MANUFACTURING METHOD FOR ELECTRODE PLATE
To provide a manufacturing method for an electrode plate capable of forming an active material layer on a current collecting foil without performing a step of heating and drying an undried active material layer.SOLUTION: The manufacturing method for an electrode plate 1 includes a magnetic sucking p...
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| Format | Patent |
| Language | English Japanese |
| Published |
01.08.2022
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| Abstract | To provide a manufacturing method for an electrode plate capable of forming an active material layer on a current collecting foil without performing a step of heating and drying an undried active material layer.SOLUTION: The manufacturing method for an electrode plate 1 includes a magnetic sucking process S31, a conveying process S32, and a depositing process S33. In the conveying process S32 and the depositing process S33, while a series of carrier groups 210 of composite carrier particles 205 alternately take a rising form FV and a falling form FD, a metal cylinder 131 and an internal magnet section 133 of a magnet roll 130 are rotated so that carrier group movement speed Vh (mm/s) moving on a roll surface 130m satisfies a range VR1 of -170≤Vh≤-40 or +40≤Vh≤+170.SELECTED DRAWING: Figure 3
【課題】未乾燥活物質層を加熱乾燥させる工程を行うことなく、集電箔上に活物質層を形成できる電極板の製造方法を提供する。【解決手段】電極板1の製造方法は、磁気吸着工程S31と搬送工程S32と堆積工程S33とを備える。搬送工程S32及び堆積工程S33において、複合キャリア粒子205の一連のキャリア群210が立ち上がり形態FVと横倒し形態FDとを交互に取りつつ、ロール表面130m上を移動するキャリア群移動速度Vh(mm/s)が、-170≦Vh≦-40または+40≦Vh≦+170の範囲VR1を満たすように、マグネットロール130の金属筒131及び内部マグネット部133をそれぞれ回転させる。【選択図】図3 |
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| AbstractList | To provide a manufacturing method for an electrode plate capable of forming an active material layer on a current collecting foil without performing a step of heating and drying an undried active material layer.SOLUTION: The manufacturing method for an electrode plate 1 includes a magnetic sucking process S31, a conveying process S32, and a depositing process S33. In the conveying process S32 and the depositing process S33, while a series of carrier groups 210 of composite carrier particles 205 alternately take a rising form FV and a falling form FD, a metal cylinder 131 and an internal magnet section 133 of a magnet roll 130 are rotated so that carrier group movement speed Vh (mm/s) moving on a roll surface 130m satisfies a range VR1 of -170≤Vh≤-40 or +40≤Vh≤+170.SELECTED DRAWING: Figure 3
【課題】未乾燥活物質層を加熱乾燥させる工程を行うことなく、集電箔上に活物質層を形成できる電極板の製造方法を提供する。【解決手段】電極板1の製造方法は、磁気吸着工程S31と搬送工程S32と堆積工程S33とを備える。搬送工程S32及び堆積工程S33において、複合キャリア粒子205の一連のキャリア群210が立ち上がり形態FVと横倒し形態FDとを交互に取りつつ、ロール表面130m上を移動するキャリア群移動速度Vh(mm/s)が、-170≦Vh≦-40または+40≦Vh≦+170の範囲VR1を満たすように、マグネットロール130の金属筒131及び内部マグネット部133をそれぞれ回転させる。【選択図】図3 |
| Author | UEZONO TOMOYUKI OKUBO SOKICHI WATANABE MASAKI MIYAJIMA MOMOKA SHIMAZAKI MIGIWA MATSUYAMA MIYUKI |
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| DocumentTitleAlternate | 電極板の製造方法 |
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| RelatedCompanies | PRIME PLANET ENERGY & SOLUTIONS INC TOYOTA MOTOR CORP |
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| Snippet | To provide a manufacturing method for an electrode plate capable of forming an active material layer on a current collecting foil without performing a step of... |
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| SubjectTerms | APPLYING LIQUIDS OR OTHER FLUENT MATERIALS TO SURFACES, IN GENERAL BASIC ELECTRIC ELEMENTS ELECTRICITY PERFORMING OPERATIONS PROCESSES FOR APPLYING LIQUIDS OR OTHER FLUENT MATERIALS TOSURFACES, IN GENERAL PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSIONOF CHEMICAL INTO ELECTRICAL ENERGY SPRAYING OR ATOMISING IN GENERAL TRANSPORTING |
| Title | MANUFACTURING METHOD FOR ELECTRODE PLATE |
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