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    • 6. 发明申请
    • MANUFACTURE OF LITHIUM ION SECONDARY BATTERY
    • 锂离子二次电池的制造
    • WO1999031749A1
    • 1999-06-24
    • PCT/JP1997004666
    • 1997-12-18
    • MITSUBISHI DENKI KABUSHIKI KAISHAHAMANO, KoujiYOSHIDA, YasuhiroMURAI, MichioINUZUKA, TakayukiSHIOTA, HisashiARAGANE, JunURUSHIBATA, HiroakiAIHARA, ShigeruTAKEMURA, Daigo
    • MITSUBISHI DENKI KABUSHIKI KAISHA
    • H01M10/40
    • H01M10/058H01M2/1673H01M2/168H01M4/1391H01M4/1393H01M6/10H01M6/40H01M10/0525Y10T29/49114Y10T29/49115
    • The manufacture of a lithium ion secondary battery in which a positive electrode, a negative electrode, and a separator can be stuck fast to one another without using a solid casing and without increasing the resistance between electrodes, and the higher energy density and the thinning are possible, and which can take optional form and is excellent in charge and discharge properties. This manufacture of the lithium ion secondary battery has the process of preparing a positive electrode (3) where a positive electrode active material layer (7) is joined with a positive electrode collector (6), a negative electrode (5) where a negative electrode active material (9) is joined with a negative collector (10), and a separator (4) for retaining the electrolytes including lithium ions, being arranged between the positive electrode (3) and the negative electrode (5), the process of supplying adhesive resin solution applied on the separator with a second solvent different from a first solvent after applying the adhesive resin solution, where adhesive resin (11) is dissolved in the above first solvent, to the separator (4), and the process of forming an electrode laminate by sticking the positive electrode (3) and the negative electrode (5) to the separator (4).
    • 可以在不使用固体壳体的情况下将正极,负极和隔膜相互牢固地粘贴的锂离子二次电池的制造,并且不增加电极之间的电阻,并且较高的能量密度和变薄是 可以采用任意形式,充放电特性优异。 这种锂离子二次电池的制造具有正极(3)的制造方法,其中正极活性物质层(7)与正极集电体(6),负极(5)接合,其中负极 活性物质(9)与负极集电体(10)和用于保持包含锂离子的电解质的隔板(4)配置在正极(3)和负极(5)之间,供给 在将粘合树脂(11)溶解在上述第一溶剂中的粘合性树脂溶液涂布到隔膜(4)之后,将粘合性树脂溶液与不同于第一溶剂的第二溶剂施加到隔膜上, 通过将正极(3)和负极(5)粘贴到隔膜(4)上来形成电极层压体。
    • 7. 发明申请
    • LITHIUM ION SECONDARY BATTERY AND MANUFACTURE THEREOF
    • 锂离子二次电池及其制造
    • WO1999026306A1
    • 1999-05-27
    • PCT/JP1997004198
    • 1997-11-19
    • MITSUBISHI DENKI KABUSHIKI KAISHAHAMANO, KoujiYOSHIDA, YasuhiroSHIOTA, HisashiAIHARA, ShigeruMURAI, MichioINUZUKA, TakayukiSHIRAGA, Sho
    • MITSUBISHI DENKI KABUSHIKI KAISHA
    • H01M10/40
    • H01M10/38H01M2/1653H01M2/168H01M4/04H01M6/10H01M10/04H01M10/0431H01M10/0525H01M10/0583H01M10/0585H01M10/0587Y10T29/49114
    • A lithium ion secondary battery which can maintain an electric connection between electrodes without using a strong outer-packaging can and which can be formed into the one with a high energy density or a small thickness and which has an excellent charging and discharging characteristic. The lithium ion secondary battery has a plurality of electrode laminates (8), each of which is made by airtightly adhering a positive pole (3) with a positive active material layer (7) and a positive collector (6), a negative pole (5) with a negative active material layer (9) and a negative collector (10), and a separator (4) which is located between the positive and the negative electrodes and is impregnated with an electrolytic solution including lithium ions, by joining the positive active material layer (7) and the negative active material layer (9) to the separator (4) with porous adhesive resin layers (11), and by keeping an electrolytic solution in through-holes (12) which pass through the positive active material layer (7), the negative active material layer (9) and the separator (4) which are formed between the adhesive resin layers (11).
    • 锂离子二次电池,其可以在不使用强大的外包装罐的情况下保持电极之间的电连接,并且可以形成为具有高能量密度或小厚度的电池,并且具有优异的充电和放电特性。 锂离子二次电池具有多个电极层压体(8),每个电极层压体(8)通过将正极(3)与正极活性物质层(7)和正极集电体(6),负极( 5)具有负极活性物质层(9)和负极集电体(10),以及隔板(4),其位于正极和负极之间,并且浸渍有包含锂离子的电解液,通过将正极 活性物质层(7)和负极活性物质层(9)分配到具有多孔粘合树脂层(11)的隔板(4),并且通过将电解液保持在穿过正极活性物质的通孔(12)中 层(7),负极活性物质层(9)和隔离物(4)。
    • 8. 发明申请
    • LITHIUM ION SECONDARY BATTERY
    • 锂离子二次电池
    • WO1999031748A1
    • 1999-06-24
    • PCT/JP1997004600
    • 1997-12-15
    • MITSUBISHI DENKI KABUSHIKI KAISHAYOSHIDA, YasuhiroHAMANO, KoujiSHIOTA, HisashiAIHARA, ShigeruINUZUKA, TakayukiMURAI, MichioSHIRAGA, Syo
    • MITSUBISHI DENKI KABUSHIKI KAISHA
    • H01M10/40
    • H01M2/1673H01M2/168H01M4/13H01M6/10H01M10/0431H01M10/0525H01M2004/021
    • A lithium ion secondary battery which can keep an electric connection between active material layers and separators without using a strong case, which can be formed to any shape such as the one with a high energy density or a small thickness, and which has an excellent charging and discharging characteristic and has a large capacity for cell. Positive and negative active material particles are joined to a positive and a negative collectors respectively using binder resin to form a positive pole and a negative pole. Positive and negative active material layers and separators are so joined with binder resin that the junction strength between the separator and the positive active material layer, and between the separator and the negative active material layer, may be at least the same as that between the positive collector and the positive active material layer, and between the negative collector and the negative active material layer, to form a flat multilayer battery body with a plurality of electrode laminates. Electric connection between the electrodes can be obtained by keeping an electrolytic solution including lithium ions in spaces between the positive active material layers and the separators, and between the negative active material layers and the separators.
    • 一种锂离子二次电池,其可以在不使用能够形成为具有高能量密度或小厚度的任何形状的强力壳体的情况下保持活性物质层和隔板之间的电连接,并且具有优异的充电 放电特性,电池容量大。 分别使用粘合剂树脂将正极和负极活性材料颗粒连接到正极和负极集电体以形成正极和负极。 正极和负极活性材料层和隔板与粘合剂树脂接合,隔板和正极活性物质层之间以及隔板和负极活性物质层之间的接合强度可以至少与阳极 集电体和正极活性物质层,负极集电体和负极活性物质层之间形成具有多个电极层叠体的扁平多层电池体。 电极之间的电连接可以通过将包含锂离子的电解溶液保持在正极活性物质层和隔板之间的空间以及负极活性物质层和隔板之间来获得。