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    • 2. 发明专利
    • Charging control method and charge controller of battery
    • 充电控制方法和充电控制器的电池
    • JP2010011619A
    • 2010-01-14
    • JP2008167213
    • 2008-06-26
    • Panasonic Corpパナソニック株式会社
    • NAKATSUJI KYOKOOYAMA HIDEAKIDANSUI YOSHITAKA
    • H02J7/04B60L3/00B60W10/26B60W20/00G01R31/36H01M10/44H01M10/48H02J7/00H02J7/02
    • Y02T10/7241
    • PROBLEM TO BE SOLVED: To provide a charging control method of a battery for hybrid vehicle which can maintain the battery performance for a long term while bringing out the characteristics of the battery fully at run time by avoiding elevation of internal pressure resulting from generation of gas.
      SOLUTION: When a section 14a for determining elevation of internal pressure determines that the internal pressure of at least one of a plurality of cells 110 included in a battery 11 for hybrid vehicle exceeded a predetermined value, the charging voltage or charging current of the battery 11 is reduced based on control by a battery control section 15 and an EV control section 23. Furthermore, a receiving section 31 actuates a buzzer 32 to notify the fact to the operator, or the like, with sound.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种混合动力车辆的电池的充电控制方法,其能够长时间保持电池性能,同时通过避免由于产生的内部压力的升高而在运行时充分地提供电池的特性 一代气。 解决方案:当用于确定内部压力升高的部分14a确定混合动力汽车电池11中包括的多个电池单元110中的至少一个的内部压力超过预定值时,充电电压或充电电流 基于电池控制部分15和EV控制部分23的控制,电池11被减小。此外,接收部分31致动蜂鸣器32以向操作者等发出声音的事实。 版权所有(C)2010,JPO&INPIT
    • 5. 发明专利
    • Hydrogen storage alloy powder and alkaline storage battery
    • 氢存储合金粉及碱性储存电池
    • JP2013108125A
    • 2013-06-06
    • JP2011252909
    • 2011-11-18
    • Panasonic Corpパナソニック株式会社
    • KIKUYAMA TORUNAKATSUJI KYOKOKATSUMOTO MASUMIHATTORI YOHEIDANSUI YOSHITAKA
    • B22F1/00C22C28/00C22F1/00H01M4/38H01M10/30
    • Y02E60/124
    • PROBLEM TO BE SOLVED: To improve the endurance characteristics of an alkaline storage battery using hydrogen storage alloy powder with a low cobalt content as a negative electrode active material.SOLUTION: The alkaline storage battery 1 includes an electrode plate group 13 in which a positive electrode 10 and a negative electrode 11 are wound via a separator 12 interposing therebetween, an alkali electrolytic solution, and a bottomed cylindrical battery case 14 that accommodates the electrode plate group 13 and the alkali electrolytic solution therein. In the alkaline storage battery, the hydrogen storage alloy powder is used as the negative electrode active material contained in the negative electrode 11, the hydrogen storage alloy powder having a CaCu5-type crystal structure that consists of misch metal (Mm: a mixture that consists mainly of a rare earth element), nickel (Ni), manganese (Mn), aluminum (Al), and cobalt (Co), wherein the total molar ratio of Ni, Mn, Al, and Co to Mm is 5.25-5.45, the molar ratio of Co to Mm is 0.15-0.35, and the half-value width ratio (002)/(200) in a powder X-ray diffraction is 0.80-1.25.
    • 要解决的问题:使用具有低钴含量的储氢合金粉末作为负极活性物质来提高碱性蓄电池的耐久性。 解决方案:碱性蓄电池1包括:电极板组13,其中正极10和负极11通过介于其间的隔膜12缠绕,碱性电解液和有底圆柱形电池盒14,其容纳 电极板组13和碱性电解液。 在碱性蓄电池中,使用储氢合金粉末作为负极11中所含的负极活性物质,该储氢合金粉末具有由混合金属构成的CaCu5型晶体结构(Mm:由 主要是稀土元素),镍(Ni),锰(Mn),铝(Al)和钴(Co)),其中Ni,Mn,Al和Co与Mm的总摩尔比为5.25-5.45, Co与Mm的摩尔比为0.15-0.35,粉末X射线衍射中的半值宽度比(002)/(200)为0.80〜1.25。 版权所有(C)2013,JPO&INPIT
    • 7. 发明专利
    • Method for producing hydrogen storage alloy powder
    • 生产氢储存合金粉的方法
    • JP2010192449A
    • 2010-09-02
    • JP2010072051
    • 2010-03-26
    • Panasonic Corpパナソニック株式会社
    • NAKATSUJI KYOKOOYAMA HIDEAKI
    • H01M4/38B22F1/00C22C19/00
    • Y02E60/12
    • PROBLEM TO BE SOLVED: To solve a problem that in order to obtain an electrode material for an alkaline storage battery which has a high activity from an initial charge/discharge and is superior in the discharging characteristics, from a low temperature to an ambient temperature, hydrogen storage alloy is treated in an alkaline solution or an acid aqueous solution and a nickel layer of a metal state is formed on the surface of the hydrogen storage alloy, but that formation of a nickel-condensed layer only causes a compositional change in the hydrogen storage alloy, after a surface-treatment for reducing the capacity in the battery characteristics and for making durability deteriorate.
      SOLUTION: An anode alloy composition is specified by an alloy composition, after a surface treatment of the hydrogen storage alloy, as an anode 2 and this does not make the capacity and lifetime deteriorate, at structuring an alkaline storage battery, and an alkaline storage battery superior in the output characteristics at a low temperature and moreover, which is superior in charge/discharge characteristics can be obtained.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 解决的问题为了解决为了获得从初始充放电而具有高活性且放电特性优异的碱性蓄电池用电极材料,从低温到 环境温度,储氢合金在碱性溶液或酸性水溶液中处理,在储氢合金的表面上形成金属状态的镍层,但是形成镍冷凝层仅引起组成变化 在储氢合金中,在用于降低电池特性的容量并使耐久性劣化的表面处理之后。 解决方案:在将储氢合金表面处理后作为阳极2,通过合金组成指定阳极合金组成,并且在构成碱性蓄电池时不会使容量和寿命变差,并且 可以获得在低温下的输出特性优异的碱性蓄电池,并且可以获得充放电特性优异的碱性蓄电池。 版权所有(C)2010,JPO&INPIT
    • 9. 发明专利
    • Composite material for electrode, production method thereof, and alkaline storage battery using the material
    • 用于电极的复合材料,其生产方法和使用该材料的碱性储存电池
    • JP2009295575A
    • 2009-12-17
    • JP2009113593
    • 2009-05-08
    • Panasonic Corpパナソニック株式会社
    • NAKATSUJI KYOKOOYAMA HIDEAKIDANSUI YOSHITAKA
    • H01M4/38B22F1/02C22C19/00H01M4/26
    • Y02P70/54
    • PROBLEM TO BE SOLVED: To provide an alkaline storage battery with high capacity and excellent high-temperature lifetime characteristic. SOLUTION: The composite material for electrode comprises a hydrogen storage alloy particle and particles including a III group metal element, supported by the hydrogen storage particle. The hydrogen storage alloy particle contains Ni, and the content of Ni is 35-60 wt.% of the entire hydrogen storage alloy particle. The particles including the III group metal element include at least one selected from the group consisting of III group metal simple bodies, oxides of the III group metal elements, and hydroxides of the III group metal elements, and the average particle size of the particles including the III group metal element is 50 nm or less. The hydrogen storage alloy particle includes at least one crystalline structure selected from the group consisting of Ce 2 Ni 7 type and CeNi 3 type. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供具有高容量和优异的高温寿命特性的碱性蓄电池。 解决方案:用于电极的复合材料包括储氢合金颗粒和由储氢颗粒负载的包含III族金属元素的颗粒。 储氢合金粒子含有Ni,Ni的含量为整个储氢合金粒子的35〜60重量%。 包括III族金属元素的颗粒包括选自III族金属单体,III族金属元素的氧化物和III族金属元素的氢氧化物中的至少一种,以及包括 III族金属元素为50nm以下。 储氢合金颗粒包括至少一种选自Ce Ni 7 型和CeNi SB 3类型的晶体结构。 版权所有(C)2010,JPO&INPIT
    • 10. 发明专利
    • Nickel-hydrogen secondary battery
    • 镍氢二次电池
    • JP2012028220A
    • 2012-02-09
    • JP2010167156
    • 2010-07-26
    • Panasonic Corpパナソニック株式会社
    • NAKATSUJI KYOKOKATSUMOTO MASUMIDANSUI YOSITAKA
    • H01M10/30H01M2/02H01M2/04H01M2/08H01M2/12H01M10/34
    • Y02E60/124
    • PROBLEM TO BE SOLVED: To provide a nickel-hydrogen secondary battery improved in safety associated with the liquid leakage of an alkaline electrolyte without having an affect on battery characteristics, unlike conventional ones that may cause unsafe events in which the liquid leakage of an alkaline electrolyte occurs depending on the use environment and usage method of a battery.SOLUTION: A nickel-hydrogen secondary battery according to the present invention includes: a positive electrode 13; a negative electrode 14; a separator 15 interposed between the positive electrode 13 and the negative electrode 14; and an alkaline electrolyte. In the nickel-hydrogen secondary battery, an oily region 20 comprising an oily substance saponified with an alkaline electrolyte is provided on an external surface of a sealing body 12 of a battery outer package.
    • 要解决的问题:提供与碱性电解液的液体泄漏相关的安全性提高的镍氢二次电池,而不影响电池特性,不同于常规的那些可能引起不安全事件的镍氢二次电池,其中液体泄漏 根据电池的使用环境和使用方法,发生碱性电解液。 解决方案:根据本发明的镍氢二次电池包括:正极13; 负极14; 夹在正极13和负极14之间的隔板15; 和碱性电解质。 在镍氢二次电池中,在电池外包装的密封体12的外表面上设置有由碱性电解液皂化的油性物质的油性区域20。 版权所有(C)2012,JPO&INPIT