純滑動面的設計*改為有卡扣固定的結 ,構,進而讓一體成型的卡拴與卡扣結構能夠直接組裝至殼 體。本創作之卡勾還進一步設計成具有懸臂的結構,使得 本創作之電池卡合模組容易組裝。 φ 請參照第1圖,其為繪示依照本創作一實施方式之電 子裝置1的立體視圖,其中電池16尚未安裝於電池槽100a 中〇 如第1圖所示,應用本創作之電池卡合模組的電子裝 置1可以是可攜式電腦裝置(例如,筆記型電腦、平板電腦... 等)或是手持式電子裝置(例如,數位相機、數位攝影機、 手機…等),但並不以此為限。換言之,應用本創作之電池 卡合模組的電子裝置1可以是任何需要外接電池之電子產 I品,只要在其殼體上有需要對外接之電池進行卡合或拆卸 需求的電子裝置,皆可應用本創作之概念輕易地使電子裝 置之殼體與電池進行卡合或拆卸的動作。舉例來說,若電 子裝置為筆記型電腦,則殼體可以是筆記型電腦的D件下 蓋。 如第1圖所示,於本實施方式之電子裝置1中,電子 裝置1之殼體10可包含有電池槽l〇〇a,殼體10之電池槽 100a可用來容納電池16。本實施方式之電池卡合模組主要 是藉由設置於電池槽l〇〇a兩側之卡拴12與卡拴14將電池 7 M409549 16卡合至電子裝置1之殼體1〇〇相對地,電池16上設置 有分別對應卡拾12與卡拴14之卡拴孔160a、160b,用以 分別供卡栓12與卡拴14卡合。以下將詳細介紹本實施方 式之電池卡合模組的各部位結構與功能。 ‘請參照第2圖’其為繪示第1圖中之殼體1〇外側靠近 左侧滑槽102的局部放大圖。 如第2圖所示,於本實施方式之電子裝置1中,滑槽 102位於殼體1〇之電池槽i〇〇a的邊緣。本創作之電池卡 φ合模組可進一步包含第二卡扣結輪1〇4。具體而言,殼體 10之滑槽102設置於殼體10外侧,亦即與電池槽l〇〇a位 於殼體10的同一側。電池卡合模組之第二卡扣結構104可 設置於滑槽102中。進一步來說,電池卡合模組之第二卡 扣結構104可進一步包含有限位部i〇4a、第二懸臂l〇4b 以及第二卡勾1 〇4c。第二卡扣結構1 〇4之限位部1 〇4a可設 置於滑槽102邊緣。第二卡扣結構1〇4之第二懸臂l〇4b的 一端可連接限位部l〇4a並延伸至滑槽1〇2中。第二卡扣結 鲁構1〇4之第二卡勾10如可設置於第二懸臂1〇仆末端。 請參照第3A圖、第3B圖、第3C圖以及第4圖。第 3A圖為繪示第1圖中之左侧卡拴12的立體視圖。第3B圖 為繪示第3A圖中之卡拴12的另一立體視圖。第3c圖為 繪示第3B圖中之卡拴12的側視圖。第4圖為繪示第1圖 中之殼體10内侧靠近左侧滑槽1〇2的局部放大圖。 如第3A圖、第3B圖、第3C圖以及第4圖所示,於 本實施方式之電子裝置1中,電池卡合模組可進一步包含 有卡拾12以及第二擋止部1〇6。電池卡合模組之第二擋止 8 M409549 部106可設置於殼體10内侧。電池卡合模組之卡拴12可 進一步包含有滑動塊120以及第一卡扣結構122。於實際 製造過程中,卡拴12之滑動塊120與第一卡扣結構122可 以透過塑料射出成型的方式一體成型製造。卡拴12之滑動 塊120可滑動地設置於殼體10之滑槽102中,以使卡拴 12可移動於卡合位置與釋放位置間。其中,第1圖中之卡 拴12即位於卡合位置。卡拴12之滑動塊120可包含有第 一擋止部120a。卡拴12之第一卡扣結構122可設置於滑 動塊120邊緣。進一步來說,卡拴12之第一卡扣結構122 可進一步包含有第一懸臂122a以及第一卡勾122b。第一 卡扣結構122之第一懸臂122a可設置於滑動塊120邊緣。 第一卡扣結構122之第一卡勾122b可設置於第一懸臂122a 末端。並且,於本實施方式中,由侧面來看,滑動塊120 與第一懸臂122a可形成U字型外型,如第3C圖所示。因 此,若要將電池卡合模組之卡拴12組裝至殼體10之滑槽 102中,可先以第一卡扣結構122之第一懸臂122a傾斜地 穿入殼體10,使卡拴12之滑動塊120滑動於殼體10之滑 槽102,再使第一卡扣結構122之第一卡勾122b與第二擂 止部106相互卡扣,並使第二卡扣結構104之第二卡勾104c 與滑動塊120之第一擋止部120a相互卡扣,即可完成將電 池卡合模組之卡拴12組裝至殼體10之滑槽102的動作。 藉由第一卡扣結構122之第一卡勾122b與第二擋止部106 之卡扣組合,以及第二卡扣結構104之第二卡勾104c與滑 動塊120之第一擋止部120a之卡扣組合,更可加強防止卡 拴12從滑槽102脫離的功能。 9 M409549 此外,第一卡扣結構122之第一懸臂122a、第一卡勾 122b以及第二擋止部1〇6的數量並不以第4圖為限,可依 照設計需求或製造上的限制而彈性地改變。換言之,若僅 為了達到使第一卡扣結構Π2之第一卡勾122b與第二擋止 部106相互卡扣的目的,於一實施方式中,本創作之電池 卡合模組亦可僅包含一對第一卡勾122b與第二擋止部106 的組合。 如第4圖所示,於本實施方式之電子裝置1中,電池 鲁卡合模組可進一步包含有彈性體108。彈性體108可連接 滑動塊120,且於較佳實施例中,彈性體108可壓縮於滑 動塊120之第一擋止部丨2〇&與第二卡扣結構104之限位部 104a之間,進而使第一卡扣結構122之第一卡勾122b與 第二卡扣結構104之第二卡勾104c分別卡扣第二擋止部 106與滑動塊12〇之第一擋止部120a。換句話說,藉由在 滑動塊120之第一擋止部12〇a與第二卡扣結構104之限位 部104a之間設置彈性體1〇8,彈性體108即可推擠第一卡 φ扣結構122之第一卡勾122b與第二擋止部106相互卡扣, 並同時推擠第二卡扣結構1〇4之第二卡勾l〇4c與滑動塊 120之第一檔止部120a相互卡扣。然而,彈性體108亦可 連接滑動塊120與殼體10内之一固定點,使得滑動塊12〇 能移動於卡合位置與釋放位置之間即可,本創作並不欲以 此為限。另外,於一實施方式中,彈性體108可以是壓縮 彈簧,但並不以此為限,只要是由能提供彈力的材料(例 如,橡膠)或構件(例如,彈片、扭力彈簧…等)所組成,皆 可使上述之彈性體108獲得相同的實施效果。 M409549 進一步來說’第二卡扣結構104之第二卡勾104c與滑 動塊120之第一檔止部120a相互卡扣的部位,恰好與彈性 體108推擠滑動塊120之第一撞止部i20a的部位位於第一 擋止部120a的不同側面’如第3B圖所示。 此外,如第1圖、第3A圖以及第3B圖所示,卡拴12 可進一步包含有卡合部124。卡拾12之卡合部124與滑動 塊120連接,並且當卡拴12位於卡合位置時(如第丨圖所 示卡拴12的位置)’卡合部124突出至電池槽i〇〇a中,藉 鲁以用來與電池16之卡拴孔160a卡合。因此,在電池16插 入殼體10之電池槽l〇〇a的過程中,電池16會先接觸並推 擠卡拴12之卡合部124’進而將卡拴12整體朝向滑槽1〇2 推擠至殼體1〇之内侧。當卡拴12完整地由電池槽100a中 離開(亦即,不突伸至電池槽l〇〇a中)時,此時卡拴即位 於釋放位置。在電池16完整容納於殼體1〇之電池槽i〇〇a 之後,壓縮於滑動塊120之第一擋止部i20a與第二卡扣結 構1〇4之限位部l〇4a之間之彈性體1〇8即可再把卡拴12 _整體朝向電池槽l〇〇a推擠,進而使卡拴12之卡合部124 卡合電池16之卡栓孔160a。換言之,當卡拴12由卡合位 置移動至釋放位置時,彈性體108可儲存彈性位能。當卡 拾12藉由彈性體丨〇8之彈性位能而自釋放位置移動至卡合 位置(如第1圖所示卡拴12的位置)時,卡合部124即可卡 合於電池16之卡拴孔160a。於本實施方式中,為了在電 池16插入殼體10之電池槽100a的過程中能夠更順暢地使 卡枝12推擠至殼體1〇之内側,卡合部124可進一步包含 有導引面124a。藉由卡合部124之導引面124a的導引,在 電池16插入殼體ίο之電池槽100&的過程中即可同時將卡 拴12推擠至殼體10之内侧,而不需透過 拾Π推擠至殼體10之内側。 部 5月參照第5圖,其為繪示第1圖中之殼體丨〇外侧靠近 右側滑槽110的局部放大圖。 如第5圖所示,於本實施方式之電子襞置j中,滑槽 110同樣位於殼體10之電池槽100a的邊緣。本創作之電池 卡合模組可進一步包含有第二卡扣結構112。具體而言, 鲁殼體10之滑槽110設置於殼體10外側,亦即與電池槽l〇〇a 位於殼體10的同一侧。電池卡合模組之第二卡扣結構112 可設置於滑槽110中。進一步來說,電池卡合模組之第二 卡扣結構112可進一步包含有第二懸臂u2a以及第二卡勾 112b。換言之’滑槽110處之第二卡扣結構in並不包含 有滑槽102處之第二卡扣結構104的限位部i〇4a。第二卡 扣結構112之第二懸臂112a設置於滑槽11〇中。第二卡扣 結構112之第二卡勾112b可設置於第二懸臂112a末端。 籲 請參照第6A圖、第圖、第6C圖以及第7圖。第 6A圖為繪示第1圖中之右侧卡拴14的立體視圖。第6B圖 為繪示第6A圖中之卡拴14的另一立體視圖。第6C圖為 緣示第6B圖中之卡栓14的侧視圖。第7圖為繪示第j圖 中之殼體10内側靠近右侧滑槽110的局部放大圖。 如第6A圖、第6B圖、第6C圖以及第7圖所示,於 本實施方式之電子裝置1中,電池卡合模組可進一步包含 有卡拴14以及第二檔止部114。電池卡合模組之第二擒止 部114可設置於殼體10之内側。電池卡合模組之卡拾14 M409549 同樣可進一步包含有滑動塊14〇以及第一卡扣結構142。 於實際製造過程中’卡拴14之滑動塊140與第一卡扣結構 142同樣可以透過塑料射出成型的方式一體成型製造。卡 拴14之滑動塊140可滑動地設置於殼體1〇之滑槽11〇中, '以使卡拴12可移動於卡合位置與釋放位置間。其中,第1 圖中之卡栓14即位於卡合位置。卡拴14之滑動塊140可 包含有第一擋止部140a。卡拴14之第一卡扣結構142可 設置於滑動塊.140邊緣。進一步來說,卡拴14之第一卡扣 籲結構142可進一步包含有第一懸臂M2a以及第一卡勾 142b。第一卡扣結構142之第一懸臂142a可設置於滑動塊 140邊緣。第一卡扣結構142之第一卡勾142b可設置於第 一懸臂142a末端。並且,於本實施方式中,由侧面來看, 滑動塊140與第一懸臂142a可形成υ字型外型,如第6C 圖所示。同樣地,若要將電池卡合模組之卡拴14組裝至殼 體10之滑槽110中,可先以第一卡扣結構丨42之第一懸臂 142a傾斜地穿入殼體10 ’使卡拴14之滑動塊140滑動於 φ殼體10之滑槽110 ’再使第一卡扣結構142之第一卡勾 142b與第二擋止部114相互卡扣,並使第二卡扣結構in 之第二卡勾112b與滑動塊140之第一擋止部i4〇a相互卡 扣,即可完成將電池卡合模組之卡拴14組裝至殼體10之 滑槽110的動作。藉由第—扣結構142之第一卡勾142b 與第二擋止部114之卡扣組合,以及第二卡扣結構112之 第二卡勾112b與滑動塊140之第一擋止部14〇a之卡扣組 合,更可加強防止卡拴14從滑槽11〇脫離的功能。相較於 卡拴12與殼體1〇之間有彈性體108壓縮於滑動塊120之 第一擋止部12〇a與第二卡扣結構1〇4之限位部1〇4a之間, 13 M409549 卡拴14與殼體10之間並沒有設置彈性體。換言之,必須 藉由手動的方式調整卡拴14進出殼體10的位置。 同樣地,第一卡扣結構142之第一懸臂142a、第一卡 勾142b以及第二擋止部114的數量並不以第7圖為限,同 ' 樣可依照設計需求或製造上的限制而彈性地改變。換言 之,若僅為了達到使第一卡扣結構142之第一卡勾142b與 第二擋止部114相互卡扣的目的,於一實施方式中,本創 作之電池卡合模組亦可僅包含一對第一卡勾142b與第二 φ 擋止部114的組合。 如第6A圖、第6B圖以及第7圖所示,於本實施方式 之電子裝置1中,第一卡扣結構142之第一懸臂142a可進 一步包含有凹陷142c。相對地,殼體10之内侧靠近滑槽 110處之第二檔止部114可進一步包含有凸塊116,用以卡 扣第一懸臂142a之凹陷142c,進而固定卡拴14相對殼體 10的位置。因此,在卡拴14於滑槽110處相對殼體10移 動的過程中,藉由第二擋止部114之凸塊116選擇性地卡 鲁合至第一懸臂142a上的任一個凹陷142c中,即可使卡拴 14相對於殼體10的位置達到多段調整的功能。至於第一 懸臂142a之凹陷142c的數量並不以第6A圖至第7圖為 限,可依照設計需求或製造上的限制而彈性地改變。再者, 若如本實施方式之第一卡扣結構142具有兩組第一懸臂 142a,則兩組第一懸臂142a可以再從各自之第一卡勾142b 處延伸並相互連接,如第6B圖所示。藉此,在第二擋止部 114之凸塊116卡合至第一懸臂142a上的凹陷142c時,兩 組相互連接之第一懸臂142a並不會因為受到第二擋止部 14 M409549 114之凸塊116的擠壓而向内大幅變形反 之剛性以供凸塊116卡合,進而更可加強卡拾 體10的位置達到多段調整的功能。 、"又 此外,如第1圖、第6A圖以及第6B圖所示,卡 •同樣可進—步包含有卡合部144。卡拾14之卡合部144斑 •滑動塊M0連接,並且卡拴14位於卡合位置時(如第j圖 所示卡拴14的位置),卡合部144突出至電池槽l〇〇a中, 藉以用來與電池16之卡拴孔16〇b卡合。因此,在電池Μ 籲插入殼體10之電池槽100a的過程中,電池16會先接觸並 推擠卡拴14之卡合部144,進而將卡拴14整體朝向滑槽 110推擠至殼體1〇之内侧。當卡拴14完整地由電池槽1〇如 中離開(亦即,不突伸至電池槽1〇〇a中)時,此時卡拴14 即位於釋放位置〇在電池16完整容納於殼體1〇之電池槽 100a之後,必須以手動的方式使卡拴14整體朝向電池槽 100a推擠,進而使卡拴14之卡合部144卡合電池16之卡 拴孔160b。於本實施方式中,為了在電池16插入殼體1〇 籲之電池槽l〇〇a的過程中能夠更順暢地使卡拴M推擠至殼 體10之内侧,卡合部144可進一步包含有導引面144a。 藉由卡合部144之導引面144a的導引,在電池16插入殼 體10之電池槽100a的過程中即可同時將卡拴14推擠至殼 體10之内側,而不需透過手動的方式將卡拴14推擠至殼 體10之内側。 由以上對於本創作之具體實施例之詳述,可以明顯地 看出,本創作之電池卡合模組及其電子裝置,主要是將卡 拴與卡扣結構直接一體成型,並將電子裝置之殼體(例如, M409549 筆記型電腦之D件下蓋)原本只是單純滑動面的設計,改為 有卡扣固定的結構,進而讓一體成型的卡拴與卡扣結構能 夠直接組裝至殼體。本創作之卡扣結構還進一步設計成具 有懸臂的結構,使得本創作之電池卡合模組容易組裝。並 • 且,具有懸臂的卡勾結構,在組裝至殼體時還具有不易脫 落的優點。 雖然本新型已以實施方式揭露如上,然其並非用以限 定本新型*任何熟習此技藝者 '在不脫離本新型之精神和 φ 範圍内,當可作各種之更動與潤飾,因此本新型之保護範 圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 第1圖為繪示依照本創作一實施方式之電子裝置的立 體視圖,其中電池尚未安裝於電池槽中。 第2圖為繪示第1圖中之殼體外側靠近左側滑槽的局 部放大圖。 • 第3A圖為繪示第1圖中之左侧卡拴的立體視圖。 第3B圖為繪示第3A圖中之卡拴的另一立體視圖。 第3C圖為繪示第3B圖中之卡拴的側視圖。 第4圖為繪示第1圖中之殼體内側靠近左側滑槽的局 部放大圖。 第5圖為繪示第1圖中之殼體外側靠近右側滑槽的局 部放大圖。 第6A圖為繪示第1圖中之右側卡拴的立體視圖。 16 M409549 第6B圖為繪示第6A圖中之卡拴的另一立體視圖。 第6C圖為繪示第6B圖中之卡拴的側視圖。 第7圖為繪示第1圖中之殼體内侧靠近右侧滑槽的局 部放大圖。 【主要元件符號說明】 1 :電子裝置 100a :電池槽 104、112 :第二卡扣結構 104b、112a :第二懸臂 106、114 :第二擋止部 116 :凸塊 120、140 :滑動塊 122、142 :第一卡扣結構 122b、142b :第一卡勾 124a、144a :導引面 16 :電池 10 :殼體 102、110 :滑槽 104a :限位部 104c、112b :第二卡勾 108 :彈性體 12、14 :卡拴 120a、140a :第一擋止部 122a、142a :第一懸臂 124、144 :卡合部 142c :凹陷 160a、160b :卡拴孔 17Material 09549 V. New description: [New technical field] The present invention relates to a battery clamping module and an electronic device thereof. [Prior Art] With the advancement of science and technology and the information of modern life, people pay more attention to the demand for information and the efficiency of filtering in this digital age. As a result, portable electronic devices and devices required for communication and data processing are generated in order to provide people with more convenient and responsive use. Among them, the laptop/notebook is an extension of the desktop/home computer, which is one of the scientific and technological products of e-commerce, and is lightweight, thin, portable and low-radiation. And many other features and research and development trends. Therefore, in order to achieve the above-mentioned technology reduction and realization, each manufacturer has all the relevant accessories and components that are capable of low production costs and consumer purchase costs, and expects to reduce the various costs and improve the quality. Lead market prices, consumer preferences and brand loyalty.胄纟 For the battery of the pen-type computer, the use of a battery to provide power is an alternative to the power cord with a transformer, and people can enjoy more limited convenience. Among them, the general notebook computer main body and its corresponding battery are connected in different ways, such as button type, slide rail type, cassette type and pivot type, and the size and appearance of the corresponding battery are often due to computer style. There are many variations and designs in its battery compartment. Taking the plug-in connection method as an example, at present, the card plug for fixing the battery generally needs to design three or more sets of molds such as a left card, a right card, and a hook, which is not advantageous for reducing the cost of components and assembly time. . 4 [New Content] The problem of Lei Xizhi technology 'This creation - the technical aspect is - m module' is mainly to directly integrate the card plug and the buckle structure into the housing of the electronic device (for example, notebook type) The lower cover of the D part of the computer is a simple sliding surface design, and has a structure with a snap-fit structure. The cassette and the buckle structure formed in the 3D can be directly assembled to the housing. This =: the hook is further designed to have The structure of the cantilever makes the creation and the card easy to assemble. Moreover, the hook structure with the money arm also has the advantage of smashing off when it is in the shell. The battery snap module is applied to the electric electronic device (4). The battery snap module is used for the inside of the slot. The body has a sliding groove edge _; = has at least - the card hole hole 1 pool snap module includes There is a card pick-up Ϊ a snap-on structure, a second stop and a brother::::; move card: structure. The slide block can be chute 2 =: between the transfer position. Sliding block package =, the fit portion _ ===: = edge flute: the card 2 is placed in the chute and is inside the first-loaded two-shell: ΐ:, placed inside the casing. The fasteners are fastened to each other. The elastic body is connected to the sliding block. When the card 2 is moved to the release position (4), the elastic body stores the elastic potential energy. The second card is moved from the release position to the release position by the elastic potential energy. When the position is engaged, the engaging portion is engaged with at least one of the pickup holes of the battery. 5 M409549 Another technical aspect of the present invention is an electronic device. According to another embodiment of the present invention, an electronic device includes a housing and a battery. a cartridge, a second latching structure, a second blocking portion and an elastic body. The housing has a battery slot and a sliding slot. The sliding slot is located at the edge of the battery slot and the battery is used for the card k to the battery slot. The battery has at least one The card has a sliding block, a first snap structure and a latching portion. The sliding block is slidably disposed in the sliding slot so that the latch can be moved between the engaged position and the released position, and the sliding block匕S the first stop portion. The brother buckle structure includes a first cantilever and a first ___ # first cantilever is disposed at the edge of the sliding block. The first hook is disposed at the end of the first suspension. The engaging portion is connected to the sliding block, and When the cassette is in the engaged position, 2 ports.Ρ The second buckle structure includes a limiting portion, a second suspension= and a second hook. The limiting portion is disposed at the edge of the sliding slot. The f-end of the second cantilever is connected to the limiting portion and extends to The second hook is disposed at the second suspension end for engaging the first stopping portion. The second stopping portion is disposed in the housing. When the first suspension is inserted into the body, the first hook is The second supporting portion is buckled. The elastic body is connected to the sliding block. When the locking member is moved from the engaging position to the release position, the elastic body stores the elastic potential energy. When the card is released by the elastic potential energy When the position is moved to the engagement position, the engaging portion is engaged with at least one of the pickup holes of the battery. [Embodiment] = The following embodiments of the present invention will be disclosed in the following figures, so that it is clear that the month is 'many The details of the business will be explained in the following. ‘, :,’a should understand that the details of these practices are not applied to limit this creation. In other words, in the implementation part of this creation, the details of these practices 6 M409549 are not necessary. Moreover, some of the conventional structures and elements are shown in the drawings in a simplified schematic manner in order to simplify the drawings. One of the technical aspects of this creation is an electronic device. More specifically, it mainly integrates the cassette and the buckle structure directly, and changes the design of the electronic device" the original pure sliding surface to a knotted structure, thereby allowing The integrally formed cassette and snap structure can be assembled directly to the housing. The hook of this creation is further designed to have a cantilever structure, which makes the battery snap module of the present invention easy to assemble. φ, which is a perspective view of an electronic device 1 according to an embodiment of the present invention, in which the battery 16 is not mounted in the battery slot 100a, as shown in FIG. The electronic device 1 of the module may be a portable computer device (for example, a notebook computer, a tablet computer, etc.) or a handheld electronic device (for example, a digital camera, a digital camera, a mobile phone, etc.), but not This is limited to this. In other words, the electronic device 1 to which the battery snap module of the present invention is applied may be any electronic product that requires an external battery, as long as there is an electronic device on the housing that requires the external battery to be engaged or disassembled. The concept of the present invention can be applied to easily engage or disassemble the housing of the electronic device with the battery. For example, if the electronic device is a notebook computer, the housing can be the D-piece lower cover of the notebook computer. As shown in Fig. 1, in the electronic device 1 of the present embodiment, the casing 10 of the electronic device 1 may include a battery compartment 100a, and the battery compartment 100a of the casing 10 may be used to accommodate the battery 16. The battery snap module of the present embodiment mainly engages the battery 7 M409549 16 to the housing 1 of the electronic device 1 by the cassette 12 and the cassette 14 disposed on both sides of the battery slot 10a. The battery 16 is provided with card holes 160a, 160b corresponding to the card 12 and the cassette 14 for respectively engaging the card pin 12 with the cassette 14. The structure and function of each part of the battery snap module of this embodiment will be described in detail below. Referring to Fig. 2, a partial enlarged view of the outer side of the casing 1 in the first drawing near the left chute 102 is shown. As shown in Fig. 2, in the electronic device 1 of the present embodiment, the chute 102 is located at the edge of the battery case i〇〇a of the casing 1. The battery card φ combination module of the present invention may further include a second buckle knot wheel 1〇4. Specifically, the chute 102 of the casing 10 is disposed outside the casing 10, that is, on the same side of the casing 10 as the battery casing 10a. The second snap structure 104 of the battery snap module can be disposed in the chute 102. Further, the second snap structure 104 of the battery snap module may further include a limited position portion i4a, a second cantilever arm 4b, and a second hook 1b4c. The limiting portion 1 〇 4a of the second snap structure 1 〇 4 can be disposed at the edge of the chute 102. One end of the second cantilever 10b of the second snap structure 1〇4 is connectable to the stopper portion 104a and extends into the chute 1〇2. The second buckle 10 can be disposed at the end of the second cantilever 1 as shown in the second cantilever 1 . Please refer to FIG. 3A, FIG. 3B, FIG. 3C, and FIG. Fig. 3A is a perspective view showing the left side cassette 12 in Fig. 1. Fig. 3B is another perspective view showing the cassette 12 in Fig. 3A. Figure 3c is a side elevational view of the cassette 12 of Figure 3B. Fig. 4 is a partially enlarged view showing the inside of the casing 10 in Fig. 1 near the left chute 1〇2. As shown in FIG. 3A, FIG. 3B, FIG. 3C, and FIG. 4, in the electronic device 1 of the present embodiment, the battery engagement module may further include a card pickup 12 and a second stopper portion 1〇6. . The second stop of the battery snap module 8 M409549 portion 106 can be disposed inside the housing 10. The cassette 12 of the battery snap module may further include a slider 120 and a first snap structure 122. In the actual manufacturing process, the slider 120 of the cassette 12 and the first snap structure 122 can be integrally molded by plastic injection molding. The slider 120 of the cassette 12 is slidably disposed in the chute 102 of the housing 10 such that the cassette 12 is movable between the engaged position and the released position. Among them, the card 12 in Fig. 1 is located at the engagement position. The slider 120 of the cassette 12 can include a first stop 120a. The first snap structure 122 of the cassette 12 can be disposed at the edge of the slider 120. Further, the first buckle structure 122 of the cassette 12 may further include a first cantilever 122a and a first hook 122b. The first cantilever 122a of the first snap structure 122 can be disposed at the edge of the sliding block 120. The first hook 122b of the first snap structure 122 can be disposed at the end of the first cantilever 122a. Further, in the present embodiment, the slider 120 and the first cantilever 122a may form a U-shaped outer shape as viewed from the side, as shown in FIG. 3C. Therefore, if the cassette 12 of the battery snap module is assembled into the sliding slot 102 of the housing 10, the first cantilever 122a of the first fastening structure 122 can be obliquely penetrated into the housing 10 to make the cassette 12 The sliding block 120 slides on the sliding slot 102 of the housing 10, and the first hook 122b of the first fastening structure 122 and the second stopping portion 106 are mutually buckled, and the second locking structure 104 is second. The hook 104c and the first blocking portion 120a of the sliding block 120 are engaged with each other to complete the assembly of the cartridge 12 of the battery engaging module to the sliding slot 102 of the housing 10. The combination of the first hook 122b of the first buckle structure 122 and the second stopper portion 106, and the second hook 104c of the second buckle structure 104 and the first blocking portion 120a of the sliding block 120 The buckle combination further enhances the function of preventing the cassette 12 from being detached from the chute 102. 9 M409549 In addition, the number of the first cantilever 122a, the first hook 122b, and the second stop 1〇6 of the first buckle structure 122 is not limited to the fourth figure, and may be in accordance with design requirements or manufacturing constraints. And change elastically. In other words, in order to achieve the purpose of causing the first hook 122b and the second blocking portion 106 of the first latching structure 卡2 to be mutually engaged, in one embodiment, the battery snap module of the present invention may only include A combination of a pair of first hooks 122b and a second stop 106. As shown in Fig. 4, in the electronic device 1 of the present embodiment, the battery rug module may further include an elastic body 108. The elastic body 108 can be coupled to the sliding block 120. In the preferred embodiment, the elastic body 108 can be compressed by the first blocking portion 〇2〇& of the sliding block 120 and the limiting portion 104a of the second fastening structure 104. Therefore, the first hook 122b of the first fastening structure 122 and the second hook 104c of the second fastening structure 104 respectively buckle the second blocking portion 106 and the first blocking portion 120a of the sliding block 12 . In other words, by providing the elastic body 1〇8 between the first blocking portion 12〇a of the sliding block 120 and the limiting portion 104a of the second fastening structure 104, the elastic body 108 can push the first card. The first hook 122b and the second stopping portion 106 of the φ buckle structure 122 are mutually buckled, and simultaneously push the second hooks 〇4c of the second fastening structure 1〇4 and the first stop of the sliding block 120. The portions 120a are snapped to each other. However, the elastic body 108 can also connect the sliding block 120 to a fixed point in the housing 10, so that the sliding block 12 can be moved between the engaging position and the releasing position, and the present invention is not limited thereto. In addition, in an embodiment, the elastic body 108 may be a compression spring, but not limited thereto, as long as it is provided by a material (for example, rubber) or a member (for example, a spring piece, a torsion spring, etc.) capable of providing elasticity. The composition can achieve the same effect of the above-mentioned elastomer 108. M409549 Further, the portion where the second hook 104c of the second snap structure 104 and the first stop portion 120a of the slider 120 are engaged with each other just pushes the first striker of the slide block 120 with the elastic body 108. The portion of i20a is located on a different side of the first stop portion 120a as shown in FIG. 3B. Further, as shown in FIG. 1, FIG. 3A, and FIG. 3B, the cassette 12 may further include an engaging portion 124. The engaging portion 124 of the card 12 is connected to the sliding block 120, and when the cassette 12 is in the engaging position (as shown in the figure, the position of the cassette 12), the engaging portion 124 protrudes to the battery slot i〇〇a In the middle, it is used to engage with the card hole 160a of the battery 16. Therefore, during the insertion of the battery 16 into the battery slot 10a of the housing 10, the battery 16 first contacts and pushes the engaging portion 124' of the cassette 12 to push the cassette 12 toward the chute 1〇2 as a whole. Squeeze to the inside of the housing 1〇. When the cassette 12 is completely separated from the battery case 100a (i.e., does not protrude into the battery case 10a), the click is now in the release position. After the battery 16 is completely received in the battery slot i〇〇a of the housing 1 , it is compressed between the first blocking portion i20a of the sliding block 120 and the limiting portion 104a of the second fastening structure 1〇4. The elastic body 1〇8 can further push the cassette 12_ toward the battery slot l〇〇a, and the engaging portion 124 of the cassette 12 can be engaged with the latch hole 160a of the battery 16. In other words, the elastomer 108 can store the elastic potential energy when the cassette 12 is moved from the engaged position to the released position. When the card 12 is moved from the release position to the engagement position (such as the position of the cassette 12 shown in FIG. 1) by the elastic potential of the elastic body 8, the engaging portion 124 can be engaged with the battery 16 The card has a hole 160a. In the present embodiment, in order to more smoothly push the card 12 to the inside of the casing 1 in the process of inserting the battery 16 into the battery slot 100a of the casing 10, the engaging portion 124 may further include a guiding surface. 124a. By guiding the guiding surface 124a of the engaging portion 124, the cartridge 12 can be simultaneously pushed to the inner side of the housing 10 while the battery 16 is inserted into the battery slot 100& of the housing ί, without passing through The pick is pushed to the inside of the casing 10. Referring to Fig. 5 in May, a partial enlarged view of the outer side of the casing 靠近 in the first drawing near the right chute 110 is shown. As shown in Fig. 5, in the electronic device j of the present embodiment, the chute 110 is also located at the edge of the battery case 100a of the casing 10. The battery snap module of the present invention may further include a second snap structure 112. Specifically, the sliding slot 110 of the housing 10 is disposed outside the housing 10, that is, on the same side of the housing 10 as the battery slot 10a. The second snap structure 112 of the battery snap module can be disposed in the chute 110. Further, the second snap structure 112 of the battery snap module may further include a second cantilever u2a and a second hook 112b. In other words, the second snap structure in at the chute 110 does not include the limit portion i4a of the second snap structure 104 at the chute 102. The second cantilever 112a of the second snap structure 112 is disposed in the chute 11〇. The second hook 112b of the second snap structure 112 can be disposed at the end of the second cantilever 112a. Refer to Figure 6A, Figure 6, Figure 6C, and Figure 7. Fig. 6A is a perspective view showing the right cassette 14 in Fig. 1. Fig. 6B is another perspective view showing the cassette 14 of Fig. 6A. Fig. 6C is a side view showing the latch 14 of Fig. 6B. Fig. 7 is a partially enlarged view showing the inner side of the casing 10 in the jth drawing near the right chute 110. As shown in FIG. 6A, FIG. 6B, FIG. 6C, and FIG. 7, in the electronic device 1 of the present embodiment, the battery engagement module may further include a cassette 14 and a second stop portion 114. The second stop portion 114 of the battery snap module can be disposed inside the housing 10. The card pickup module of the battery snap module 14 M409549 may further include a slider 14 〇 and a first snap structure 142. In the actual manufacturing process, the slider 140 of the cassette 14 can be integrally molded by plastic injection molding in the same manner as the first fastening structure 142. The slider 140 of the cassette 14 is slidably disposed in the sliding groove 11 of the housing 1 so that the cassette 12 can be moved between the engaged position and the released position. Among them, the card pin 14 in the first figure is located at the engagement position. The slider 140 of the cassette 14 may include a first stopper 140a. The first snap structure 142 of the cassette 14 can be disposed at the edge of the slider block 140. Further, the first snapping structure 142 of the cassette 14 can further include a first cantilever M2a and a first hook 142b. The first cantilever 142a of the first snap structure 142 can be disposed at the edge of the sliding block 140. The first hook 142b of the first snap structure 142 can be disposed at the end of the first cantilever 142a. Further, in the present embodiment, the slider 140 and the first cantilever 142a can be formed in a U shape as viewed from the side, as shown in FIG. 6C. Similarly, if the cartridge 14 of the battery snap module is assembled into the sliding slot 110 of the housing 10, the first cantilever 142a of the first latching structure 42 can be obliquely inserted into the housing 10' to make the card The sliding block 140 of the cymbal 14 slides on the sliding slot 110 ′ of the φ housing 10 and then the first hook 142 b of the first fastening structure 142 and the second blocking portion 114 are mutually buckled, and the second fastening structure is in The second hook 112b and the first stopping portion i4〇a of the sliding block 140 are engaged with each other to complete the assembly of the cartridge 14 of the battery engaging module to the sliding slot 110 of the casing 10. The first hook 142b of the first buckle structure 142 is combined with the second stopper portion 114, and the second hook 112b of the second buckle structure 112 and the first stopper portion 14 of the sliding block 140. The snap combination of a further enhances the function of preventing the latch 14 from being detached from the chute 11 。. The elastic body 108 is compressed between the first stop portion 12〇a of the sliding block 120 and the limiting portion 1〇4a of the second fastening structure 1〇4, compared with the case 12〇. 13 M409549 There is no elastic body between the cassette 14 and the housing 10. In other words, the position of the cassette 14 in and out of the housing 10 must be adjusted manually. Similarly, the number of the first cantilever 142a, the first hook 142b, and the second stop 114 of the first fastening structure 142 is not limited to the first drawing, and may be in accordance with design requirements or manufacturing constraints. And change elastically. In other words, in order to achieve the purpose of causing the first hook 142b and the second blocking portion 114 of the first latching structure 142 to be mutually engaged, in one embodiment, the battery snap module of the present invention may only include A combination of a pair of first hooks 142b and a second φ stop 114. As shown in FIG. 6A, FIG. 6B, and FIG. 7, in the electronic device 1 of the present embodiment, the first cantilever 142a of the first snap structure 142 may further include a recess 142c. In contrast, the second stop portion 114 at the inner side of the housing 10 near the sliding slot 110 may further include a protrusion 116 for latching the recess 142c of the first cantilever 142a, thereby fixing the latch 14 relative to the housing 10. position. Therefore, during the movement of the cassette 14 relative to the housing 10 at the chute 110, the protrusion 116 of the second blocking portion 114 is selectively snapped into any one of the recesses 142c of the first cantilever 142a. The position of the cassette 14 relative to the housing 10 can be adjusted to a plurality of stages. As for the number of recesses 142c of the first cantilever 142a, it is not limited to Figs. 6A to 7 and can be elastically changed in accordance with design requirements or manufacturing constraints. Furthermore, if the first fastening structure 142 of the present embodiment has two sets of first cantilever arms 142a, the two sets of first cantilever arms 142a can be extended from the respective first hooks 142b and connected to each other, as shown in FIG. 6B. Shown. Thereby, when the protrusions 116 of the second stopping portion 114 are engaged with the recesses 142c on the first cantilever 142a, the two sets of the mutually connected first cantilevers 142a are not subjected to the second blocking portion 14 M409549 114. The pressing of the protrusions 116 is greatly deformed inwardly and the rigidity is reversed to allow the protrusions 116 to be engaged, thereby further enhancing the position of the card body 10 to achieve multi-stage adjustment. Further, as shown in Fig. 1, Fig. 6A, and Fig. 6B, the card can also include the engaging portion 144. The engaging portion 144 of the cassette 14 is connected to the sliding block M0, and when the cassette 14 is in the engaging position (as the position of the cassette 14 shown in FIG. j), the engaging portion 144 protrudes into the battery slot 10a In order to engage with the card hole 16〇b of the battery 16. Therefore, during the process of the battery being inserted into the battery slot 100a of the housing 10, the battery 16 first contacts and pushes the engaging portion 144 of the latch 14, thereby pushing the latch 14 as a whole toward the slot 110 to the housing. 1 inside the inside. When the cassette 14 is completely separated from the battery compartment 1 (i.e., does not protrude into the battery compartment 1A), the cassette 14 is now in the release position, and the battery 16 is completely housed in the housing. After the battery slot 100a is inserted, the entire latch 14 must be manually pushed toward the battery slot 100a, and the latching portion 144 of the latch 14 is engaged with the latching hole 160b of the battery 16. In the present embodiment, in order to more smoothly push the cassette M to the inside of the housing 10 during the insertion of the battery 16 into the battery slot 10a of the housing 1, the engaging portion 144 may further include There is a guiding surface 144a. By guiding the guiding surface 144a of the engaging portion 144, the cartridge 14 can be pushed to the inside of the housing 10 at the same time during the insertion of the battery 16 into the battery slot 100a of the housing 10 without manual operation. The manner of pushing the cassette 14 to the inside of the housing 10 is achieved. From the above detailed description of the specific embodiments of the present invention, it can be clearly seen that the battery snap module and the electronic device thereof of the present invention mainly integrate the cassette and the buckle structure directly, and the electronic device is The housing (for example, the D-shaped lower cover of the M409549 notebook computer) was originally designed as a simple sliding surface, and has a snap-fit structure, so that the integrally formed cassette and the buckle structure can be directly assembled to the housing. The snap structure of the present invention is further designed to have a cantilever structure, so that the battery snap module of the present invention is easy to assemble. And • The hook structure with cantilever has the advantage of not being easily detached when assembled to the housing. Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention. Any person skilled in the art can make various changes and refinements without departing from the spirit and scope of the present invention. The scope of protection is subject to the definition of the scope of the patent application attached. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing an electronic device according to an embodiment of the present invention, in which a battery is not mounted in a battery well. Fig. 2 is a partially enlarged view showing the outer side of the casing in the first drawing near the left chute. • Figure 3A is a perspective view showing the left side of the cassette in Figure 1. FIG. 3B is another perspective view showing the cassette in FIG. 3A. Fig. 3C is a side view showing the cassette in Fig. 3B. Fig. 4 is a partially enlarged view showing the inner side of the casing in the first drawing near the left side chute. Fig. 5 is a partially enlarged view showing the outer side of the casing in the first drawing near the right chute. Fig. 6A is a perspective view showing the right side of the cassette in Fig. 1. 16 M409549 Figure 6B is another perspective view showing the cassette of Figure 6A. Figure 6C is a side view showing the cassette of Figure 6B. Fig. 7 is a partially enlarged view showing the inside of the casing in Fig. 1 near the right chute. [Main component symbol description] 1 : Electronic device 100a : battery slot 104 , 112 : second snap structure 104 b , 112 a : second cantilever 106 , 114 : second stopper 116 : bump 120 , 140 : slide block 122 142: first buckle structure 122b, 142b: first hook 124a, 144a: guiding surface 16: battery 10: housing 102, 110: chute 104a: limiting portion 104c, 112b: second hook 108 : Elastomers 12, 14 : cassettes 120a, 140a: first stoppers 122a, 142a: first cantilever 124, 144: engaging portions 142c: recesses 160a, 160b: latching holes 17