JP3111280U - Electrode plate for alkaline storage battery - Google Patents
Electrode plate for alkaline storage battery Download PDFInfo
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- JP3111280U JP3111280U JP2005002176U JP2005002176U JP3111280U JP 3111280 U JP3111280 U JP 3111280U JP 2005002176 U JP2005002176 U JP 2005002176U JP 2005002176 U JP2005002176 U JP 2005002176U JP 3111280 U JP3111280 U JP 3111280U
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Abstract
【課題】極板の芯体に極板耳をシーム溶接で溶接する際に溶接部に発生する溶接ダレやバリがセパレータを貫通して短絡事故が起きるのを防止できるアルカリ電池用極板を提供する。
【解決手段】極板耳を有する異極性の極板が、該極板耳が同一方向に突出するようにしてセパレータを介して相対向して積層配置されて使用されるアルカリ蓄電池用極板において、該極板は芯体に活物質が塗布充填されたものであり、該芯体の一部を、対向する異極性の相手極板の高さより上方に突出させ、該突出させた相手極板高さより上方で極板耳を溶接して取付けている。
【選択図】図1
Provided is an alkaline battery electrode plate capable of preventing a welding sag or burr generated in a welded portion from passing through a separator and causing a short-circuit accident when a plate electrode ear is welded to a core body of the electrode plate by seam welding. To do.
An electrode plate for an alkaline storage battery in which electrode plates of different polarities having electrode tabs are stacked and used facing each other through a separator so that the electrode plate ears protrude in the same direction. The electrode plate is obtained by coating and filling the core with an active material, and a part of the core body protrudes above the height of the opposite electrode plate of opposite polarity, and the protruding counter electrode plate The electrode plate ear is welded and installed above the height.
[Selection] Figure 1
Description
本考案は、アルカリ蓄電池、特に芯体の一部を対向する異極板より上方に突出させ、該突出部と集電耳とを溶接したアルカリ蓄電池用極板に関するものである。 The present invention relates to an alkaline storage battery, and more particularly, to an alkaline storage battery electrode plate in which a part of a core is protruded upward from a facing opposite electrode plate and the protruding portion and a current collecting ear are welded.
従来、ニッケル・カドミウム蓄電池などのアルカリ蓄電池は、正極板と負極板のそれぞれ複数枚をセパレータを介して互いに積層し、これを電槽に収納して製造される。アルカリ蓄電池用極板は、ニッケル或いはニッケルメッキされた鉄板に多数の穴を穿孔した多孔芯体にニッケル粉のスラリーを塗布充填した後、焼結してなる焼結基板に活物質を充填した焼結式極板、或いはこの多孔芯体にペースト状活物質を塗布充填してなるペースト式極板が用いられている。そして、これら極板に集電耳を溶接により取り付けたものが知られている。 Conventionally, an alkaline storage battery such as a nickel-cadmium storage battery is manufactured by laminating a plurality of positive and negative electrode plates with a separator interposed between them, and storing them in a battery case. The electrode plate for an alkaline storage battery is a sintered body in which a nickel powder slurry is applied and filled in a porous core body in which a large number of holes are drilled in nickel or a nickel-plated iron plate, and then sintered in a sintered substrate filled with an active material. A bonded electrode plate or a paste electrode plate obtained by applying and filling a paste-like active material to the porous core is used. And what attached the current collection ear to these electrode plates by welding is known.
例えば、正極集電耳を帯状正極にシーム溶接機によって連続的に溶接し、同様に負極集電耳を帯状負極にもう1つのシーム溶接機によって連続的に溶接し、正極集電耳と負極集電耳がそれぞれシーム溶接された帯状正極と帯状負極とは、引き続いて正極活物質領域と負極活物質領域とが帯状のセパレータを介して重ね合わされるように巻回されて、渦巻型電極集合体が組み立てられるもの(特許文献1)が知られている。 For example, the positive electrode current collector ear is continuously welded to the belt-like positive electrode by a seam welder, and the negative electrode current collector ear is continuously welded to the belt-like negative electrode by another seam welder. The strip-like positive electrode and the strip-like negative electrode, each of which is seam-welded, are wound so that the positive electrode active material region and the negative electrode active material region are overlapped with each other via a strip-shaped separator. Is known (Patent Document 1).
特許文献1に記載される方法では、帯状集電体に櫛型集電耳をシーム溶接機を用いて溶接を行い、帯状正極の長さ方向の内部抵抗を低減すると共に、露出側縁を機械的に補強するものである。また、特許文献1に記載の円筒形電池では、櫛型集電耳の突出部は正極板と負極板とで両端面から互いに逆方向に突出しているため、溶接ダレやバリの問題をあまり考慮する必要が無かった。 In the method described in Patent Document 1, a comb-shaped current collector ear is welded to a belt-shaped current collector using a seam welder to reduce the internal resistance in the length direction of the belt-shaped positive electrode, and the exposed side edge is machined. To reinforce. Further, in the cylindrical battery described in Patent Document 1, since the protruding portion of the comb-shaped current collecting ear protrudes in opposite directions from the both end surfaces of the positive electrode plate and the negative electrode plate, the problem of welding sag and burrs is not much considered. There was no need to do.
然しながら、集電耳の突出部が正極板と負極板とで同一方向である角形電池では、シーム溶接時に、集電耳の端部において溶けた金属がはみ出し溶接ダレやバリが発生した場合、正・負極板の集電耳が同一方向であるため集電耳やその近傍が相手極と向き合うために、セパレータが貫通したとき短絡を起こす等の恐れがあった。 However, in a prismatic battery in which the protruding part of the current collecting ear is in the same direction on the positive electrode plate and the negative electrode plate, when the metal melted at the end of the current collecting ear protrudes during seam welding, -Since the current collecting ears of the negative electrode plate are in the same direction, the current collecting ears and the vicinity thereof face the other electrode, which may cause a short circuit when the separator penetrates.
本考案は、これら従来の課題を解決するもので、集電耳を有する異極性の極板が該集電耳が同一方向に突出するようにしてセパレータを介して互いに相対向して配置されて使用されるアルカリ蓄電池用極板において、該極板は芯体に活物質が塗布充填されたものであり、該芯体の一部を、対向する異極性の相手極板の高さより上方に突出させ、該突出させた芯体に集電耳を溶接により取付けてなることを特徴とするものである。 The present invention solves these conventional problems, and polar plates having current collecting ears are arranged opposite to each other via a separator so that the current collecting ears protrude in the same direction. In the alkaline storage battery electrode plate to be used, the electrode plate is obtained by coating and filling the core with an active material, and a part of the core protrudes above the height of the opposing electrode plate of opposite polarity. The current collecting ear is attached to the protruding core body by welding.
本考案による極板を用いることにより、芯体の一部を対向する異極性の相手極板の高さより上方に突出させ、該突出させた芯体に集電耳を溶接することで、溶接ダレやバリが発生してもセパレータの貫通による短絡を防止することが可能である。 By using the electrode plate according to the present invention, a part of the core is protruded above the height of the opposite electrode plate of opposite polarity, and the current collecting ear is welded to the protruded core, Even if burrs occur, it is possible to prevent a short circuit due to the penetration of the separator.
本考案の実施の形態を図1および図2により説明する。図に於いて、同じ符号は同じ構成部材を示す。 An embodiment of the present invention will be described with reference to FIGS. In the drawings, the same reference numerals indicate the same components.
本考案によるアルカリ蓄電池用極板は、芯体の一部を対向する異極性の相手極板の高さより上方に突出させ、該突出させた芯体に集電耳をシーム溶接することを特徴とするものである。 An electrode plate for an alkaline storage battery according to the present invention is characterized in that a part of a core is protruded above the height of a counter electrode of opposite polarity, and current collecting ears are seam welded to the protruded core. To do.
図1は本考案のアルカリ蓄電池用極板が積層された状態の一部を示す図である。1は正極板、2は負極板、3はセパレータである。図示の通り、正負極板1、2は同じ大きさであり、それぞれ極板の上部に極板耳11、21が取付けられて各正負極板1、2の極板耳11、21は、互い違いになる様にその端部に形成されるが、同一方向に突出する様に相対向して積層されているものである。そしてその際、極板と極板耳の溶接部分aは相手極板の高さより上方に位置しているものである。通常これら正負極板1、2は多数積層されて極板群を構成し、これら同極性の極板の極板耳11、21を極柱端子に結束溶接して、電槽に収納され角形のアルカリ蓄電池が作製されるものである。 FIG. 1 is a view showing a part of a state in which the alkaline storage battery electrode plate of the present invention is laminated. 1 is a positive electrode plate, 2 is a negative electrode plate, and 3 is a separator. As shown in the figure, the positive and negative electrode plates 1 and 2 have the same size, and the electrode plate ears 11 and 21 are attached to the upper portions of the electrode plates, respectively. It is formed at the end so as to become, but are stacked opposite to each other so as to protrude in the same direction. At that time, the welded portion a between the electrode plate and the electrode plate ear is located above the height of the mating electrode plate. Usually, a large number of these positive and negative electrode plates 1 and 2 are laminated to form an electrode plate group, and electrode plate ears 11 and 21 of the electrode plates of the same polarity are bonded and welded to the pole column terminals, and are stored in the battery case and are square. An alkaline storage battery is produced.
図2は正極板1の図である。該正極板1は両端に孔が形成されていない無地部が形成されその他中央には多数の孔が穿孔された多孔芯体に活物質を充填して活物質層12を形成し、所定形状に切断されて作製される。そして芯体の下方の無地部13は活物質層から少し離れた部分を切断して少しの無地部13を残す一方、上部の無地部14は一部のみを活物質層から大きく突出させ、その他は下部同様に少しだけ離れた部分を切断し、この突出した部分を極板耳の取付部15とした。そして、別途作製した極板耳11を該取付部15にシーム溶接して取付けたものである。この際、該極板耳11の取付部15への溶接は、上部の無地部14の他の部分より十分上方で溶接し、溶接ダレやバリが発生しても点線で示す上部の無地部14の他の部分の相当位置には架からないようにした。極板耳の溶接位置は該相当位置より1mm以上、好ましくは2mm以上が良い。 FIG. 2 is a diagram of the positive electrode plate 1. The positive electrode plate 1 is formed with a solid portion where no holes are formed at both ends, and an active material layer 12 is formed by filling an active material into a porous core body having a large number of holes drilled at the center. It is made by cutting. And the plain part 13 below the core body cuts a part slightly away from the active material layer to leave a little plain part 13, while the upper plain part 14 greatly protrudes only a part from the active material layer, As in the lower part, the part slightly separated was cut, and this protruding part was used as the electrode plate mounting part 15. Then, separately prepared electrode plate ears 11 are attached to the attachment portion 15 by seam welding. At this time, welding of the electrode plate ear 11 to the mounting portion 15 is performed sufficiently above the other portion of the upper plain portion 14, and even if welding sag or burr occurs, the upper plain portion 14 indicated by a dotted line. It was made not to hang on the corresponding position of other parts. The welding position of the electrode plate ear is 1 mm or more, preferably 2 mm or more from the corresponding position.
なお、溶接はシーム溶接に限らず、スポット溶接等を用いても良い。 Note that welding is not limited to seam welding, and spot welding or the like may be used.
鉄にニッケルメッキしてなる長尺の芯体に、その長さ方向の両側部に無地部を形成して中央部にパンチングにより多数の孔を開口形成した多孔芯体の該開口部にスラリー状ニッケル粉を塗布した焼結基板に水酸化ニッケルからなる正極活物質を含浸し、これを図2に示す様に所定形状の大きさに切断して正極板1を得た。12は多孔芯体に活物質が塗布された活物質層、13は活物質の塗布されていない下部の無地部、15は上部の無地部14を打抜き形成した突出する取付部である。これに、ニッケル板から別途打抜き形成した短冊状の極板耳11を、正極板1に突出形成した取付部15に重合し、この重合された正極板1と極板耳11を、上下対向して配置された回転円板電極(図示せず)間に通して加圧し、極板耳11と正極板1とをシーム溶接した。この実施例で極板耳11の溶接位置は上部の無地部14の他の部分の相当位置より2mm上方に取付けた。なお、aは溶接部分である。 A long core made of nickel-plated iron has a solid state on both sides in the length direction, and a large number of holes are formed by punching in the center. The sintered substrate coated with nickel powder was impregnated with a positive electrode active material made of nickel hydroxide, and cut into a predetermined shape as shown in FIG. Reference numeral 12 denotes an active material layer in which an active material is applied to the porous core, 13 denotes a lower plain portion where no active material is applied, and 15 denotes a protruding mounting portion formed by punching and forming the upper plain portion 14. To this, a strip-shaped electrode plate ear 11 formed by punching separately from a nickel plate is superposed on a mounting portion 15 formed to project from the positive electrode plate 1. The electrode plate 11 and the positive electrode plate 1 were seam welded to each other by pressurizing between the rotating disk electrodes (not shown). In this embodiment, the electrode plate 11 was welded at a position 2 mm above the corresponding position of the other portion of the upper plain portion 14. In addition, a is a welding part.
一方、負極板は、正極板と同様の長尺の多孔芯体を用い、これに水酸化カドミウムからなるペースト状負極活物質を塗布充填し、正極板と同寸の形状に打抜いた後、正極板と同様に突出する取付部に極板耳をシーム溶接した。 On the other hand, the negative electrode plate uses a long porous core similar to the positive electrode plate, and is coated with a paste-like negative electrode active material made of cadmium hydroxide and punched into the same size as the positive electrode plate. Similarly to the positive electrode plate, the electrode plate ear was seam welded to the protruding mounting portion.
(比較例1)
図3に示すように、極板の芯体に無地部および取付部を形成しない以外は、実施例と同様に正極板および負極板を形成し、活物質の一部を除去しこれに極板耳を溶接した。
(比較例2)
図4に示すように、極板の芯体に突出する取付部を形成しない以外は、実施例と同様に正極板および負極板を形成し、上部の無地部に極板耳を溶接した。
(Comparative Example 1)
As shown in FIG. 3, a positive electrode plate and a negative electrode plate are formed in the same manner as in the example except that the plain portion and the attachment portion are not formed on the core of the electrode plate, and a part of the active material is removed to the electrode plate. The ear was welded.
(Comparative Example 2)
As shown in FIG. 4, a positive electrode plate and a negative electrode plate were formed in the same manner as in the example except that the attachment portion protruding from the core of the electrode plate was not formed, and the electrode plate ear was welded to the upper plain portion.
上記実施例で得た正極板16枚と負極板15枚を図1に示すように極板耳を同一方向へ突出させ、2枚重ねのポリプロピレン不織布間にポリプロピレンフィルムを挟み込んだ積層セパレータを介して交互に積層して極板群とし、これを電槽内に収納して開放形の角形アルカリ蓄電池を作製した。 As shown in FIG. 1, 16 positive electrode plates and 15 negative electrode plates obtained in the above-described embodiment are protruded in the same direction as shown in FIG. 1, and a laminated separator in which a polypropylene film is sandwiched between two laminated polypropylene nonwoven fabrics. The electrode plates were alternately laminated to be housed in a battery case, and an open prismatic alkaline storage battery was produced.
同様にして比較例1および2で得た正・負極板を用いて各々同様の開放形の角形アルカリ蓄電池を作製した。 Similarly, using the positive and negative electrode plates obtained in Comparative Examples 1 and 2, similar open-type prismatic alkaline storage batteries were produced.
これらアルカリ蓄電池を120個ずつ作製し、サイクル寿命試験を行った。比較例1の極板を用いた比較例蓄電池1は120個中3個、比較例2の極板を用いた比較例蓄電池2は120個中1個が電圧異状であった。解体の結果、耳溶接部分のバリがセパレータを貫通して短絡していた。本考案の極板を用いた角形アルカリ蓄電池においてはバリの存在は確認されたが短絡していたものはなかった。 120 pieces of these alkaline storage batteries were produced and subjected to a cycle life test. In Comparative Example Storage Battery 1 using the electrode plate of Comparative Example 1, 3 out of 120, and in Comparative Example Storage Battery 2 using the electrode plate of Comparative Example 2, 1 out of 120 was abnormal in voltage. As a result of the dismantling, the burrs at the ear welded part penetrated the separator and were short-circuited. In the prismatic alkaline storage battery using the electrode plate of the present invention, the presence of burrs was confirmed, but none was short-circuited.
なお、上記実施例では極板耳の下端部を取付部に溶接する際にその下端部の該取付部に重なる全面をシーム溶接したが、極板耳の及び下端及び側端に1mm程度の幅で未溶接部を形成する様にしても良い。また、シーム溶接に限らず、スポット溶接等により溶接しても良い。 In the above embodiment, when the lower end portion of the electrode plate ear is welded to the attachment portion, the entire surface of the lower end portion that overlaps the attachment portion is seam welded, but the width of the electrode plate ear, the lower end and the side end is about 1 mm. In this case, an unwelded portion may be formed. Further, the welding is not limited to seam welding but may be performed by spot welding or the like.
以上の結果、相手極板の高さより上方に突出する取付部に極板耳を溶接したので、溶接ダレやバリがたとえ発生したとしても、セパレータを貫通して相手極と短絡することがなく、短絡を防止することが出来る。 As a result of the above, since the electrode plate ear was welded to the mounting portion protruding above the height of the counter electrode plate, even if welding sag or burr occurred, there was no short circuit with the counter electrode through the separator, Short circuit can be prevented.
1 正極板
11 極板耳
12 活物質層
13 下方の無地部
14 上方の無地部
15 取付部
2 負極板
21 極板耳
3 セパレータ
4 別途形成された極板耳
a 溶接部分
DESCRIPTION OF SYMBOLS 1 Positive electrode plate 11 Electrode plate ear 12 Active material layer 13 Lower plain part 14 Upper plain part 15 Mounting part 2 Negative electrode plate 21 Electrode plate ear 3 Separator 4 Separately formed electrode plate ear a Welded part
Claims (1)
An electrode plate for an alkaline storage battery in which different polarity electrode plates having electrode plate ears are stacked and used facing each other through a separator so that the electrode plate ears protrude in the same direction. Is an active material coated and filled on the core, and a part of the core projects above the height of the opposing opposite polarity counter electrode plate, and above the protruding counter electrode plate height. An electrode plate for an alkaline storage battery, which is formed by welding electrode plate ears.
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Cited By (1)
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US9825324B2 (en) | 2014-01-28 | 2017-11-21 | Lg Chem, Ltd. | Electrode assembly and battery cell including the same |
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US9825324B2 (en) | 2014-01-28 | 2017-11-21 | Lg Chem, Ltd. | Electrode assembly and battery cell including the same |
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