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JPS5830073A - Manufacture of battery - Google Patents

Manufacture of battery

Info

Publication number
JPS5830073A
JPS5830073A JP56128907A JP12890781A JPS5830073A JP S5830073 A JPS5830073 A JP S5830073A JP 56128907 A JP56128907 A JP 56128907A JP 12890781 A JP12890781 A JP 12890781A JP S5830073 A JPS5830073 A JP S5830073A
Authority
JP
Japan
Prior art keywords
current collector
sealing
electrode plate
plate
collector
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.)
Pending
Application number
JP56128907A
Other languages
Japanese (ja)
Inventor
Tomoyuki Shinagawa
品川 知之
Hidesuke Oguro
小黒 秀祐
Koichi Inoue
孝一 井上
Hisaaki Otsuka
大塚 央陽
Shigeo Kobayashi
茂雄 小林
Ryoji Okazaki
良二 岡崎
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Panasonic Holdings Corp
Original Assignee
Matsushita Electric Industrial Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Matsushita Electric Industrial Co Ltd filed Critical Matsushita Electric Industrial Co Ltd
Priority to JP56128907A priority Critical patent/JPS5830073A/en
Publication of JPS5830073A publication Critical patent/JPS5830073A/en
Pending legal-status Critical Current

Links

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M6/00Primary cells; Manufacture thereof
    • H01M6/04Cells with aqueous electrolyte
    • H01M6/06Dry cells, i.e. cells wherein the electrolyte is rendered non-fluid
    • H01M6/10Dry cells, i.e. cells wherein the electrolyte is rendered non-fluid with wound or folded electrodes
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M50/00Constructional details or processes of manufacture of the non-active parts of electrochemical cells other than fuel cells, e.g. hybrid cells
    • H01M50/60Arrangements or processes for filling or topping-up with liquids; Arrangements or processes for draining liquids from casings
    • H01M50/609Arrangements or processes for filling with liquid, e.g. electrolytes
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01MPROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
    • H01M6/00Primary cells; Manufacture thereof
    • H01M6/14Cells with non-aqueous electrolyte
    • H01M6/16Cells with non-aqueous electrolyte with organic electrolyte

Landscapes

  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • General Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Primary Cells (AREA)

Abstract

PURPOSE:To increase the amount of electrolyte to improve discharge performance in the manufacture of a cylindrical battery which is assembled by inserting a swirl-shaped electrode group into an inner can. CONSTITUTION:The end of a net 3a of a negative plate 3 which is constructed by pressing a metallic lithium sheet 3b to the current collecting net 3a is inserted into a slit 2a of a current collector 2, the negative plate 3 is bent along the outer surroundings of the collector 2, and a part of the bent part is spot- welded to the outer surroundings of the collector 2. A positive plate 5 covered with a separator 4 is stacked on the outer side of the negative plate. They are wound around the collector 2 to form a swirl-shaped electrode group 1. This electrode group 1 is inserted into an inner can 6, and the upper surface of a collar 6a of the inner can 6 is coated with toluene solution of pitch, then dried to form a sealer layer. A sealing gasket 8 is mounted in the circumference of a sealing plate 7, this sealing plate 7 is put on the inner can, and bonded by spot-welding to the upper end of the current collector 2. The assembled body of the electrode plate and the sealing plate constructed in this process are reversed, then after needle-like nozzle 13a is inserted into the open part of the current collector 2, an electrolyte is poured.

Description

【発明の詳細な説明】 本発明は、渦巻状極板群を内密に挿入して組み立てられ
る円筒形電池の製造法の改良に関する。
DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an improved method of manufacturing a cylindrical battery assembled by covertly inserting a spiral plate group.

さらに詳しくは、一方の電極の集電棒を巻回中心として
巻回した渦巻状の極板群を内密に挿入するとともに、内
密の上方へ突出した集電棒の上端に封目板を接続し、こ
の封目板の周縁部に装着した封口パッキングを、前記内
密の上部に設けた内向きの鍔部を座として、外缶の閉口
端により締めつけて密封した電池の製造法に関する。
More specifically, a group of spiral electrode plates wound around the current collector rod of one electrode is secretly inserted, and a sealing plate is connected to the upper end of the current collector rod that protrudes upward. The present invention relates to a method for manufacturing a battery in which a sealing packing attached to the peripheral edge of a sealing plate is tightened and sealed by the closed end of an outer can using the inward flange provided on the upper part of the inner can as a seat.

このように、極板群を挿入した内密と、封口パッキング
を装着した封目板との組立体を用いる電池は、組み立て
が確実であシ、振動や衝撃に対し6て強く、高率放電が
可能であるところから、高エネルギー密度の有機電解質
電池に適している。
In this way, batteries that use an assembly of a cover plate into which a group of electrode plates is inserted and a sealing plate fitted with sealing packing can be assembled reliably, are highly resistant to vibrations and shocks, and are capable of high-rate discharge. This makes it suitable for high energy density organic electrolyte batteries.

ところが、極板群に対する電解液の注液操作に問題があ
って、極板群に十分注液できずに所望の放電特性が得ら
れなかったり、極板群に吸収されない電解液が外部へ漏
液したりする不都合があった。
However, there are problems with the operation of injecting electrolyte into the electrode plate group, and it may not be possible to inject enough liquid into the electrode plate group, making it impossible to obtain the desired discharge characteristics, or the electrolyte that is not absorbed by the electrode plate group may leak to the outside. There was an inconvenience that it would leak.

本発明は、このような不都合を除去し、極板群に十分な
液量を保有させ、しかも漏液のない電池を組み立てる方
法を提供することを目的とする。
SUMMARY OF THE INVENTION An object of the present invention is to provide a method for assembling a battery that eliminates such inconveniences, allows the electrode plate group to retain a sufficient amount of liquid, and does not leak liquid.

以下、本発明を実施例により説明する。The present invention will be explained below using examples.

第1図は実施例の電池の全体構成を示す。1は負極集電
棒2を巻回中心として負極板3とセパレータ4で包囲し
た正極板6とを渦巻状に巻回した極板群である。なお、
集電棒2は中空円筒体の円周の一部を縦方向に切り欠い
て構成したものである。負極3はネットなどからなる集
電体に金属リチウムシートを圧着して構成し、その集電
体の端部を集電棒2の切欠部2aに挿入し、スポット溶
接により棒2に固着しである。正極6は二酸化マンガン
を活物質とする合剤をネットなどからなる集電体を中心
として成形したもので、ポリプロピレンの不織布からな
るセパレータ4で包囲しであるが、前記渦巻の巻き終わ
り端側は集電体6aのみが露出している。
FIG. 1 shows the overall structure of the battery of the example. Reference numeral 1 denotes an electrode plate group in which a negative electrode plate 3 and a positive electrode plate 6 surrounded by a separator 4 are spirally wound around a negative electrode current collector rod 2 . In addition,
The current collector rod 2 is constructed by cutting out a part of the circumference of a hollow cylindrical body in the vertical direction. The negative electrode 3 is constructed by crimping a metal lithium sheet to a current collector made of net or the like, inserting the end of the current collector into the notch 2a of the current collector rod 2, and fixing it to the rod 2 by spot welding. . The positive electrode 6 is formed by molding a mixture containing manganese dioxide as an active material around a current collector made of a net or the like, and is surrounded by a separator 4 made of a non-woven polypropylene fabric. Only the current collector 6a is exposed.

6は上端に内向きの鍔部6aを有する金属製内缶で、そ
の下方開口端より上記の極板群を収容している。そして
、正極6の集電体の露拐部は内借6の内面に接触してい
る。
Reference numeral 6 denotes a metal inner can having an inward facing flange 6a at its upper end, and accommodates the above-mentioned electrode plate group from its lower open end. The exposed portion of the current collector of the positive electrode 6 is in contact with the inner surface of the inner wall 6.

了は負極板端子を兼ねる封目板、8はその周縁部の屈曲
部を嵌合させたポリプロピレン製ノ断面略り字状の封口
パッキングである。そして、封口板7の内側には負極集
電棒2の上端をスポット溶接により結合するとともに、
封口パッキング8の下面は密封剤9により内借6の鍔部
6aの上面に接着しである。
Reference numeral 8 indicates a sealing plate which also serves as a negative electrode plate terminal, and 8 indicates a sealing packing made of polypropylene and having an abbreviated cross-section, into which the bent portion of the peripheral edge of the sealing plate is fitted. Then, the upper end of the negative electrode current collector rod 2 is connected to the inside of the sealing plate 7 by spot welding, and
The lower surface of the sealing packing 8 is adhered to the upper surface of the flange 6a of the inner cover 6 with a sealant 9.

1oは正極端子を兼ねる外缶で、この内に絶縁底板11
、および上記のように構成した極板群−封目板組立体を
挿入した後、外缶の開口端を封口パンキング8の周縁部
に締めつけて密封電池が構成される。なお、電解液には
、例えばプロピレンカーボネートと1,2−ジメトキシ
エタンとの混合溶媒に過塩素酸リチウムを1モル/l溶
解したものを用いる。
1o is an outer can that also serves as a positive terminal, and inside this is an insulating bottom plate 11.
, and the electrode plate group-sealing plate assembly configured as described above are inserted, and then the open end of the outer can is tightened to the peripheral edge of the sealing punching 8 to construct a sealed battery. The electrolytic solution used is, for example, a mixed solvent of propylene carbonate and 1,2-dimethoxyethane in which 1 mol/l of lithium perchlorate is dissolved.

従来例においては、内借6と封口パッキング8とを密封
剤により接着する構成を採っていないが、上記のように
極板群を挿入し、た内借6と、封口パッキング8を装着
した封口板7とを一体にした組立体を用いる構成では、
内借6の鍔部6aが封口パッキング8の座として、まだ
集電棒2が封口板7を支持する支柱としてそれぞれ働く
ので、強固な封口を行うことができるとともに、極板群
は内借の鍔部6aと外缶の底部とにより抱持されるので
、振動や衝撃に対して強いなどの特徴を有する。
In the conventional example, a structure in which the inner cover 6 and the sealing packing 8 are bonded with a sealant is not adopted, but a sealing structure in which the electrode plate group is inserted as described above and the inner cover 6 and the sealing packing 8 are attached is used. In a configuration using an assembly in which the plate 7 is integrated,
The flange part 6a of the inner cover 6 serves as a seat for the sealing packing 8, and the current collector rod 2 still serves as a support for supporting the sealing plate 7, so that a strong seal can be achieved, and the electrode plate group is attached to the inner cover's flange. Since it is held by the portion 6a and the bottom of the outer can, it has characteristics such as being strong against vibrations and shocks.

しかし、このような構造の電池においては、電解液の注
液工程に問題があって、極板群に十分な液量を保有させ
ることができず、従って十分な放電性能を引き出すこと
ができなかった。
However, in batteries with this type of structure, there is a problem in the electrolyte injection process, making it impossible to retain a sufficient amount of liquid in the electrode plate group, and therefore unable to bring out sufficient discharge performance. Ta.

すなわち、従来例においては、底板11を挿入しだ外缶
)0内に一定量の電解液を注入し、次に極板群1および
封口板7を一体に□した内借6を挿入する方法を採って
いた。この場合、密に巻回された極板群により外缶内の
電解液が押しつけられ、ポンプ作用により外缶の内壁を
上昇して外部へ漏れる不都合があった。これを防止する
には、極板群の挿入速度を遅くすれば、液漏れは多少改
善されるが、生産性の点で大いに不利である。さらに封
口板7の内側に形成される空間部12は、外部と自由に
は空気が流通しないので、液の浸透に伴9てこれと置換
すべき空気の逃げ場がなく、一層性液量を制約すること
になっていた。特に、有機電解質電池は多量の液を要す
るので、十分な放電性能を発揮させるのが困難であった
That is, in the conventional example, the bottom plate 11 is inserted, a certain amount of electrolyte is injected into the outer can (0), and then the inner can (6) in which the electrode plate group 1 and the sealing plate (7) are integrated is inserted. was taken. In this case, the electrolyte in the outer can is pressed by the tightly wound electrode plate group, and the pumping action causes the electrolyte to rise up the inner wall of the outer can and leak to the outside. To prevent this, if the insertion speed of the electrode plate group is slowed down, the leakage will be improved to some extent, but this will be very disadvantageous in terms of productivity. Furthermore, since air does not freely circulate with the outside in the space 12 formed inside the sealing plate 7, there is no place for the air to escape as the liquid permeates and replaces the air, which limits the amount of liquid. I was supposed to. In particular, since organic electrolyte batteries require a large amount of liquid, it has been difficult to achieve sufficient discharge performance.

本発明は、このような従来の欠点を解消するもので、第
3図に示す製造工程により詳細に説明する。
The present invention eliminates these conventional drawbacks, and will be explained in detail with reference to the manufacturing process shown in FIG.

まず、集電ネット3aに金属リチウムシート3bを圧着
して構成した負極板3のネツ)3aの端部を集電棒2の
切欠部2dに挿入し、棒2の外周に沿って折り曲げ、そ
の曲げ部の一部を棒2の外周゛ヘスポット溶接する。次
に負極の外側にセパレータ4で包囲した正極板5を重ね
、これらを棒2を巻回中心として渦巻状の極板群1を構
成する。
First, the end of the negative electrode plate 3 (made by crimping a metal lithium sheet 3b to a current collecting net 3a) is inserted into the notch 2d of the current collecting rod 2, and is bent along the outer periphery of the rod 2. A part of the section is spot welded to the outer periphery of the rod 2. Next, a positive electrode plate 5 surrounded by a separator 4 is stacked on the outside of the negative electrode, and these are wound around the rod 2 to form a spiral electrode plate group 1.

次にこの極板群1を内借6へ挿入し、内借6の鍔部6a
上面にピッチのトルエン溶液を塗着し、乾燥して密封剤
の層を形成する。
Next, insert this electrode plate group 1 into the inner plate 6, and
A toluene solution of pitch is applied to the top surface and allowed to dry to form a layer of sealant.

一方、封目板70周縁に封口パッキング8を嵌着してお
き、これを前記の内借上へかぶせ、封口板7を集電棒2
の上端にスポット溶接により結合する。まだ、封口パッ
キング8を内借へ押しつけ、密封剤9によりバッキング
8の底部を鍔部6aへ完全に接着する。
On the other hand, a sealing packing 8 is fitted around the periphery of the sealing plate 70, and this is placed over the above-mentioned inner space, and the sealing plate 7 is attached to the current collecting rod 2.
It is joined by spot welding to the upper end of the. Still pressing the sealing packing 8 against the interior, the sealant 9 completely adheres the bottom of the backing 8 to the flange 6a.

このようにして構成された極板群と封口板一体の組立体
は、これを逆さにすると第2図に示すように、封口板7
を底と子る容器が形成される。すなわち、封口板7とそ
の周縁に装着した封口パッキング8およびバッキングと
密封剤9により接着された内借6によって液密に囲まれ
た空間部12は貯液部として利用することができる。こ
の状態で第3図(a)のように、注液装置13の針状ノ
ズル13aを集電棒2の開口部に挿入して注液すれば、
電解液は棒2の中空部で構成される通液路2bを通って
空間部12へ流れ込む。そして、この空間部12内の電
解液面が上昇して、空間部に露出する極板群に達すれば
、毛管現象により円滑に極板群中へ浸透する。しかも、
極板群の他方端部は犬簀に解放して“るの7・電解液と
置換す勺空気社容易に外部へ逃げることができ、短時間
に所定、ン 量の注液を完了することができる。
When the thus constructed assembly of the electrode plate group and the sealing plate is turned upside down, the sealing plate 7 is shown as shown in FIG.
The bottom and the container will be formed. In other words, the space 12 that is fluid-tightly surrounded by the sealing plate 7, the sealing packing 8 attached to the periphery of the sealing plate 7, and the inner cover 6 bonded to the backing and the sealant 9 can be used as a liquid storage section. In this state, as shown in FIG. 3(a), if the needle nozzle 13a of the liquid injection device 13 is inserted into the opening of the current collector rod 2 and liquid is poured,
The electrolytic solution flows into the space 12 through the liquid passage 2b formed in the hollow part of the rod 2. Then, when the electrolyte level within the space 12 rises and reaches the electrode plate group exposed in the space, it smoothly penetrates into the electrode plate group due to capillary action. Moreover,
The other end of the electrode plate group is released into the canister and replaced with the electrolyte.It can easily escape to the outside and complete injection of a predetermined amount of liquid in a short time. I can do it.

次にこのままの状態で内借6の開放端側に底板11をの
せ、続いて逆さにしだ外缶10を上方から内借へかぶせ
る。この場合、前記の組立体は、上方のみを開放した容
器となっているので、従来法により注液した外缶内へ内
借を挿入するときに生じたポンプ作用は起こらず、漏液
の不都合は全くない。
Next, in this state, the bottom plate 11 is placed on the open end side of the inner can 6, and then the outer can 10 is placed upside down and placed over the inner can from above. In this case, since the above-mentioned assembly is a container that is open only at the top, the pumping action that occurs when inserting the inner container into the outer can filled with liquid by the conventional method does not occur, and there is no problem of leakage. Not at all.

次に常法に従って、外缶10の開口端をバッキング80
周縁にかしめ締めして電池の組み立てを完了する。
Next, according to a conventional method, the open end of the outer can 10 is covered with a backing 80.
Complete battery assembly by crimping around the edges.

次に、直径11.6麟、高さ10 、8MILのサイズ
の電池を用いて、本発明による注液工程(d)および外
缶への挿入工程(e)とについて、漏液状況を調べたと
ころ、漏液は全くなかった。一方、−従来例では、注液
した外缶の極板群組立体を挿入する工程で100個中7
o個が漏液し、外缶のかしめによる封口工程で100個
中6〇個が漏液した。
Next, using a battery with a diameter of 11.6 mm, a height of 10 mm, and a size of 8 MIL, leakage conditions were investigated in the liquid injection step (d) and the insertion step into the outer can (e) according to the present invention. However, there was no leakage at all. On the other hand, - In the conventional example, in the process of inserting the electrode plate group assembly of the outer can, 7 out of 100
o units leaked, and 60 out of 100 units leaked during the sealing process by caulking the outer cans.

また、本発明による電池Iと従来法による電池Hの各5
個について、20℃において100Ωの負荷で放電した
ときの特性の比較を第4図に示す。
In addition, each of the battery I according to the present invention and the battery H according to the conventional method
FIG. 4 shows a comparison of the characteristics when discharged under a load of 100Ω at 20°C.

以上のように、本発明の方法によれば、電解液ことかで
きる。
As described above, according to the method of the present invention, an electrolytic solution can be obtained.

【図面の簡単な説明】[Brief explanation of drawings]

第1図は本発明による電池の要部を欠截した側面図、第
2図は極板群と封口板との組立体を示す縦断面図、第3
図は電池の組立工程を示す図、第4図は放電特性の比較
を示す。 1・・・・・・極板群、2・・・・・・集電棒、2a・
・・・・・切欠部、2b・・・・・・通液路、3・・・
・・・負極、4・・・・・・セパレータ、6・・・・・
・正極、6・・・・・・内借、6a・・・・・・鍔部、
7・・・・・・封口板、8・・・・・・封口パッキング
、9・・・・・・密封剤、10・・・・・・外缶、12
・・・・・・空間部、13・・・・・・注液装置。 代理人の氏名 弁理士 中 尾 敏 男 ほか1名−1
図 )1 1s2図 113図 /2  7
FIG. 1 is a side view with the main parts of the battery according to the present invention cut out, FIG. 2 is a longitudinal cross-sectional view showing an assembly of an electrode plate group and a sealing plate, and FIG.
The figure shows the battery assembly process, and FIG. 4 shows a comparison of discharge characteristics. 1... Electrode plate group, 2... Current collector rod, 2a.
...Notch, 2b...Liquid passage, 3...
... Negative electrode, 4 ... Separator, 6 ...
・Positive electrode, 6...inner part, 6a... collar part,
7...Sealing plate, 8...Sealing packing, 9...Sealant, 10...Outer can, 12
...Space section, 13... Liquid injection device. Name of agent: Patent attorney Toshio Nakao and 1 other person-1
Figure) 1 1s2 Figure 113 Figure/2 7

Claims (1)

【特許請求の範囲】[Claims] 下端開口部から上端付近に開口する通液路を有する集電
棒を巻回中心としてその下方部分に負極板と正極板とを
セパド−タを介して渦巻状に巻回して極板群を構成する
工程と、上端に内向きの鍔部を有する内密へ前記極板群
番挿入する工程と、封口板の周縁部に装着した封口パッ
キングの底部を前記鍔部に密封剤により接着するととも
に封目板の内面と前記集電棒の上端とを結合して封目板
と極板群一体の組立体を構成する工程と、この組立体を
逆さにして前記集電棒の液通路より電解液を注入する工
程と、組立体を逆さに保持した状態でこれに外缶をかぶ
せる工程と、外缶の開口端を封口パッキングの周縁に締
めつける工程とを有する電池の製造法。
An electrode plate group is constructed by winding a negative electrode plate and a positive electrode plate in a spiral shape around a lower part of the current collector rod with a liquid passage opening from the lower end opening to the vicinity of the upper end via a separator. a step of inserting the electrode plate group number into the inner plate having an inward facing flange at the upper end; and a step of gluing the bottom of the sealing packing attached to the peripheral edge of the sealing plate to the flange with a sealing agent; a step of combining the inner surface of the current collector rod with the upper end of the current collector rod to form an assembly of a sealing plate and an electrode plate group, and a step of injecting an electrolytic solution from the liquid passage of the current collector rod by inverting this assembly. A method for manufacturing a battery, comprising: a step of covering the assembly with an outer can while holding the assembly upside down; and a step of tightening the open end of the outer can to the periphery of a sealing packing.
JP56128907A 1981-08-18 1981-08-18 Manufacture of battery Pending JPS5830073A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP56128907A JPS5830073A (en) 1981-08-18 1981-08-18 Manufacture of battery

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP56128907A JPS5830073A (en) 1981-08-18 1981-08-18 Manufacture of battery

Publications (1)

Publication Number Publication Date
JPS5830073A true JPS5830073A (en) 1983-02-22

Family

ID=14996304

Family Applications (1)

Application Number Title Priority Date Filing Date
JP56128907A Pending JPS5830073A (en) 1981-08-18 1981-08-18 Manufacture of battery

Country Status (1)

Country Link
JP (1) JPS5830073A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0380803A2 (en) * 1989-01-30 1990-08-08 VARTA Batterie Aktiengesellschaft Galvanic element
EP0994519A2 (en) * 1998-10-13 2000-04-19 Ngk Insulators, Ltd. Electrolyte solution filling method and battery structure of lithium secondary battery
US6670071B2 (en) 2002-01-15 2003-12-30 Quallion Llc Electric storage battery construction and method of manufacture
CN113809443A (en) * 2021-08-24 2021-12-17 贵阳比耐新能源科技有限公司 Cylindrical aluminum shell battery and manufacturing method thereof

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0380803A2 (en) * 1989-01-30 1990-08-08 VARTA Batterie Aktiengesellschaft Galvanic element
EP0994519A2 (en) * 1998-10-13 2000-04-19 Ngk Insulators, Ltd. Electrolyte solution filling method and battery structure of lithium secondary battery
EP0994519A3 (en) * 1998-10-13 2000-09-13 Ngk Insulators, Ltd. Electrolyte solution filling method and battery structure of lithium secondary battery
US6387561B1 (en) 1998-10-13 2002-05-14 Ngk Insulators, Ltd. Electrolyte-solution filling method and battery structure of lithium secondary battery
US6858342B2 (en) 1998-10-13 2005-02-22 Ngk Insulators, Ltd. Electrolyte solution filling method and battery structure of lithium secondary battery
US6670071B2 (en) 2002-01-15 2003-12-30 Quallion Llc Electric storage battery construction and method of manufacture
CN113809443A (en) * 2021-08-24 2021-12-17 贵阳比耐新能源科技有限公司 Cylindrical aluminum shell battery and manufacturing method thereof

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