JP2003007346A - Secondary lithium battery and manufacturing method of the same - Google Patents
Secondary lithium battery and manufacturing method of the sameInfo
- Publication number
- JP2003007346A JP2003007346A JP2001184874A JP2001184874A JP2003007346A JP 2003007346 A JP2003007346 A JP 2003007346A JP 2001184874 A JP2001184874 A JP 2001184874A JP 2001184874 A JP2001184874 A JP 2001184874A JP 2003007346 A JP2003007346 A JP 2003007346A
- Authority
- JP
- Japan
- Prior art keywords
- lithium secondary
- current collecting
- secondary battery
- internal
- terminal portion
- 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.)
- Withdrawn
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
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
-
- 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
- Sealing Battery Cases Or Jackets (AREA)
- Secondary Cells (AREA)
- Connection Of Batteries Or Terminals (AREA)
- Battery Electrode And Active Subsutance (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】 本発明は、リチウム二次電
池(以下、単に「電池」ともいう)及びその製造方法に
関し、さらに詳しくは、省スペース化し、体積エネルギ
ー密度の向上を図ったリチウム二次電池及びその製造方
法に関する。TECHNICAL FIELD The present invention relates to a lithium secondary battery (hereinafter, also simply referred to as “battery”) and a method for manufacturing the same, and more specifically, a lithium secondary battery that saves space and improves volume energy density. The present invention relates to a battery and a manufacturing method thereof.
【0002】[0002]
【従来の技術】 近年、リチウム二次電池は、携帯型の
通信機器やノート型パーソナルコンピュータ等の電子機
器の電源として広く用いられている。また、国際的な地
球環境の保護のための省資源化や省エネルギー化の要請
が高まり、電気自動車やハイブリッド電気自動車(以
下、単に「電気自動車等」ともいう)のモータ駆動用バ
ッテリーとして、リチウム二次電池の開発が進められて
いる。2. Description of the Related Art In recent years, lithium secondary batteries have been widely used as a power source for electronic devices such as portable communication devices and notebook personal computers. In addition, there is an increasing demand for resource saving and energy saving for the protection of the global environment, and as a battery for driving a motor of an electric vehicle or a hybrid electric vehicle (hereinafter, also simply referred to as “electric vehicle”), a lithium battery is used. Development of secondary batteries is underway.
【0003】 このリチウム二次電池は、その内部に正
極板と負極板とを多孔性ポリマーフィルムからなるセパ
レータを介して正極板と負極板とが直接に接触しないよ
うに捲回又は積層して構成された内部電極体(以下、単
に「電極体」ともいう)を備えている。This lithium secondary battery is constructed by winding or stacking a positive electrode plate and a negative electrode plate inside the positive electrode plate and the negative electrode plate so that the positive electrode plate and the negative electrode plate do not come into direct contact with each other via a separator made of a porous polymer film. Internal electrode body (hereinafter, also simply referred to as “electrode body”).
【0004】 従来、図8に示すように、例えば、捲回
型の内部電極体61には、正極板62と負極板63とを
セパレータ64を介して捲回して作製され、正極板62
及び負極板63(以下、「電極板62、63」ともい
う)のそれぞれに、少なくとも1枚の正極用の集電タブ
65及び負極用の集電タブ66(以下、「集電タブ6
5、66」ともいう)が配設される。そして、図7に示
すように、集電タブ65、66の、電極板62、63と
接続された反対側の端部は、内部端子部69A、69B
等に取り付けられる。すなわち、集電タブ65、66
は、電極板62、63からの集電を行うと共に、リード
線としての役割を担っている。尚、符号10は連通孔
を、符号11はリベットを、符号12はポリプロピレン
リングを、符号13はV字型溝を、符号14は溶解ポリ
プロピレンを、符号76は弾性体(パッキン)を、符号
77は絶縁性ポリマーフィルムを示す。Conventionally, as shown in FIG. 8, for example, a wound type internal electrode body 61 is manufactured by winding a positive electrode plate 62 and a negative electrode plate 63 via a separator 64.
Each of the negative electrode plate 63 and the negative electrode plate 63 (hereinafter, also referred to as “electrode plate 62, 63”) has at least one positive electrode current collecting tab 65 and negative electrode current collecting tab 66 (hereinafter, “current collecting tab 6”).
5, 66 "). Then, as shown in FIG. 7, the ends of the current collecting tabs 65, 66 on the opposite side to the electrode plates 62, 63 are connected to the internal terminal portions 69A, 69B.
Etc. That is, the current collecting tabs 65, 66
Collects current from the electrode plates 62 and 63 and also serves as a lead wire. Reference numeral 10 is a communication hole, reference numeral 11 is a rivet, reference numeral 12 is a polypropylene ring, reference numeral 13 is a V-shaped groove, reference numeral 14 is a melt polypropylene, reference numeral 76 is an elastic body (packing), reference numeral 77. Indicates an insulating polymer film.
【0005】 電極板62、63としては、正極板62
にアルミニウム等、負極板63に銅、ニッケル等の金属
箔体等を集電基板として用い、それぞれに電極活物質を
塗布して形成されており、集電タブ65、66は、この
ような集電基板の少なくとも一辺に配設される。そこ
で、集電タブとして、電極活物質の塗布厚より薄い、短
冊状のものを用いると、電極板を捲回する際に、集電タ
ブの部分で部分的に外周に向けて膨らむといった形状む
らが発生し難く、好ましい。A positive electrode plate 62 is used as the electrode plates 62 and 63.
Is made of aluminum or the like, and the negative electrode plate 63 is made of a metal foil body of copper, nickel or the like as a current collector substrate, and is formed by applying an electrode active material to each of them, and the current collector tabs 65 and 66 are formed as described above. It is arranged on at least one side of the electric substrate. Therefore, if a strip-shaped current collecting tab that is thinner than the thickness of the electrode active material is used, when the electrode plate is wound, the shape of the current collecting tab is such that the current collecting tab partly bulges toward the outer periphery. Is less likely to occur, which is preferable.
【0006】 しかし、集電タブ65、66は、その1
端を電極板62、63に接続し、もう一方の1端を、図
7に示すような、内部端子部69A、69Bの表面に接
続するには、一定以上のスペースが必要であった。特
に、集電タブと内部端子をレーザー等のエネルギー線に
より溶接する場合には、その熱による電極体への悪影響
を抑制するため集電タブを長くする必要があるために、
さらにより大きなスペースが必要であった。従って、そ
のスペースの分、電池は大きくなるために、電池の体積
エネルギー密度は小さいという問題があった。また、電
気自動車等においてモータ駆動用等としてリチウム二次
電池を用いる場合には、大電流を取り出すため直列に接
続した多数の電池を積載する必要があるために、大きな
スペースが必要であるという問題があった。However, the current collecting tabs 65 and 66 are
To connect the ends to the electrode plates 62 and 63 and connect the other end to the surfaces of the internal terminal portions 69A and 69B as shown in FIG. 7, a certain amount of space or more was required. In particular, when welding the current collecting tab and the internal terminal with an energy ray such as a laser, it is necessary to lengthen the current collecting tab in order to suppress the adverse effect on the electrode body due to the heat,
An even larger space was needed. Therefore, there is a problem that the volume energy density of the battery is small because the battery becomes large by the space. In addition, when a lithium secondary battery is used for driving a motor in an electric vehicle or the like, a large space is required because it is necessary to load a large number of batteries connected in series to extract a large current. was there.
【0007】[0007]
【発明が解決しようとする課題】 本発明は、かかる従
来の問題に鑑みてなされたものであり、その目的とする
ところは、複数枚の短冊状の集電タブの一端を、巻芯の
中心軸に対して略垂直な向きに揃えられた状態で、集電
タブの少なくとも一枚の面を、電極端子の少なくとも一
方を構成する内部端子部の側壁に接した状態で接続して
なるという構成を採用することにより、省スペース化
し、体積エネルギー密度の向上を図ったリチウム二次電
池及びその製造方法を提供することにある。SUMMARY OF THE INVENTION The present invention has been made in view of the above conventional problems, and an object of the present invention is to attach one end of a plurality of strip-shaped current collecting tabs to the center of a winding core. A structure in which at least one surface of the current collecting tab is connected in a state of being aligned in a direction substantially perpendicular to the axis while being in contact with a side wall of an internal terminal portion forming at least one of the electrode terminals. Is to provide a lithium secondary battery that saves space and improves the volume energy density, and a method for manufacturing the same.
【0008】[0008]
【課題を解決するための手段】 すなわち、本発明によ
れば、中空円筒状の巻芯の外周壁に、正極板及び負極板
を捲回、積層して構成され、かつその内部に非水電解液
を含浸した内部電極体と、この内部電極体の両端に配設
された、内部端子部、外部端子部、及び電池蓋部とを有
する2枚の電極端子のそれぞれとを、複数枚の短冊状の
集電タブを介して電気的に接続してなり、電極端子の少
なくとも一方が巻芯の中心軸に対応する位置に放圧孔を
備えてなるリチウム二次電池であって、複数枚の短冊状
の集電タブの一端を、巻芯の中心軸に対して略垂直な向
きに揃えられた状態で、且つ集電タブの複数枚のうち少
なくとも一枚の面が、少なくとも一方の電極端子の内部
端子部の側壁に接した状態で、接続してなるとともに、
集電タブの複数枚の他端を、内部電極体の正極板及び負
極板の端部のそれぞれに固定してなることを特徴とする
リチウム二次電池、が提供される。[Means for Solving the Problems] That is, according to the present invention, a positive electrode plate and a negative electrode plate are wound and laminated on an outer peripheral wall of a hollow cylindrical winding core, and a non-aqueous electrolysis is formed therein. A plurality of strips each including an internal electrode body impregnated with the liquid and two electrode terminals each having an internal terminal portion, an external terminal portion, and a battery lid portion, which are arranged at both ends of the internal electrode body. A lithium secondary battery electrically connected through a current collecting tab, wherein at least one of the electrode terminals has a pressure release hole at a position corresponding to the center axis of the winding core. One end of the strip-shaped current collecting tab is aligned in a direction substantially perpendicular to the center axis of the winding core, and at least one surface of the plurality of current collecting tabs has at least one electrode terminal. While connected to the side wall of the internal terminal part of,
Provided is a lithium secondary battery characterized in that the other ends of a plurality of current collecting tabs are fixed to respective end portions of a positive electrode plate and a negative electrode plate of an internal electrode body.
【0009】 また、本発明によれば、中空円筒状の巻
芯の外周壁に、正極板及び負極板を捲回、積層して構成
され、かつその内部に非水電解液を含浸した内部電極体
と、この内部電極体を内部に収容した、両端が開放され
た円筒状の電池ケースと、この電池ケースの開放両端で
内部電極体を封止した、内部端子部、外部端子部、及び
電池蓋部とを有する、2枚の電極端子とを備え、内部電
極体と電極端子のそれぞれとを、複数枚の短冊状の集電
タブを介して電気的に接続してなり、電極端子の少なく
とも一方が巻芯の中心軸に対応する位置に放圧孔を備え
てなるリチウム二次電池であって、複数枚の短冊状の集
電タブの一端を、巻芯の中心軸に対して略垂直な向きに
揃えられた状態で、且つ集電タブの複数枚のうち少なく
とも一枚の面が、少なくとも一方の電極端子の内部端子
部の側壁に接した状態で、接続してなるとともに、集電
タブの他端を、内部電極体の正極板及び負極板の端部の
それぞれに固定してなることを特徴とするリチウム二次
電池、が提供される。Further, according to the present invention, an inner electrode is formed by winding and stacking a positive electrode plate and a negative electrode plate on the outer peripheral wall of a hollow cylindrical winding core, and impregnating a non-aqueous electrolyte therein. Body, a cylindrical battery case having the internal electrode body housed therein and open at both ends, and an internal terminal portion, an external terminal portion, and a battery in which the internal electrode body is sealed at both open ends of the battery case. Two electrode terminals each having a lid portion, each of which is electrically connected to each of the internal electrode body and the electrode terminals via a plurality of strip-shaped current collecting tabs. A lithium secondary battery, one of which is provided with a pressure release hole at a position corresponding to the center axis of the winding core, wherein one end of a plurality of strip-shaped current collecting tabs is substantially perpendicular to the center axis of the winding core. In the correct orientation and at least one of the multiple If at least one of the electrode terminals is in contact with the side wall of the internal terminal portion, the connection is made, and the other end of the current collecting tab is fixed to each of the positive electrode plate and the negative electrode plate of the internal electrode body. A lithium secondary battery is provided.
【0010】 本発明においては、巻芯の中心軸として
は、電池ケースの中心軸と同軸であることが好ましく、
外部端子部が中空部分を有し、この中空部分を放圧孔の
放圧通路としてなることが好ましい。また、集電タブの
1枚の厚みが5μm以上100μm以下であり、かつ、
内部端子部の1箇所に少なくとも10枚の集電タブが接
続されることが好ましい。In the present invention, the center axis of the winding core is preferably coaxial with the center axis of the battery case,
It is preferable that the external terminal portion has a hollow portion, and this hollow portion serves as a pressure release passage of the pressure release hole. Further, the thickness of one of the current collecting tabs is 5 μm or more and 100 μm or less, and
At least 10 current collecting tabs are preferably connected to one location of the internal terminal portion.
【0011】 また、本発明によれば、中空円筒状の巻
芯の外周壁に、正極板及び負極板を捲回、積層して構成
され、かつその内部に非水電解液を含浸した内部電極体
と、この内部電極体の両端に配設された、内部端子部、
外部端子部、及び電池蓋部を有する2枚の電極端子のそ
れぞれとを、複数枚の短冊状の集電タブを介して電気的
に接続してなるリチウム二次電池であって、集電タブの
一端を、電極端子の少なくとも一方を構成する内部端子
部の側壁に形成した凹溝に挿入するとともに、集電タブ
の他端を、内部電極体の正極板及び負極板の端部に固定
することによって、内部電極体と電極端子とを電気的に
接続してなることを特徴とするリチウム二次電池、が提
供される。According to the present invention, an inner electrode is formed by winding and stacking a positive electrode plate and a negative electrode plate on an outer peripheral wall of a hollow cylindrical winding core and impregnating a non-aqueous electrolytic solution therein. Body and internal terminal portions arranged at both ends of the internal electrode body,
A lithium secondary battery in which an external terminal portion and each of two electrode terminals having a battery lid portion are electrically connected via a plurality of strip-shaped current collecting tabs. One end of the current collector tab is inserted into a groove formed in the side wall of the internal terminal portion forming at least one of the electrode terminals, and the other end of the current collecting tab is fixed to the end portions of the positive electrode plate and the negative electrode plate of the internal electrode body. Thus, there is provided a lithium secondary battery characterized in that the internal electrode body and the electrode terminal are electrically connected.
【0012】 また、本発明によれば、中空円筒状の巻
芯の外周壁に、正極板及び負極板を捲回、積層して構成
され、かつその内部に非水電解液を含浸した内部電極体
と、この内部電極体を内部に収容した、両端が開放され
た円筒状の電池ケースと、この電池ケースの開放両端で
内部電極体を封止した、内部端子部、外部端子部、及び
電池蓋部とを有する、2枚の電極端子とを備え、内部電
極体と電極端子のそれぞれとを、複数枚の短冊状の集電
タブを介して電気的に接続してなるリチウム二次電池で
あって、集電タブの一端を、電極端子の少なくとも一方
を構成する内部端子部の側壁に形成した凹溝に挿入する
とともに、集電タブの他端を、内部電極体の正極板及び
負極板の端部に固定することによって、内部電極体と電
極端子とを電気的に接続してなることを特徴とするリチ
ウム二次電池、が提供される。このとき、凹溝として
は、内部端子部の側壁に周設されていてもよく、複数枚
の集電タブとしては、少なくとも1箇所にまとめられて
内部端子部の凹溝に挿入され接続されることが好まし
い。Further, according to the present invention, an inner electrode is formed by winding and stacking a positive electrode plate and a negative electrode plate on an outer peripheral wall of a hollow cylindrical winding core, and impregnated with a non-aqueous electrolytic solution inside thereof. Body, a cylindrical battery case having the internal electrode body housed therein and open at both ends, and an internal terminal portion, an external terminal portion, and a battery in which the internal electrode body is sealed at both open ends of the battery case. A lithium secondary battery comprising: two electrode terminals having a lid, and electrically connecting the internal electrode body and each of the electrode terminals via a plurality of strip-shaped current collecting tabs. Then, one end of the current collecting tab is inserted into the concave groove formed in the side wall of the internal terminal portion forming at least one of the electrode terminals, and the other end of the current collecting tab is connected to the positive electrode plate and the negative electrode plate of the internal electrode body. By fixing it to the end of the Provided is a lithium secondary battery characterized by being connected. At this time, the concave groove may be circumferentially provided on the side wall of the internal terminal portion, and as the plurality of current collecting tabs, they are put together in at least one place and inserted into the concave groove of the internal terminal portion to be connected. It is preferable.
【0013】 本発明においては、集電タブの1枚の厚
みが5μm以上100μm以下であり、かつ、内部端子
部の1箇所に少なくとも10枚の集電タブが接続される
ことが好ましい。また、電極端子の少なくとも一方が、
巻芯の中心軸に対応する位置に放圧孔を備えることが好
ましく、巻芯の中心軸としては、電池ケースの中心軸と
同軸であることが好ましく、外部端子部が中空部分を有
し、この中空部分を放圧孔の放圧通路としてなることが
好ましい。In the present invention, it is preferable that one of the current collecting tabs has a thickness of 5 μm or more and 100 μm or less, and at least 10 current collecting tabs are connected to one location of the internal terminal portion. Also, at least one of the electrode terminals,
It is preferable to provide a pressure release hole at a position corresponding to the central axis of the winding core, the central axis of the winding core is preferably coaxial with the central axis of the battery case, the external terminal portion has a hollow portion, It is preferable that this hollow portion serves as a pressure release passage of the pressure release hole.
【0014】 本発明の構成条件は、容量が2Ah以上
であるリチウム二次電池に好適に採用され、具体的に
は、車載用として、エンジン起動用又は電気自動車用や
ハイブリッド電気自動車用として好適に用いられる。The constitutional conditions of the present invention are suitably adopted for a lithium secondary battery having a capacity of 2 Ah or more, and specifically, suitable for in-vehicle use, for engine starting or for electric vehicles and hybrid electric vehicles. Used.
【0015】 また、本発明によれば、正極板と負極板
とをセパレータを介して巻芯外周に捲回してなる内部電
極体の両端に設けた集電タブのそれぞれと、内部端子
部、外部端子部、及び電池蓋部を有する、2枚の電極端
子を電気的に接続して電気的接続体を形成し、この電気
的接続体を、両端が開放された円筒状の電池ケースに収
納した後、電池ケースと電極端子の外縁部を接合して封
止するリチウム二次電池の製造方法であって、内部電極
体の両端に設けた複数枚の短冊状の集電タブの一端を巻
芯の中心軸に対して略垂直な向きに揃えられた状態で、
集電タブの少なくとも一枚の面を、電極端子の少なくと
も一方を構成する内部端子部の側壁に接した状態で接続
してなる電気的接続体を用いることを特徴とするリチウ
ム二次電池の製造方法、が提供される。Further, according to the present invention, each of the current collecting tabs provided at both ends of the internal electrode body formed by winding the positive electrode plate and the negative electrode plate around the outer periphery of the winding core via the separator, the internal terminal portion, and the external Two electrode terminals having a terminal portion and a battery lid portion are electrically connected to each other to form an electrical connection body, and the electrical connection body is housed in a cylindrical battery case with both ends open. A method for manufacturing a lithium secondary battery, in which a battery case and an outer edge portion of an electrode terminal are joined and sealed, wherein one end of a plurality of strip-shaped current collecting tabs provided at both ends of an internal electrode body is wound around a core. In the state of being aligned in a direction substantially perpendicular to the center axis of
Manufacture of a lithium secondary battery characterized by using an electrical connection body in which at least one surface of a current collecting tab is connected in a state of being in contact with a side wall of an internal terminal portion forming at least one of electrode terminals. A method is provided.
【0016】 また、本発明によれば、正極板と負極板
とをセパレータを介して巻芯外周に捲回してなる内部電
極体の両端に設けた集電タブのそれぞれと、内部端子
部、外部端子部、及び電池蓋部を有する、2枚の電極端
子を構成する、それぞれの内部端子部の側壁に形成され
た凹溝とを接合して電気的接続体を形成し、次いで、こ
の電気的接続体を、両端が開放された電池ケースに挿入
した後、電池ケースの両端部のそれぞれと2枚の電極端
子の外縁部のそれぞれとを接合し、次いで、少なくとも
一枚の電極端子に設けた電解液注入口より非水電解液を
注入した後、電解液注入口を封止することを特徴とする
リチウム二次電池の製造方法、が提供される。Further, according to the present invention, each of the current collecting tabs provided at both ends of the internal electrode body formed by winding the positive electrode plate and the negative electrode plate around the winding core through the separator, the internal terminal portion, and the external The electrical connection body is formed by joining the recessed groove formed in the side wall of each internal terminal portion, which constitutes the two electrode terminals having the terminal portion and the battery lid portion, and then formed the electrical connection body. After the connection body was inserted into a battery case with both ends open, both end portions of the battery case were joined to respective outer edge portions of the two electrode terminals, and then provided on at least one electrode terminal. Provided is a method for manufacturing a lithium secondary battery, which comprises sealing the electrolyte solution inlet after injecting the non-aqueous electrolyte solution from the electrolyte solution inlet.
【0017】 本発明においては、内部端子部の凹溝と
集電タブとの接合方法として、圧着及び/又は溶接の方
法を用いてもよく、接合作業時に、集電タブを圧着及び
/又は溶接することが容易な位置に電極端子を配置する
ことが好ましい。In the present invention, a crimping and / or welding method may be used as a method for joining the concave groove of the internal terminal portion and the current collecting tab, and the current collecting tab is crimped and / or welded during the joining operation. It is preferable to dispose the electrode terminal at a position where it is easy to do.
【0018】[0018]
【発明の実施の形態】 以下、本発明の実施の形態につ
いて図面を参照しながら説明する。Embodiments of the present invention will be described below with reference to the drawings.
【0019】 図2に示すように、本発明のリチウム二
次電池は、上述のように、中空円筒状の巻芯67の外周
壁に、正極板及び負極板を捲回、積層して構成され、か
つその内部に非水電解液を含浸した内部電極体61と、
この内部電極体61の両端に配設された、内部端子部6
9A、69B、外部端子部70A、70B、及び電池蓋
部71A、71Bとを有する2枚の電極端子のそれぞれ
とを、複数枚の短冊状の集電タブ65、66を介して電
気的に接続してなり、電極端子の少なくとも一方が巻芯
67の中心軸に対応する位置に放圧孔75を備えてなる
リチウム二次電池68であって、図1に示すように、複
数枚の短冊状の集電タブ65、66の一端を、巻芯67
の中心軸に対して略垂直な向きに揃えられた状態で、且
つ集電タブ65、66の複数枚のうち少なくとも一枚の
面が、少なくとも一方の電極端子の内部端子部69A、
69Bの側壁に接した状態で、接続してなるとともに、
集電タブ65、66の複数枚の他端を、内部電極体61
の正極板及び負極板の端部のそれぞれに固定してなるこ
とを特徴とする。As shown in FIG. 2, the lithium secondary battery of the present invention is formed by winding and stacking the positive electrode plate and the negative electrode plate on the outer peripheral wall of the hollow cylindrical winding core 67 as described above. And an internal electrode body 61 having a non-aqueous electrolyte impregnated therein,
Internal terminal portions 6 arranged at both ends of the internal electrode body 61
9A, 69B, external terminal portions 70A, 70B, and two electrode terminals each having a battery lid portion 71A, 71B are electrically connected via a plurality of strip-shaped current collecting tabs 65, 66. A lithium secondary battery 68 in which at least one of the electrode terminals is provided with a pressure release hole 75 at a position corresponding to the central axis of the winding core 67, as shown in FIG. One end of the current collecting tabs 65, 66 of the
Of the plurality of current collecting tabs 65, 66 in a state of being aligned in a direction substantially perpendicular to the central axis of the inner terminal portion 69A of at least one of the electrode terminals,
While connecting to the side wall of 69B,
The other ends of the plurality of current collecting tabs 65 and 66 are connected to the internal electrode body 61.
The positive electrode plate and the negative electrode plate are fixed to the respective ends.
【0020】 このように、集電タブ65、66を電極
端子の内部に収納するような形で、集電タブ65、66
の一端を内部端子部69A、69Bの側壁に巻芯67の
中心軸に対して略垂直な方向から電極端子と接続すると
いう構成を採用することにより、省スペース化し、体積
エネルギー密度の向上を図ることが出来る。又、電気自
動車等においてモータ駆動用等として多数のリチウム二
次電池を用いる場合に、個々の電池がコンパクト化され
るために、電池の積載に必要なスペースを削減すること
が出来る。As described above, the current collecting tabs 65 and 66 are housed inside the electrode terminals in a manner that the current collecting tabs 65 and 66 are housed.
A space is saved and the volumetric energy density is improved by adopting a configuration in which one end of the terminal is connected to the electrode terminals from the direction substantially perpendicular to the central axis of the winding core 67 on the side walls of the internal terminal portions 69A and 69B. You can Further, when a large number of lithium secondary batteries are used for driving a motor in an electric vehicle or the like, the individual batteries are made compact, so that the space required for loading the batteries can be reduced.
【0021】 尚、ここでいう「内部端子部」とは、構
造的に電極端子の特定の箇所を指すものではなく、電極
端子の集電タブが直接的に接続される部位を意味するも
のである。The “internal terminal portion” here does not structurally indicate a specific portion of the electrode terminal, but means a portion to which the current collecting tab of the electrode terminal is directly connected. is there.
【0022】 本発明に用いられる電極端子としては、
特に制限はなく、例えば、汎用の成形による方法を挙げ
ることが出来る。The electrode terminals used in the present invention include:
There is no particular limitation and, for example, a general molding method can be used.
【0023】 また、電極端子の材料は、正極及び負極
の電気化学反応に対応したものであれば特に制限はな
く、汎用の金属材料を用いることが出来る。例えば、正
極であれば、アルミニウム又はその合金等を、負極であ
れば、銅、ニッケル又はそれらの合金等を挙げることが
出来る。The material of the electrode terminal is not particularly limited as long as it is compatible with the electrochemical reaction of the positive electrode and the negative electrode, and a general-purpose metal material can be used. For example, the positive electrode may be aluminum or its alloy, and the negative electrode may be copper, nickel, or an alloy thereof.
【0024】 本発明に用いられる集電タブは、正極及
び負極の電気化学反応に対応した短冊状の金属箔体であ
れば特に制限はなく、汎用の金属材料を用いることが出
来る。例えば、正極であれば、アルミニウム又はその合
金等を、負極であれば、銅、ニッケル又はそれらの合金
等を挙げることが出来る。The collector tab used in the present invention is not particularly limited as long as it is a strip-shaped metal foil body corresponding to the electrochemical reaction of the positive electrode and the negative electrode, and a general-purpose metal material can be used. For example, the positive electrode may be aluminum or its alloy, and the negative electrode may be copper, nickel, or an alloy thereof.
【0025】 また、集電タブの他端と内部電極体とを
接続する方法としては、巻芯の外周壁に、正極板と負極
板との間にセパレータを挟み、それらを捲回しながら、
超音波溶接等により、電極活物質が塗工されていない、
金属箔が露出した正極板及び負極板の端部に一定間隔で
取り付ける方法を挙げることが出来る。As a method of connecting the other end of the current collecting tab and the internal electrode body, a separator is sandwiched between the positive electrode plate and the negative electrode plate on the outer peripheral wall of the winding core, and while winding them,
No electrode active material is applied by ultrasonic welding,
A method of attaching the positive electrode plate and the negative electrode plate where the metal foil is exposed to the end portions at regular intervals can be mentioned.
【0026】 尚、電極端子の内部端子部は集電タブと
接続され、外部端子部は、電池から電流を導出するため
のブスバー等と接続されるために、接続抵抗を抑制する
ため、内部端子部と集電タブとが、又、外部端子部とブ
スバーとが同種の金属で構成されていることが好まし
い。The internal terminal portion of the electrode terminal is connected to the current collecting tab, and the external terminal portion is connected to a bus bar or the like for deriving a current from the battery, so that the internal terminal is suppressed in order to suppress the connection resistance. It is preferable that the portion and the current collecting tab are made of the same metal as that of the external terminal portion and the bus bar.
【0027】 また、図2に示すように、本発明のリチ
ウム二次電池は、電極端子の少なくとも一方が、巻芯6
7の中心軸に対応する位置に放圧孔75を備えることが
好ましいが、この際に、巻芯67の中心軸が、電池ケー
ス73の中心軸と同軸であることが好ましく、外部端子
部70A、70Bが中空部分を有し、この中空部分を放
圧孔75の放圧通路としてなることが好ましい。本発明
は、この放圧通路を塞ぐことのない部位に、内部端子部
69A、69Bの側壁に巻芯67の中心軸に対して略垂
直な方向から接続することにより、従来の放圧機能を保
持しつつ、省スペース化を図ったものである。Further, as shown in FIG. 2, in the lithium secondary battery of the present invention, at least one of the electrode terminals has a winding core 6
It is preferable to provide the pressure release hole 75 at a position corresponding to the central axis of 7, but at this time, the central axis of the winding core 67 is preferably coaxial with the central axis of the battery case 73, and the external terminal portion 70A. , 70B has a hollow portion, and this hollow portion serves as a pressure release passage of the pressure release hole 75. According to the present invention, the conventional pressure-releasing function is achieved by connecting the side wall of the internal terminals 69A, 69B to the portion that does not block the pressure-releasing passage from a direction substantially perpendicular to the central axis of the winding core 67. It is intended to save space while holding.
【0028】 本発明においては、本発明に用いられる
集電タブの厚みや枚数は、特に制限はないが、集電タブ
の1枚の厚みは、5μm以上100μm以下のものを用
いることが好ましく、かつ、内部端子部の1箇所に少な
くとも10枚の集電タブが接続されることが、接続抵抗
を抑制し、集電タブの接続を簡便にするために、好まし
い。In the present invention, the thickness and the number of the current collecting tabs used in the present invention are not particularly limited, but it is preferable that the thickness of one current collecting tab is 5 μm or more and 100 μm or less, Moreover, it is preferable that at least 10 current collecting tabs are connected to one location of the internal terminal portion in order to suppress the connection resistance and simplify the connection of the current collecting tabs.
【0029】 尚、集電タブの材質により好適な厚みの
範囲は異なるが、本発明のリチウム二次電池は、例え
ば、集電タブが、アルミニウム又はアルミニウム合金で
あれば15μm〜25μmであることが好ましく、銅又
は銅合金であれば7μm〜15μmであることが好まし
い。Although the suitable thickness range varies depending on the material of the current collecting tab, in the lithium secondary battery of the present invention, for example, when the current collecting tab is aluminum or aluminum alloy, it is 15 μm to 25 μm. It is preferably 7 μm to 15 μm for copper or a copper alloy.
【0030】 また、図2に示すように、本発明のリチ
ウム二次電池は、上述のように、中空円筒状の巻芯67
の外周壁に、正極板及び負極板を捲回、積層して構成さ
れ、かつその内部に非水電解液を含浸した内部電極体6
1と、この内部電極体61を内部に収容した、両端が開
放された円筒状の電池ケース73と、この電池ケース7
3の開放両端で内部電極体61を封止した、内部端子部
69A、69B、外部端子部70A、70B、及び電池
蓋部71A、71Bとを有する、2枚の電極端子とを備
え、内部電極体61と電極端子のそれぞれとを、複数枚
の短冊状の集電タブ65、66を介して電気的に接続し
てなり、電極端子の少なくとも一方が巻芯67の中心軸
に対応する位置に放圧孔75を備えてなるリチウム二次
電池68であって、図1に示すように、複数枚の短冊状
の集電タブ65、66の一端を、巻芯67の中心軸に対
して略垂直な向きに揃えられた状態で、且つ集電タブ6
5、66の複数枚のうち少なくとも一枚の面が、少なく
とも一方の電極端子の内部端子部69A、69Bの側壁
に接した状態で、接続してなるとともに、集電タブ6
5、66の複数枚の他端を、内部電極体61の正極板及
び負極板の端部のそれぞれに固定してなるものでもよ
い。尚、本発明における具体的な構成とその技術的効果
は上述しているので、重複する部分は省略することとす
る。Further, as shown in FIG. 2, the lithium secondary battery of the present invention, as described above, has a hollow cylindrical winding core 67.
An inner electrode body 6 in which a positive electrode plate and a negative electrode plate are wound and laminated on the outer peripheral wall of and the nonaqueous electrolytic solution is impregnated into the inner electrode body 6.
1, a cylindrical battery case 73 in which the internal electrode body 61 is housed, the both ends of which are open, and the battery case 7
The internal electrode body 61 is sealed at both open ends of 3 and has two electrode terminals having internal terminal portions 69A and 69B, external terminal portions 70A and 70B, and battery lid portions 71A and 71B. The body 61 and each of the electrode terminals are electrically connected via a plurality of strip-shaped current collecting tabs 65 and 66, and at least one of the electrode terminals is located at a position corresponding to the central axis of the winding core 67. In a lithium secondary battery 68 including pressure release holes 75, as shown in FIG. 1, one end of a plurality of strip-shaped current collecting tabs 65, 66 is substantially aligned with a center axis of a winding core 67. Current collecting tab 6 in a state of being aligned in a vertical direction
The surfaces of at least one of the plurality of sheets 5 and 66 are connected in a state of being in contact with the side walls of the internal terminal portions 69A and 69B of at least one of the electrode terminals.
Alternatively, the other ends of the plurality of sheets 5 and 66 may be fixed to the respective ends of the positive electrode plate and the negative electrode plate of the internal electrode body 61. Since the specific configuration and the technical effect thereof according to the present invention have been described above, the overlapping portions will be omitted.
【0031】 また、図2に示すように、本発明のリチ
ウム二次電池は、上述のように、中空円筒状の巻芯67
の外周壁に、正極板及び負極板を捲回、積層して構成さ
れ、かつその内部に非水電解液を含浸した内部電極体6
1と、この内部電極体61の両端に配設された、内部端
子部69A、69B、外部端子部70A、70B、及び
電池蓋部71A、71Bを有する2枚の電極端子のそれ
ぞれとを、複数枚の短冊状の集電タブ65、66を介し
て電気的に接続してなるリチウム二次電池68であっ
て、図1に示すように、集電タブ65、66の一端を、
電極端子の少なくとも一方を構成する内部端子部69
A、69Bの側壁に形成した凹溝1に挿入するととも
に、集電タブ65、66の他端を、内部電極体61の正
極板及び負極板の端部に固定することによって、内部電
極体61と電極端子とを電気的に接続してなることを特
徴とする。このとき、凹溝1としては、内部端子部69
A、69Bの側壁に周設されることが好ましい。尚、本
発明における具体的な構成とその技術的効果は上述して
いるので、重複する部分は省略することとする。Further, as shown in FIG. 2, the lithium secondary battery of the present invention, as described above, has a hollow cylindrical winding core 67.
An inner electrode body 6 in which a positive electrode plate and a negative electrode plate are wound and laminated on the outer peripheral wall of and the nonaqueous electrolytic solution is impregnated into the inner electrode body 6.
1 and two electrode terminals having internal terminal portions 69A and 69B, external terminal portions 70A and 70B, and battery lid portions 71A and 71B, which are arranged at both ends of the internal electrode body 61, respectively. A lithium secondary battery 68 electrically connected through a plurality of strip-shaped current collecting tabs 65 and 66, wherein one end of the current collecting tabs 65 and 66 is
Internal terminal portion 69 constituting at least one of electrode terminals
The inner electrode body 61 is inserted into the groove 1 formed in the side walls of A and 69B, and the other ends of the current collecting tabs 65 and 66 are fixed to the ends of the positive electrode plate and the negative electrode plate of the inner electrode body 61. And an electrode terminal are electrically connected to each other. At this time, the internal groove 69 is used as the groove 1.
It is preferable to be provided around the side walls of A and 69B. Since the specific configuration and the technical effect thereof according to the present invention have been described above, the overlapping portions will be omitted.
【0032】 このように、集電タブ65、66を電極
端子の内部に収納するような形で、集電タブ65、66
の一端を内部端子部69A、69Bの側壁に形成された
凹溝1に挿入して電極端子と接続するという構成を採用
することにより、省スペース化し、体積エネルギー密度
の向上を図ることが出来る。又、電気自動車等において
モータ駆動用等として多数のリチウム二次電池を用いる
場合に、個々の電池がコンパクト化されるために、電池
の積載に必要なスペースを削減することが出来る。In this way, the current collecting tabs 65, 66 are housed inside the electrode terminals in such a manner that the current collecting tabs 65, 66 are housed.
By adopting the configuration in which one end of the above is inserted into the groove 1 formed in the side walls of the internal terminal portions 69A and 69B and connected to the electrode terminal, space saving can be achieved and the volume energy density can be improved. Further, when a large number of lithium secondary batteries are used for driving a motor in an electric vehicle or the like, the individual batteries are made compact, so that the space required for loading the batteries can be reduced.
【0033】 このとき、複数枚の集電タブ65、66
が、少なくとも1箇所にまとめられて内部端子部69
A、69Bの凹溝1に挿入され接続してなることが、接
続の簡便さから、好ましい。特に、図1に示すように、
複数枚の集電タブ65、66を1箇所にまとめられて内
部端子部69A、69Bの凹溝1に挿入され接続してな
ると、後述する放圧通路を全く塞ぐことがないために、
さらに好ましい。At this time, the plurality of current collecting tabs 65, 66
However, the internal terminal portions 69 are gathered in at least one place.
It is preferable to be inserted and connected to the recessed grooves 1 of A and 69B from the viewpoint of easy connection. In particular, as shown in FIG.
If a plurality of current collecting tabs 65, 66 are put together in one place and inserted into the concave grooves 1 of the internal terminal portions 69A, 69B and connected, the pressure release passage described later will not be blocked at all.
More preferable.
【0034】 集電タブの一端と内部端子部の凹溝1と
を接続する方法としては、圧着及び/又は溶接する方法
を挙げることが出来る。このとき、溶接としては、エネ
ルギー線を用いるアーク溶接、レーザー溶接、電子ビー
ム溶接、又は超音波溶接、抵抗溶接、スポット溶接等を
挙げることが出来る。As a method of connecting one end of the current collecting tab and the concave groove 1 of the internal terminal portion, a method of crimping and / or welding can be mentioned. At this time, examples of welding include arc welding using energy rays, laser welding, electron beam welding, ultrasonic welding, resistance welding, and spot welding.
【0035】 また、図2に示すように、本発明のリチ
ウム二次電池は、上述のように、中空円筒状の巻芯67
の外周壁に、正極板及び負極板を捲回、積層して構成さ
れ、かつその内部に非水電解液を含浸した内部電極体6
1と、この内部電極体61を内部に収容した、両端が開
放された円筒状の電池ケース73と、この電池ケース7
3の開放両端で内部電極体61を封止した、内部端子部
69A、69B、外部端子部70A、70B、及び電池
蓋部71A、71Bとを有する、2枚の電極端子とを備
え、内部電極体61と電極端子のそれぞれとを、複数枚
の短冊状の集電タブ65、66を介して電気的に接続し
てなるリチウム二次電池68であって、図1に示すよう
に、集電タブ65、66の一端を、電極端子の少なくと
も一方を構成する内部端子部69A、69Bの側壁に形
成した凹溝1に挿入するとともに、集電タブ65、66
の他端を、内部電極体61の正極板及び負極板の端部に
固定することによって、内部電極体61と電極端子とを
電気的に接続してもよい。尚、本発明における具体的な
構成とその技術的効果は上述しているので、重複する部
分は省略することとする。Further, as shown in FIG. 2, the lithium secondary battery of the present invention, as described above, has a hollow cylindrical winding core 67.
An inner electrode body 6 in which a positive electrode plate and a negative electrode plate are wound and laminated on the outer peripheral wall of and the nonaqueous electrolytic solution is impregnated into the inner electrode body 6.
1, a cylindrical battery case 73 in which the internal electrode body 61 is housed, the both ends of which are open, and the battery case 7
The inner electrode body 61 is sealed at both open ends of the inner electrode body 3 and has two electrode terminals having inner terminal portions 69A and 69B, outer terminal portions 70A and 70B, and battery lid portions 71A and 71B. A lithium secondary battery 68 in which a body 61 and each of the electrode terminals are electrically connected via a plurality of strip-shaped current collecting tabs 65 and 66, and the lithium secondary battery 68 has a structure as shown in FIG. One end of each of the tabs 65 and 66 is inserted into the recessed groove 1 formed in the side wall of each of the internal terminal portions 69A and 69B forming at least one of the electrode terminals, and the current collecting tabs 65 and 66 are formed.
The inner electrode body 61 and the electrode terminal may be electrically connected by fixing the other end of the inner electrode body 61 to the ends of the positive electrode plate and the negative electrode plate of the inner electrode body 61. Since the specific configuration and the technical effect thereof according to the present invention have been described above, the overlapping portions will be omitted.
【0036】 本発明のリチウム二次電池の構成条件
は、複数の集電タブを用いることが好ましい容量の比較
的大きい装置に好適に用いられる。具体的には、捲回型
の電極体が用いられる容量が2Ah以上のものに好適に
採用される。リチウム二次電池の用途も特に制限はない
が、大電流の放電が頻繁に行われ、高エネルギー密度と
低内部抵抗とが要求される車載用大容量装置として、エ
ンジン起動用に、又は電気自動車やハイブリッド電気自
動車のモータ駆動用に特に好適に用いることができる。The constitutional conditions of the lithium secondary battery of the present invention are preferably used for a device having a relatively large capacity in which it is preferable to use a plurality of current collecting tabs. Specifically, the wound type electrode body is preferably used for those having a capacity of 2 Ah or more. The application of the lithium secondary battery is not particularly limited, however, as a large-capacity vehicle-mounted device that is frequently discharged with a large current and is required to have a high energy density and a low internal resistance, for starting an engine, or for an electric vehicle. It can be used particularly preferably for driving a motor of a hybrid electric vehicle.
【0037】 また、図2に示すように、本発明のリチ
ウム二次電池の製造方法は、上述のように、正極板と負
極板とをセパレータを介して中空円筒状の巻芯67の外
周壁に捲回してなる内部電極体61の両端に設けた集電
タブ65、66のそれぞれと、内部端子部69A、69
B、外部端子部70A、70B、及び電池蓋部71A、
71Bを有する、2枚の電極端子とを電気的に接続して
電気的接続体を形成し、この電気的接続体を、両端が開
放された円筒状の電池ケース73に収納した後、電池ケ
ース73と電極端子の外縁部を接合して封止するリチウ
ム二次電池68の製造方法であって、図3(a)、図3
(b)に示すように、内部電極体61の両端に設けた複
数枚の短冊状の集電タブ65、66の一端を巻芯67の
中心軸に対して略垂直な向きに揃えられた状態で、集電
タブ65、66の少なくとも一枚の面を、電極端子の少
なくとも一方を構成する内部端子部69A、69Bの側
壁に接した状態で接続してなる電気的接続体を用いると
よい。本明細書において、電気的接続体とは、具体的に
は、図4(a)に示されるような、内部電極体とこの内
部電極体の両端に配設された電極端子のそれぞれとを複
数枚の短冊状の集電タブを介して電気的に接続したもの
をいう。尚、図4(a)に示される電気的接続体も1例
であることはいうまでもない。Further, as shown in FIG. 2, in the method for manufacturing a lithium secondary battery of the present invention, as described above, the outer peripheral wall of the hollow cylindrical winding core 67 with the positive electrode plate and the negative electrode plate via the separator. Current collecting tabs 65 and 66 provided at both ends of an internal electrode body 61 wound around the inner electrode body 61 and internal terminal portions 69A and 69, respectively.
B, the external terminal portions 70A and 70B, and the battery lid portion 71A,
After electrically connecting two electrode terminals having 71B to each other to form an electrical connection body, and housing the electrical connection body in a cylindrical battery case 73 having open ends, a battery case 73 is a method for manufacturing a lithium secondary battery 68 in which 73 and an outer edge portion of an electrode terminal are joined and sealed, and FIG.
As shown in (b), one end of a plurality of strip-shaped current collecting tabs 65, 66 provided at both ends of the internal electrode body 61 is aligned in a direction substantially perpendicular to the central axis of the winding core 67. Then, it is preferable to use an electrical connector in which at least one surface of the current collecting tabs 65 and 66 is connected in contact with the side walls of the internal terminal portions 69A and 69B forming at least one of the electrode terminals. In the present specification, the electrical connection body specifically means a plurality of internal electrode bodies and electrode terminals arranged at both ends of the internal electrode body as shown in FIG. It is electrically connected via a strip-shaped collector tab. Needless to say, the electrical connection body shown in FIG. 4A is also an example.
【0038】 また、本発明のリチウム二次電池の製造
方法は、上述のように、図3(a)、図3(b)に示す
ように、正極板と負極板とをセパレータを介して中空円
筒状の巻芯67の外周壁に捲回してなる内部電極体61
の両端に設けた集電タブ65、66のそれぞれと、内部
端子部69A、69B、外部端子部70A、70B、及
び電池蓋部71A、71Bを有する、2枚の電極端子を
構成する、それぞれの内部端子部69A、69Bの側壁
に形成された凹溝1とを接合して電気的接続体を形成
し、次いで、図4(a)、図4(b)、図4(c)に示
すように、この電気的接続体を、両端が開放された電池
ケース73に挿入した後、電池ケース73の両端部のそ
れぞれと2枚の電極端子の外縁部のそれぞれとを接合
し、次いで、図5(a)、図5(b)、図5(c)に示
すように、少なくとも一枚の電極端子に設けた電解液注
入口81より非水電解液を注入した後、電解液注入口8
1を封止するとよい。Further, as described above, the method for manufacturing a lithium secondary battery of the present invention, as shown in FIGS. 3 (a) and 3 (b), hollows the positive electrode plate and the negative electrode plate via the separator. Internal electrode body 61 formed by winding the outer peripheral wall of a cylindrical winding core 67
Each of the current collecting tabs 65 and 66 provided at both ends of the terminal, the internal terminal portions 69A and 69B, the external terminal portions 70A and 70B, and the battery lid portions 71A and 71B. The recesses 1 formed in the side walls of the internal terminal portions 69A and 69B are joined to form an electrical connection body, and then, as shown in FIGS. 4 (a), 4 (b) and 4 (c). After inserting the electrical connector into a battery case 73 whose both ends are open, the respective ends of the battery case 73 and the outer edges of the two electrode terminals are joined together. As shown in (a), FIG. 5 (b), and FIG. 5 (c), after injecting the nonaqueous electrolytic solution from the electrolytic solution injection port 81 provided in at least one electrode terminal, the electrolytic solution injection port 8
1 should be sealed.
【0039】 更に、本発明のリチウム二次電池の製造
方法においては、図6(a)、図6(b)、図6(c)
に示すように、内部端子部69A、69Bの凹溝1と集
電タブ65、66との接合方法として、圧着及び/又は
溶接の方法を用いてもよく、その接合作業時に、集電タ
ブ65、66を圧着及び/又は溶接することが容易な位
置に電極端子を配置することが、好ましい。このとき、
凹溝1と集電タブ65、66の接合は圧着のみでも充分
であるが、凹溝1と集電タブ65、66とを溶接加工す
ると、接続の安定性が向上することから、更に好まし
い。これらの製造方法により、上述したリチウム二次電
池を、簡便且つ生産性良く製造することが出来る。Further, in the method for manufacturing a lithium secondary battery of the present invention, FIG. 6 (a), FIG. 6 (b), and FIG. 6 (c).
As shown in FIG. 7, a crimping and / or welding method may be used as a method for joining the concave groove 1 of the internal terminal portions 69A, 69B and the current collecting tabs 65, 66. It is preferable to place the electrode terminals at positions where it is easy to crimp and / or weld the electrodes 66. At this time,
The groove 1 and the current collecting tabs 65 and 66 can be joined only by pressure bonding, but welding the groove 1 and the current collecting tabs 65 and 66 is more preferable because the stability of the connection is improved. By these manufacturing methods, the lithium secondary battery described above can be manufactured easily and with high productivity.
【0040】 捲回型の内部電極体を用いたリチウム二
次電池について、その構成を更に詳細に説明する。図8
に示す、正極板62は集電基板の両面に正極活物質を塗
工することによって作製される。集電基板としては、ア
ルミニウム箔やチタン箔等の正極電気化学反応に対する
耐蝕性が良好である金属箔が用いられるが、箔以外にパ
ンチングメタル或いはメッシュ(網)を用いることもで
きる。また、正極活物質としては、マンガン酸リチウム
(LiMn2O4)やコバルト酸リチウム(LiCo
O2)、ニッケル酸リチウム(LiNiO2)等のリチウ
ム遷移金属複合酸化物が好適に用いられ、好ましくは、
これらにアセチレンブラック等の炭素微粉末が導電助剤
として加えられる。The structure of the lithium secondary battery using the wound type internal electrode body will be described in more detail. Figure 8
The positive electrode plate 62 shown in is formed by applying a positive electrode active material to both surfaces of the current collector substrate. As the current collector substrate, a metal foil such as an aluminum foil or a titanium foil having good corrosion resistance against a positive electrode electrochemical reaction is used, but a punching metal or a mesh (mesh) may be used instead of the foil. As the positive electrode active material, lithium manganate (LiMn 2 O 4 ) or lithium cobalt oxide (LiCo) is used.
O 2 ), lithium transition metal composite oxides such as lithium nickel oxide (LiNiO 2 ) are preferably used, and preferably,
Carbon fine powder such as acetylene black is added to these as a conductive additive.
【0041】 正極活物質の塗工は、正極活物質粉末に
溶剤や結着剤等を添加して作成したスラリー或いはペー
ストを、ロールコータ法等を用いて、集電基板に塗布・
乾燥することで行われ、その後に必要に応じてプレス処
理等が施される。To coat the positive electrode active material, a slurry or paste prepared by adding a solvent, a binder or the like to the positive electrode active material powder is applied to a current collecting substrate by a roll coater method or the like.
It is performed by drying, and thereafter, a pressing process or the like is performed if necessary.
【0042】 負極板63は、正極板62と同様にして
作成することができる。負極板63の集電基板として
は、銅箔若しくはニッケル箔等の負極電気化学反応に対
する耐蝕性が良好な金属箔が好適に用いられる。負極活
物質としては、ソフトカーボンやハードカーボンといっ
たアモルファス系炭素質材料や人造黒鉛や天然黒鉛等の
高黒鉛化炭素質粉末が用いられる。The negative electrode plate 63 can be formed in the same manner as the positive electrode plate 62. As the current collector substrate of the negative electrode plate 63, a metal foil such as a copper foil or a nickel foil having a good corrosion resistance against a negative electrode electrochemical reaction is preferably used. As the negative electrode active material, an amorphous carbonaceous material such as soft carbon or hard carbon, or highly graphitized carbonaceous powder such as artificial graphite or natural graphite is used.
【0043】 セパレータ64としては、マイクロポア
を有するLi+透過性のポリエチレンフィルム(PEフ
ィルム)を、多孔性のLi+透過性のポリプロピレンフ
ィルム(PPフィルム)で挟んだ三層構造としたものが
好適に用いられる。これは、電極体の温度が上昇した場
合に、PEフィルムが約130℃で軟化してマイクロポ
アが潰れ、Li+の移動即ち電池反応を抑制する安全機
構を兼ねたものである。そして、このPEフィルムをよ
り軟化温度の高いPPフィルムで挟持することによっ
て、PEフィルムが軟化した場合においても、PPフィ
ルムが形状を保持して正極板62と負極板63の接触・
短絡を防止し、電池反応の確実な抑制と安全性の確保が
可能となる。The separator 64 preferably has a three-layer structure in which a Li + permeable polyethylene film (PE film) having micropores is sandwiched between porous Li + permeable polypropylene films (PP film). Used for. This is because the PE film is softened at about 130 ° C. and the micropores are crushed when the temperature of the electrode body rises, and also serves as a safety mechanism for suppressing the movement of Li + , that is, the battery reaction. By sandwiching this PE film with a PP film having a higher softening temperature, even when the PE film is softened, the PP film retains its shape so that the positive electrode plate 62 and the negative electrode plate 63 come into contact with each other.
It is possible to prevent short circuits, reliably suppress battery reactions, and ensure safety.
【0044】 非水電解液の溶媒としては、エチレンカ
ーボネート(EC)、ジエチルカーボネート(DE
C)、ジメチルカーボネート(DMC)、プロピレンカ
ーボネート(PC)といった炭酸エステル系のものや、
γ―ブチロラクチン、テトラヒドロフラン、アセトニト
リル等の単独溶媒若しくは混合溶媒が好適に用いられ
る。As the solvent of the non-aqueous electrolyte, ethylene carbonate (EC), diethyl carbonate (DE
C), dimethyl carbonate (DMC), propylene carbonate (PC) -based ones,
A single solvent or a mixed solvent of γ-butyrolactin, tetrahydrofuran, acetonitrile and the like is preferably used.
【0045】 非水電解液の電解質としては、六フッ化
リン酸リチウム(LiPF6)やホウフッ化リチウム
(LiBF4)等のリチウム錯体フッ素化合物、或いは
過塩素酸リチウム(LiClO4)といったリチウムハ
ロゲン化物が挙げられ、1種類若しくは2種類以上を前
記溶媒に溶解して用いる。特に、酸化分解が起こり難
く、非水電解液の導電性の高いLiPF6を用いること
が好ましい。As the electrolyte of the non-aqueous electrolyte, a lithium complex fluorine compound such as lithium hexafluorophosphate (LiPF 6 ) or lithium borofluoride (LiBF 4 ) or a lithium halide such as lithium perchlorate (LiClO 4 ). One kind or two or more kinds are dissolved in the solvent and used. In particular, it is preferable to use LiPF 6 which does not easily undergo oxidative decomposition and has high conductivity of the non-aqueous electrolyte.
【0046】[0046]
【発明の効果】 以上説明したように、本発明によっ
て、複数枚の短冊状の集電タブの一端を、巻芯の中心軸
に対して略垂直な向きに揃えられた状態で、集電タブの
複数枚のうち少なくとも一枚の面が、少なくとも一方の
電極端子の内部端子部の側壁に接した状態で接続してな
るという構成を採用することにより、省スペース化し、
体積エネルギー密度の向上を図ったリチウム二次電池及
びその製造方法を提供することが出来る。As described above, according to the present invention, one end of a plurality of strip-shaped current collecting tabs is aligned in a direction substantially perpendicular to the central axis of the winding core, and the current collecting tab is arranged. By adopting a configuration in which at least one surface of the plurality of sheets is connected in contact with the side wall of the internal terminal portion of at least one of the electrode terminals, space saving is achieved,
It is possible to provide a lithium secondary battery having an improved volume energy density and a method for manufacturing the same.
【図1】 本発明のリチウム二次電池における、内部電
極体と電極端子との集電タブを介した接続の一実施形態
を模式的に示す斜視図である。FIG. 1 is a perspective view schematically showing an embodiment of a connection between an internal electrode body and an electrode terminal via a current collecting tab in a lithium secondary battery of the present invention.
【図2】 本発明のリチウム二次電池における一実施形
態を示す断面図である。FIG. 2 is a cross-sectional view showing an embodiment of the lithium secondary battery of the present invention.
【図3】 本発明のリチウム二次電池の製造工程
(a)、(b)を示す連続断面図である。FIG. 3 is a continuous cross-sectional view showing manufacturing steps (a) and (b) of the lithium secondary battery of the present invention.
【図4】 図3に続く、本発明のリチウム二次電池の製
造工程(a)、(b)、(c)を示す連続断面図であ
る。FIG. 4 is a continuous cross-sectional view showing manufacturing steps (a), (b) and (c) of the lithium secondary battery of the present invention, which is subsequent to FIG. 3;
【図5】 図4に続く、本発明のリチウム二次電池の製
造工程(a)、(b)、(c)を示す連続断面図であ
る。5 is a continuous cross-sectional view showing manufacturing steps (a), (b) and (c) of the lithium secondary battery of the present invention, which is subsequent to FIG.
【図6】 本発明のリチウム二次電池における内部端子
部と集電タブの接合方法(a)、(b)、(c)を示す
連続断面図である。FIG. 6 is a continuous cross-sectional view showing a method (a), (b), (c) for joining the internal terminal portion and the current collecting tab in the lithium secondary battery of the present invention.
【図7】 従来のリチウム二次電池における一実施形態
を示す断面図である。FIG. 7 is a cross-sectional view showing an embodiment of a conventional lithium secondary battery.
【図8】 捲回型の内部電極体の一例を示す斜視図であ
る。FIG. 8 is a perspective view showing an example of a wound type internal electrode body.
1…凹溝、10…連通孔、11…リベット、12…ポリ
プロピレンリング、13…V字型溝、14…溶解ポリプ
ロピレン、61…捲回型内部電極体、62…正極板、6
3…負極板、64…セパレータ、65…正極用集電タ
ブ、66…負極用集電タブ、67…巻芯、68…電池、
69A…正極内部端子部、69B…負極内部端子部、7
0A…正極外部端子部、70B…負極外部端子部、71
A…正極電池蓋部、71B…負極電池蓋部、72…振動
防止部材、73…電池ケース、74…くびれ加工部、7
5…放圧孔、76…弾性体(パッキン)、77…絶縁性
ポリマーフィルム、78…放圧弁、79…金属箔、80
…ノズル、81…電解液注入口、82…電解液注入口封
止部材、83…エネルギー線。DESCRIPTION OF SYMBOLS 1 ... Recessed groove, 10 ... Communication hole, 11 ... Rivet, 12 ... Polypropylene ring, 13 ... V-shaped groove, 14 ... Melting polypropylene, 61 ... Wound type internal electrode body, 62 ... Positive electrode plate, 6
3 ... Negative electrode plate, 64 ... Separator, 65 ... Positive electrode current collecting tab, 66 ... Negative electrode current collecting tab, 67 ... Core, 68 ... Battery,
69A ... Positive electrode internal terminal portion, 69B ... Negative electrode internal terminal portion, 7
0A ... Positive electrode external terminal portion, 70B ... Negative electrode external terminal portion, 71
A ... Positive battery cover, 71B ... Negative battery cover, 72 ... Vibration preventing member, 73 ... Battery case, 74 ... Constricted portion, 7
5 ... Pressure release hole, 76 ... Elastic body (packing), 77 ... Insulating polymer film, 78 ... Pressure release valve, 79 ... Metal foil, 80
... Nozzle, 81 ... Electrolyte injection port, 82 ... Electrolyte injection port sealing member, 83 ... Energy ray.
───────────────────────────────────────────────────── フロントページの続き Fターム(参考) 5H011 AA03 EE04 JJ04 JJ12 JJ27 KK00 KK01 5H022 AA09 BB03 BB11 CC03 CC16 CC20 CC22 5H029 AJ03 AK03 AL06 AL07 AL08 AM02 AM03 AM05 AM07 BJ02 BJ14 CJ05 DJ02 DJ05 EJ04 HJ04 HJ19 ─────────────────────────────────────────────────── ─── Continued front page F-term (reference) 5H011 AA03 EE04 JJ04 JJ12 JJ27 KK00 KK01 5H022 AA09 BB03 BB11 CC03 CC16 CC20 CC22 5H029 AJ03 AK03 AL06 AL07 AL08 AM02 AM03 AM05 AM07 BJ02 BJ14 CJ05 DJ02 DJ05 EJ04 HJ04 HJ19
Claims (21)
び負極板を捲回、積層して構成され、かつその内部に非
水電解液を含浸した内部電極体と、この内部電極体の両
端に配設された、内部端子部、外部端子部、及び電池蓋
部とを有する2枚の電極端子のそれぞれとを、複数枚の
短冊状の集電タブを介して電気的に接続してなり、 前記電極端子の少なくとも一方が前記巻芯の中心軸に対
応する位置に放圧孔を備えてなるリチウム二次電池であ
って、 前記複数枚の短冊状の集電タブの一端を、前記巻芯の中
心軸に対して略垂直な向きに揃えられた状態で、且つ前
記集電タブの複数枚のうち少なくとも一枚の面が、少な
くとも一方の前記電極端子の前記内部端子部の側壁に接
した状態で、接続してなるとともに、 前記集電タブの複数枚の他端を、前記内部電極体の前記
正極板及び前記負極板の端部のそれぞれに固定してなる
ことを特徴とするリチウム二次電池。1. An internal electrode body, which is constructed by winding and stacking a positive electrode plate and a negative electrode plate on an outer peripheral wall of a hollow cylindrical winding core, and impregnated with a non-aqueous electrolytic solution in the inside, and the internal electrode. Two electrode terminals each having an internal terminal portion, an external terminal portion, and a battery lid portion, which are arranged at both ends of the body, are electrically connected to each other through a plurality of strip-shaped current collecting tabs. A lithium secondary battery in which at least one of the electrode terminals is provided with a pressure release hole at a position corresponding to the central axis of the winding core, wherein one end of the plurality of strip-shaped current collecting tabs is provided. , In a state of being aligned in a direction substantially perpendicular to the central axis of the winding core, and at least one surface of the plurality of current collecting tabs is at least one of the internal terminal portions of the electrode terminals. While being in contact with the side wall, while being connected, the other end of the plurality of current collecting tabs, A lithium secondary battery, characterized in that it is fixed to each of the ends of the positive electrode plate and the negative electrode plate of the internal electrode body.
び負極板を捲回、積層して構成され、かつその内部に非
水電解液を含浸した内部電極体と、この内部電極体を内
部に収容した、両端が開放された円筒状の電池ケース
と、この電池ケースの開放両端で前記内部電極体を封止
した、内部端子部、外部端子部、及び電池蓋部とを有す
る、2枚の電極端子とを備え、前記内部電極体と前記電
極端子のそれぞれとを、複数枚の短冊状の集電タブを介
して電気的に接続してなり、 前記電極端子の少なくとも一方が前記巻芯の中心軸に対
応する位置に放圧孔を備えてなるリチウム二次電池であ
って、 前記複数枚の短冊状の集電タブの一端を、前記巻芯の中
心軸に対して略垂直な向きに揃えられた状態で、且つ前
記集電タブの複数枚のうち少なくとも一枚の面が、少な
くとも一方の前記電極端子の前記内部端子部の側壁に接
した状態で、接続してなるとともに、 前記集電タブの他端を、前記内部電極体の前記正極板及
び前記負極板の端部のそれぞれに固定してなることを特
徴とするリチウム二次電池。2. An internal electrode body, which is constructed by winding and stacking a positive electrode plate and a negative electrode plate on an outer peripheral wall of a hollow cylindrical winding core, and impregnated with a non-aqueous electrolytic solution in the inside, and the internal electrode. It has a cylindrical battery case with both ends open and a body housed therein, and an internal terminal portion, an external terminal portion, and a battery lid portion in which the internal electrode body is sealed at both open ends of the battery case. Two electrode terminals are provided, and each of the internal electrode body and the electrode terminal is electrically connected via a plurality of strip-shaped current collecting tabs, and at least one of the electrode terminals is provided. A lithium secondary battery comprising a pressure release hole at a position corresponding to the center axis of the winding core, wherein one end of the plurality of strip-shaped current collecting tabs is substantially aligned with the center axis of the winding core. At least one of the plurality of current collecting tabs aligned in a vertical direction. Surface is in contact with the side wall of the internal terminal portion of at least one of the electrode terminals, and the other end of the current collecting tab is connected to the positive electrode plate and the negative electrode plate of the internal electrode body. A lithium secondary battery, characterized in that it is fixed to each of the ends.
中心軸と同軸である請求項1又は2に記載のリチウム二
次電池。3. The lithium secondary battery according to claim 1, wherein the center axis of the winding core is coaxial with the center axis of the battery case.
中空部分を前記放圧孔の放圧通路としてなる請求項1〜
3のいずれか1項に記載のリチウム二次電池。4. The external terminal portion has a hollow portion, and the hollow portion serves as a pressure release passage of the pressure release hole.
4. The lithium secondary battery according to any one of 3 above.
100μm以下であり、かつ、前記内部端子部の1箇所
に少なくとも10枚の前記集電タブが接続された請求項
1〜4のいずれか1項に記載のリチウム二次電池。5. The collector tab according to claim 1, wherein one of the collector tabs has a thickness of 5 μm or more and 100 μm or less, and at least 10 collector tabs are connected to one location of the internal terminal portion. The lithium secondary battery according to any one of items.
び負極板を捲回、積層して構成され、かつその内部に非
水電解液を含浸した内部電極体と、この内部電極体の両
端に配設された、内部端子部、外部端子部、及び電池蓋
部を有する、2枚の電極端子のそれぞれとを、複数枚の
短冊状の集電タブを介して電気的に接続してなるリチウ
ム二次電池であって、 前記集電タブの一端を、前記電極端子の少なくとも一方
を構成する前記内部端子部の側壁に形成した凹溝に挿入
するとともに、前記集電タブの他端を、前記内部電極体
の前記正極板及び前記負極板の端部に固定することによ
って、前記内部電極体と前記電極端子とを電気的に接続
してなることを特徴とするリチウム二次電池。6. An internal electrode body, which is constructed by winding and stacking a positive electrode plate and a negative electrode plate on an outer peripheral wall of a hollow cylindrical winding core, and impregnated with a non-aqueous electrolyte in the inside, and the internal electrode. Two electrode terminals each having an internal terminal portion, an external terminal portion, and a battery lid portion arranged at both ends of the body are electrically connected to each other through a plurality of strip-shaped current collecting tabs. In the lithium secondary battery, the one end of the current collecting tab is inserted into a groove formed in a side wall of the internal terminal portion forming at least one of the electrode terminals, and A lithium secondary battery, characterized in that the ends are fixed to the ends of the positive electrode plate and the negative electrode plate of the internal electrode body to electrically connect the internal electrode body and the electrode terminals. .
び負極板を捲回、積層して構成され、かつその内部に非
水電解液を含浸した内部電極体と、この内部電極体を内
部に収容した、両端が開放された円筒状の電池ケース
と、この電池ケースの開放両端で前記内部電極体を封止
した、内部端子部、外部端子部、及び電池蓋部とを有す
る、2枚の電極端子とを備え、前記内部電極体と前記電
極端子のそれぞれとを、複数枚の短冊状の集電タブを介
して電気的に接続してなるリチウム二次電池であって、 前記集電タブの一端を、前記電極端子の少なくとも一方
を構成する前記内部端子部の側壁に形成した凹溝に挿入
するとともに、前記集電タブの他端を、前記内部電極体
の前記正極板及び前記負極板の端部に固定することによ
って、前記内部電極体と前記電極端子とを電気的に接続
してなることを特徴とするリチウム二次電池。7. An internal electrode body, which is constructed by winding and stacking a positive electrode plate and a negative electrode plate on an outer peripheral wall of a hollow cylindrical winding core, and impregnated with a nonaqueous electrolytic solution in the inside, and the internal electrode. It has a cylindrical battery case with both ends open and a body housed therein, and an internal terminal portion, an external terminal portion, and a battery lid portion in which the internal electrode body is sealed at both open ends of the battery case. A lithium secondary battery comprising two electrode terminals, wherein the internal electrode body and each of the electrode terminals are electrically connected via a plurality of strip-shaped current collecting tabs, One end of the current collecting tab is inserted into a groove formed in a side wall of the internal terminal portion that constitutes at least one of the electrode terminals, and the other end of the current collecting tab is connected to the positive electrode plate of the internal electrode body. And the internal electrode by fixing to the end of the negative electrode plate. Lithium secondary battery, characterized by comprising electrically connecting the electrode terminals and.
設された請求項6又は7に記載のリチウム二次電池。8. The lithium secondary battery according to claim 6, wherein the groove is provided around a sidewall of the internal terminal portion.
箇所にまとめられて前記内部端子部の前記凹溝に挿入さ
れ接続された請求項6〜8のいずれか1項に記載のリチ
ウム二次電池。9. The plurality of current collecting tabs are at least one.
The lithium secondary battery according to any one of claims 6 to 8, wherein the lithium secondary battery is grouped into a place and inserted into and connected to the recessed groove of the internal terminal portion.
上100μm以下であり、かつ、前記内部端子部の1箇
所に少なくとも10枚の前記集電タブが接続された請求
項6〜9のいずれか1項に記載のリチウム二次電池。10. The method according to claim 6, wherein one of the current collecting tabs has a thickness of 5 μm or more and 100 μm or less, and at least 10 current collecting tabs are connected to one location of the internal terminal portion. The lithium secondary battery according to any one of items.
記巻芯の中心軸に対応する位置に放圧孔を備える請求項
6〜10のいずれか1項に記載のリチウム二次電池。11. The lithium secondary battery according to claim 6, wherein at least one of the electrode terminals has a pressure release hole at a position corresponding to the central axis of the winding core.
の中心軸と同軸である請求項6〜11のいずれか1項に
記載のリチウム二次電池。12. The lithium secondary battery according to claim 6, wherein a center axis of the winding core is coaxial with a center axis of the battery case.
の中空部分を前記放圧孔の放圧通路としてなる請求項6
〜12のいずれか1項に記載のリチウム二次電池。13. The external terminal portion has a hollow portion, and the hollow portion serves as a pressure release passage of the pressure release hole.
The lithium secondary battery according to any one of 1 to 12.
3のいずれか1項に記載のリチウム二次電池。14. The method according to claim 1, wherein the capacity is 2 Ah or more.
4. The lithium secondary battery according to any one of 3 above.
か1項に記載のリチウム二次電池。15. The lithium secondary battery according to claim 1, which is mounted on a vehicle.
自動車用である請求項15に記載のリチウム二次電池。16. The lithium secondary battery according to claim 15, which is for an electric vehicle or a hybrid electric vehicle.
16に記載のリチウム二次電池。17. The lithium secondary battery according to claim 15, which is for starting an engine.
て中空円筒状の巻芯の外周壁に捲回してなる内部電極体
の両端に設けた集電タブのそれぞれと、内部端子部、外
部端子部、及び電池蓋部を有する、2枚の電極端子とを
電気的に接続して電気的接続体を形成し、この電気的接
続体を、両端が開放された円筒状の電池ケースに収納し
た後、前記電池ケースと前記電極端子の外縁部を接合し
て封止するリチウム二次電池の製造方法であって、 前記内部電極体の両端に設けた前記複数枚の短冊状の集
電タブの一端を前記巻芯の中心軸に対して略垂直な向き
に揃えられた状態で、 前記集電タブの少なくとも一枚の面を、前記電極端子の
少なくとも一方を構成する前記内部端子部の側壁に接し
た状態で接続してなる電気的接続体を用いることを特徴
とするリチウム二次電池の製造方法。18. A collector tab provided at each end of an internal electrode body formed by winding a positive electrode plate and a negative electrode plate around an outer peripheral wall of a hollow cylindrical winding core via a separator, an internal terminal portion, and an external portion. An electrical connection body is formed by electrically connecting two electrode terminals having a terminal portion and a battery lid portion, and the electrical connection body is housed in a cylindrical battery case with both ends open. After that, a method for manufacturing a lithium secondary battery, in which the battery case and the outer edge of the electrode terminal are joined and sealed, wherein the plurality of strip-shaped current collecting tabs provided at both ends of the internal electrode body are provided. A side wall of the internal terminal portion that constitutes at least one of the electrode terminals, with at least one surface of the current collecting tab being aligned in a direction substantially perpendicular to the central axis of the winding core. Characterized by using an electrical connector that is connected in contact with Method of manufacturing a lithium secondary battery.
て中空円筒状の巻芯の外周壁に捲回してなる内部電極体
の両端に設けた集電タブのそれぞれと、内部端子部、外
部端子部、及び電池蓋部を有する、2枚の電極端子を構
成する、それぞれの前記内部端子部の側壁に形成された
凹溝とを接合して電気的接続体を形成し、次いで、この
電気的接続体を、両端が開放された電池ケースに挿入し
た後、前記電池ケースの両端部のそれぞれと前記2枚の
電極端子の外縁部のそれぞれとを接合し、 次いで、少なくとも一枚の前記電極端子に設けた電解液
注入口より非水電解液を注入した後、前記電解液注入口
を封止することを特徴とするリチウム二次電池の製造方
法。19. A collector tab provided at each end of an internal electrode body formed by winding a positive electrode plate and a negative electrode plate around an outer peripheral wall of a hollow cylindrical winding core via a separator, an internal terminal portion, and an external portion. An electric connection is formed by joining the groove formed in the side wall of each of the internal terminal portions forming the two electrode terminals having the terminal portion and the battery lid portion, and then forming the electrical connection body. After inserting the dynamic connection body into a battery case with both ends open, each end of the battery case is joined to each outer edge of the two electrode terminals, and then at least one of the electrodes is connected. A method for manufacturing a lithium secondary battery, comprising injecting a non-aqueous electrolyte solution from an electrolyte solution inlet provided in a terminal and then sealing the electrolyte solution inlet.
タブとの接合方法として、圧着及び/又は溶接の方法を
用いる請求項19に記載のリチウム二次電池の製造方
法。20. The method for manufacturing a lithium secondary battery according to claim 19, wherein a crimping and / or welding method is used as a method of joining the concave groove of the internal terminal portion and the current collecting tab.
着及び/又は溶接することが容易な位置に前記電極端子
を配置する請求項19又は20に記載のリチウム二次電
池の製造方法。21. The method of manufacturing a lithium secondary battery according to claim 19, wherein the electrode terminal is arranged at a position where the current collecting tab can be easily crimped and / or welded during the joining operation.
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JP2001184874A JP2003007346A (en) | 2001-06-19 | 2001-06-19 | Secondary lithium battery and manufacturing method of the same |
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US7364817B2 (en) | 2004-07-28 | 2008-04-29 | Samsung Sdi Co., Ltd | Secondary battery and method of manufacturing the same |
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2001
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