摘要:
The invention relates to an electrical energy storage device comprising: a plurality of flat storage cells for storing and discharging electrical energy, having opposing, flat current conductors, a plurality of spacer elements for maintaining a predetermined distance between the storage cells, and a clamping means for clamping the cells into a stack, wherein cells are clamped by the clamping means at the current conductors thereof between spacer elements by means of a force fit, wherein at least some of the spacer elements are designed as heat sinks. The heat sinks have fins extending sideways out from the stack. The heat sinks are alternatively thermally connected to the current conductors by means of a soft, heat conductive material. In a further alternative, two heat sinks are disposed between adjacent current conductors. In a final alternative, the spacer elements comprise relief holes for weight reduction. The alternatives can be combined.
摘要:
An output conductor (102, 103, 202, 203, 303, 402) of an electrochemical cell (101, 201), or a contact element (406, 402) for making contact with it has, at least in places, a surface structure which increases the pressure which the output conductor and contact element exert on one another when the output conductor is connected with a force fit to a contact element.
摘要:
A single cell for a battery that includes a first housing part and a second housing part, which are electrically isolated from one another by an insulating housing frame. An electrochemically-active material is located in housing frame between housing parts. The first housing part and second housing part are in the form of plates. At least one of the housing parts exhibits a first edge area bent over towards the inside, and first housing part and second housing part are fixed by a form fit to one-piece housing frame.
摘要:
A storage device for electrical energy with a plurality of flat storage cells for the storage and the discharge of electrical energy with opposing flat-shaped conductors, spacer elements for maintaining a predetermined space between the storage cells and a clamping means for the clamping of the cells into a stack. The spacer elements have pressure surface areas, wherein the conductors of the cells, each are clamped between the pressure surface areas of two spacer elements by the clamping means by means of force closure. In the area of opposing pressure surface areas of a spacer element, either a contacting element for establishing an electrical connection between the opposing pressure surface areas or an insulating structure is provided. The spacer elements are provided such, that the compressions between the pressure surface areas with an insulating structure and between the pressure surface areas with a contacting element, are ajusted to each other.
摘要:
The assembly or design of the energy conductors (103, 104, 502) of a storage element (101, 305, 501) for electric energy has specific assembly or design elements (201, 202, 203, 204, 301, 302, 303, 404, 405, 406, 407, 412, 413), which counteract a polarity reversal of the storage element or storage elements upon assembly of such storage elements with other similar storage elements to form a storage block, or upon connection of a storage block to an energy consumer or energy supplier equipped with corresponding contact or retaining elements.
摘要:
The invention relates to an electrical energy storage device comprising a plurality of flat storage cells for storing and discharging electrical energy, having opposing flat current collectors, a plurality of frame elements for maintaining the storage cells, and a clamping means for clamping the cells with the frame elements into a stack. Each storage cell carries at least one measurement or sensor element for measuring at least one physical variable, to which at least one respective cable for transmitting the measurement data is fixed. The frame elements comprise first recesses for receiving the measurement or sensor elements and second recesses connected to the first recesses, the second recesses of the frame elements together forming at least one channel extending over the length of the device for receiving the cables.
摘要:
According to the invention, electric arresters (302, 303, 402, 403) with opposite electric polarity extend from a housing of a galvanic cell (301, 401) at several points for dissipating energy stored in the galvanic cell. At other points, the housing comprises a design (304, 305, 306, 307) supporting the space-saving fastening of the storage cell or a space-saving arrangement of fastening elements (408, 409, 410, 411) for fastening the storage cell within an installation
摘要:
A storage device for electric energy according to an aspect of the invention comprises a plurality of flat storage cells, wherein a plurality of storage cells are stacked in a stacking direction into a cell block and are held together by a tensioning device between two pressure plates, and wherein the storage cells are connected to each other within the cell block in parallel and/or in series. Each storage cell is held in the edge region thereof between two frame elements. According to another aspect, each storage cell comprises current conductors in the edge region and electric contacting between current conductors of successive storage cells is carried out via the tensioning device by way of a non-positive fit.
摘要:
The invention relates to a galvanic cell (101, 401) having arresters (407, 408) and heat sinks (103, 104, 105, 106, 403, 404, 405, 406) attached thereto. Said heat sinks are designed such that the arrester can be used simultaneously for transporting electrical energy into the cell or out of the cell, and also for removing heat from the cell. The heat sink for cooling galvanic cells is designed such that same can be attached to an arrester of a galvanic cell by force closure, form closure, or adhesive force closure such that the arrester can be used simultaneously for transporting electrical energy into the cell or out of the cell, and also for removing heat from the cell.
摘要:
The measurement method according to the invention for an electrochemical energy storage device involves the electrochemical energy storage device being held (S1) and having contact made with it (S2) in a holding device. The electrochemical energy storage device is charged (S3) to a predetermined first charge state. The electrochemical energy storage device is discharged (S4) to a predetermined second charge state. A measuring device is used to capture (S5) at least one measured value for a physical parameter of the electrochemical energy storage device, with the physical parameter allowing the operating state of the electrochemical energy storage device to be inferred.