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JP4876374B2 - Flat battery - Google Patents
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JP4876374B2 - Flat battery - Google Patents

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JP4876374B2
JP4876374B2 JP2004166901A JP2004166901A JP4876374B2 JP 4876374 B2 JP4876374 B2 JP 4876374B2 JP 2004166901 A JP2004166901 A JP 2004166901A JP 2004166901 A JP2004166901 A JP 2004166901A JP 4876374 B2 JP4876374 B2 JP 4876374B2
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electrode tab
flat battery
voltage detection
battery
detection terminal
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JP2005347158A (en
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剛 榎田
明 清水
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Nissan Motor Co Ltd
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    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries

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Description

本発明は、電極タブに超音波接合時の応力伝達を緩和する緩衝域を設けた扁平型電池に関する。   The present invention relates to a flat battery in which a buffer region for relaxing stress transmission during ultrasonic bonding is provided on an electrode tab.

車両に搭載される動力用の電池は、小型、軽量、高出力、高信頼性を備える必要がある。このため、下記特許文献1に示すような扁平型電池の開発が盛んに行われている。扁平型電池を動力用の電池とするには、高出力化のため多数の扁平型電池を直列に接続して電圧を高めなければならない。また各扁平型電池の電圧を監視して電池としての信頼性を維持するため各扁平型電池に電圧検出端子を接続する必要もある。扁平型電池同士および電圧検出端子の接続は、軽量化よび高信頼化のため超音波接合などの接合手法を用いて行われる。
特開2004−071290号公報
A power battery mounted on a vehicle needs to have a small size, light weight, high output, and high reliability. For this reason, development of a flat battery as shown in Patent Document 1 below has been actively conducted. In order to use a flat battery as a power battery, a large number of flat batteries must be connected in series to increase the voltage in order to increase the output. Moreover, in order to monitor the voltage of each flat battery and maintain the reliability as a battery, it is necessary to connect a voltage detection terminal to each flat battery. Connection between the flat batteries and the voltage detection terminal is performed by using a joining method such as ultrasonic joining in order to reduce the weight and increase the reliability.
JP 2004-071290 A

ところが、扁平型電池の電極タブは、金属の中でも比較的柔らかい銅またはアルミニウム製の薄膜状の平板であるため、電極タブ同士または電極タブと電圧検出端子との接合時の応力により、特に電極タブの付け根部分や接合部近傍に局部的な金属疲労を生じることがある。金属疲労が生じると電池としての信頼性は低下することになる。   However, since the electrode tab of a flat battery is a thin plate made of copper or aluminum that is relatively soft among metals, the electrode tab is particularly affected by the stress at the time of bonding between the electrode tabs or between the electrode tab and the voltage detection terminal. Local metal fatigue may occur at the base of the metal or in the vicinity of the joint. When metal fatigue occurs, the reliability of the battery is lowered.

本発明は、以上のような従来の問題点に鑑みて成されたものであり、超音波接合時の応力を緩和しうる扁平型電池の提供を目的とする。   The present invention has been made in view of the above-described conventional problems, and an object of the present invention is to provide a flat battery that can relieve stress during ultrasonic bonding.

上記目的を達成するための本発明に係る扁平型電池は、超音波を用いて電圧を検出するための電圧検出端子が接合される電極タブを備えた扁平型電池であって、当該電極タブには接合時の応力伝達を緩和する緩衝域が設けられ、前記緩衝域は、接合時に前記電極タブに加えられる振動方向に対して交差する方向に伸延して設けられ、且つ、少なくとも前記電圧検出端子の長さに形成することを特徴とする。
また、本発明に係る扁平型電池は、超音波を用いて他の扁平型電池の電極タブが接合される電極タブを備えた扁平型電池であって、当該電極タブには接合時の応力伝達を緩和する緩衝域が設けられ、前記緩衝域は、超音波接合の際にホーン側に位置される電極タブに設けられることを特徴とする。
In order to achieve the above object, a flat battery according to the present invention is a flat battery including an electrode tab to which a voltage detection terminal for detecting a voltage using ultrasonic waves is joined. Is provided with a buffering area for relaxing stress transmission at the time of joining, and the buffering area is provided so as to extend in a direction crossing the vibration direction applied to the electrode tab at the time of joining, and at least the voltage detection terminal It characterized that you formed to a length of.
The flat battery according to the present invention is a flat battery including an electrode tab to which an electrode tab of another flat battery is bonded using ultrasonic waves, and the electrode tab is subjected to stress transmission at the time of bonding. A buffering area is provided to relieve the vibration, and the buffering area is provided on an electrode tab located on the horn side during ultrasonic bonding.

超音波接合時には超音波接合機によって接合部分に振動が加えられ、この振動によって電極タブには大きな応力がかかることになるがこの応力の伝達は緩衝域によって緩和される。   At the time of ultrasonic bonding, vibration is applied to the bonded portion by an ultrasonic bonding machine, and a large stress is applied to the electrode tab by this vibration, but the transmission of this stress is relaxed by the buffer area.

以上のように構成された本発明に係る扁平型電池によれば、緩衝域の存在によって応力
の伝達が緩和されるため、超音波接合時における電極タブの金属疲労の度合いは格段に少
なくなり、電池としての信頼性を維持することができるようになる。
具体的には、超音波接合時におけるホーンの振動が電圧検出端子を介して電極タブ引き出し端等に間接的に伝わるようになり、過大な応力がかからなくなり、金属疲労の度合いは格段に少なくなる。
また本発明に係る扁平型電池によれば、ホーン側に位置される電極タブに接合時の応力伝達を緩和する緩衝域が設けられることで、応力の伝達が緩和されるため、超音波接合時における電極タブの金属疲労の度合いは格段に少なくなり、電池としての信頼性を維持することができるようになる。
According to the flat battery according to the present invention configured as described above, since the transmission of stress is mitigated by the presence of the buffer region, the degree of metal fatigue of the electrode tab during ultrasonic bonding is significantly reduced, The reliability as a battery can be maintained.
Specifically, the vibration of the horn during ultrasonic bonding is indirectly transmitted to the electrode tab lead-out end through the voltage detection terminal, so that excessive stress is not applied and the degree of metal fatigue is remarkably low. Become.
Further, according to the flat battery according to the present invention, the electrode tab located on the horn side is provided with a buffer area for relaxing the stress transmission at the time of joining, so that the stress transmission is eased. The degree of metal fatigue of the electrode tab is significantly reduced, and the reliability as a battery can be maintained.

次に、本発明に係る扁平型電池を実施の形態1と実施の形態2に分けて説明する。
(実施の形態1)
本実施の形態では、緩衝域としてスリットが形成された扁平型電池を示す。図1は、本発明に係る(実施の形態1、2に共通)扁平型電池の外観図、図2および図3は、本実施の形態に係る扁平型電池における電極タブの拡大図である。
Next, the flat battery according to the present invention will be described separately in the first embodiment and the second embodiment.
(Embodiment 1)
In this embodiment mode, a flat battery in which a slit is formed as a buffer region is shown. FIG. 1 is an external view of a flat battery according to the present invention (common to the first and second embodiments), and FIGS. 2 and 3 are enlarged views of electrode tabs in the flat battery according to the present embodiment.

本実施の形態に係る扁平型電池10は、図示するような長方形状の薄型電池であり、積層構造を有する内部の電池要素をラミネートフィルムで覆って成るものである。電池要素には+極のアルミニウム製の電極タブ12と−極の銅製の電極タブ14とが接続されそれらの電極タブは扁平型電池10の両側端から図示するように引き出されている。電極タブ12または14には図2および図3に示すような電圧検出端子20が、または他の扁平型電池の電極タブが超音波接合機によって接合される。   A flat battery 10 according to the present embodiment is a rectangular thin battery as illustrated, and is formed by covering internal battery elements having a laminated structure with a laminate film. A positive electrode tab 12 made of aluminum and a negative electrode tab 14 made of copper are connected to the battery element, and these electrode tabs are drawn out from both side ends of the flat battery 10 as shown in the figure. The voltage detection terminal 20 as shown in FIGS. 2 and 3 or the electrode tab of another flat battery is joined to the electrode tab 12 or 14 by an ultrasonic bonding machine.

たとえば、電極タブ12に電圧検出端子20を接合する場合、図4に示すような超音波接合機30のアンビル32上に電極タブ12と電圧検出端子20を重ねて載置し(この図では電極タブ同士を接合している様子が示されているが)、その上からホーン34を下ろして所定の加圧力で加圧する。そして、加圧したままの状態でホーンを図示の方向に振動させる(超音波加振)。この振動により生じる摩擦熱で電極タブ12と電圧検出端子20が接合される。   For example, when the voltage detection terminal 20 is bonded to the electrode tab 12, the electrode tab 12 and the voltage detection terminal 20 are placed on the anvil 32 of the ultrasonic bonding machine 30 as shown in FIG. While the tabs are joined together), the horn 34 is lowered from above and pressurized with a predetermined pressure. Then, the horn is vibrated in the direction shown in the figure while being pressurized (ultrasonic excitation). The electrode tab 12 and the voltage detection terminal 20 are joined by frictional heat generated by this vibration.

本実施の形態では、超音波接合時の応力伝達を緩和するスリットをホーン34の振動方向(加振方向)に応じて次のように形成している。   In the present embodiment, slits that relieve stress transmission during ultrasonic bonding are formed as follows according to the vibration direction (excitation direction) of the horn 34.

超音波接合機30のホーン34による振動方向が図2に示すように扁平型電池10の長手方向であれば、電極タブ12には緩衝域として機能するスリット25Aを、その振動方向に対して交差する方向に伸延させて設ける。つまり、図示されているように、スリット25Aを電極タブ引き出し端26に沿って電圧検出端子20の長さよりも長く形成する。スリット25Aを形成することによって、電極タブ引き出し端26と電圧検出端子20との間の領域が開放され、ホーン34の振動が電極タブ引き出し端26に直接伝わらなくなり、電極タブ引き出し端26と電圧検出端子20との間の領域に過大な応力がかからなくなる。したがって、超音波接合時における電極タブ12の金属疲労の度合いは格段に少なくなり、電池としての信頼性を維持することができるようになる。   If the vibration direction by the horn 34 of the ultrasonic bonding machine 30 is the longitudinal direction of the flat battery 10 as shown in FIG. 2, the electrode tab 12 has a slit 25 </ b> A functioning as a buffer region intersecting the vibration direction. It is extended in the direction of That is, as shown in the drawing, the slit 25 </ b> A is formed longer than the length of the voltage detection terminal 20 along the electrode tab lead-out end 26. By forming the slit 25A, a region between the electrode tab lead-out end 26 and the voltage detection terminal 20 is opened, and the vibration of the horn 34 is not directly transmitted to the electrode tab lead-out end 26, and the electrode tab lead-out end 26 and the voltage detection end Excessive stress is not applied to the region between the terminals 20. Therefore, the degree of metal fatigue of the electrode tab 12 during ultrasonic bonding is significantly reduced, and the reliability as a battery can be maintained.

また、超音波接合機30のホーン34による振動方向が図3に示すように扁平型電池10の短手方向であれば、電極タブ12には緩衝域として機能するスリット25Bを、上記と同様、その振動方向に対して交差する方向に伸延させて設ける。つまり、図示されているように、スリット25Bを電圧検出端子20の側端に沿って電極タブ引き出し端26に向けて伸延させ電圧検出端子20の長さと同程度の長さで形成する。スリット25Bを形成することによって、ホーン34の振動が電極タブ12の特に電圧検出端子20の端面近傍に直接伝わらなくなり、電圧検出端子20の端面近傍に過大な応力がかからなくなる。したがって、超音波接合時における電極タブ12の金属疲労の度合いは格段に少なくなり、電池としての信頼性を維持することができるようになる。   If the vibration direction of the horn 34 of the ultrasonic bonding machine 30 is the short direction of the flat battery 10 as shown in FIG. 3, the electrode tab 12 is provided with a slit 25B that functions as a buffer area, as described above. It is provided so as to extend in a direction crossing the vibration direction. That is, as shown in the figure, the slit 25 </ b> B is extended along the side end of the voltage detection terminal 20 toward the electrode tab lead-out end 26, and is formed with a length similar to the length of the voltage detection terminal 20. By forming the slit 25 </ b> B, the vibration of the horn 34 is not directly transmitted to the electrode tab 12, particularly in the vicinity of the end face of the voltage detection terminal 20, and an excessive stress is not applied to the vicinity of the end face of the voltage detection terminal 20. Therefore, the degree of metal fatigue of the electrode tab 12 during ultrasonic bonding is significantly reduced, and the reliability as a battery can be maintained.

図4は、2枚の扁平型電池10A、10Bの電極タブ12A、12B同士を超音波接合している状態を示しているが、この場合にも、ホーン34側に位置される電極タブ12Bには、図示する位置に伸縮応力がかかるため、図2または図3と同様に、電極タブ12B側にスリット25を設ける。スリット25を設けることによってホーン34によって加圧されている部分の近傍の電極タブ12Aに過大な応力がかからなくなる。
(実施の形態2)
本実施の形態では、緩衝域としてコルゲート加工部が形成された扁平型電池を示す。図5および図6は、本実施の形態に係る扁平型電池における電極タブの拡大図である。
FIG. 4 shows a state in which the electrode tabs 12A and 12B of the two flat batteries 10A and 10B are ultrasonically bonded to each other. In this case as well, the electrode tab 12B positioned on the horn 34 side is shown. Since a stretching stress is applied to the illustrated position, a slit 25 is provided on the electrode tab 12B side as in FIG. 2 or FIG. By providing the slit 25, excessive stress is not applied to the electrode tab 12A in the vicinity of the portion pressed by the horn.
(Embodiment 2)
In the present embodiment, a flat battery in which a corrugated portion is formed as a buffer area is shown. 5 and 6 are enlarged views of electrode tabs in the flat battery according to the present embodiment.

本実施の形態に係る扁平型電池10は、図1に示したものと同一であるのでその説明は省略する。本実施の形態では、超音波接合時の応力伝達を緩和するコルゲート加工部をホーン34の振動方向(加振方向)に応じて次のように形成している。   The flat battery 10 according to the present embodiment is the same as that shown in FIG. In the present embodiment, a corrugated portion for relaxing stress transmission during ultrasonic bonding is formed as follows according to the vibration direction (excitation direction) of the horn 34.

図7に示した超音波接合機30のホーン34による振動方向が図5に示すように扁平型電池10の長手方向であれば、電極タブ12には緩衝域として機能するコルゲート加工部27Aを、その振動方向に対して交差する方向に伸延させて形成する。つまり、図示されているように、コルゲート加工部27Aを電極タブ引き出し端26に沿って電圧検出端子20の長さよりも長くなるように形成する。コルゲート加工部27Aを形成することによって、電極タブ引き出し端26と電圧検出端子20との間の領域に伸縮応力を吸収する領域が形成され、ホーン34の振動が電極タブ引き出し端26に間接的に伝わるようになり、電極タブ引き出し端26と電圧検出端子20との間の領域に過大な応力がかからなくなる。したがって、超音波接合時における電極タブ12の金属疲労の度合いは格段に少なくなり、電池としての信頼性を維持することができるようになる。   If the vibration direction by the horn 34 of the ultrasonic bonding machine 30 shown in FIG. 7 is the longitudinal direction of the flat battery 10 as shown in FIG. 5, the electrode tab 12 has a corrugated portion 27A that functions as a buffer region, It is formed by extending in a direction crossing the vibration direction. That is, as shown in the drawing, the corrugated portion 27A is formed along the electrode tab lead-out end 26 so as to be longer than the length of the voltage detection terminal 20. By forming the corrugated portion 27A, a region that absorbs expansion and contraction stress is formed in a region between the electrode tab lead-out end 26 and the voltage detection terminal 20, and the vibration of the horn 34 is indirectly applied to the electrode tab lead-out end 26. Thus, excessive stress is not applied to the region between the electrode tab lead end 26 and the voltage detection terminal 20. Therefore, the degree of metal fatigue of the electrode tab 12 during ultrasonic bonding is significantly reduced, and the reliability as a battery can be maintained.

また、超音波接合機30のホーン34による振動方向が図6に示すように扁平型電池10の短手方向であれば、電極タブ12には緩衝域として機能するコルゲート加工部27Bを、上記と同様、その振動方向に対して交差する方向に伸延させて設ける。つまり、図示されているように、コルゲート加工部27Bを電圧検出端子20の側端に沿って電極タブ引き出し端26に向けて伸延させ電圧検出端子20の長さと同程度の長さで形成する。コルゲート加工部27Bを形成することによって、ホーン34の振動が電極タブ12の特に電圧検出端子20の端面近傍に間接的に伝わるようになり、電圧検出端子20の端面近傍に過大な応力がかからなくなる。したがって、超音波接合時における電極タブ12の金属疲労の度合いは格段に少なくなり、電池としての信頼性を維持することができるようになる。   If the vibration direction by the horn 34 of the ultrasonic bonding machine 30 is the short direction of the flat battery 10 as shown in FIG. 6, the corrugated portion 27B functioning as a buffer region is provided on the electrode tab 12 as described above. Similarly, it is provided so as to extend in a direction crossing the vibration direction. That is, as shown in the drawing, the corrugated portion 27 </ b> B is extended along the side edge of the voltage detection terminal 20 toward the electrode tab lead-out end 26, and is formed with a length similar to the length of the voltage detection terminal 20. By forming the corrugated portion 27B, the vibration of the horn 34 is transmitted indirectly to the electrode tab 12, particularly near the end face of the voltage detection terminal 20, and excessive stress is applied to the vicinity of the end face of the voltage detection terminal 20. Disappear. Therefore, the degree of metal fatigue of the electrode tab 12 during ultrasonic bonding is significantly reduced, and the reliability as a battery can be maintained.

図7は、2枚の扁平型電池10A、10Bの電極タブ12A、12B同士を超音波接合している状態を示しているが、この場合にも、ホーン34側に位置される電極タブ12Bには、図示する位置に伸縮応力がかかるため、図2または図3と同様に、電極タブ12B側に伸縮応力を逃がすためのコルゲート加工部27を設ける。コルゲート加工部27を設けることによってホーン34によって加圧されている部分の近傍の電極タブ12Aに過大な応力がかからなくなる。   FIG. 7 shows a state in which the electrode tabs 12A and 12B of the two flat batteries 10A and 10B are ultrasonically bonded to each other. In this case as well, the electrode tab 12B positioned on the horn 34 side is shown. Since a stretching stress is applied to the illustrated position, a corrugated portion 27 for releasing the stretching stress is provided on the electrode tab 12B side as in FIG. 2 or FIG. By providing the corrugated portion 27, an excessive stress is not applied to the electrode tab 12A in the vicinity of the portion pressed by the horn 34.

以上のように、本発明によれば、超音波接合時に生じる応力が局部的にかからないようにするための緩衝域を電極タブに設けているので、超音波接合時における電極タブの金属疲労の度合いは格段に少なくなり、電池としての信頼性を維持することができるようになる。   As described above, according to the present invention, since the buffer region is provided in the electrode tab so that the stress generated during the ultrasonic bonding is not locally applied, the degree of metal fatigue of the electrode tab during the ultrasonic bonding. Becomes much less, and the reliability as a battery can be maintained.

なお上記実施の形態では対向する方向に+側−側の電極タブが引き出されているタイプの扁平型電池を例に説明したが、本発明は+側−側の電極タブが同方向に引き出されているタイプの扁平型電池に対しても適用可能である。   In the above embodiment, a flat type battery in which the + side-side electrode tab is drawn out in the opposite direction has been described as an example. However, in the present invention, the + side-side electrode tab is drawn out in the same direction. The present invention can also be applied to the flat type battery.

また、緩衝域として機能するスリットおよびコルゲート加工部の幅や長さは、電極タブの板厚や超音波接合時に加える振動の大きさを考慮して決めるのが好ましい。   The width and length of the slit and corrugated portion that function as a buffer region are preferably determined in consideration of the plate thickness of the electrode tab and the magnitude of vibration applied during ultrasonic bonding.

本発明は、扁平型電池を多数接合して形成された電池の信頼性を大いに向上させることができるため、電池の製造分野での適用が可能である。   INDUSTRIAL APPLICABILITY The present invention can greatly improve the reliability of a battery formed by joining a large number of flat batteries, and thus can be applied in the battery manufacturing field.

本発明に係る扁平型電池の外観図である。1 is an external view of a flat battery according to the present invention. 実施の形態1における扁平型電池の電極タブの拡大図である。3 is an enlarged view of an electrode tab of the flat battery according to Embodiment 1. FIG. 実施の形態1における扁平型電池の電極タブの拡大図である。3 is an enlarged view of an electrode tab of the flat battery according to Embodiment 1. FIG. 実施の形態1において2枚の扁平型電池の電極タブ同士を超音波接合している状態を示す図である。FIG. 3 is a diagram showing a state in which electrode tabs of two flat batteries are ultrasonically bonded in the first embodiment. 実施の形態2における扁平型電池の電極タブの拡大図である。6 is an enlarged view of an electrode tab of a flat battery according to Embodiment 2. FIG. 実施の形態2における扁平型電池の電極タブの拡大図である。6 is an enlarged view of an electrode tab of a flat battery according to Embodiment 2. FIG. 実施の形態2において2枚の扁平型電池の電極タブ同士を超音波接合している状態を示す図である。6 is a diagram showing a state where electrode tabs of two flat batteries are ultrasonically bonded in Embodiment 2. FIG.

符号の説明Explanation of symbols

10、10A、10B 扁平型電池、
12、12A、12B 電極タブ、
14 電極タブ、
20 電圧検出端子、
25A、25B スリット、
26 電極タブ引き出し端、
27、27A、27B コルゲート加工部、
30 超音波接合機、
32 アンビル、
34 ホーン。
10, 10A, 10B flat battery,
12, 12A, 12B electrode tab,
14 electrode tabs,
20 voltage detection terminal,
25A, 25B slit,
26 electrode tab lead-out end,
27, 27A, 27B Corrugated part,
30 ultrasonic bonding machine,
32 Anvil,
34 Horn.

Claims (4)

超音波を用いて電圧を検出するための電圧検出端子が接合される電極タブを備えた扁平型電池であって、当該電極タブには接合時の応力伝達を緩和する緩衝域が設けられ、
前記緩衝域は、接合時に前記電極タブに加えられる振動方向に対して交差する方向に伸延して設けられ、且つ、少なくとも前記電圧検出端子の長さに形成することを特徴とする扁平型電池。
A flat battery including an electrode tab to which a voltage detection terminal for detecting a voltage using ultrasonic waves is joined, and the electrode tab is provided with a buffer region for relaxing stress transmission during joining,
The flat battery is characterized in that the buffer region is provided so as to extend in a direction intersecting with a vibration direction applied to the electrode tab at the time of joining, and is formed at least the length of the voltage detection terminal.
超音波を用いて他の扁平型電池の電極タブが接合される電極タブを備えた扁平型電池であって、当該電極タブには接合時の応力伝達を緩和する緩衝域が設けられ、
前記緩衝域は、超音波接合の際にホーン側に位置される電極タブに、接合時に前記電極タブに加えられる振動方向に対して交差する方向に伸延して設けられることを特徴とする扁平型電池。
A flat battery having an electrode tab to which the electrode tab of another flat battery is joined using ultrasonic waves, the electrode tab is provided with a buffer region that relaxes stress transmission during joining,
The buffer region is provided on an electrode tab positioned on the horn side during ultrasonic bonding so as to extend in a direction intersecting a vibration direction applied to the electrode tab during bonding. battery.
前記緩衝域は、スリットであることを特徴とする請求項1または2に記載の扁平型電池。 The buffer zone is flat battery according to claim 1 or 2, characterized in that a slit. 前記緩衝域は、コルゲート加工部であることを特徴とする請求項1または2に記載の扁平型電池。 The buffer zone is flat battery according to claim 1 or 2, characterized in that the corrugating unit.
JP2004166901A 2004-06-04 2004-06-04 Flat battery Expired - Fee Related JP4876374B2 (en)

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