Electrode manufacturing apparatus and method of manufacturing electrode
    1.
    发明授权
    Electrode manufacturing apparatus and method of manufacturing electrode 失效
    电极制造装置及其制造方法

    公开(公告)号:US07604842B2

    公开(公告)日:2009-10-20

    申请号:US10382268

    申请日:2003-03-05

    IPC分类号: B05D3/12 B05D5/12

    摘要: Provided are an electrode manufacturing apparatus and a method of manufacturing an electrode in which an electrode capable of preventing the occurrence of an internal short circuit is manufactured. A current collector is passed through a coating position in a downward direction by a reference roll. Thereby, just after coating of a mixture is interrupted, a built-up mixture between the current collector and a coating outlet is pulled in a downward direction by the current collector, so the position of the built-up mixture is lower than the position of the coating outlet. Therefore, the adhesion of the mixture to the coating outlet can be prevented, and as a result, a non-forming region where no mixture is formed can be prevented from being coated with the mixture.

    摘要翻译: 提供一种电极制造装置和制造其中制造能够防止发生内部短路的电极的电极的方法。 集电器通过参考辊在向下的方向上通过涂覆位置。 由此,在中断混合物涂布之后,通过集电体向集电体向下方拉出集电体和涂料出口之间的积聚混合物,所以积聚混合物的位置低于 涂层出口。 因此,可以防止混合物与涂料出口的粘附,结果,可以防止不形成混合物的非成形区域被涂覆。

    Method of manufacturing a battery
    2.
    发明授权
    Method of manufacturing a battery 失效
    制造电池的方法

    公开(公告)号:US06776807B2

    公开(公告)日:2004-08-17

    申请号:US09812218

    申请日:2001-03-19

    IPC分类号: H01M1004

    摘要: To provide a method of manufacturing a battery capable of providing an equal amount of electrolyte in each battery and of enhancing productivity and coating machines employed thereof. The sensor detects a boundary from the collector exposed region C of the belt-shaped positive electrode to the positive electrode mixture layer exposed region B, on the basis of the detection timing, the shutter is withdrawn to open the flowing path and the proportioning pomp is driven. Following this, when the sensor detected a boundary from the positive electrode mixture layer exposed region B to a collector exposed region C, and on the basis of the detection timing, the shutter is protruded inside the flowing path to close the flowing path and the proportioning pump stops. As a result of this, the electrolyte stops to be delivered from the nozzle. The electrolyte layers are intermittently formed by repeating the same procedures. With the proportioning pump, the electrolyte is evenly applied to pressure in order to push the electrolyte from the nozzle, so that a given amount of the electrolyte can be delivered. Thereby, the electrolyte layers, which are thin and even in thickness in width and longitudinal directions can be formed and an amount of the electrolyte included in each of the batteries can be uniform.

    摘要翻译: 提供一种能够在每个电池中提供等量的电解质并提高其使用的生产率和涂布机的电池的制造方法。 该传感器基于检测正时检测从带状正电极的集电体露出区域C到正电极混合层露出区域B的边界,取下开闭器以打开流路, 驱动。 此后,当传感器检测到从正极混合物层暴露区域B到集电体露出区域C的边界时,并且基于检测正时,闸板在流动路径内突出以闭合流动路径和配比 泵停止。 结果,电解液停止从喷嘴输送。 通过重复相同的步骤间歇地形成电解质层。 利用配比泵,将电解质均匀地施加到压力上以从喷嘴推动电解质,使得可以输送给定量的电解质。 因此,可以形成薄且均匀的宽度和纵向厚度的电解质层,并且每个电池中包含的电解质的量可以均匀。

    Method of manufacturing a battery

    公开(公告)号:US07052551B2

    公开(公告)日:2006-05-30

    申请号:US10446486

    申请日:2003-05-28

    IPC分类号: B05C11/00

    摘要: To provide a method of manufacturing a battery capable of providing an equal amount of electrolyte in each battery and of enhancing productivity and coating machines employed thereof. The sensor detects a boundary from the collector exposed region C of the belt-shaped positive electrode to the positive electrode mixture layer exposed region B, on the basis of the detection timing, the shutter is withdrawn to open the flowing path and the proportioning pomp is driven. Following this, when the sensor detected a boundary from the positive electrode mixture layer exposed region B to a collector exposed region C, and on the basis of the detection timing, the shutter is protruded inside the flowing path to close the flowing path and the proportioning pump stops. As a result of this, the electrolyte stops to be delivered from the nozzle. The electrolyte layers are intermittently formed by repeating the same procedures. With the proportioning pump, the electrolyte is evenly applied to pressure in order to push the electrolyte from the nozzle, so that a given amount of the electrolyte can be delivered. Thereby, the electrolyte layers, which are thin and even in thickness in width and longitudinal directions can be formed and an amount of the electrolyte included in each of the batteries can be uniform.

    Non-aqueous electrolyte cell and manufacturing method therefor
    6.
    发明授权
    Non-aqueous electrolyte cell and manufacturing method therefor 有权
    非水电解质电池及其制造方法

    公开(公告)号:US06706080B2

    公开(公告)日:2004-03-16

    申请号:US09896686

    申请日:2001-06-29

    申请人: Sachio Akahira

    发明人: Sachio Akahira

    IPC分类号: H01M610

    摘要: A non-aqueous electrolyte cell in which the cell capacity is improved and positioning accuracy of external terminals is assured. A unit cell is housed in an exterior packaging material of a laminated film and encapsulated on heat sealing. To elongated positive and negative electrodes of the unit cell are electrically connected electrode terminal leads which are exposed to outside of the exterior packaging material as the leads are surrounded by heat fused portions. The unit cell is a wound assembly of the positive and negative electrodes each of which is includes a current collector carrying a layer of an active material. The electrode terminal leads are mounted on the current collectors of the positive and negative electrodes in the vicinity of the innermost turn of the wound assembly. In manufacturing the unit cell, the positions of the electrode terminal leads are detected and positioned with respect to the flat winding arbor. The positive and negative electrodes then are wound on the winding arbor.

    摘要翻译: 提高电池容量并且确保外部端子的定位精度的非水电解质电池。 单元电池被容纳在层压膜的外包装材料中并且被封装在热封上。 为了延长单电池的正极和负极,导线被热熔接部分包围时,电连接的电极端子引线暴露在外包装材料的外部。 单元电池是正电极和负电极的缠绕组件,每个电极包括携带活性材料层的集电器。 电极端子引线安装在正极和负极的集电器上,在绕组组件的最内圈附近。 在制造单元电池时,电极端子引线的位置相对于扁平绕组心轴被检测和定位。 然后将正极和负极缠绕在绕组心轴上。

    Non-aqueous electrolyte cell and manufacturing method therefor
    7.
    发明授权
    Non-aqueous electrolyte cell and manufacturing method therefor 有权
    非水电解质电池及其制造方法

    公开(公告)号:US07157179B2

    公开(公告)日:2007-01-02

    申请号:US10780532

    申请日:2004-02-16

    申请人: Sachio Akahira

    发明人: Sachio Akahira

    IPC分类号: H01M2/06 H01M2/26

    摘要: A non-aqueous electrolyte cell in which the cell capacity is improved and positioning accuracy of external terminals is assured. A unit cell is housed in an exterior packaging material of a laminated film and encapsulated on heat sealing. To elongated positive and negative electrodes of the unit cell are electrically connected electrode terminal leads which are exposed to outside of the exterior packaging material as the leads are surrounded by heat fused portions. The unit cell is a wound assembly of the positive and negative electrodes each of which is includes of a current collector carrying a layer of an active material. The electrode terminal leads are mounted on the current collectors of the positive and negative electrodes in the vicinity of the innermost turn of the wound assembly. In manufacturing the unit cell, the positions of the electrode terminal leads are detected and positioned with respect to the flat winding arbor. The positive and negative electrodes then are wound on the winding arbor.

    摘要翻译: 提高电池容量并且确保外部端子的定位精度的非水电解质电池。 单元电池被容纳在层压膜的外包装材料中并且被封装在热封上。 为了延长单电池的正极和负极,导线被热熔接部分包围时,电连接的电极端子引线暴露在外包装材料的外部。 单元电池是正电极和负电极的缠绕组件,每个电极包括携带活性材料层的集电器。 电极端子引线安装在正极和负极的集电器上,在绕组组件的最内圈附近。 在制造单元电池时,电极端子引线的位置相对于扁平绕组心轴被检测和定位。 然后将正极和负极缠绕在绕组心轴上。

    Solid electrolyte battery with charge accumulating portions surrounding a battery structure portion
    8.
    发明授权
    Solid electrolyte battery with charge accumulating portions surrounding a battery structure portion 失效
    具有围绕电池结构部分的电荷累积部分的固体电解质电池

    公开(公告)号:US06277515B1

    公开(公告)日:2001-08-21

    申请号:US09310128

    申请日:1999-05-12

    申请人: Sachio Akahira

    发明人: Sachio Akahira

    IPC分类号: H01M1004

    摘要: A solid electrolyte battery is provided which is able to satisfactorily perform discharge of a large electric current in a short time and large electric current pulse even in a low temperature environment. A solid electrolyte battery incorporates: a battery structure portion constituted by forming a positive-electrode active-material layer in a portion of the surface of a positive-electrode collector and a negative-electrode active-material layer in a portion of the surface of a negative-electrode collector to be opposite to each other through a polymer electrolyte. The solid electrolyte battery incorporates a first charge-accumulating portion constituted by disposing, through a dielectric-material layer, the positive-electrode collector to be opposite to a portion of the negative-electrode collector in which the negative-electrode active-material layer is formed; and a second charge-accumulating portion constituted by disposing, through a dielectric layer, the negative-electrode collector to be opposite to a portion of the positive-electrode collector in which the positive-electrode active-material layer is formed.

    摘要翻译: 提供一种固体电解质电池,其即使在低温环境下也能够在短时间和大电流脉冲中令人满意地进行大电流的放电。 固体电解质电池包括:电池结构部分,其通过在正极集电体的表面的一部分中的正极活性物质层的一部分和负极活性物质层的一部分中形成正极活性物质层 负极集电体通过聚合物电解质彼此相对。 固体电解质电池包含第一电荷蓄积部,该第一电荷蓄积部通过介电材料层配置正极集电体,与正极活性物质层的负极集电体的与负极活性物质层 形成 以及第二电荷累积部,其通过介电层设置负极集电体,与形成有正极活性物质层的正极集电体的部分相反。