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    • 1. 发明申请
    • Apparatus for manufacturing secondary battery
    • 二次电池制造装置
    • US20070154799A1
    • 2007-07-05
    • US11517741
    • 2006-09-08
    • Junill YoonJi HanHeekook Yang
    • Junill YoonJi HanHeekook Yang
    • H01M2/02B23P19/00
    • H01M10/0404H01M2/1005Y10T29/53135
    • Disclosed herein is an apparatus for manufacturing a secondary battery by performing insert injection molding with respect to a portion of a battery cell while the battery cell is located in a mold, wherein the apparatus comprises a pair of upper and lower molds, at which are formed shapes corresponding to the battery cell, the upper and lower molds are provided at the inside surfaces thereof with elastic members, and the elastic members are constructed in a structure in which the elastic members support a cell body of the battery cell and isolate a non-molding region from a molding region while the battery cell is mounted in the upper and lower molds. The secondary battery manufacturing apparatus according to the present invention has the effect of preventing a battery case from being damaged due to the contact between the battery case and the mold when the mold is brought into tight contact with the cell body of the battery cell during insert injection molding to form a molding member at a specific region of the secondary battery, and effectively preventing a material for insert injection molding, which is injected into the molding region, from being injected into the non-molding region.
    • 本发明公开了一种二次电池的制造装置,其特征在于,在电池单元位于模具中的同时,相对于电池单元的一部分进行插入注射成型,其特征在于,所述装置包括一对上模和下模 对应于电池单元的形状,上下模具的内表面设置有弹性构件,弹性构件构成为弹性构件支撑电池单元的电池体并隔离非隔离电极的结构, 模制区域,而电池单元安装在上模具和下模具中。 根据本发明的二次电池制造装置具有如下效果:当在插入期间模具与电池单体的电池体紧密接触时,由于电池壳体和模具之间的接触而防止电池壳体被损坏 注射成型以在二次电池的特定区域形成模制构件,并且有效地防止注入到模制区域中的用于插入注射成型的材料被注入到非模制区域中。
    • 2. 发明申请
    • Housing member for battery module
    • 电池模块外壳
    • US20060251960A1
    • 2006-11-09
    • US11407157
    • 2006-04-19
    • Junill YoonJong-yul RoYeo YoonHeekook YangJaesung Ahn
    • Junill YoonJong-yul RoYeo YoonHeekook YangJaesung Ahn
    • H01M10/50H01M2/02H01M2/30
    • H01M2/0245H01M2/0262H01M2/028H01M2/0287H01M2/06H01M2/1077H01M2/206H01M2/24
    • Disclosed herein is a housing member for a battery module, which is mounted to at least one side of the battery module such that a flow channel of refrigerant is defined in the battery module having unit cells stacked therein, wherein the housing member is provided with electrically connecting members for electrically connecting electrode terminals of the unit cells with each other and/or electrically connecting an external device to the electrode terminals, the electrically connecting members being integrally formed at the housing member. The housing member according to the present invention is manufactured in a structure in which the electrically connecting members are integrally formed at the housing member. Consequently, the manufacturing costs of the housing member are reduced. Furthermore, the assembly process of the battery module is greatly simplified, and the occurrence of short circuits caused by an engineer's mistake is effectively prevented.
    • 本文公开了一种用于电池模块的壳体构件,其被安装到电池模块的至少一侧,使得在具有堆叠在其中的单元电池的电池模块中限定制冷剂的流动通道,其中壳体构件设置有电 用于将单元电池的电极端子彼此电连接和/或将外部设备电连接到电极端子的连接构件,电连接构件一体形成在壳体构件上。 根据本发明的壳体构件被制造成其中电连接构件一体地形成在壳体构件上的结构。 因此,壳体构件的制造成本降低。 此外,电池模块的组装过程大大简化,有效地防止了由工程师的错误引起的短路的发生。
    • 6. 发明授权
    • Power switching module for battery module assembly
    • 电池模块组装电源开关模块
    • US08125192B2
    • 2012-02-28
    • US12516267
    • 2007-10-27
    • Junill YoonJong-yul RoHeekook YangJongmoon YoonDo Yang Jung
    • Junill YoonJong-yul RoHeekook YangJongmoon YoonDo Yang Jung
    • H02J7/00
    • B60K6/28H01M2/0245H01M2/1077H01M2/206
    • Disclosed herein is a power switching module for a battery module assembly constructed in a structure in which a plurality of rectangular battery modules, each having a plurality of battery cells or unit modules connected in series to each other, are stacked in the width direction (the longitudinal direction) and the height direction (the transverse direction) by at least twos such that the rectangular battery modules generally constitute a hexahedral structure (hexahedral stack), outer edges of the hexahedral stack are fixed by a frame member, and input and output terminals of the rectangular battery modules are oriented such that the input and output terminals of the rectangular battery modules are directed toward one surface (a) of the hexahedral stack, wherein the power switching module comprises an insulative substrate mounted to the surface (a) of the hexahedral stack in a coupling fashion, elements mounted on the insulative substrate for controlling voltage and current during the charge and discharge of the rectangular battery modules, and connection members mounted on the insulative substrate for interconnecting the control elements.
    • 这里公开了一种用于电池模块组件的功率切换模块,其结构是这样的结构,其中,具有彼此串联连接的多个电池单元或单元模块的多个矩形电池模块在宽度方向上堆叠 纵向)和高度方向(横向)至少两个,使得矩形电池模块通常构成六面体结构(六面体堆叠),六面体堆叠的外边缘由框架构件固定,并且输入和输出端子 矩形电池模块的定向使得矩形电池模块的输入和输出端子指向六面体堆叠的一个表面(a),其中功率开关模块包括安装到第二表面(a)的绝缘衬底 六面体堆叠以耦合的方式,安装在绝缘衬底上的元件,用于在th期间控制电压和电流 矩形电池模块的充电和放电以及安装在绝缘基板上用于互连控制元件的连接构件。
    • 7. 发明授权
    • Housing member for battery module
    • 电池模块外壳
    • US07879485B2
    • 2011-02-01
    • US11407157
    • 2006-04-19
    • Junill YoonJong-yul RoYeo Won YoonHeekook YangJaesung Ahn
    • Junill YoonJong-yul RoYeo Won YoonHeekook YangJaesung Ahn
    • H01M2/00H01M2/26H01M2/02
    • H01M2/0245H01M2/0262H01M2/028H01M2/0287H01M2/06H01M2/1077H01M2/206H01M2/24
    • Disclosed herein is a housing member for a battery module, which is mounted to at least one side of the battery module such that a flow channel of refrigerant is defined in the battery module having unit cells stacked therein, wherein the housing member is provided with electrically connecting members for electrically connecting electrode terminals of the unit cells with each other and/or electrically connecting an external device to the electrode terminals, the electrically connecting members being integrally formed at the housing member. The housing member according to the present invention is manufactured in a structure in which the electrically connecting members are integrally formed at the housing member. Consequently, the manufacturing costs of the housing member are reduced. Furthermore, the assembly process of the battery module is greatly simplified, and the occurrence of short circuits caused by an engineer's mistake is effectively prevented.
    • 本文公开了一种用于电池模块的壳体构件,其被安装到电池模块的至少一侧,使得在具有堆叠在其中的单元电池的电池模块中限定制冷剂的流动通道,其中壳体构件设置有电 用于将单元电池的电极端子彼此电连接和/或将外部设备电连接到电极端子的连接构件,电连接构件一体形成在壳体构件上。 根据本发明的壳体构件被制造成其中电连接构件一体地形成在壳体构件上的结构。 因此,壳体构件的制造成本降低。 此外,电池模块的组装过程大大简化,有效地防止了由工程师的错误引起的短路的发生。
    • 8. 发明授权
    • Frame member for fabrication of battery module
    • 用于制造电池模块的框架构件
    • US07833655B2
    • 2010-11-16
    • US11561198
    • 2006-11-17
    • Junill YoonHeekook YangJuyoung KimJuhyun KangJongmoon YoonSeungjae YouJohn E. Namgoong
    • Junill YoonHeekook YangJuyoung KimJuhyun KangJongmoon YoonSeungjae YouJohn E. Namgoong
    • H01M6/42H01M2/02
    • H01M2/06H01M2/0212H01M2/22H01M2/30H01M10/0413H01M10/48H01M10/486Y10T29/49826
    • Disclosed herein is a frame member for fabrication of a battery module including two battery cells, each of which has electrode terminals formed at upper and lower ends thereof, as unit cells. The frame member includes a lower-end frame having a groove, into which lower electrode terminals of the unit cells are inserted while the lower electrode terminals of the unit cells are coupled with each other, the lower-end frame being constructed such that lower-end sealing parts of the unit cells are mounted to the lower-end frame, an upper-end frame constructed such that upper-end sealing parts of the unit cells are mounted to the upper-end frame, and external input and output terminals, which are connected to upper electrode terminals of the unit cells, protrude from the outer surface of the upper-end frame, and a side frame connected between the lower-end frame and the upper-end frame, the side frame being constructed such that one-side sealing parts of the unit cells are mounted to the side frame. The frame member according to the present invention is effective in that a battery module is fabricated while the battery module has high mechanical strength, and the size and the weight of the battery module are minimized. Furthermore, it is possible to easily mount the detecting means that detects the operation of the battery cells. Consequently, the battery module is easily fabricated, and the occurrence of short circuits is effectively prevented during the assembly or the operation of the battery module.
    • 这里公开了一种用于制造电池模块的框架构件,其包括两个电池单元,每个电池单元在其上端和下端形成有电极端子作为单元电池。 框架构件包括具有凹槽的下端框架,单元单元的下电极端子彼此连接,单元电池的下电极端子被插入该下端框架中,下端框架构造成使得下端框架 单元电池的端部密封部分安装到下端框架,上端框架被构造成使得单元电池的上端密封部分安装到上端框架,以及外部输入和输出端子,其中 连接到单元电池的上电极端子,从上端框架的外表面突出,并且连接在下端框架和上端框架之间的侧框架,侧框架构造成, 单元电池的侧面密封部分安装在侧框架上。 根据本发明的框架构件的效果在于,在电池模块具有高机械强度的同时制造电池模块,并且电池模块的尺寸和重量最小化。 此外,可以容易地安装检测电池单元的操作的检测装置。 因此,容易地制造电池模块,并且在电池模块的组装或操作期间有效地防止了短路的发生。
    • 9. 发明申请
    • Secondary battery of novel structure and battery pack having the same
    • 新型结构的二次电池和具有相同的电池组
    • US20060286450A1
    • 2006-12-21
    • US11446015
    • 2006-06-02
    • Junill YoonHeekook YangJisang YuJohn Namgoong
    • Junill YoonHeekook YangJisang YuJohn Namgoong
    • H01M2/08H01M2/06
    • H01M2/1061H01M2/021H01M2/0212H01M10/0413H01M10/0431
    • Disclosed herein are a secondary battery including an electrode assembly for charging and discharging mounted in a sheathing member including a metal layer and a resin layer, wherein the secondary battery further includes a secondary battery having a molding part of a predetermined thickness at least partially formed at the outside of a sheathing member, preferably, at a sealing region of the sheathing member, and a medium- or large-sized battery pack including the same. The molding part is formed at the outside of the sheathing member of the secondary battery. Consequently, the secondary battery according to the present invention has high mechanical strength, and therefore, it is possible to construct a battery pack without using addition members, such as cartridges. When the molding part is formed at the sealing region, which is weak, the molding part increases the mechanical strength and the sealing force of the secondary battery. Consequently, a battery pack including the secondary batteries as unit cells can be manufactured generally in a compact structure and with relatively small weight, and the assembly process of the battery pack is greatly simplified. The battery pack according to the present invention has high structural stability. Consequently, the battery pack can be preferably used as a power source for electric vehicles, hybrid electric vehicles, electric motorcycles, and electric bicycles.
    • 本文公开了一种二次电池,其包括安装在包括金属层和树脂层的护套构件中的用于充放电的电极组件,其中所述二次电池还包括具有预定厚度的模制部分的二次电池,所述模制部分至少部分地形成在 护套构件的外侧,优选地在护套构件的密封区域,以及包括该护套构件的中型或大型电池组。 成型部形成在二次电池的护套构件的外侧。 因此,根据本发明的二次电池具有高的机械强度,因此,可以不使用诸如墨盒的添加构件来构造电池组。 当模制部件形成在弱的密封区域时,模制部件增加了二次电池的机械强度和密封力。 因此,作为单元电池的二次电池的电池组件一般可以制造成一体,结构紧凑,重量轻,电池组件的组装工序大大简化。 根据本发明的电池组具有高结构稳定性。 因此,电池组可以优选用作电动汽车,混合电动车辆,电动摩托车和电动自行车的动力源。
    • 10. 发明授权
    • Heat exchanging system of battery pack using thermoelectric element
    • 使用热电元件的电池组热交换系统
    • US07867663B2
    • 2011-01-11
    • US11548054
    • 2006-10-10
    • JongMin ParkJunill YoonHeekook YangJohn E. NamgoongJaesung AhnHyosang Woo
    • JongMin ParkJunill YoonHeekook YangJohn E. NamgoongJaesung AhnHyosang Woo
    • H01M8/04
    • H01M10/613H01M10/345H01M10/615H01M10/625H01M10/63H01M10/647H01M10/6565H01M10/6566H01M10/6572
    • Disclosed herein is a heat exchange system for battery packs, which controls the temperature of a medium- or large-sized battery pack including a plurality of unit cells such that the battery pack can be operated under the optimum operating conditions. The heat exchange system includes an air inlet port and an air outlet port formed at one side of a housing surrounding the outer surface of the battery pack so as to form a predetermined flow channel, through which air flows, a driving fan mounted in the flow channel for driving the air to flow through the flow channel, and a Peltier element mounted at the air inlet port for controlling the temperature of air introduced into the air inlet port. In the heat exchange system according to the present invention, the thermoelectric element is mounted inside the air inlet port, through which air for cooling the battery pack is introduced into the heat exchange system. Consequently, the present invention has the effect of easily controlling the optimum operating temperature of the battery pack, reducing influences caused by external conditions, and decreasing noise and vibration.
    • 本文公开了一种用于电池组的热交换系统,其控制包括多个单元电池的中型或大型电池组的温度,使得电池组可以在最佳操作条件下操作。 热交换系统包括空气入口和空气出口,其形成在围绕电池组的外表面的壳体的一侧,以形成预定的流动通道,空气流过该通道,安装在流动中的驱动风扇 用于驱动空气流过流动通道的通道,以及安装在空气入口处的珀尔帖元件,用于控制引入空气入口的空气的温度。 在根据本发明的热交换系统中,热电元件安装在空气入口内部,通过该空气入口将用于冷却电池组的空气引入热交换系统。 因此,本发明具有容易控制电池组的最佳工作温度,减少由外部条件引起的影响以及降低噪声和振动的效果。