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JP5114063B2 - Sealed battery - Google Patents

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JP5114063B2
JP5114063B2 JP2007024227A JP2007024227A JP5114063B2 JP 5114063 B2 JP5114063 B2 JP 5114063B2 JP 2007024227 A JP2007024227 A JP 2007024227A JP 2007024227 A JP2007024227 A JP 2007024227A JP 5114063 B2 JP5114063 B2 JP 5114063B2
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battery
insulating plate
safety valve
valve mechanism
lid
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JP2008192414A (en
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正孝 厚木
隆志 中島
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Envision AESC Energy Devices Ltd
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NEC Energy Devices 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
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P70/00Climate change mitigation technologies in the production process for final industrial or consumer products
    • Y02P70/50Manufacturing or production processes characterised by the final manufactured product

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  • Sealing Battery Cases Or Jackets (AREA)
  • Gas Exhaust Devices For Batteries (AREA)
  • Secondary Cells (AREA)
  • Connection Of Batteries Or Terminals (AREA)

Description

本発明は、電池の構造に関し、特に、落下、衝撃時の安全性に優れた密閉型電池に関するものである。   The present invention relates to a structure of a battery, and more particularly to a sealed battery excellent in safety during dropping and impact.

小型の電子機器の電源として各種の電池が用いられており、携帯電話、ノートパソコン等の電源として、小型で大容量の密閉型電池が用いられ、近年は特にエネルギー密度が高いリチウムイオン二次電池の非水電解液を使用した密閉型電池が用いられている。また、電子機器の薄型化に伴い電池も薄型機器に適した角形電池がスペース効率に優れているため用いられるようになり、完全密閉化は非水電解液を収納することから必須となっている。   Various types of batteries are used as power sources for small electronic devices, and small and large-capacity sealed batteries are used as power sources for mobile phones and laptop computers. Recently, lithium-ion secondary batteries with particularly high energy density are used. A sealed battery using a non-aqueous electrolyte is used. In addition, along with the thinning of electronic devices, the use of rectangular batteries suitable for thin devices has become more space efficient, and complete sealing is essential because non-aqueous electrolyte is contained. .

図2は、従来の密閉型電池の一例を説明する図であり、図2(a)は平面図であり、図2(b)は図2(a)におけるA−A線の断面図であって、電池缶の内部の、蓋体と電池要素の間にある絶縁板との状態を説明する図であり、図2(c)は絶縁板の平面図、図2(d)は図2(c)におけるB−B線の断面図である。図2に示した電池は、アルミニウムまたはその合金からなる電池缶2にセパレータを介して正極と負極を積層して巻回、成型した電池要素3を収納し蓋体4を電池缶2に嵌合させた後、レーザー溶接している。この電池の場合、電池要素3の上下にはポリオレフィン系樹脂製の絶縁板5が配設されている。   FIG. 2 is a diagram for explaining an example of a conventional sealed battery, FIG. 2 (a) is a plan view, and FIG. 2 (b) is a cross-sectional view taken along line AA in FIG. 2 (a). FIG. 2C is a diagram for explaining the state of the inside of the battery can and the insulating plate between the lid and the battery element, FIG. 2C is a plan view of the insulating plate, and FIG. It is sectional drawing of the BB line in c). The battery shown in FIG. 2 includes a battery can 2 made of aluminum or an alloy thereof, laminated with a positive electrode and a negative electrode via a separator, wound, accommodated a molded battery element 3 and a lid 4 fitted to the battery can 2. After the laser welding. In the case of this battery, insulating plates 5 made of polyolefin resin are disposed above and below the battery element 3.

特許文献1では、落下および衝撃などによる電池要素と蓋体および電池缶との内部短絡抑制のため弾性を有する絶縁板を配置することが提案されており、特許文献2においては、耐衝撃性向上のため、電池要素と電池缶の間に断面T字型状の絶縁板を配置することが提案されている。   In Patent Document 1, it is proposed to arrange an insulating plate having elasticity in order to suppress internal short circuit between the battery element, the lid, and the battery can due to dropping or impact. In Patent Document 2, the impact resistance is improved. Therefore, it has been proposed to dispose an insulating plate having a T-shaped cross section between the battery element and the battery can.

特開2004−31263号公報JP 200431263 A 特開2004−6363号公報JP 2004-6363 A

しかしながら、電池の安全性を確認するための落下試験回数を重ねた場合、特に蓋体を下に配置して落下試験を繰り返し実施した場合、缶上部に衝撃を加えることとなる。図3は従来の密閉型電池の落下試験後の状態を説明する図であり、図3(a)は平面図、図3(b)は図3(a)におけるA−A線の断面図である。図3に示すように落下衝撃により電池要素3が蓋体4側に移動し、絶縁板5を押圧することで、絶縁板5は変形して加圧弁のようになり、蓋体4と絶縁板5の間にある非水電解液を通して、安全弁機構6に繰り返し圧力を加え安全弁機構開放の原因となっていた。   However, when the number of drop tests for confirming the safety of the battery is repeated, particularly when the drop test is repeatedly performed with the lid disposed below, an impact is applied to the upper portion of the can. 3A and 3B are diagrams for explaining a state of a conventional sealed battery after a drop test, in which FIG. 3A is a plan view, and FIG. 3B is a cross-sectional view taken along line AA in FIG. is there. As shown in FIG. 3, when the battery element 3 moves to the lid 4 side due to a drop impact and presses the insulating plate 5, the insulating plate 5 is deformed to become a pressure valve, and the lid 4 and the insulating plate The pressure was repeatedly applied to the safety valve mechanism 6 through the non-aqueous electrolyte between 5 and 5 to cause the safety valve mechanism to open.

このような落下試験における安全弁機構の開放に対しては、安全弁機構の作動圧を高める方策があるが、作動圧を高めると当初の目的である過充電や加熱試験による電池の内部圧力の上昇を防止する効果が著しく損なわれるため現実的ではない。   There are measures to increase the operating pressure of the safety valve mechanism for opening the safety valve mechanism in such a drop test, but if the operating pressure is increased, the internal pressure of the battery will increase due to the overcharge and heating tests that were originally intended. Since the effect to prevent is remarkably impaired, it is not realistic.

本発明の課題は、落下、衝撃による安全弁機構の開放を防止し信頼性の高い密閉型電池を提供することにある。   An object of the present invention is to provide a highly reliable sealed battery that prevents a safety valve mechanism from being opened due to dropping or impact.

本発明の密閉型電池は、電池缶の開口部よりセパレータを介して正極及び負極を積層して巻回した電池要素を収納し前記開口部を安全弁機構を組み込んだ蓋体にて封止してなる密封型電池において、前記電池要素と前記蓋体との間に安全弁機構を覆う絶縁板を配設したことを特徴とする。   The sealed battery of the present invention accommodates a battery element in which a positive electrode and a negative electrode are stacked and wound through an opening of a battery can through a separator, and the opening is sealed with a lid incorporating a safety valve mechanism. In the sealed battery, an insulating plate that covers the safety valve mechanism is disposed between the battery element and the lid.

また、前記絶縁板は融点が120℃〜180℃のポリオレフィン系樹脂からなることが好ましく、前記絶縁板の安全弁機構を覆う部分の厚さは前記絶縁板の側壁の高さと同じであることが好ましい。   The insulating plate is preferably made of a polyolefin-based resin having a melting point of 120 ° C. to 180 ° C., and the thickness of the portion covering the safety valve mechanism of the insulating plate is preferably the same as the height of the side wall of the insulating plate. .

本発明によれば、蓋体の安全弁機構を前面覆う構造の絶縁板を用いることにより一般的なドーム状を成す薄肉の弁体の安全弁構造において落下衝撃時の耐久性を向上させることで安全性を確保でき、信頼性の高い密閉型電池を提供することができる。   According to the present invention, by using an insulating plate having a structure covering the front surface of the safety valve mechanism of the lid body, the safety valve structure of a thin valve body having a general dome shape is improved by improving durability at the time of a drop impact. And a highly reliable sealed battery can be provided.

次に、本発明の実施の形態を図面に基づいて説明する。   Next, embodiments of the present invention will be described with reference to the drawings.

図1は、本発明の密閉型電池の実施の形態を説明する図であり、図1(a)は平面図を示し、図1(b)は図1(a)におけるA−A線の断面図を示し、図1(c)は絶縁板の平面図、図1(d)は図1(c)におけるB−B線の断面図を示す。本発明の密閉型電池1は、角形の電池缶2内にセパレータを介して正極と負極を積層して扁平に巻回した後に、さらに押圧処理して電池缶の形状に合致するように扁平にした電池要素3が収容されており、安全弁機構6を組み込んだ蓋体4で密封する構造となっている。電池要素3と蓋体4の間には短絡防止のため絶縁板5が配設されている。絶縁板5は蓋体4および蓋体のほぼ中央部の端子部と電池要素3との接触を避けるため、絶縁板5の周縁部上部の蓋体側には側壁を有し、安全弁機構6と対向する部分には安全弁機構の全面に亘って覆う肉厚部7を設けた形状となっている。   FIG. 1 is a diagram illustrating an embodiment of a sealed battery according to the present invention. FIG. 1 (a) is a plan view, and FIG. 1 (b) is a cross-sectional view taken along line AA in FIG. 1C is a plan view of the insulating plate, and FIG. 1D is a cross-sectional view taken along line BB in FIG. 1C. In the sealed battery 1 of the present invention, a positive electrode and a negative electrode are laminated in a rectangular battery can 2 via a separator and wound flat, and then pressed to be flattened so as to match the shape of the battery can. The battery element 3 is accommodated and sealed with a lid 4 incorporating a safety valve mechanism 6. An insulating plate 5 is disposed between the battery element 3 and the lid 4 to prevent a short circuit. The insulating plate 5 has a side wall on the lid side of the upper peripheral edge of the insulating plate 5 to avoid contact with the battery element 3 with the lid 4 and the terminal portion at the substantially central portion of the lid, and faces the safety valve mechanism 6. The portion to be provided has a thick portion 7 that covers the entire surface of the safety valve mechanism.

本発明の密閉型電池1では、安全弁機構6と対向する部分を全面覆う絶縁板5の肉厚部7の高さは絶縁板5の側壁と同じにすることで、落下試験などの衝撃を受けた際に電池要素3が蓋体4側に移動し、絶縁板5を押圧することによる変形を少なくしている。なお、電池の発熱により異状が生じた場合には絶縁板が軟化或いは溶融するため安全弁機構の開放には支障はない。   In the sealed battery 1 of the present invention, the thickness of the thick portion 7 of the insulating plate 5 that covers the entire portion facing the safety valve mechanism 6 is the same as that of the side wall of the insulating plate 5, thereby receiving impact such as a drop test. When the battery element 3 is moved, the battery element 3 moves to the lid 4 side, and deformation caused by pressing the insulating plate 5 is reduced. In addition, when abnormality arises by heat_generation | fever of a battery, since an insulating board softens or fuse | melts, there is no trouble in opening of a safety valve mechanism.

次に実施例について図1を参照して説明する。縦49.1mm、横33.8mm、厚さ4.2mm、板厚0.2mmのアルミニウム合金からなる電池缶5に、正極と負極を微多孔性ポリプロピレン膜のセパレータを介して積層し、渦巻状に巻回して作成した縦45.5mm、横32.6mm、厚さ3.7mmの電池要素3を収容し、絶縁板5を介して蓋体を缶に嵌合したのちレーザー溶接した。絶縁板は、厚さ0.3mmの板状部を有し縦3.7mm横32.2mmの周縁部には厚さ0.3mm高さ1.2mmの側壁を設け、安全弁機構と対向する部分には高さ1.2mmの肉厚部7を設けたものを作製した。次に蓋体4に設けられた注入口から電解液を注入しリチウムイオン電池を作製した。   Next, an embodiment will be described with reference to FIG. A battery can 5 made of an aluminum alloy having a length of 49.1 mm, a width of 33.8 mm, a thickness of 4.2 mm, and a thickness of 0.2 mm is laminated with a positive electrode and a negative electrode through a separator of a microporous polypropylene film, and spirally formed. The battery element 3 having a length of 45.5 mm, a width of 32.6 mm, and a thickness of 3.7 mm, which was wound around the container, was accommodated, the lid was fitted into the can via the insulating plate 5, and laser welding was performed. The insulating plate has a plate-like portion having a thickness of 0.3 mm, and a side wall having a thickness of 0.3 mm and a height of 1.2 mm is provided on the peripheral portion of the length of 3.7 mm and the width of 32.2 mm, and the portion facing the safety valve mechanism The one provided with a thick portion 7 having a height of 1.2 mm was prepared. Next, an electrolyte solution was injected from an inlet provided in the lid 4 to produce a lithium ion battery.

(比較例)
次に比較例について説明する。絶縁板に、厚さ0.3mmの板状部を有し縦3.7mm横32.2mmの周縁部には厚さ0.3mm高さ1.2mmの側壁を設けたものを作製したものを用いた以外は実施例と同様にリチウムイオン電池を作製し比較例とした。
(Comparative example)
Next, a comparative example will be described. An insulating plate having a plate-like portion having a thickness of 0.3 mm and a peripheral edge portion having a length of 3.7 mm and a width of 32.2 mm provided with a side wall having a thickness of 0.3 mm and a height of 1.2 mm is prepared. A lithium ion battery was produced as a comparative example in the same manner as in the example except that it was used.

上述のように作製した実施例および比較例のリチウムイオン電池を保護回路とともに成形樹脂からなるケースで外装し、電池パックを得た。得られた電池パックそれぞれ3個について、携帯電話を想定したMCナイロン(登録商標)製の重さ80gの治具に装着し、電池の蓋体を下部に方向制御して高さ1mから合板上への落下試験を行った。落下試験を繰り返し安全弁機構が開放したときの落下回数を表1に示す。   The lithium ion batteries of Examples and Comparative Examples produced as described above were packaged with a case made of a molded resin together with a protective circuit to obtain a battery pack. Each of the three battery packs obtained was mounted on a MC nylon (registered trademark) jig weighing 80 g assuming a mobile phone, and the direction of the battery lid was controlled to the bottom, starting from a height of 1 m on the plywood A drop test was conducted. Table 1 shows the number of drops when the safety valve mechanism is opened by repeating the drop test.

Figure 0005114063
Figure 0005114063

表1の結果より安全弁機構と対向する部分を全面に亘って覆う構造の絶縁板を配設した本発明を実施した密閉型電池において落下耐久性の向上が確認できた。   From the results in Table 1, it was confirmed that the drop durability was improved in the sealed battery in which the present invention in which the insulating plate having a structure covering the entire surface facing the safety valve mechanism was provided was implemented.

次に、加熱による安全弁機構の開放について試験を実施した。前処理として実施例、比較例により作製したリチウムイオン電池を3.0Vの終止電圧まで0.2Cの定電流で放電した後、電池電圧4.25V、電流1Cにて20℃雰囲気下で2.5時間の定電流定電圧の充電を行った。この充電されたリチウムイオン電池それぞれ3個を150℃まで5℃/分で昇温し、150℃で3時間保持する加熱試験を行った。結果を表2に示す。   Next, a test was conducted on opening the safety valve mechanism by heating. As a pre-treatment, the lithium ion batteries produced according to the examples and comparative examples were discharged at a constant current of 0.2 C to a final voltage of 3.0 V, and then the battery voltage was 4.25 V and the current was 1 C in a 20 ° C. atmosphere. The battery was charged with a constant current and a constant voltage for 5 hours. A heating test was performed in which each of the three charged lithium ion batteries was heated to 150 ° C. at a rate of 5 ° C./min and held at 150 ° C. for 3 hours. The results are shown in Table 2.

Figure 0005114063
Figure 0005114063

表2の結果より安全弁機構と対向する部分を全面に亘って覆う構造の絶縁板を配設した本発明を実施した密閉型電池においても安全弁が開放し、問題ないことが確認できた。   From the results shown in Table 2, it was confirmed that the safety valve was opened even in the sealed battery in which the present invention in which the insulating plate having a structure covering the entire surface facing the safety valve mechanism was provided, and there was no problem.

本発明の密閉型電池は、電池要素と蓋体間の絶縁板において安全弁機構と対向する部分を全面覆う構造にし、落下衝撃を受けた場合にも安全弁機構の開放がなく高度の耐久性が要求される密閉型電池として利用できる。   The sealed battery according to the present invention has a structure that covers the entire surface of the insulating plate between the battery element and the cover, which faces the safety valve mechanism, and requires high durability without opening the safety valve mechanism even when subjected to a drop impact. It can be used as a sealed battery.

本発明の密閉型電池の実施の形態を説明する図、図1(a)は平面図、図1(b)は図1(a)におけるA−A線の断面図、図1(c)は絶縁板の平面図、図1(d)は図1(c)におけるB−B線の断面図。FIG. 1A is a plan view, FIG. 1B is a cross-sectional view taken along line AA in FIG. 1A, and FIG. 1C is a diagram illustrating an embodiment of a sealed battery according to the present invention. The top view of an insulating board, FIG.1 (d) is sectional drawing of the BB line in FIG.1 (c). 従来の密閉型電池の一例を説明する図、図2(a)は平面図、図2(b)は図2(a)におけるA−A線の断面図、図2(c)は絶縁板の平面図、図2(d)は図2(c)におけるB−B線の断面図。FIG. 2 (a) is a plan view, FIG. 2 (b) is a cross-sectional view taken along line AA in FIG. 2 (a), and FIG. 2 (c) is an insulating plate. FIG. 2D is a plan view, and FIG. 2D is a sectional view taken along line BB in FIG. 従来の密閉型電池の落下試験後の状態を説明する図、図3(a)は平面図、図3(b)は図3(a)におけるA−A線の断面図。The figure explaining the state after the drop test of the conventional sealed battery, Fig.3 (a) is a top view, FIG.3 (b) is sectional drawing of the AA line in Fig.3 (a).

符号の説明Explanation of symbols

1 密閉型電池
2 電池缶
3 電池要素
4 蓋体
5 絶縁板
6 安全弁機構
7 肉厚部
DESCRIPTION OF SYMBOLS 1 Sealed battery 2 Battery can 3 Battery element 4 Lid 5 Insulation plate 6 Safety valve mechanism 7 Thick part

Claims (1)

電池缶の開口部よりセパレータを介して正極及び負極を積層して巻回した電池要素を収納し前記開口部を安全弁機構を組み込んだ蓋体にて封止してなる密封型電池において、
前記電池要素と前記蓋体との間に前記安全弁機構を、該安全弁機構の全面に亘って覆う絶縁板を配設し
前記絶縁板は、融点が120℃〜180℃のポリオレフィン系樹脂からなり、
前記絶縁板の前記安全弁機構を覆う部分の厚さは、前記絶縁板の側壁の高さと同じ厚さであることを特徴とする密閉型電池。
By laminating a positive electrode and the negative electrode via the separator from the opening of the battery can accommodating the battery element wound, the opening, the sealed cell comprising sealed by incorporating the lid with a safety valve mechanism,
Between the lid and the battery element, the safety valve mechanism, arranged an insulating plate covering over the entire surface of the safety valve mechanism,
The insulating plate is made of a polyolefin resin having a melting point of 120 ° C to 180 ° C,
The sealed battery according to claim 1, wherein a thickness of a portion of the insulating plate covering the safety valve mechanism is the same as a height of a side wall of the insulating plate .
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