M435057 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座、電池組,特別是指一種 用以容納複數顆電池於内的電池座與具有該電池座的電池 組。 【先前技術】 如美國專利早期公開號2011/0076538 A1所揭露的電池 包(battery pack)與台灣發明專利證書號134585〇所揭露的 電池盒組,均是利用結構固定的電池座(如美國案 2011/0076538 A1的外殼元件100 '台灣案134585〇的上、 下殼體101、103)供多數顆電池以其一端嵌設固定於内。 【新型内容】 有鑒於本案申請人致力於研發利用不同的結構容納電 池之技術,本新型之目的,係在於提供一種可更加提高電 池容納於内之穩固性的電池座與具有該電池座之電池組。 本新型電池座供容納複數電池單元,每一電池單元包 括電池與至少一設置於該電池的止滑件,該電池具有一 頂端電極與-底端電極。該電池座包含複數框板,該等框 板相,接呈框狀並界定出一頂部開口與一底部開口,該等 2池單7C谷納於該等框板之間並且該等電池的頂端電極外 露^該頂部開口,該等電池的底端電極外露於該底部開口 ϋ板具有_内壁面,該内壁面形成有至少—接觸面 區每框板的一接觸面區與鄰近的一電池單元的止滑件 Μ面接觸。進-步的,該接觸面區呈弧形曲面。 3 M435057 進一步的,每一框板的内壁面呈連續波浪狀。 進-步的’該等框板為可拆離的連接,每—框板包括 条-、下框條,該接觸面區分佈於該上框條與該下 框條。 本新型電池組包含前述的電池單元與電池座。 本新型之功效,配合該電池座呈框狀的結構,藉由該 框板的内壁面提供與鄰近的電池單元有較大的接觸面積f 再配合止滑件提供的止滑效果,可使電池單元較穩固的容 納於框板之間,避免電池單元輕易脫離電池座。 【實施方式】 有關本新型之前述及其他技術内容、特點與功效,在 以下配合參考圖式之一個較佳實施例的詳細說明中,將可 清楚的呈現。 參閱圖1與圖2’本新型電池組1〇〇的一較佳實施例包 含一電池座1與複數電池單元2。電池座丨包括複數框板u 、複數設置分別於該等框板n之間的拼接結構12 (見圖3) 〇 參閱圖2、圖3,本實施例中,框板u數目為四個,每 個框板11均呈L型並且具有一頂緣1U與一底緣112、相 反的一第一板緣113與一第二板緣H4、一内壁面us與一 外壁面116,框板11的内壁面115形成有複數相連接的接 觸面區117,本實施例中,接觸面區117為一凹陷曲面,換 言之’框板11的内壁面115呈連續波浪狀。 框板11本身為多數肋條相連接形成的網格狀結構,以 4 M435057 節省材料並且維持框板u的結構強度,框板u材質可為 ABS,本實施例中,框板U包括一上框條118、一下框條 119,與複數連接於上框條118與下框條119之間並且例如 呈父叉狀與直立延伸的框條結構,每—接觸面區Η?是上下 相對應的同時分佈在上框條118與下框條119。 本實施例的每一拼接結構12是分佈設置在每兩框板J j 之間,提供兩框板11相拼接結合’每一拼接結構12包括設 置於其中一框板11的第一板緣113的一第一卡勾13與一第 二卡槽16、設置於另一框板u的第二板緣114的一第一卡 槽14與一第二卡勾15,第一卡勾13、第二卡槽16分別鄰 近其中一框板11的頂緣1Π與底緣112,第一卡槽14與第 一卡勾15分別鄰近另一框板丨丨的頂緣丨丨丨與底緣1丨2。 具體而言,第一卡勾13包括一由其中一框板u的第一 板緣113橫向延伸的第一延伸段131與一由第一延伸段i3i 自由端往上凸出的第一凸塊132。配合參閱圖6,第二卡槽 16呈L型包括一由其中一框板u的第一板緣ιΐ3凹陷的第 三槽段161與連通第三槽段161並且貫穿其中一框板n底 緣112的第四槽段162。第二卡勾15包括一由另一框板u 的第二板緣114橫向延伸的第二延伸段151與一由第二延伸 段151自由端往下凸出的第二凸塊152。第一卡槽μ呈[ 型包括—由另一框板11的第二板緣114凹陷的第一槽段 ⑷與連通第-槽段141並且貫穿另一框板u頂緣⑴的 第二槽段142。 此外,為加強框板11之間拼接的結構穩定度本實施 5 M435057 例的每—拼接結構12更包括設置於其中—框板㈣第一板 緣⑴的-第-^位柱171與—第二^位槽m、設置於另 框板U的第二板緣114的一第一定位槽172與一第二定 位柱173 ’第—定位槽172的位置用以供第-定位柱171伸 入,第二定位槽174的位置用以供第二定位柱173伸入。 在卡勾與卡槽的結合穩定度足夠 备 一,’八 \ 5^口V _】月 //(j 厂,^ 池座1的另一種變化態樣,拼接結構12也可以只包括第一 卡勾13與第—卡槽14及/或第二卡勾15與第二卡槽16, 省略該等第_、第二定位柱m、⑺與該等第―、第二定 位槽 172、174。 典每-電池單元2包括一電池21與二具有高摩擦係數的 月件22電池21呈柱狀並且具有一頂端電極211、一底 端電極212與一直立外周面213,其令,外周面213的外形 ^度係與電池座i的接觸面區117互補,換言之,每—電池 °°元2係洽可供肷合於每一接觸面區117,當然,接觸面區 117的凹陷外型是可視所容納的電池21外型而變化,並無 限於是曲面,只要配合電池21的外形達成面接觸即可。’、 兩止滑件22圍繞貼附於電池21的外周面213並且分 別鄰近頂端電極211與底端電極212,本實施例的止滑件二 為矽膠膠布,但其也可採用其他摩擦係數較高,較不易與 相接觸的表面產生相對滑動的材質。 參閱圖4至圖6,當該等框板U相接合時,是任—框 板11的第一板緣113與另一框板η的第二板緣114相向, 藉該等拼接結構丨2拼接呈框狀,其中,該等框板u的頂緣 6 M435057 111相接配合界定出一頂部開口 1 〇 1,該等框板丨丨的底緣 112相接配合界定出一底部開口 1〇2。 更具體而言’該等框板11相接合時,其中一框板〖丨的 第一卡勾13卡入另一框板Π的第一卡槽14 (即第—延伸 段131伸入第一槽段141、第一凸塊132伸入第二槽段μ] )、其中一框板11的第一定位柱171伸入另一框板u的第 一定位槽172、其中一框板U的第二定位槽174供另一框 板11的第二定位柱173伸入、其中一框板u的第二卡槽 16供另一框板u的第二卡勾15卡入(即第二延伸段I” 伸入第三槽段161、第二凸塊152伸入第四槽段162)。 其中,藉由該等第一、第二卡勾13、15的第—、第二 凸塊132' 152卡入該等第一、第二卡槽14、16產生的結 構干涉,可防止兩框板u I生彼此相遠離的方向的位移, 而藉由該等第-、第二定位柱m、173伸入該等第一、第 二定位槽m、174產生的定位效果,則可防止兩相接合的 框板11之間產生除了往相遠離以外的方向的位移。 該等電池單元2是在該等框板n相接合的過裎中一併 置入胃該等框板11相接合呈框狀且該等電池單元2置入 電池座1 $,電〉也21的頂端電極211外露於頂部開口 1〇1 :電池21的底端電極212外露於底部開口 1()2,每—電池 單το 2對應位於一接觸面區η?内,每兩相鄰的電池單元2 =間藉由其止滑件22相接觸’而鄰近框板u内壁面 :―接觸面區117的電池單元2,則是藉由其止滑件22盘 接觸面區⑴相接觸,其中,藉由該等框板㈣向拼㈣ 7 M435057 力量,迫使該等電池單it 2被集中擠壓,再加上高摩擦係 數之止滑件22的設置,以及止滑件22與框板u形成接觸 面區117的結構設計,使電池單& 2較穩固的容納於框板 Π之間。 綜上所述,本新型配合電池座丨呈框狀的結構,藉由 框板内壁面115提供與鄰近的電池單元2有較大的接觸面積 ,再配合止滑件22提供的止滑效果,使電池單元2較穩固 的容納於框板11之間,避免電池單元2輕易由於外力震動 或摔落而脫離電池座1,故確實能達成本新型之目的。 惟以上所述者,僅為本新型之較佳實施例而已,當不 忐以此限定本新型實施之範圍,即大凡依本新型申請專利 範圍及新型說明内容所作之簡單的等效變化與修飾,皆仍 屬本新型專利涵蓋之範圍内。 【圖式簡單說明】 圖1是本新型電池組的一個較佳實施例的立體圖; 圖2是該較佳實施例的立體圖,且該電池組的—電池 座的其中一框板被分解; 圖3是該較佳實施例的分解圖,且該電池座的所有框 板被分解; 圖4是該較佳實施例的電池座的立體圖; 圖5是該較佳實施例的俯視圖;以及 圖6是沿圖5中A-A方向的剖視圖。 8 M435057 【主要元件符號說明】M435057 V. New description: [New technical field] The present invention relates to a battery holder and a battery pack, and more particularly to a battery holder for accommodating a plurality of batteries and a battery pack having the same. [Prior Art] The battery pack disclosed in the battery pack disclosed in the Japanese Patent Laid-Open Publication No. 2011/0076538 A1 and the Taiwan Invention Patent No. 134585 is a battery holder that is fixed in structure (such as the US case). 2011/0076538 A1 outer casing element 100 'Taiwan case 134585 〇 upper and lower casings 101, 103) for a plurality of batteries to be embedded and fixed at one end thereof. [New content] In view of the fact that the applicant of the present invention is dedicated to the research and development of a technology for accommodating batteries by using different structures, the object of the present invention is to provide a battery holder which can further improve the stability of the battery and a battery having the battery holder. group. The battery holder of the present invention is for accommodating a plurality of battery cells, each battery unit comprising a battery and at least one anti-slip member disposed on the battery, the battery having a top electrode and a bottom electrode. The battery holder comprises a plurality of frame plates which are connected in a frame shape and define a top opening and a bottom opening, wherein the two cells are 7C between the frame plates and the top of the batteries The electrode is exposed to the top opening, the bottom electrode of the battery is exposed to the bottom opening, and the bottom wall has an inner wall surface, and the inner wall surface is formed with at least one contact surface area of each of the contact surface areas and an adjacent battery unit The sliding block is in contact with the surface. In the step-by-step manner, the contact surface area has an arcuate curved surface. 3 M435057 Further, the inner wall surface of each frame plate is continuously wavy. The advancement of the frame plates is a detachable connection, and each of the frame plates includes a strip-and a lower frame strip, and the contact surface area is distributed over the upper frame strip and the lower frame strip. The battery pack of the present invention comprises the aforementioned battery unit and battery holder. The function of the present invention is matched with the frame structure of the battery holder, and the inner wall surface of the frame plate provides a large contact area with the adjacent battery unit, and the anti-slip effect provided by the anti-slip member is used to make the battery. The unit is relatively tightly received between the frame plates to prevent the battery unit from easily coming off the battery holder. The above and other technical contents, features and effects of the present invention will be apparent from the following detailed description of the preferred embodiments. Referring to Figures 1 and 2', a preferred embodiment of the battery pack 1 of the present invention includes a battery holder 1 and a plurality of battery units 2. The battery holder includes a plurality of frame plates u, and a plurality of splicing structures 12 respectively disposed between the frame plates n (see FIG. 3). Referring to FIG. 2 and FIG. 3, in the embodiment, the number of the frame plates u is four. Each frame plate 11 is L-shaped and has a top edge 1U and a bottom edge 112, a first plate edge 113 and a second plate edge H4, an inner wall surface us and an outer wall surface 116, and a frame wall 11 The inner wall surface 115 is formed with a plurality of contact surface regions 117. In the present embodiment, the contact surface region 117 is a concave curved surface. In other words, the inner wall surface 115 of the frame plate 11 has a continuous wave shape. The frame plate 11 itself is a mesh-like structure formed by connecting a plurality of ribs, and the material is saved by 4 M 435 057 and the structural strength of the frame plate u is maintained. The material of the frame plate u can be ABS. In this embodiment, the frame plate U includes an upper frame. The strip 118, the lower frame strip 119, and the plurality of strips are connected between the upper frame strip 118 and the lower frame strip 119, and are, for example, in the form of a parent fork and an upright extending frame. Each contact surface area is corresponding to the upper and lower sides. Distributed in the upper frame bar 118 and the lower frame bar 119. Each splicing structure 12 of the present embodiment is distributed between each two frame plates J j , and provides two frame plates 11 spliced and combined. Each splicing structure 12 includes a first plate edge 113 disposed on one of the frame plates 11 . a first hook 13 and a second slot 16, a first slot 14 and a second hook 15 disposed on the second edge 114 of the other frame u, the first hook 13, the first The two card slots 16 are respectively adjacent to the top edge 1Π and the bottom edge 112 of one of the frame plates 11, and the first card slot 14 and the first hook 15 are respectively adjacent to the top edge and the bottom edge of the other frame plate. 2. Specifically, the first hook 13 includes a first extending portion 131 extending laterally from the first edge 113 of one of the frame plates u and a first protruding portion protruding upward from the free end of the first extending portion i3i 132. Referring to FIG. 6 , the second card slot 16 has an L-shape including a third slot segment 161 recessed by the first plate edge ι 3 of one of the frame plates u and communicates with the third slot segment 161 and penetrates the bottom edge of one of the frame plates n The fourth slot segment 162 of 112. The second hook 15 includes a second extension 151 extending laterally from the second rim 114 of the other frame u and a second projection 152 projecting downwardly from the free end of the second extension 151. The first card slot μ is [type includes - a first groove segment (4) recessed by the second plate edge 114 of the other frame plate 11 and a second groove communicating with the first groove segment 141 and penetrating the top edge (1) of the other frame plate u Segment 142. In addition, in order to enhance the structural stability of the splicing between the frame plates 11 , each of the splicing structures 12 of the example M 435 057 further includes a - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - a position of the first positioning groove 172 and a second positioning post 173 'the first positioning groove 172 of the second plate edge 114 of the other frame plate U for the first positioning post 171 The position of the second positioning groove 174 is for the second positioning post 173 to extend. The stability of the combination of the hook and the card slot is sufficient for one, 'eight\5^V _】month//(j factory, ^ another variation of the pool seat 1, the splicing structure 12 may also only include the first The hook 13 and the first card slot 14 and/or the second hook 15 and the second card slot 16 are omitted, and the first and second positioning posts m, (7) and the second and second positioning slots 172, 174 are omitted. The battery unit 2 includes a battery 21 and two moon pieces 22 having a high coefficient of friction. The battery 21 has a columnar shape and has a top electrode 211, a bottom electrode 212 and an upright outer peripheral surface 213, which allows the outer peripheral surface. The shape of the 213 is complementary to the contact surface area 117 of the battery holder i. In other words, each cell is connected to each contact surface area 117. Of course, the recessed shape of the contact surface area 117 It is visible that the shape of the battery 21 accommodated varies, and is not limited to a curved surface, as long as the surface contact of the battery 21 is used to achieve surface contact. ', the two stoppers 22 are attached to the outer peripheral surface 213 of the battery 21 and are respectively adjacent to the top end. The electrode 211 and the bottom electrode 212, the anti-slip component 2 of the embodiment is a silicone tape, but other frictions can also be used. The material has a higher coefficient and is less likely to produce a relative sliding material with the surface in contact with each other. Referring to Figures 4 to 6, when the frame plates U are joined, the first plate edge 113 and the other frame of the frame plate 11 are The second plate edges 114 of the plate η are opposed to each other, and are framed by the splicing structure 丨2, wherein the top edge 6 M435057 111 of the frame plates u cooperate to define a top opening 1 〇1, the frames The bottom edge 112 of the panel is joined to define a bottom opening 1〇2. More specifically, when the frame plates 11 are joined, one of the first hooks 13 of the frame is snapped into the other frame. The first card slot 14 of the stack (ie, the first extension 131 extends into the first slot segment 141, the first projection 132 extends into the second slot segment μ]), and the first positioning post 171 of one of the frame plates 11 extends The first positioning slot 172 of the other frame plate u, the second positioning slot 174 of one of the frame plates U, and the second positioning post 173 of the other frame plate 11 extend into the second slot 16 of the frame plate u. The second hook 15 of the other frame u is engaged (ie, the second extension I" extends into the third slot 161, and the second projection 152 extends into the fourth slot 162). First second The first and second bumps 132' 152 of the hooks 13, 15 are engaged with the structural interference generated by the first and second card slots 14, 16 to prevent displacement of the two frame plates in a direction away from each other. By the positioning effect generated by the first and second positioning posts m, 173 extending into the first and second positioning slots m, 174, it is possible to prevent the two-phase joined frame plates 11 from being generated. Displacement in a direction away from the other. The battery cells 2 are placed in the stomach of the frame n-joined into the stomach, and the frame plates 11 are joined in a frame shape and the battery cells 2 are placed in the battery holder. The top electrode 211 of the battery is also exposed to the top opening 1〇1: the bottom electrode 212 of the battery 21 is exposed to the bottom opening 1() 2, and each battery cell το 2 is located in a contact surface area η? , the battery unit 2 adjacent to the inner wall surface of the frame plate u: the inner surface of the frame plate u: the contact portion 117 of the battery unit 2 is contacted by the non-sliding member 22 The surface area (1) is in contact with each other, wherein by the frame plate (four), the power of the (4) 7 M435057 is forced to force the battery sheets it 2 to be squeezed, and then high Set the number of rub-based anti-slip member 22, and the anti-slip member 22 is formed with a plate frame design u contact surface area 117 of the single-battery & 2 between the more robust frame plate accommodated in Π. In summary, the present invention cooperates with the battery holder 丨 in a frame-like structure, and provides a large contact area with the adjacent battery unit 2 by the inner wall surface 115 of the frame plate, and cooperates with the anti-slip effect provided by the anti-slip member 22, The battery unit 2 is relatively stably accommodated between the frame plates 11 to prevent the battery unit 2 from being easily detached from the battery holder 1 due to external force vibration or falling, so that the object of the present invention can be achieved. However, the above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, that is, the simple equivalent change and modification of the novel patent application scope and the new description content. , are still within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a preferred embodiment of the battery pack of the present invention; FIG. 2 is a perspective view of the preferred embodiment, and one of the battery packs of the battery pack is exploded; 3 is an exploded view of the preferred embodiment, and all of the frame plates of the battery holder are exploded; FIG. 4 is a perspective view of the battery holder of the preferred embodiment; FIG. 5 is a plan view of the preferred embodiment; It is a cross-sectional view taken along the AA direction in Fig. 5. 8 M435057 [Main component symbol description]
1........ ••電池座 141… •…第一槽段 100…… ••電池組 142… •…第二槽段 101 ••頂部開口 15…… •…第二卡勾 102 ….· …底部開口 151… •…第二延伸段 11....... ••框板 152 ... •…第二凸塊 111 ··.·. ••頂緣 16…… •…第二卡槽 112 ··... ••底緣 161 ... •…第三槽段 113 ..… ••第一板緣 162… .···第四槽段 114 ··.·· ••第二板緣 171… •…第一定位柱 115 ••内壁面 172… —苐 疋位槽 116 ·.... ••外壁面 173 ... …第二定位柱 117 ••接觸面區 174… …·第二定位槽 118 ··.·. ••上框條 2 ....... •…電池單元 119 •.… ••下框條 21…… …·電池 12....... ••拼接結構 211… •…頂端電極 13....... ••第一卡勾 212 ··· …·底端電極 131 ·.··· ••第一延伸段 213 ... …·外周面 132 ••第一凸塊 22…… …·止滑件 14....... …第卡槽 91........ ••Battery holder 141... •...first slot segment 100... ••battery pack 142... •...second slot segment 101 ••top opening 15... •...second hook 102 ..... ... bottom opening 151... •... second extension 11.. ••frame plate 152 ... •...second bump 111 ·····.••top edge 16... •...Second card slot 112··... ••Bottom edge 161 ... •...third slot segment 113 ..... ••first plate edge 162.....···fourth slot segment 114··. ·· ••Second plate edge 171... •...First positioning post 115 ••Inner wall surface 172...——Clamping groove 116 ·.. ••Outer wall surface 173 ... 2nd positioning post 117 •• Contact surface area 174...··Second positioning groove 118 ·····••上框条2.....................Battery unit 119 •.... ••Bottom frame 21.........·Battery 12 ....... ••Splicing structure 211... •...top electrode 13........•first hook 212 ··· ...· bottom electrode 131 ·.··· •• first Extension section 213 ... outer peripheral surface 132 • first projection 22 ... ... ... slip slider 14 ... ... ... card slot 9