4 捌、新型說明: 【新型所屬之技術領域】 本創作係一種有關蓄電池結構改良,主要係在於:該 蓄電池没有咼出盒體的區隔板,並於相鄰區隔板的凸出部 父錯設製透孔,作為相鄰正、負極電極板的正、負極串聯 相接之用’該盒蓋内部設有與凸出部吻合的凹陷部,可提 高電極板的高度,使電容量增加,盒蓋兩邊的正、負極導 電座設有定位肋、定位板與定位槽,作為正、負極導電片 定位之用。 【先前技術】 按以,傳統習用的蓄電池結構,敬請參閱第一圖所示 :係習式之立體分解示意圖。與第二圖所示:係習式之斷 面組合示意圖。其結構主要係在於:該蓄電池1包括一盒 體10、電極板2 〇、盒蓋3 0,其中盒體1〇内部設有 若干等分的區隔板11,並在區隔板11所區隔的空間内 放置電極板2 〇,該電極板2 〇上方設有正、負極21、 2 2 ’該區隔板11在對應於正、負極21、2 2處設有 透孔12,讓相鄰電極板2 0的正、負極21、2 2相接 成一體’同時在第一塊與最後一塊的電極板2 〇上另外設 有可以導出的正、負極2 3、2 4,該盒蓋3 0對應於正 、負極2 3、2 4處設製轴向穿孔31、3 2,且在軸向 穿孔31、3 2設製徑向螺孔3 3、3 4,讓正、負極電 、線4 〇、4 1可以插入徑向螺孔3 3、3 4中,與正、負 3、2 4相接,再以螺絲P鎖設於徑向螺孔3 3、3 4中。 5 5M253909 惟上述傳統習用的蓄電池結構,在實際應用上,仍然 存在下列幾項尚待克服解決的問題與缺失: 一·習用蓄電池1的隔板1 1與盒體i 0内部平齊, 由於電極板20的高度低於隔板11,所以蓄電池i的電 容量較小。 二、習用蓄電池的正、負極電線4 〇、41由徑向螺 孔3 3、3 4接於電極板20的正、負極23、24時, 容易脫落。 【新型内容】 新型解決問題一之技術手段··本創作為了增加蓄電池 的電解液容量,特別將區隔板的高度增加,讓區隔板的凸 出部可以尚出盒體,同時配合在盒蓋内部設製凹陷部,使 益蓋的凹陷部可以蓋合於區隔板的凸出部,另外在凸出部 設製透孔,讓轉正、貞極電極板的正、貞極可以相接。 新型解決問題二之技術手段:本創作為了方便定位正 、負極導電片以及赫正、負極電線,特別在盒蓋的兩邊 設製正、負極導電座,同時在正、負極導電座設置定位肋 、疋位板與定位槽,讓正、負極導電片與螺帽在定位肋、 定位板與定_制之τ,迅速且確實鱗設定位在正 負極導電座上’另外正、貞極導電片的垂直板面與水平 板面上都設有透孔,作為螺栓垂直或是水平鎖設之用。 新型對照先前技術之功效一 ··由於將連接電極板正、 負極的透孔設置在高出盒體的區隔板上方,所以可以使電 極板的高度提高,有效提昇㈣池的電容量。 新型對照先前技術之功效二··利用正、負極導電座三 6 6M253909 邊的定位肋、定位板與定位槽,方便裝設正、負極導電片 與螺帽’同時可以將正、負極電線直接接在螺栓上,再由 螺栓鎖入埋設在正、負極導電片的螺帽中,不但裝設方便 ’而且正、負極電線亦不會有脫落之虞。 【實施方式】 為使專精熟悉此項技藝之人仕業者易於深入瞭解本創 作的構造内容以及所能達成的功能效益,茲列舉一具體實 施例,並配合圖式詳細介紹說明如下: 一種蓄電池結構改良,敬請參閱第三圖所示:係本創 作之立體分解示意圖。與第四圖所示:係本創作之斷面組 合示意圖。其結構主要係在於:該蓄電池2係由盒體5 〇 、電極板6 0、盒蓋7 〇、導電片8 〇所組成,該盒體5 0内部一體成型設有若干等分的區隔板51,每一塊區隔 板51上方高出盒體5 〇設有凸出部5 2,同時配合在盒 蓋70内部設製凹陷部7〇1,使盒蓋7〇的凹陷部7〇 1可以蓋合於區隔板51的凸出部5 2,相鄰區隔板51 的凸出部5 2設有一前、一後位置交錯的透孔5 3,並在 區隔板51所區隔的空間内放置電極板6 〇,該電極板6 〇上方對應於透孔5 3處設有正、負極61、6 2,讓相 鄰電極板6 0的正、負極61、6 2串聯相接,同時在盒 體5 0内部注入電解液(如第五圖所示)。 上述第一塊與最後一塊的電極板6 〇上另外設有可以 導出的正、負極6 3、64,該盒蓋7〇兩邊對應於正、 負極6 3、6 4處設有正、負極導電座7工。 敬睛參閱第六圖所示:係本創作導電座實施一之立體 7 7M253909 刀解不意圖。與第七圖所示··係本創作導電座實施一之侧 視局部剖示圖。以及第八圖所示:係本創作導電座實施一 之俯視局部剖示圖。該正、負極導電座71設有槽孔7 2 ,可供正、負極導電片8 0的插設部81插設之用,並於 正、負極導電座71前方設置定位肋7 3,該正、負極導 電片8 0設有垂直面板8 2、水平面板8 3、側邊面板8 4,該垂直面板8 2可以固定在定位肋7 3的位置,而側 邊面板84則可供螺帽N頂抵之用,同時在正、負極導電 片8 0的垂直面板8 2與水平面板8 3設有可供螺栓p穿 設的透孔8 5。 實施二的第九、十、^^一圖與實施一的第六'七、八 圖的差異,僅是在於該正、負極導電座7 的槽孔7 2前 方設有定位槽7 4,該正、負極導電片80對應於定位槽 7 4處設有U型面板8 6,藉以定位在定位槽7 4中。 實施三的第十二、十三、十四圖與實施一的第六、七 、八圖的差異,僅是在於該正、負極導電片8 〇沒有側邊 面板8 4,為了讓螺帽N可以定位,所以在正、負極導電 座71的側邊設有一橫向定位板7 5。 實施四的第十五、十六、十七、十八圖與實施二的第 九、十、十一圖的差異,僅是在於該正、負極導電片8 Q 沒有側邊面板8 4,為了讓螺帽N可以定位,所以在正、 負極導電座71的侧邊設有一橫向定位板75。 實施五的第十九、二十、二十一、二十二圖與實施四 的十五、十六、十七、十八圖的差異,僅是在於該橫向定 位板75亦可改成二列縱向定位板76。 實施六的第二十三、二十四、二十五圖與實施三第十 一十一十四圖的差異,僅是在於該橫向定位板7 5亦 可改成二列縱向定位板7 6,而且在正、負極導電座7 i 後邊亦設有二列縱向定位板7 7,作__定位之用。 藉由上述各元件組合而成之本創作,係在提供一種蓄 電池結構改良,在實際_上,以實施四為例,敬請參閱 第十、+七圖戶斤示·係本創作實施四螺栓垂直鎖設 前、後之局部剖示圖。與第二十八、二十九圖所示:係本 創作實施四螺栓水平鎖設前、後之局部剖示圖。使用者可 以選擇在正、負極導電片8⑽垂直面板8 2或是水平面 板8 3位置鎖設螺栓p與螺帽N。 、綜合上述所陳,本鑛係提供-種蓄電池結構改良, 經過本創作人實際製做完細及反覆操制試之後,證實 的確可以達到本創作所職的功能效益,同時又為目前坊 間尚無見聞之「首先創作」,具有「產業上的利用價值」, 誠然已經符合新型補「實祕」與「進步性」之成立要 義麦依專利法之規定,肖鈞局提出新型專利之申請。 【圖式簡單說明】 第一圖:係習式之立體分解示意圖。 第一圖·係習式之斷面組合示意圖。 第三圖:係本創作之立體分解示意圖。 第四圖··係本創作之斷面組合示意圖。 五圖·本創作在盒體注滿電解液之斷面組合示意圖。 第/、圖·係本創作導電座實施一之立體分解示意圖。 第七圖·係本創作導電座實施一之側視局部剖示圖。 9 9M253909 第八圖:係本創作導電座實施一之俯視局部剖示圖。 第九圖··係本創作導電座實施二之立體分解示意圖。 - 第十圖:係本創作導電座實施二之側視局部剖示圖。 第十一圖··係本創作導電座實施二之俯視局部剖示圖。 第十二圖:係本創作導電座實施三之立體分解示意圖。 第十三圖··係本創作導電座實施三之側視局部剖示圖。 第十四圖:係本創作導電座實施三之俯視局部剖示圖。 第十五圖:係本創作導電座實施四之立體分解示意圖。 第十六圖··係本創作導電座實施四之侧視局部剖示圖。 鲁 第十七圖··係本創作導電座實施四之俯視局部剖示圖。 第十八圖:係本創作導電座實施四之前視局部剖示圖。 第十九圖:係本創作導電座實施五之立體分解示意圖。 第二十圖:係本創作導電座實施五之側視局部剖示圖。 第二十一圖:係本創作導電座實施五之俯視局部剖示圖。 ^ 第二十二圖:係本創作導電座實施五之前視局部剖示圖。 第二十三圖:係本創作導電座實施六之立體分解示意圖。 第二十四圖:係本創作導電座實施六之侧視局部剖示圖。 鲁 第二十五圖··係本創作導電座實施六之俯視局部剖示圖。 第二十六圖:係本創作實施二螺栓垂直鎖設前之局部剖示 圖。 第二十七圖:係本創作實施二螺栓垂直鎖設後之局部剖示 圖。 第二十八圖:係本創作實施二螺栓水平鎖設前之局部剖示 圖。 · 第二十九圖:係本創作實施二螺栓水平鎖設後之局部剖示 ^ 10 10M253909 圖。 主要部分代表符號說明 [習式部份] 1蓄電池 1 0盒體 1 1區隔板 1 2透孔 2 0電極板 2 1正極 2 2負極 2 3正極 2 4負極 3 0盒蓋 31轴向穿孔 3 2軸向穿孔 3 3徑向螺孔 3 4徑向螺孔 4 0正極電線 41負極電線 P 螺絲 [本創作部份] 2 蓄電池 5 0盒體 5 1區隔板 5 2凸出部 5 3透孔 6 0電極板 6 1正極 6 2負極 6 3正極 6 4負極 70盒蓋 7 01凹陷部 71正、負極導電座 7 2槽孔 7 3定位肋 7 4定位槽 7 5橫向定位板 7 6縱向定位板 11 M253909 7 7縱向定位板 8 0正、負極導電片 8 2垂直面板 8 4側邊面板 8 6U型面板 N螺帽 8 1插設部 8 3水平面板 8 5透孔 P 螺栓穿4 新型 Description of the new type: [Technical field to which the new type belongs] The present invention relates to the improvement of the battery structure, mainly because the battery does not have a partition plate protruding out of the box body, and is protruded from the adjacent portion of the partition plate. Staggered through holes for adjacent positive and negative electrode plates are connected in series. 'The inside of the box cover is provided with a recessed portion that matches the protruding portion, which can increase the height of the electrode plate and increase the capacitance. The positive and negative conductive seats on both sides of the box cover are provided with positioning ribs, positioning plates and positioning grooves for positioning the positive and negative conductive sheets. [Previous technology] According to the conventional battery structure, please refer to the first figure: a three-dimensional exploded view of the conventional style. As shown in the second figure: a cross-section combination diagram of the habit style. The structure is mainly that the battery 1 includes a box body 10, an electrode plate 20, and a box cover 30. The box body 10 is provided with a plurality of equally divided zone partitions 11, and the zone partition 11 An electrode plate 20 is placed in the separated space, and positive and negative electrodes 21, 2 2 are provided above the electrode plate 20. The partition plate 11 in this area is provided with through holes 12 corresponding to the positive and negative electrodes 21, 2 to allow phase The positive and negative electrodes 21 and 22 of the adjacent electrode plate 20 are connected to form a whole. At the same time, the positive and negative electrodes 2 3, 2 4 which can be derived are additionally provided on the first and last electrode plates 20, and the box cover 3 0 corresponds to the positive and negative poles 2 3, 2 and 4 are provided with axial holes 31, 3 2 and the axial perforations 31 and 3 2 are provided with radial screw holes 3 3 and 3 4 so that the positive and negative electrodes are electrically, The wires 4 0, 41 can be inserted into the radial screw holes 3 3, 3 4 and connected to the positive, negative 3, 24, and then locked in the radial screw holes 3 3, 3 4 with screws P. 5 5M253909 However, the above conventional conventional battery structure still has the following problems and shortcomings to be overcome in practical application: 1. The separator 11 of the conventional battery 1 is flush with the interior of the case i 0. The height of the plate 20 is lower than that of the separator 11, so that the capacity of the battery i is small. 2. The positive and negative wires 4 and 41 of the conventional battery are easily disconnected when they are connected to the positive and negative electrodes 23 and 24 of the electrode plate 20 through the radial screw holes 3 3 and 3 4. [New content] A new technical solution to the first problem ... In order to increase the electrolyte capacity of the storage battery, the height of the partition plate was specially increased so that the protruding portion of the partition plate could still be out of the box and fit in the box. A recessed part is provided inside the cover, so that the recessed part of the cover can fit the protruding part of the partition plate, and a through hole is set in the protruding part, so that the positive and positive electrodes of the positive electrode and the positive electrode can be connected to each other. . New technical solution to the second problem: In order to facilitate the positioning of the positive and negative conductive pieces and the positive and negative wires, the creation of the positive and negative conductive bases on both sides of the box cover, and positioning ribs on the positive and negative conductive bases. The positioning plate and positioning slot allow the positive and negative conductive pieces and nuts to be positioned on the positioning rib, the positioning plate and the fixed τ, and quickly and surely set on the positive and negative conductive pads. Through holes are provided on the vertical plate surface and the horizontal plate surface, and the bolts are used for vertical or horizontal locking. The new type contrasts with the previous technology. One. Since the through holes connecting the positive and negative electrodes of the electrode plate are arranged above the partition plate higher than the box body, the height of the electrode plate can be increased, and the capacitance of the cell can be effectively improved. The new type compares the effectiveness of the previous technology. 2. The positive and negative conductive bases are used. 6 6M253909 side positioning ribs, positioning plates and positioning grooves are convenient to install positive and negative conductive pieces and nuts. At the same time, positive and negative wires can be directly connected. On the bolts, the bolts are locked into the nuts buried in the positive and negative conductive pieces, which is not only convenient to install, but also that the positive and negative wires are not likely to fall off. [Embodiment] In order to make it easy for people who are familiar with this technology to understand the construction content of this creation and the functional benefits that can be achieved, a specific embodiment will be listed, and it will be described in detail with the illustration: Structural improvement, please refer to the third picture: a three-dimensional exploded view of this creation. As shown in the fourth figure: it is a schematic diagram of the section combination of this creation. Its structure is mainly that the battery 2 is composed of a box body 50, an electrode plate 60, a box cover 70, and a conductive sheet 80. The inside of the box body 50 is integrally formed with a number of divided partition plates. 51. A protruding portion 52 is provided above the box body 50 above each partition plate 51. At the same time, a recessed portion 701 is provided inside the box cover 70, so that the recessed portion 70 of the box cover 70 can Covering the protruding portions 5 2 of the partition plate 51, the protruding portions 5 2 of the adjacent partition plate 51 are provided with a through hole 5 3 staggered in front and rear positions, and are separated by the partition plate 51. An electrode plate 60 is placed in the space, and positive and negative electrodes 61 and 62 are provided above the electrode plate 60 corresponding to the through holes 53. The positive and negative electrodes 61 and 62 of the adjacent electrode plate 60 are connected in series. At the same time, electrolyte is injected into the box body 50 (as shown in the fifth figure). The above-mentioned first and last electrode plates 60 are additionally provided with positive and negative electrodes 6 3 and 64, and the sides of the cover 70 corresponding to the positive and negative electrodes 6 3 and 6 are provided with positive and negative electrodes. Block 7 workers. Pay close attention to the sixth figure: this is a three-dimensional 7 7M253909 solution for the creation of the conductive base. As shown in the seventh figure, it is a partial cross-sectional side view of the first embodiment of the conductive base of this creation. And the eighth figure: a partial plan view of the top of the conductive base of this creative implementation. The positive and negative conductive base 71 is provided with a slot 7 2 for inserting the insertion portion 81 of the positive and negative conductive pad 80, and a positioning rib 73 is provided in front of the positive and negative conductive base 71. The negative electrode conductive sheet 80 is provided with a vertical panel 8 2, a horizontal panel 8 3, and a side panel 84. The vertical panel 8 2 can be fixed at the position of the positioning rib 73, and the side panel 84 can be provided with a nut N. For the purpose of resistance, at the same time, the vertical panel 8 2 and the horizontal panel 8 3 of the positive and negative conductive sheets 80 are provided with through holes 8 5 through which the bolt p can pass. The difference between the ninth, tenth, and ninth drawings of the second embodiment and the sixth 'seventh and eighth drawings of the first embodiment is only that a positioning groove 7 4 is provided in front of the slot 7 2 of the positive and negative conductive base 7. The positive and negative conductive pieces 80 are provided with U-shaped panels 86 at positions corresponding to the positioning grooves 74, so as to be positioned in the positioning grooves 74. The difference between the twelfth, thirteenth, and fourteenth drawings of the third implementation and the sixth, seventh, and eighth illustrations of the first implementation is only that the positive and negative conductive sheets 8 〇 have no side panel 8 4, in order to make the nut N It can be positioned, so a lateral positioning plate 75 is provided on the side of the positive and negative conductive base 71. The difference between the fifteenth, sixteenth, seventeenth, and eighteenth drawings of the fourth implementation and the ninth, tenth, and eleventh implementations of the second implementation is only that the positive and negative conductive sheets 8 Q do not have side panels 8 4. Since the nut N can be positioned, a lateral positioning plate 75 is provided on the side of the positive and negative conductive base 71. The difference between the 19th, 20th, 21st, and 22nd drawings of the fifth implementation and the 15th, 16th, 17th, and 18th illustrations of the fourth implementation is only that the lateral positioning plate 75 can also be changed to 2 Column longitudinal positioning plate 76. The difference between the twenty-third, twenty-four, and twenty-fifth drawings of implementation six and the eleventh, eleventh and fourteenth illustrations of implementation three is only that the horizontal positioning plate 7 5 can also be changed to a two-row vertical positioning plate 7 6 Moreover, two rows of vertical positioning plates 7 7 are also arranged behind the positive and negative conductive seats 7 i for __ positioning. The original creation based on the combination of the above components is to provide an improvement in the structure of the battery. In practice, take the implementation of four as an example. Please refer to the tenth and the seventh illustration. Partial sectional view of the front and rear of the vertical lock. As shown in Figures 28 and 29, this is a partial cross-sectional view before and after the four-bolt horizontal lock is implemented in this creation. The user can choose to lock the bolts p and the nuts N at the positive and negative conductive pieces 8⑽vertical panel 8 2 or horizontal plate 8 3. Based on the above research, this mine department provides a kind of storage battery structure improvement. After the author's actual production and detailed trials, it has been confirmed that the functional benefits of the creative office can be achieved, and it is also the current The "first creation", which has not been heard, has "industrial use value". It is true that it has complied with the essentials of the establishment of a new type of "secret" and "progressiveness." In accordance with the provisions of the Patent Law, Xiao Jun Bureau applied for a new patent. [Schematic description] The first picture: a three-dimensional exploded view of the habit. The first figure is a schematic diagram of the sectional combination of the habitual style. The third picture is a three-dimensional exploded view of this creation. The fourth picture is the cross-section diagram of this creation. Wutu · This composition is a schematic diagram of the cross section of the case filled with electrolyte. / / Figure is a three-dimensional exploded schematic view of the first implementation of the creative conductive base. The seventh figure is a partial cross-sectional view of a side view of the first embodiment of the creative conductive base. 9 9M253909 Figure 8: This is a partial plan view of the top of the conductive base of this creative implementation. The ninth figure ... is a three-dimensional exploded view of the second embodiment of the conductive base of this creation. -Figure 10: This is a partial cross-sectional side view of the second embodiment of the conductive base of this creation. The eleventh figure is a partial cross-sectional top view of the second embodiment of the creative conductive base. Figure 12: This is a three-dimensional exploded view of the conductive base of the original creation. The thirteenth figure is a partial cross-sectional view of the third embodiment of the conductive base of this creation. The fourteenth figure: a partial plan view of the top three of the conductive base of this creation. Figure 15: This is a three-dimensional exploded view of the conductive base of this creation. The sixteenth figure is a partial cross-sectional view of the side view of the conductive base of the original creation. Lu XVII Figure ... This is a partial cross-sectional top view of the fourth embodiment of the conductive base in this creation. Figure 18: This is a partial cross-sectional view of the front of the conductive base of this creative implementation. Figure 19: This is a three-dimensional exploded view of the conductive base of this creation. Figure 20: This is a partial cross-sectional view of the fifth embodiment of the conductive base of this creation. Twenty-first figure: This is a partial plan view of the top of the conductive base of the creative implementation of the fifth plan. ^ Figure 22: This is a partial cross-sectional view of the conductive base before the implementation of the original five. Figure 23: This is a three-dimensional exploded view of the conductive base of the original creation. Figure 24: This is a partial cross-sectional view of the sixth embodiment of the creative conductive base. Lu Twenty-fifth Figure: This is a partial plan view of the sixth embodiment of this creative conductive base. Figure 26: This is a partial cross-sectional view of the two bolts before the vertical locking is implemented in this creation. The twenty-seventh figure: a partial cross-sectional view of the two bolts after vertical locking in this creation. Figure 28: This is a partial cross-sectional view of the two bolts before the horizontal lock is implemented in this creation. · Figure 29: This is a partial cross-sectional view of the two bolts after horizontal locking in this creation ^ 10 10M253909. The main part of the symbol description [customs] 1 battery 1 0 box 1 1 partition 1 2 through holes 2 0 electrode plate 2 1 positive 2 2 negative 2 3 positive 2 4 negative 3 0 cover 31 axial perforation 3 2 Axial perforation 3 3 Radial screw hole 3 4 Radial screw hole 4 0 Positive wire 41 Negative wire P Screw [This creative part] 2 Battery 5 0 Case 5 1 Zone partition 5 2 Projection 5 3 Through-hole 6 0 electrode plate 6 1 positive electrode 6 2 negative electrode 6 3 positive electrode 6 4 negative electrode 70 box cover 7 01 recessed portion 71 positive and negative electrode conductive seat 7 2 slot hole 7 3 positioning rib 7 4 positioning slot 7 5 lateral positioning plate 7 6 Longitudinal positioning plate 11 M253909 7 7 Longitudinal positioning plate 8 0 Positive and negative conductive plates 8 2 Vertical panel 8 4 Side panel 8 6U panel N nut 8 1 Insertion section 8 3 Horizontal panel 8 5 Through hole P Bolt penetration