公开(公告)号：US20140212730A1

公开(公告)日：2014-07-31

申请号：US14117709

申请日：2012-05-02

Applicant: Tim Schaefer

Inventor： Tim Schaefer

IPC: H01M10/48 ,  H01M10/04

CPC classification number: H01M10/0413 ,  H01M10/04 ,  H01M10/4207 ,  H01M10/482

Abstract: The invention relates to a method for selecting electrochemical cells during the production of a battery that has a number of electrochemical cells, said method having the following steps: (S1) detecting the parameter data (DPar.) of an individual cell that is to be analysed; (S2) transmitting the detected parameter data (Dpar.) to a control unit; (S3) assigning the detected parameter data (DPar.) to the electrochemical cell; and (S4) determining for the electrochemical cell that has been allocated the parameter data if a predefined relationship exists between the parameter data (Dpar.) and predefined parameter values (WPar, Wpar.1, WPar.2, WPar.3. WPar 4, WPar.5) by means of the control unit. The method can further have the following steps: (S5a) feeding the electrochemical cell that has been assigned the parameter data (DPar.) to a first production line for producing a first type of battery, if in step (S4) the existence of a predefined relationship has been determined; or (S5b) feeding the electrochemical cell that has been assigned the parameter data (DPar.) to a second production line for producing a second type of battery, if in step (S4) the non-existence of a predefined relationship has been determined.

Abstract translation: 本发明涉及一种在具有多个电化学电池的电池生产过程中选择电化学电池的方法，所述方法具有以下步骤：（S1）检测要存在的单个电池的参数数据（DPar。） 分析; （S2）将检测到的参数数据（Dpar。）发送到控制单元; （S3）将检测到的参数数据（DPar。）分配给电化学电池; 如果在参数数据（Dpar。）和预定义的参数值（WPar，Wpar.1，WPar.2，WPar.3，WPar4）之间存在预定义的关系，则确定已经分配了参数数据的电化学电池 ，WPar.5）通过控制单元。 该方法还可以具有以下步骤：（S5a）将已经分配了参数数据（DPar。）的电化学电池进给到用于产生第一类型电池的第一生产线，如果在步骤（S4）中存在 预定义关系已经确定; 或者（S5b）将已经被分配了参数数据（DPar。）的电化学电池供给到用于产生第二类型电池的第二生产线，如果在步骤（S4）中已经确定了不存在预定关系。

公开(公告)号：US20140030576A1

公开(公告)日：2014-01-30

申请号：US13985441

申请日：2012-02-02

Applicant: Tim Schaefer ,  Christian Zahn ,  Felix Dunkel

Inventor： Tim Schaefer ,  Christian Zahn ,  Felix Dunkel

IPC: H01M2/02

CPC classification number: H01M2/0207 ,  H01M2/024 ,  H01M2/1061 ,  H01M2/1077 ,  H01M10/613 ,  H01M10/647 ,  H01M10/6554 ,  H01M10/6557 ,  H01M10/6567

Abstract: The invention relates to a housing (1) for receiving at least one flat electrochemical cell (2), comprising two housing side walls (4) which are disposed substantially parallel to one another, wherein a flat cooling bracket (9) is disposed on at least one flat electrochemical cell (2). The flat cooling bracket (9) is preferably disposed substantially parallel to the flat electrochemical cell (2). The flat electrochemical cell (2) may also have a sealing seam (3) extending at least in some regions on the edge of said cell and, for each flat electrochemical cell (2) to be received, the housing side walls (4) disposed parallel to one another comprise, in the inner faces thereof that are facing one another, a pair of opposite notches (5) configured to receive the at least one sealing seam (3) of the respective flat electrochemical cell (2).

Abstract translation: 本发明涉及一种用于容纳至少一个平坦的电化学电池（2）的壳体（1），包括两个彼此大致平行地设置的壳体侧壁（4），其中平面冷却支架（9）设置在 至少一个平的电化学电池（2）。 平坦的冷却支架（9）优选地设置成基本平行于平坦的电化学电池（2）。 平坦的电化学电池（2）还可以具有至少在所述电池的边缘上的一些区域中延伸的密封接缝（3），并且对于待接收的每个平坦的电化学电池（2），设置的壳体侧壁（4） 彼此平行的在其内表面中彼此面对的一对相对的凹口（5）构造成容纳相应的平坦电化学电池（2）的至少一个密封接缝（3）。

公开(公告)号：US20140004389A1

公开(公告)日：2014-01-02

申请号：US13979942

申请日：2012-01-03

Applicant: Tim Schaefer

Inventor： Tim Schaefer

IPC: H01M10/42

CPC classification number: H01M10/4257 ,  H01M10/4207 ,  H01M10/482 ,  Y10T29/49108

Abstract: An exothermic component has a reactive multilayer arranged in grid-shape fashion on a carrier. The exothermic component can be incorporated in an electrode construction of a galvanic cell comprising electrode layers, a separator layer and current collecting layers. In addition, a matrix-like sensor arrangement can be provided in the electrode construction. Defect locations in the electrode construction can be identified on the basis of output signals of the sensor arrangement. By igniting selected regions of the reactive multilayer grid, which react exothermically, it is possible to destroy the defect locations in a targeted manner.

Abstract translation: 放热组分具有在载体上以网格形式布置的反应性多层。 放热组分可以结合在包括电极层，隔离层和集流层的电池的电极结构中。 此外，可以在电极结构中设置矩阵状的传感器装置。 可以基于传感器装置的输出信号识别电极结构中的缺陷位置。 通过点燃反应性多层网格的选择区域，其可以放热地反应，可以以目标方式破坏缺陷位置。

公开(公告)号：US20130288100A1

公开(公告)日：2013-10-31

申请号：US13877744

申请日：2011-10-04

Applicant: Felix Dunkel ,  Tim Schaefer

Inventor： Felix Dunkel ,  Tim Schaefer

IPC: H01M2/02 ,  B26D1/00 ,  H01M10/50

CPC classification number: H01M2/0207 ,  A62C3/16 ,  B26D1/00 ,  H01M2/1061 ,  H01M10/4207 ,  H01M10/613 ,  H01M10/647 ,  H01M10/653 ,  Y10T83/04

Abstract: A housing (1) for accommodating at least one flat electrochemical cell (2), which has a seal seam (3) extending at least regionally along the edge of said cell, comprises two housing side walls (4) which are arranged substantially parallel to one another and which are provided, in the mutually opposite inner surfaces thereof, with a pair of incisions (5) situated opposite one another for each cell (2) that is to be accommodated, said incisions being designed to accommodate the at least one seal seam (3) of the particular cell (2). The housing (1) here is preferably formed of a foam material.

Abstract translation: 用于容纳至少一个平坦的电化学电池（2）的壳体（1），其具有沿着所述电池的边缘至少在区域上延伸的密封接缝（3），包括两个壳体侧壁（4），其基本上平行于 并且在其相互相对的内表面中设置有对于要容纳的每个电池（2）相对设置的一对切口（5），所述切口被设计成容纳至少一个密封件 特定电池（2）的接缝（3）。 这里的壳体（1）优选地由泡沫材料形成。

公开(公告)号：US20120282496A1

公开(公告)日：2012-11-08

申请号：US13521933

申请日：2010-12-16

Applicant: Tim Schaefer

Inventor： Tim Schaefer

IPC: H01M2/10 ,  H01M10/42

CPC classification number: H01M2/347 ,  B60L3/0007 ,  B60L3/0046 ,  B60L3/0069 ,  B60L50/66 ,  F41H5/0457 ,  H01M2/1061 ,  H01M2/1077 ,  H01M2/1083 ,  H01M2/1094 ,  H01M2/206 ,  H01M2200/00 ,  H01M2200/20 ,  Y02T10/7011 ,  Y02T10/705

Abstract: The invention relates to a frame (1) for an electrochemical energy storage device (2), wherein the frame (1) is intended to enclose the electrochemical energy storage device (2) at least in some areas and comprises a frame element (3) which includes a first frame element area (5) having a first yield point. Said frame is characterized in that it comprises a second frame element area (6) having a second yield point and in that the quotient of the yield points of the second frame element area (6) and the first frame element area (5) lies below a predetermined value.

Abstract translation: 本发明涉及一种用于电化学能量存储装置（2）的框架（1），其中，所述框架（1）至少在一些区域中包围所述电化学能量存储装置（2）并且包括框架元件（3） 其包括具有第一屈服点的第一框架元件区域（5）。 所述框架的特征在于它包括具有第二屈服点的第二框架元件区域（6），并且第二框架元件区域（6）和第一框架元件区域（5）的屈服点的商位于下面 预定值。

公开(公告)号：US20140127535A1

公开(公告)日：2014-05-08

申请号：US14009938

申请日：2012-03-30

Applicant: Tim Schaefer ,  Jens Meintschel

Inventor： Tim Schaefer ,  Jens Meintschel

IPC: H01M2/20

CPC classification number: H01M2/202 ,  H01G2/04 ,  H01G2/106 ,  H01G9/08 ,  H01G11/82 ,  H01M2/1077 ,  H01M2/204 ,  H01M2/206 ,  H01M10/0525 ,  Y02E60/13

Abstract: The invention relates to an energy storage arrangement (5), comprising a plurality of partial energy stores (1) and a contacting device (6) for contacting several partial energy stores (1) to one another. Each partial energy store (1) has a frame structure (2) supporting an energy storage section (4) having an electrode array and at least two connecting ends. The partial energy store is provided with a pressure segment (2.2) and a contact segment (3), wherein the connecting ends of the energy storage section (4) are connected to the contact segment (3). The pressure segment (2.2) is configured and arranged to elastically push the contacting device (6) against the contact segment (3). The invention further relates to an energy storage device (1), which is in particular well suited for partial energy stores (1) in an energy storage arrangement (5) such as described above.

Abstract translation: 本发明涉及一种能量存储装置（5），其包括多个部分能量储存器（1）和用于使多个部分能量储存器（1）彼此接触的接触装置（6）。 每个部分能量存储器（1）具有支撑具有电极阵列和至少两个连接端的能量存储部分（4）的框架结构（2）。 部分能量存储设置有压力段（2.2）和接触段（3），其中能量存储部分（4）的连接端连接到接触段（3）。 压力段（2.2）被构造和布置成将接触装置（6）弹性地推靠在接触段（3）上。 本发明还涉及一种特别适合于如上所述的能量存储装置（5）中的部分能量存储（1）的能量存储装置（1）。

公开(公告)号：US20140123999A1

公开(公告)日：2014-05-08

申请号：US13985259

申请日：2012-01-26

Applicant: Tim Schaefer

Inventor： Tim Schaefer

IPC: C23G1/02

CPC classification number: C23G1/02 ,  H01G11/28 ,  H01G11/68 ,  H01G11/86 ,  H01M4/04 ,  H01M4/139 ,  H01M4/64 ,  H01M10/0525 ,  Y02E60/13

Abstract: The invention relates to a method for producing an electrode, in particular a negative electrode, of an electrochemical cell having a metal substrate, wherein the method includes the steps of treating the metal substrate with UV irradiation and treating the metal substrate using an organic acid.

Abstract translation: 本发明涉及一种具有金属基板的电化学电池的电极，特别是负极的制造方法，其特征在于，该方法包括以下步骤：用UV照射处理金属基板，并使用有机酸处理金属基板。

公开(公告)号：US20130305524A1

公开(公告)日：2013-11-21

申请号：US13996295

申请日：2011-12-19

Applicant: Claus-Rupert Hohenthanner ,  Erhard Schletterer ,  Tim Schaefer

Inventor： Claus-Rupert Hohenthanner ,  Erhard Schletterer ,  Tim Schaefer

IPC: H01M10/04

CPC classification number: H01M10/04 ,  H01M10/0404 ,  H01M10/0413 ,  H01M10/0436 ,  H01M10/0525 ,  H01M10/0585 ,  Y02T10/7011 ,  Y10T29/4911 ,  Y10T29/49115 ,  Y10T29/53139

Abstract: Method for producing electric cells for electrochemical energy storage devices, the method of production comprising the following steps: (S1a) feeding an anode strip, (S1b) feeding a cathode strip (20), (S1c) feeding a separator strip (30), preferably two separator strips, (S3a) stamping out an anode element from the anode strip, (S3b) stamping out a cathode element from the cathode strip (20), (S5) cutting the separator strip (30), preferably the two separator strips, into separator elements, (S6a) applying an anode element to a first separator element to form an anode-separator element, (S6b) applying a cathode element to a second separator element to form a cathode-separator element, and (S7) stacking an anode number of anode-separator elements and a cathode number of cathode-separator elements to form an anode-separator-and-cathode-separator stack.

Abstract translation: 生产电化学储能装置的电池的方法，其制造方法包括以下步骤：（S1a）馈送阳极条，（S1b）供给阴极条（20），（S1c）供给隔板条（30） （S3a）从阳极条冲压出阳极元件，（S3b）从阴极条（20）冲出阴极元件，（S5）切割隔板条（30），最好是两个隔板条 （S6a）将阳极元件施加到第一分离器元件以形成阳极分离器元件;（S6b）将阴极元件施加到第二隔板元件以形成阴极分离器元件，以及（S7）堆叠 阳极数量的阳极分离器元件和阴极数量的阴极分离器元件以形成阳极分离器和阴极分离器堆叠。

公开(公告)号：US20130280590A1

公开(公告)日：2013-10-24

申请号：US13823933

申请日：2011-09-07

Applicant: Tim Schaefer ,  Jens Meintschel

Inventor： Tim Schaefer ,  Jens Meintschel

IPC: H01M2/10 ,  H01G9/004

CPC classification number: H01M2/1061 ,  H01G9/004 ,  H01M2/024 ,  H01M2/1077 ,  H01M2/206 ,  H01M10/0525

Abstract: An electrochemical energy storage device comprises a plurality of flat storage cells (2) each having a first current conductor (18a) and a second current conductor (18b) on a narrow side of the storage cell (2); a plurality of spacing elements (4) each being arranged between two storage cells (2) for maintaining a predetermined distance between the storage cells (2); and a clamping means (10) for clamping the storage cells (2) and spacing elements (4) together to form a stack. The spacing elements (4) each have a first pressure surface (22a) and a second pressure surface (22b) on their two sides facing a storage cell (2). Thereby, in each case, the one current conductor (18a, 18b) of the storage cells (2) is clamped between the first pressure surface (22a) of two spacing elements (4) by means of force fit by the clamping means (10), and the other current conductor (18b, 18a) of the storage cells (2) is clamped between the second pressure surfaces (22b) of two spacing elements (4) by means of force fit by the clamping means (10). In the region of the first pressure surfaces (22a) and/or in the region of the second pressure surfaces (22b) of a spacing element (4), in each case a contact element (26) is provided for making an electrically conductive connection between the first or second pressure surfaces (22a, 22b) of a spacing element (4), and finally, the spacing elements (4) and/or the contact elements (26) are formed such that the compressions between the first pressure surfaces (22a) and between the second pressure surfaces (22b) are conformed to one another.

Abstract translation: 一种电化学能量存储装置，包括多个平面存储单元（2），每个平面存储单元在存储单元（2）的窄边上具有第一电流导体（18a）和第二电流导体（18b）。 多个间隔元件（4）各自布置在两个存储单元（2）之间，用于在存储单元（2）之间保持预定的距离; 以及夹持装置（10），用于将存储单元（2）和间隔元件（4）夹在一起以形成堆叠。 间隔元件（4）在其面向储存室（2）的两侧各自具有第一压力表面（22a）和第二压力表面（22b）。 因此，在每种情况下，存储单元（2）的一个电流导体（18a，18b）通过夹紧装置（10）的力配合被夹紧在两个间隔元件（4）的第一压力表面（22a） ），并且存储单元（2）的另一个电流导体（18b，18a）通过夹紧装置（10）的力配合夹在两个间隔元件（4）的第二压力表面（22b）之间。 在间隔元件（4）的第一压力表面（22a）和/或第二压力表面（22b）的区域中，在每种情况下，提供接触元件（26）用于形成导电连接 在间隔元件（4）的第一或第二压力表面（22a，22b）之间，最后，间隔元件（4）和/或接触元件（26）形成为使得第一压力表面 22a）之间并且在第二压力表面（22b）之间彼此一致。

公开(公告)号：US20120315566A1

公开(公告)日：2012-12-13

申请号：US13522451

申请日：2010-12-21

Applicant: Tim Schaefer ,  Claus-Rupert Hohenthanner

Inventor： Tim Schaefer ,  Claus-Rupert Hohenthanner

IPC: H01M2/10 ,  H01M2/14 ,  H01G9/025 ,  H01M8/24

CPC classification number: H01M2/1061 ,  H01M2/1077 ,  H01M2/202 ,  H01M6/42 ,  H01M10/0481 ,  H01M10/0525

Abstract: The invention relates to an electrical energy unit (2, 102, 202, 302) comprising a plurality of electrical energy cells (4), which are stacked in a stacking direction to form a cell block and are connected to each other in parallel and/or in series within the cell block, the electrical energy cells having planar conductors (14), which protrude from the cell substantially in parallel with each other in two directions, the main surfaces of the conductors being oriented substantially perpendicularly to the stacking direction, the conductors of a cell at least partially not covering each other, as viewed in the stacking direction, and each conductor of a cell at least partially covering a conductor of a subsequent cell in the stacking direction, as viewed in the stacking direction. The electrical energy unit is characterized in that the electrical connection between opposite conductors is produced by spacers that do or do not establish contact therebetween, the spacers (20, 120, 220, 520, 620) being arranged in intermediate spaces between conductors of consecutive cells, the spacers being clamped between the conductors by a compressive force by means of a clamping device (10, 506, 508, 524, 526), the clamping device being arranged completely outside the conductors. The invention further relates to spacers for use between conductors of consecutive cells in such an electrical energy unit.

Abstract translation: 本发明涉及一种包括多个电能单元（4）的电能单元（2,102,202,302），它们沿层叠方向堆叠以形成电池块并且彼此并联连接和/ 或串联连接在电池单元中，电能单元具有平面导体（14），其从电池基本上在两个方向上彼此平行地突出，导体的主表面基本上垂直于堆叠方向取向， 从层叠方向看，电池的导体至少部分不相互覆盖，并且电池的每个导体至少部分地覆盖层叠方向上的后续电池单元的导体，从堆叠方向看。 电能单元的特征在于，相对导体之间的电连接由间隔件产生，间隔件在其间形成或不建立接触，间隔件（20,120,220,520,620）布置在连续电池的导体之间的中间空间中 通过夹紧装置（10,506,58,524,526）通过压缩力将间隔件夹紧在导体之间，夹紧装置完全布置在导体的外部。 本发明还涉及在这种电能单元中用于连续单元的导体之间的间隔物。