JP2002231214A - Battery - Google Patents
BatteryInfo
- Publication number
- JP2002231214A JP2002231214A JP2001023664A JP2001023664A JP2002231214A JP 2002231214 A JP2002231214 A JP 2002231214A JP 2001023664 A JP2001023664 A JP 2001023664A JP 2001023664 A JP2001023664 A JP 2001023664A JP 2002231214 A JP2002231214 A JP 2002231214A
- Authority
- JP
- Japan
- Prior art keywords
- power generating
- battery
- generating element
- electrode
- battery according
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
Landscapes
- Secondary Cells (AREA)
- Battery Mounting, Suspending (AREA)
- Connection Of Batteries Or Terminals (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、巻回型や積層型の
発電要素の電極を集電接続体を介して端子に接続する電
池に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery for connecting electrodes of a wound or laminated power generating element to a terminal through a current collector.
【0002】[0002]
【従来の技術】電気自動車等に用いられる大型のリチウ
ムイオン二次電池の構成例を図4に示す。このリチウム
イオン二次電池は、長円筒形の発電要素1を4個密着し
て並べ並列接続したものである。各発電要素1は、図5
に示すように、正極1aと負極1bをセパレータ1cを
介して長円筒形に巻回したものである。正極1aは、電
極基体となる帯状のアルミニウム箔1dの表面に正極活
物質を担持させ、負極1bは、電極基体となる帯状の銅
箔1eの表面に負極活物質を担持させている。ただし、
これらの正極1aと負極1bは、それぞれ帯状の片方の
側端部に活物質を塗布しない未塗工部を設けておき、こ
の未塗工部でアルミニウム箔1dと銅箔1eが露出する
ようにしている。そして、これらの正極1aと負極1b
は、発電要素1の巻回の際に、巻回軸に沿って互いに反
対方向にずらすことにより、長円筒形の一方の端面には
正極1aの側端部のアルミニウム箔1dのみがはみ出
し、他方の端面には負極1bの側端部の銅箔1eのみが
はみ出すようにしている。2. Description of the Related Art FIG. 4 shows a configuration example of a large-sized lithium ion secondary battery used for an electric vehicle or the like. In this lithium ion secondary battery, four long cylindrical power generating elements 1 are closely arranged and connected in parallel. Each power generating element 1 is shown in FIG.
As shown in the figure, a positive electrode 1a and a negative electrode 1b are wound into a long cylindrical shape via a separator 1c. The positive electrode 1a carries a positive electrode active material on the surface of a strip-shaped aluminum foil 1d serving as an electrode substrate, and the negative electrode 1b carries a negative electrode active material on the surface of a band-shaped copper foil 1e serving as an electrode substrate. However,
Each of the positive electrode 1a and the negative electrode 1b is provided with an uncoated portion to which the active material is not applied at one side end of the strip, and the aluminum foil 1d and the copper foil 1e are exposed at the uncoated portion. ing. Then, these positive electrode 1a and negative electrode 1b
Is displaced in the opposite direction along the winding axis when the power generating element 1 is wound, so that only the aluminum foil 1d at the side end of the positive electrode 1a protrudes from one end surface of the long cylindrical shape, and the other end. Only the copper foil 1e at the side end of the negative electrode 1b protrudes from the end face of the negative electrode 1b.
【0003】上記4個の発電要素1は、図4に示すよう
に、長円筒形の平坦な側面同士が隣接するようにして並
べられる。そして、これらの発電要素1の両端面部にそ
れぞれ配置された波板状の集電接続体2に、各発電要素
1からはみ出した正極1aのアルミニウム箔や負極1b
の銅箔を接続するようになっている。集電接続体2は、
金属の平板を波板状の凹凸に成形し、これを2枚端部で
合わせると共に、この合わせ部の上端に端子3を接続固
定したものである。そして、正極端子3の側の集電接続
体2は、波板状の各凹部に発電要素1の一方の端面から
はみ出した正極1aのアルミニウム箔を挟み込んで超音
波溶接により接続固定し、負極端子3の側の集電接続体
2は、波板状の各凹部に発電要素1の他方の端面からは
み出した負極1bの銅箔を挿入して超音波溶接により接
続固定している。[0003] As shown in FIG. 4, the four power generating elements 1 are arranged such that flat side surfaces of long cylinders are adjacent to each other. Then, the aluminum foil of the positive electrode 1a or the negative electrode 1b protruding from each of the power generating elements 1 is attached to the corrugated current collectors 2 arranged on both end faces of the power generating elements 1 respectively.
Copper foil is connected. The current collector 2
A flat metal plate is formed into corrugated irregularities, which are joined together at the ends thereof, and the terminal 3 is connected and fixed to the upper end of the joint. Then, the current collector connector 2 on the side of the positive electrode terminal 3 sandwiches the aluminum foil of the positive electrode 1a protruding from one end face of the power generating element 1 in each of the corrugated plate-shaped recesses, and is connected and fixed by ultrasonic welding. In the current collector connector 2 on the side 3, the copper foil of the negative electrode 1 b protruding from the other end face of the power generating element 1 is inserted into each corrugated concave portion, and connected and fixed by ultrasonic welding.
【0004】上記4個の発電要素1は、図示しない金属
製の筐体の電池ケースに収納される。この際、正極端子
3と負極端子3の上端部は、絶縁封止材を介してこの電
池ケースを貫通し外部に突出するようになっている。そ
して、この電池ケースの内部に電解液が充填されること
によりリチウムイオン二次電池となる。[0004] The four power generating elements 1 are housed in a battery case of a metal housing (not shown). At this time, the upper ends of the positive electrode terminal 3 and the negative electrode terminal 3 penetrate this battery case via an insulating sealing material and protrude to the outside. The battery case is filled with the electrolytic solution to form a lithium ion secondary battery.
【0005】[0005]
【発明が解決しようとする課題】ところが、波板状の集
電接続体2は、高率放電時等に大きな電流が容易に流れ
るようにするために、金属板の厚さをある程度厚くする
必要がある。従って、この集電接続体2の波板状の凹部
にアルミニウム箔や銅箔を挟み込んで、その外側から超
音波ホーンを当てて超音波溶接を行なっても、厚い金属
板を介するために、これらのアルミニウム箔や銅箔が十
分には溶着されずに、剥がれやすくなるなどして接合強
度が弱くなるという問題が生じていた。また、このため
に、超音波の出力を強くすると、今度は0.2mm程度
の薄いアルミニウム箔や銅箔自体が破れて破断するとい
う問題が生じる。However, in the current collector 2 in the form of a corrugated sheet, it is necessary to increase the thickness of the metal plate to some extent so that a large current can easily flow during high-rate discharge. There is. Therefore, even when an aluminum foil or a copper foil is sandwiched in the corrugated concave portion of the current collecting connector 2 and ultrasonic welding is performed by applying an ultrasonic horn from the outside thereof, even if the ultrasonic welding is performed, since the thick metal plate is interposed, However, the aluminum foil and the copper foil are not sufficiently welded to each other, so that the aluminum foil and the copper foil are easily peeled off and the bonding strength is weakened. For this reason, when the output of the ultrasonic wave is increased, there arises a problem that the thin aluminum foil or copper foil of about 0.2 mm is torn and broken.
【0006】しかも、上記集電接続体2は、4個の発電
要素1ごとに幾重にも重なり合ったアルミニウム箔や銅
箔を波板状の各凹部に同時に挿入して挟み込む必要があ
り、この組み立て時の作業性が悪いという問題もあっ
た。In addition, it is necessary to insert the aluminum foil or copper foil, which overlaps several times for each of the four power generating elements 1, simultaneously into each of the corrugated plate-shaped recesses to sandwich the current collector / connector 2. There was also a problem that workability at the time was poor.
【0007】本発明は、かかる事情に対処するためにな
されたものであり、発電要素の電極基体に集電接続体を
重ね合わせたものを薄い挟持板の間に挟み込んで溶着等
によって接続固定することにより、電極基体が剥がれた
り破断するようなことのない電池を提供することを目的
としている。The present invention has been made in order to cope with such a situation. The present invention is directed to a technique in which a current collecting connector is superimposed on an electrode substrate of a power generating element, which is sandwiched between thin sandwiching plates and connected and fixed by welding or the like. It is another object of the present invention to provide a battery in which the electrode substrate does not peel or break.
【0008】[0008]
【課題を解決するための手段】請求項1の電池は、発電
要素の端面から突出した電極基体に、端子に接続された
金属製集電接続体の接続部を重ね合わせ、金属製挟持板
の間に前記電極基体と接続部とを挟み込んで溶着又は圧
着したことを特徴とする。According to a first aspect of the present invention, there is provided a battery, wherein a connection portion of a metal current collector connected to a terminal is superimposed on an electrode base projecting from an end face of a power generating element, and a metal holding plate is provided between the metal holding plates. It is characterized in that the electrode base and the connecting portion are sandwiched and welded or pressed.
【0009】請求項1の発明によれば、発電要素の電極
の電極基体に集電接続体の接続部を重ね合わせて、これ
を挟持板の間に挟みこんで溶着等を行なうので、電流は
主に集電接続体の接続部を通ることになり、この接続部
の断面積を大きくして十分な電流が流れるようにするこ
とができると共に、挟持板には溶着や圧着に適した厚さ
の金属板を用いることができるようになる。このため、
超音波溶接等に最適な薄い板厚の挟持板を用いて、電極
基体を十分確実に集電接続体の接続部に溶着させて接続
固定することができるようになり、これらの電極基体が
破断するようなおそれもなくなる。また、逆に挟持板の
板厚を十分に厚くすれば、この挟持板の外側から強い力
で圧迫することにより、電極基体と集電接続体の接続部
を確実に圧着させて接続固定することもできるようにな
る。さらに、電極基体は、集電接続体の接続部ごとに挟
持板で挟み込んで行けばよいので、組み立て作業も容易
となる。According to the first aspect of the present invention, the connection portion of the current collector is superposed on the electrode base of the electrode of the power generation element, and this is sandwiched between the holding plates to perform welding or the like. The current passes through the connection part of the current collector, so that the cross-sectional area of this connection part can be increased to allow sufficient current to flow, and the holding plate has a thickness suitable for welding and crimping. The board can be used. For this reason,
The electrode base can be sufficiently securely welded to the connection part of the current collector and connected and fixed by using a thin holding plate that is optimal for ultrasonic welding, etc., and these electrode bases are broken. There is no danger of doing so. Conversely, if the thickness of the holding plate is made sufficiently thick, the connection portion between the electrode base and the current collecting connector can be securely pressed and fixed by pressing with a strong force from the outside of the holding plate. Will also be able to do it. Further, the electrode base may be sandwiched between the connecting portions of the current collecting connector by the holding plate, so that the assembling work is also facilitated.
【0010】請求項2の電池は、前記接続部が板棒状体
であることを特徴とする。According to a second aspect of the present invention, in the battery, the connection portion is a plate-shaped body.
【0011】請求項2の発明によれば、接続部が板棒状
体なので、挟持板の間に挟み込み易く、この板厚を厚く
することで電流容量も十分に大きくすることができるよ
うになる。According to the second aspect of the present invention, since the connecting portion is a plate bar, it is easy to be sandwiched between the holding plates, and by increasing the plate thickness, the current capacity can be sufficiently increased.
【0012】請求項3の電池は、前記接続部の前記電極
基体と重なり合う面に凸部が設けられたことを特徴とす
る。The battery according to a third aspect is characterized in that a projection is provided on a surface of the connection portion overlapping the electrode base.
【0013】請求項3の発明によれば、接続部に凸部が
設けられるので、電極基体の溶着や圧着をこの凸部に集
中させて、より確実な接続固定を行なうことができるよ
うになる。According to the third aspect of the present invention, since the connecting portion is provided with the convex portion, the welding and crimping of the electrode base are concentrated on the convex portion, so that more reliable connection and fixing can be performed. .
【0014】請求項4の電池は、前記発電要素が、長円
筒形の巻回型のものであることを特徴とする。The battery according to claim 4 is characterized in that the power generating element is of a long cylindrical winding type.
【0015】請求項4の発明によれば、発電要素が巻回
型であっても長円筒形なので、電極基体が端面から湾曲
して突出する他、直線状に突出する部分もあり、この直
線状の部分に接続部や挟持板を容易に溶着や圧着できる
ようになる。According to the fourth aspect of the present invention, even if the power generation element is of a wound type, it has a long cylindrical shape, so that the electrode base is curved and protrudes from the end face, and there is a portion which protrudes linearly. The connection portion and the holding plate can be easily welded and pressure-bonded to the shape-like portion.
【0016】請求項5の電池は、前記発電要素が、その
巻回軸を水平線方向にして電池内部に収納されたもので
あることを特徴とする。The battery according to claim 5 is characterized in that the power generating element is housed inside the battery with its winding axis being in the horizontal direction.
【0017】請求項5の発明によれば、長円筒形の巻回
型の発電要素を横向きに配置した電池に適した接続構造
を提供することができる。According to the fifth aspect of the present invention, it is possible to provide a connection structure suitable for a battery in which a long cylindrical winding type power generating element is arranged sideways.
【0018】請求項6の電池は、複数の前記発電要素
が、長円筒形の平坦な側面を隣り合わせて並列接続され
たものであることを特徴とする。A battery according to a sixth aspect of the present invention is characterized in that the plurality of power generating elements are connected in parallel with their long cylindrical flat side faces adjacent to each other.
【0019】請求項6の発明によれば、長円筒形の巻回
型の発電要素を横向きに配置して、平坦な側面を隣り合
わせた電池に適した接続構造を提供することができる。According to the sixth aspect of the present invention, it is possible to provide a connection structure suitable for a battery having flat side surfaces adjacent to each other by arranging a winding type power generating element having a long cylindrical shape sideways.
【0020】請求項7の電池は、前記発電要素の一端面
からは正極電極の電極基体のみが突出し、他端面からは
負極電極の電極基体のみが突出したことを特徴とする。The battery according to claim 7 is characterized in that only the electrode base of the positive electrode protrudes from one end face of the power generating element and only the electrode base of the negative electrode protrudes from the other end face.
【0021】請求項7の発明によれば、発電要素の両端
面からそれぞれ別極性の電極基体が突出するので、接続
部や挟持板も極性を分離して配置でき、組み立てが容易
となる。According to the seventh aspect of the present invention, since the electrode bases having different polarities protrude from both end faces of the power generating element, the connecting portions and the holding plates can also be arranged with the polarities separated, thereby facilitating the assembly.
【0022】請求項8の電池は、一つの発電要素の同一
極性の電極基体に接続される接続部が2本以上であるこ
とを特徴とする。[0022] The battery according to claim 8 is characterized in that one or more power generating elements have two or more connecting portions connected to the electrode base of the same polarity.
【0023】請求項8の発明によれば、各発電要素の正
負それぞれの極性の電極基体ごとに2本以上の接続部が
配置されるので、これらの溶着や圧着が容易にできるよ
うになる。特に、長円筒形の巻回型の発電要素の場合
に、この接続部を2本設ければ、直線状に突出する電極
基体が巻回軸を中心に2箇所に分かれるので、それぞれ
に接続部を配置することができる。According to the eighth aspect of the present invention, since two or more connecting portions are arranged for each of the positive and negative electrode bases of each power generating element, they can be easily welded and crimped. In particular, in the case of a winding type power generating element having a long cylindrical shape, if two connecting portions are provided, the electrode base projecting linearly is divided into two portions around the winding axis. Can be arranged.
【0024】請求項9の電池は、前記挟持板が、金属板
を折り曲げて形成されたものであることを特徴とする。The battery according to a ninth aspect is characterized in that the holding plate is formed by bending a metal plate.
【0025】請求項9の発明によれば、挟持板が簡単な
構成であるため、安価に製造することができる。また、
挟持板の間に接続部や電極基体を挟み込む際には折り曲
げ角度を広くしておくことができるので、組み立て作業
を容易にすることができるようになる。According to the ninth aspect of the present invention, since the holding plate has a simple configuration, it can be manufactured at low cost. Also,
When the connecting portion and the electrode base are sandwiched between the sandwiching plates, the bending angle can be widened, so that the assembling work can be facilitated.
【0026】[0026]
【発明の実施の形態】以下、本発明の実施形態について
図面を参照して説明する。Embodiments of the present invention will be described below with reference to the drawings.
【0027】図1〜図3は本発明の一実施形態を示すも
のであって、図1はリチウムイオン二次電池の発電要素
と端子との接続構造を示す組み立て斜視図、図2は挟持
板の間に挟み込んだ集電接続体の接続部と発電要素の正
極や負極の金属箔とを示す横断面図、図3はリチウムイ
オン二次電池の端子に、蓋板に取り付けた端子台を接続
固定した状態を示す斜視図である。なお、図4〜図5に
示した従来例と同様の機能を有する構成部材には同じ番
号を付記する。1 to 3 show an embodiment of the present invention. FIG. 1 is an assembled perspective view showing a connection structure between a power generating element and a terminal of a lithium ion secondary battery, and FIG. FIG. 3 is a cross-sectional view showing the connection portion of the current collector and the metal foils of the positive electrode and the negative electrode of the power generation element sandwiched between the terminals, and FIG. 3 shows a terminal block attached to a lid plate fixedly connected to a terminal of the lithium ion secondary battery. It is a perspective view showing a state. Components having the same functions as those of the conventional example shown in FIGS. 4 and 5 are denoted by the same reference numerals.
【0028】本実施形態は、従来例と同様に、電気自動
車等に用いられる大型のリチウムイオン二次電池につい
て説明する。このリチウムイオン二次電池は、図1に示
すように、長円筒形の発電要素1を4個密着して並べ並
列接続したものである。各発電要素1は、従来例と同じ
構成であり、長円筒形の一方の端面からは正極1aの側
端部のアルミニウム箔がはみ出すと共に、他方の端面か
らは負極1bの側端部の銅箔がはみ出すようになってい
る。In the present embodiment, a large-sized lithium ion secondary battery used for an electric vehicle or the like will be described as in the conventional example. As shown in FIG. 1, this lithium-ion secondary battery has four long cylindrical power generating elements 1 closely arranged and connected in parallel. Each power generating element 1 has the same configuration as that of the conventional example. The aluminum foil at the side end of the positive electrode 1a protrudes from one end surface of the long cylindrical shape, and the copper foil at the side end of the negative electrode 1b protrudes from the other end surface. It protrudes.
【0029】上記4個の発電要素1は、長円筒形の平坦
な側面同士が接するようにして密着して並べられ、これ
らの発電要素1の両端面部にそれぞれ集電接続体2の接
続部2aが配置される。集電接続体2は、発電要素1の
一方の端面側に配置するものはアルミニウム合金板から
なり、他方の端面側に配置するものは銅合金板からな
る。また、これらの集電接続体2は、高率放電時の大き
な電流も十分に流せるようにある程度板厚の厚い金属板
が用いられる。これらの集電接続体2は、ほぼ二等辺三
角形状の水平に配置された金属板であり、この三角形状
の底辺部から下方に向けて8本の細長い接続部2aが突
設されている。これらの接続部2aは、集電接続体2の
金属板をプレス加工によって細長い金属板状に抜き加工
したものであり、下方に向けて屈曲させると共に、90
°のひねりを加えている。また、これらの接続部2aに
は、図2に示すように、金属板の一方の表面側に突出す
る複数の凸部2bが形成されている。The four power generating elements 1 are arranged in close contact with each other so that the flat cylindrical side surfaces thereof are in contact with each other. Is arranged. As for the current collection connector 2, the one arranged on one end face side of the power generation element 1 is made of an aluminum alloy plate, and the one arranged on the other end face is made of a copper alloy plate. Further, as these current collectors 2, metal plates having a certain thickness are used so that a large current at the time of high-rate discharge can sufficiently flow. Each of the current collectors 2 is a horizontally disposed metal plate having an approximately isosceles triangle shape, and has eight elongated connection portions 2a protruding downward from the bottom of the triangle. These connecting portions 2a are formed by punching a metal plate of the current collecting connector 2 into an elongated metal plate by pressing, and bending the metal plate downward,
° with a twist. Further, as shown in FIG. 2, a plurality of protrusions 2b protruding from one surface side of the metal plate are formed in these connection portions 2a.
【0030】上記集電接続体2は、4個の発電要素1の
両端部の上方にそれぞれ配置され、接続部2aがこれら
の発電要素1の端面部に配置されるようにする。即ち、
発電要素1の正極1aのアルミニウム箔がはみ出す側の
端面部には、アルミニウム合金板からなる集電接続体2
が配置され、負極1bの銅箔がはみ出す側の端面部に
は、銅合金板からなる集電接続体2が配置される。ま
た、接続部2aは、各発電要素1の端面に2本ずつ配置
される。ここで、各発電要素1の端面には、正極1aの
アルミニウム箔か負極1bの銅箔が巻回された状態で長
円筒形にはみ出しているので、これらの金属箔が直線状
に束となった部分は、巻回軸を中心にして左右に分かれ
ている。そして、各発電要素1ごとに配置された2本の
接続部2aは、これら左右に分かれた金属箔の束の外側
にそれぞれ配置される。また、これら2本の接続部2a
は、図2に示すように、凸部2bの突出する側の面が内
側、つまり金属箔の束側を向くように、互いに逆方向に
90°のひねりが加えられている。The current collectors 2 are arranged above both ends of the four power generating elements 1, respectively, and the connecting portions 2 a are arranged on the end faces of these power generating elements 1. That is,
A current collector 2 made of an aluminum alloy plate is provided on an end surface of the power generating element 1 on the side where the aluminum foil protrudes from the positive electrode 1a.
Is arranged, and a current collector 2 made of a copper alloy plate is arranged on an end surface of the negative electrode 1 b on the side where the copper foil protrudes. Also, two connecting portions 2 a are arranged on each end face of each power generating element 1. Here, since the aluminum foil of the positive electrode 1a or the copper foil of the negative electrode 1b is wound on the end face of each power generating element 1 and protrudes into a long cylindrical shape, these metal foils are linearly bundled. The part is divided right and left around the winding axis. Then, the two connecting portions 2a arranged for each power generating element 1 are respectively arranged outside the bundle of metal foils divided into left and right. In addition, these two connecting portions 2a
As shown in FIG. 2, twists of 90 ° are applied in opposite directions so that the surface of the projecting side of the projection 2b faces the inside, that is, the bundle side of the metal foil.
【0031】このようにして集電接続体2の接続部2a
が配置されると、挟持板4によって、各接続部2aと共
に、正極1aや負極1bの金属箔の束を挟み込む。挟持
板4は、短冊状の金属板を長手方向に沿って二つ折りに
したものであり、正極1a側の接続部2aの場合にはア
ルミニウム合金板が用いられ、負極1b側の接続部2a
の場合には銅合金板が用いられる。そして、これらの挟
持板4の両側から超音波溶接を行なうことにより、それ
ぞれの挟持板4の間に挟み込んだ集電接続体2の接続部
2aと正極1aや負極1bの金属箔の束とを溶着させ
る。この際、挟持板4は、接続部2aと金属箔の束とを
溶着して接続固定するためだけに用いられるので、最適
な超音波溶接が可能となるようなある程度薄い金属板を
用いることができる。また、接続部2aには、正極1a
や負極1bの金属箔の束と重なり合う面に凸部2bが形
成されているので、これらの金属箔の束が凸部2bで集
中的に超音波のエネルギーを受けて確実に溶着するよう
になる。In this manner, the connection portion 2a of the current collector 2
Is arranged, the bundle of the metal foils of the positive electrode 1a and the negative electrode 1b is sandwiched by the sandwiching plate 4 together with each connecting portion 2a. The holding plate 4 is formed by folding a strip-shaped metal plate in two along the longitudinal direction. In the case of the connection portion 2a on the positive electrode 1a side, an aluminum alloy plate is used, and the connection portion 2a on the negative electrode 1b side is used.
In this case, a copper alloy plate is used. Then, by performing ultrasonic welding from both sides of these holding plates 4, the connection portion 2 a of the current collector 2 sandwiched between the holding plates 4 and the bundle of the metal foils of the positive electrode 1 a and the negative electrode 1 b are joined. Weld. At this time, since the holding plate 4 is used only for welding and connecting the connecting portion 2a and the bundle of metal foils, it is preferable to use a metal plate which is thin to some extent so as to enable optimal ultrasonic welding. it can. The connection part 2a has a positive electrode 1a.
Since the convex portions 2b are formed on the surface overlapping the metal foil bundle of the negative electrode 1b and the negative electrode 1b, these metal foil bundles receive the energy of ultrasonic waves intensively at the convex portions 2b and are reliably welded. .
【0032】発電要素1の両端部の上方に配置された正
負の集電接続体2のほぼ二等辺三角形状の部分は、図3
に示すように、絶縁封止材5を介して矩形の封口板6の
下面の両側に取り付けられる。封口板6は、ステンレス
鋼版からなり、上面の両側には、正負の端子3が別の絶
縁封止材7を介して配置される。これらの端子3は、下
端部が封口板6を貫通してそれぞれの集電接続体2のほ
ぼ二等辺三角形状の頂点部付近にかしめによって接続固
定される。また、これらの端子3の上端部は、絶縁封止
材7上に配置された端子ボルト9を係止する端子台8に
かしめによって接続固定される。これらの端子3は、ア
ルミニウム合金板からなる集電接続体2にはアルミニウ
ム合金製のものが用いられ、銅合金板からなる集電接続
体2には銅合金製のものが用いられる。しかし、端子台
8や端子ボルト9は、電解液に触れることがないので、
これらアルミニウム合金や銅合金等よりも強度が高い鋼
や鉄の合金等が用いられる。絶縁封止材5,7は、封口
板6の上下に配置されて、集電接続体2や端子3、端子
台8、端子ボルト9と封口板6との間を絶縁封止する樹
脂成形板である。The approximately isosceles triangular portion of the positive / negative current collector 2 disposed above both ends of the power generating element 1 is shown in FIG.
As shown in (1), it is attached to both sides of the lower surface of the rectangular sealing plate 6 via the insulating sealing material 5. The sealing plate 6 is made of a stainless steel plate, and the positive and negative terminals 3 are arranged on both sides of the upper surface via another insulating sealing material 7. These terminals 3 are connected and fixed by crimping to the vicinity of the approximately isosceles triangular vertex of each current collector 2 through the sealing plate 6 at the lower end. The upper ends of these terminals 3 are connected and fixed by crimping to a terminal block 8 which locks terminal bolts 9 arranged on the insulating sealing material 7. These terminals 3 are made of an aluminum alloy for the current collector 2 made of an aluminum alloy plate, and made of a copper alloy for the current collector 2 made of a copper alloy plate. However, since the terminal block 8 and the terminal bolt 9 do not touch the electrolytic solution,
Steel or iron alloys having higher strength than these aluminum alloys and copper alloys are used. The insulating sealing materials 5 and 7 are arranged above and below the sealing plate 6, and are resin molded plates that insulate and seal between the current collector 2, the terminal 3, the terminal block 8, the terminal bolt 9 and the sealing plate 6. It is.
【0033】上記4個の発電要素1は、図示しないステ
ンレス鋼板製の筐体の電池ケースに収納され、封口板6
がこの電池ケースの上端開口部に嵌め込まれ溶接によっ
て固着される。そして、この電池ケースの内部に非水電
解液が充填されることによりリチウムイオン二次電池と
なる。The four power generating elements 1 are housed in a battery case of a stainless steel case (not shown),
Is fitted into the upper end opening of the battery case and fixed by welding. Then, by filling the inside of the battery case with the non-aqueous electrolyte, a lithium ion secondary battery is obtained.
【0034】上記構成のリチウムイオン二次電池によれ
ば、各発電要素1の正極1aや負極1bと端子3との間
の充放電電流は、もっぱら厚い金属板で構成される集電
接続体2の接続部2aを通して流れるので、十分に大き
な充放電電流を流すことができるようになる。しかも、
各発電要素1の正極1aや負極1bの金属箔の束は、あ
る程度薄い金属板からなる挟持板4を介して接続部2a
に超音波溶接されるので、溶着が確実に行なわれ金属箔
が剥がれ易くなるようなことがなくなる。また、この超
音波溶接によるエネルギーを接続部2aの凸部2bに集
中させることができるので、金属箔の束をさらに確実強
固に接続部2aに溶着することができるようになる。さ
らに、各接続部2aは、発電要素1の端面からはみ出し
た正極1aや負極1bの金属箔の束の側部に配置され、
これらの接続部2aと金属箔の束を順に挟持板4の間に
挟み込んで行けばよいので、従来のように、これらの金
属箔の束を集電接続体2の波板状の各凹部に挿入する作
業に比べて、容易に組み立て作業を行なうことができる
ようになる。According to the lithium ion secondary battery having the above-described structure, the charging / discharging current between the positive electrode 1a or the negative electrode 1b of each power generating element 1 and the terminal 3 is limited to the current collecting connector 2 made of a thick metal plate. Flows through the connecting portion 2a, so that a sufficiently large charge / discharge current can flow. Moreover,
The bundle of the metal foils of the positive electrode 1a and the negative electrode 1b of each power generating element 1 is connected to the connecting portion 2a via a holding plate 4 made of a metal plate having a certain thickness.
Since the ultrasonic welding is performed, the welding is reliably performed, and the metal foil does not easily come off. In addition, since the energy due to the ultrasonic welding can be concentrated on the protrusion 2b of the connection portion 2a, the bundle of metal foil can be more securely and firmly welded to the connection portion 2a. Furthermore, each connection part 2a is arranged on the side of the bundle of metal foils of the positive electrode 1a and the negative electrode 1b protruding from the end face of the power generation element 1,
Since the connection portion 2a and the bundle of the metal foils may be inserted between the holding plates 4 in order, the bundle of the metal foils may be inserted into the corrugated concave portions of the current collector 2 as in the related art. The assembly operation can be performed more easily than the insertion operation.
【0035】また、上記リチウムイオン二次電池によれ
ば、アルミニウム合金製や銅合金製の端子3が鋼や鉄の
合金等からなる端子台8に接続固定され、外部回路との
接続はこの端子台8に係止された端子ボルト9を介して
行なうので、強度の弱いアルミニウム合金製や銅合金製
の端子3に直接ねじ止めして接続を行なう必要がなくな
り、このねじ止めの締め付けによって端子3が破損した
り、この端子3が振動や衝撃を受けて変形するようなお
それもなくなる。According to the lithium ion secondary battery, the terminal 3 made of an aluminum alloy or a copper alloy is fixedly connected to a terminal block 8 made of an alloy of steel or iron, and the terminal 3 is connected to an external circuit. Since the connection is performed via the terminal bolt 9 locked to the base 8, there is no need to directly screw the terminal 3 made of an aluminum alloy or a copper alloy to connect the terminal 3 with a weak strength. Of the terminal 3 or deformation of the terminal 3 due to vibration or impact.
【0036】なお、上記実施形態では、超音波溶接によ
って挟持板4の間に接続部2aと正極1aや負極1bの
金属箔とを溶着する場合について説明したが、スポット
溶接等の他の溶接により溶着を行なうこともできる。ま
た、このような溶接に代えて、挟持板4の外側から強い
力で圧迫することにより、接続部2aと正極1aや負極
1bの金属箔とを圧着することもできる。この場合、挟
持板4は、溶接の場合とは異なり、ある程度板厚の厚い
金属板を用いて、この間に接続部2aと金属箔とを確実
に圧着保持できるようにする必要がある。さらに、上記
実施形態では、接続部2aに凸部2bを形成する場合に
ついて説明したが、同様の凸部を挟持板4に形成するこ
ともできる。もっとも、このような凸部2bを全く形成
しない場合にも、金属箔を確実に溶着又は圧着すること
はできる。In the above embodiment, the case where the connecting portion 2a and the metal foil of the positive electrode 1a or the negative electrode 1b are welded between the holding plates 4 by ultrasonic welding has been described. Welding can also be performed. Further, instead of such welding, the connection portion 2a and the metal foil of the positive electrode 1a or the negative electrode 1b can be pressed by pressing with a strong force from the outside of the holding plate 4. In this case, unlike the case of welding, it is necessary to use a metal plate having a relatively large thickness, so that the connecting portion 2a and the metal foil can be securely pressed and held during this time. Further, in the above embodiment, the case where the convex portion 2b is formed in the connection portion 2a has been described, but a similar convex portion may be formed in the holding plate 4. However, even when such a convex portion 2b is not formed at all, the metal foil can be reliably welded or pressed.
【0037】また、上記実施形態では、接続部2aの片
側にだけ正極1aや負極1bの金属箔を配置する場合に
ついて説明したが、両側に金属箔を配置して、これを挟
持板4の間に挟み込むようにすることもできる。さら
に、上記実施形態では、各発電要素1の片方の端面に2
本の接続部2aを配置したが、この接続部2aの配置本
数も限定されない。例えば、各発電要素1の片方の端面
に1本ずつの接続部2aを配置してもよいし、この1本
の接続部2aに隣接する2個の発電要素1の端面からは
み出した金属箔を共通して溶着又は圧着することもでき
る。In the above embodiment, the case where the metal foil of the positive electrode 1a or the negative electrode 1b is arranged only on one side of the connecting portion 2a has been described. It can also be sandwiched between. Further, in the above-described embodiment, two end faces of each power generation element 1 are provided.
Although the two connecting portions 2a are arranged, the number of the connecting portions 2a is not limited. For example, one connecting portion 2a may be arranged on one end face of each power generating element 1, or a metal foil protruding from the end faces of two power generating elements 1 adjacent to this one connecting portion 2a may be used. Common welding or crimping is also possible.
【0038】また、上記実施形態では、長円筒形の巻回
型の発電要素1について説明したが、積層型の発電要素
1の場合にも、積層の端面からはみ出した正極1aや負
極1bの金属箔を同様に接続固定することができる。さ
らに、上記実施形態では、リチウムイオン二次電池につ
いて説明したが、電池の種類は問わない。In the above-described embodiment, the wound cylindrical power generating element 1 has been described. However, in the case of the laminated power generating element 1, the metal of the positive electrode 1a and the negative electrode 1b protruding from the end face of the lamination is also used. The foil can likewise be connected and fixed. Further, in the above embodiment, the lithium ion secondary battery has been described, but the type of the battery does not matter.
【0039】[0039]
【発明の効果】以上の説明から明らかなように、本発明
の電池によれば、発電要素の電極と端子との間の電流
は、主に集電接続体の接続部を通ることになるので、溶
着や圧着に最適な薄い板厚の挟持板を用いて、電極基体
を十分確実に集電接続体の接続部に接続固定することが
できるようになる。As is clear from the above description, according to the battery of the present invention, the current between the electrode and the terminal of the power generating element mainly passes through the connection portion of the current collector. In addition, the electrode base can be connected and fixed to the connection portion of the current collector / connector with sufficient reliability by using a thin holding plate that is optimal for welding and pressure bonding.
【図1】本発明の一実施形態を示すものであって、リチ
ウムイオン二次電池の発電要素と端子との接続構造を示
す組み立て斜視図である。FIG. 1, showing an embodiment of the present invention, is an assembled perspective view showing a connection structure between a power generation element and a terminal of a lithium ion secondary battery.
【図2】本発明の一実施形態を示すものであって、挟持
板の間に挟み込んだ集電接続体の接続部と発電要素の正
極や負極の金属箔とを示す横断面図である。FIG. 2, showing an embodiment of the present invention, is a cross-sectional view showing a connection portion of a current collector and a metal foil of a positive electrode and a negative electrode of a power generation element sandwiched between clamping plates.
【図3】本発明の一実施形態を示すものであって、リチ
ウムイオン二次電池の端子に、蓋板に取り付けた端子台
を接続固定した状態を示す斜視図である。FIG. 3 illustrates one embodiment of the present invention, and is a perspective view illustrating a state where a terminal block attached to a lid plate is connected and fixed to a terminal of a lithium ion secondary battery.
【図4】従来例を示すものであって、リチウムイオン二
次電池の発電要素と端子との接続構造を示す分解斜視図
である。FIG. 4 is an exploded perspective view showing a conventional example and showing a connection structure between a power generation element and a terminal of a lithium ion secondary battery.
【図5】従来例を示すものであって、発電要素の構造を
示す組み立て斜視図である。FIG. 5 is a perspective view showing a conventional example, and is an assembled perspective view showing a structure of a power generating element.
1 発電要素 1a 正極 1b 負極 2 集電接続体 2a 接続部 2b 凸部 3 端子 4 挟持板 DESCRIPTION OF SYMBOLS 1 Power generation element 1a Positive electrode 1b Negative electrode 2 Current collector 2a Connection part 2b Convex part 3 Terminal 4 Clamping plate
───────────────────────────────────────────────────── フロントページの続き (72)発明者 松原 岳人 京都府京都市南区吉祥院西ノ庄猪之馬場町 1番地 日本電池株式会社内 (72)発明者 胸永 剛良 京都府京都市南区吉祥院西ノ庄猪之馬場町 1番地 日本電池株式会社内 Fターム(参考) 5H022 AA09 BB02 BB03 BB17 CC04 CC12 CC13 CC20 CC23 EE01 5H029 AJ11 AJ12 AJ14 BJ02 BJ14 CJ03 CJ05 DJ05 DJ12 DJ14 EJ01 HJ00 HJ12 5H040 AA03 AA06 AA20 AS07 AT01 AY01 CC11 DD03 DD13 DD24 JJ02 JJ03 NN00 NN03 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Taketo Matsubara 1 in Kichijoin Nishinosho Inomaba-cho, Minami-ku, Kyoto-shi, Kyoto Inside Nippon Battery Co., Ltd. (72) Inventor Takeyoshi Konaga Minami-ku, Kyoto-shi Kichijoin Nishinosho Inono Babacho No. 1 Japan Battery Co., Ltd. F term (reference) 5H022 AA09 BB02 BB03 BB17 CC04 CC12 CC13 CC20 CC23 EE01 5H029 AJ11 AJ12 AJ14 BJ02 BJ14 CJ03 CJ05 DJ05 DJ12 DJ14 EJ01 HJ00 AJ12 A040 AT01 AY01 CC11 DD03 DD13 DD24 JJ02 JJ03 NN00 NN03
Claims (9)
に、端子に接続された金属製集電接続体の接続部を重ね
合わせ、金属製挟持板の間に前記電極基体と接続部とを
挟み込んで溶着又は圧着したことを特徴とする電池。1. A connecting portion of a metal current collector connected to a terminal is superimposed on an electrode substrate protruding from an end face of a power generating element, and the electrode substrate and the connecting portion are sandwiched between metal holding plates to be welded. A battery characterized by being crimped.
とする、請求項1に記載の電池。2. The battery according to claim 1, wherein the connecting portion is a plate-shaped body.
面に凸部が設けられたことを特徴とする、請求項1又は
2に記載の電池。3. The battery according to claim 1, wherein a protrusion is provided on a surface of the connection portion overlapping the electrode base.
のであることを特徴とする、請求項1,2又は3に記載
の電池。4. The battery according to claim 1, wherein the power generating element is a long cylindrical wound type.
向にして電池内部に収納されたものであることを特徴と
する、請求項4に記載の電池。5. The battery according to claim 4, wherein the power generation element is housed inside the battery with its winding axis being in the horizontal direction.
な側面を隣り合わせて並列接続されたものであることを
特徴とする、請求項4又は5に記載の電池。6. The battery according to claim 4, wherein the plurality of power generating elements are connected in parallel such that long cylindrical flat side faces are adjacent to each other.
電極基体のみが突出し、他端面からは負極電極の電極基
体のみが突出したことを特徴とする、請求項1,2,
3,4,5又は6に記載の電池。7. The power generating element according to claim 1, wherein only the electrode base of the positive electrode protrudes from one end face of the power generating element, and only the electrode base of the negative electrode protrudes from the other end face.
7. The battery according to 3, 4, 5 or 6.
接続される接続部が2本以上であることを特徴とする、
請求項1,2,3,4,5,6又は7に記載の電池。8. The method according to claim 1, wherein the number of connecting portions connected to the same polarity electrode base of one power generating element is two or more.
The battery according to claim 1, 2, 3, 4, 5, 6, or 7.
されたものであることを特徴とする、請求項1,2,
3,4,5,6,7又は8に記載の電池。9. The method according to claim 1, wherein the holding plate is formed by bending a metal plate.
The battery according to 3, 4, 5, 6, 7, or 8.
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WO2005062403A1 (en) * | 2003-12-24 | 2005-07-07 | Gs Yuasa Corporation | Battery and method of producing the same |
US7022432B2 (en) * | 2001-08-06 | 2006-04-04 | Matsushita Electric Industrial Co., Ltd. | Prismatic sealed battery module |
US7090945B2 (en) | 2001-08-06 | 2006-08-15 | Matsushita Electric Industrial Co., Ltd. | Cell, connected-cell body, and battery module using the same |
US7129001B2 (en) | 2001-12-18 | 2006-10-31 | Gs Yuasa Corporation | Cell comprising a power-generating element fastened by sheets |
KR100890327B1 (en) * | 2007-08-31 | 2009-03-26 | 삼성에스디아이 주식회사 | Conductive tab and battery pack having the same |
JP2009105074A (en) * | 2009-02-16 | 2009-05-14 | Gs Yuasa Corporation:Kk | Battery |
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