DE102016104166A1 - Module for a traction battery and corresponding traction battery - Google Patents

Abstract

The invention provides a module (10) for a traction battery having the following features: The module (10) comprises battery cells (12) for storing electrical energy and cell holding plates (11) resting on the battery cells (12) for securing the battery cells (12 ). The invention further provides a corresponding traction battery.

Description

The present invention relates to a module for a traction battery. The present invention also relates to a corresponding traction battery.

The traction battery of an electrically powered vehicle typically includes multiple modules with multiple battery cells. The modules may be arranged side by side and one above the other, wherein the module layers lying one above the other may be separated from one another by floors / covers / intermediate floors.

In DE 11 2011 103 564 T5 a structure of a battery unit and a heat exchanger is described, wherein a housing of the battery unit and a heat exchanger plate have interlocking devices.

In WO 2010 116 234 A1 a liquid heat exchange medium is described, which is used together with an electrical storage device in a housing. In this case, a fan may be present in the housing, which circulates the heat transfer medium in the housing.

In EP 2 107 632 B1 describes a battery structure with a box-shaped housing, multiple cell strings within the housing, and air inlets and outlets in the housing. In this case, two guide plates are further provided in the housing at the ends of the cell chains and openings in the side walls for connecting the cells.

In DE 10 2008 034 695 B4 a battery is described with a plurality of individual cells and a pole side arranged on the individual cells cooling plate, wherein the cooling plate has thorns which protrude into the spaces laterally of the individual cells.

In DE 10 2006 040 202 B4 For example, a battery assembly having a plurality of battery modules disposed within a plurality of receptacles within an outer housing will be described. The outer housing has an upper inlet and a lower outlet for cooling air, between which the cooling air flows from top to bottom through the receiving housing.

In DE 10 2006 010 063 A1 a battery cooling device is described in which rod-shaped battery cells are held upright and cooled by a liquid on the bottom side. In this case, the cooling device has an inlet and an outlet, between which the cooling liquid is passed through the coolant space and cools the bottom of the upright cells.

The invention provides a module for a traction battery and a corresponding traction battery according to the independent claims.

An advantage of this solution lies in the fact that several similar modules - put together as it were according to a "puzzle principle" and fastened by means of cell holding plates - can form a composite. For sealing, sealing cords can be provided between the cell holding plates.

Further advantageous embodiments of the invention are specified in the dependent claims. Thus, the cell holding plates may have guide contours for guiding the coolant according to a predetermined flow direction, which run serpentine on a side of the cell holding plates facing away from the battery cells. Furthermore, such a guide contour, the electrical terminals (terminals) of the individual cells isolate from each other, since they are at different potential.

In a preferred embodiment, the cell holding plates and in particular their guide contours are made of a glass fiber-reinforced epoxy resin. This material proves to be particularly suitable for the - large force and high temperature exposed - cell holding plates.

Finally, the cell holding plates may have a peripheral diverting contour for diverting coolant between the battery cells, while the traction battery on the housing side has a reversing collector shaped to complement the diverting contour for reversing the flow direction. This constructive measure allows effective countercurrent cooling of the traction battery.

An embodiment of the invention is illustrated in the drawings and will be described in more detail below.

1 is the perspective view of two inventive modules.

2 is the perspective view of a cell holder plate.

3 is the areawise longitudinal section of a traction battery.

4 is a perspective deviating view of one of the modules.

1 illustrates two modules arranged side by side 10 a LiIon traction battery according to an embodiment of the invention. Further, for the sake of simplicity, not graphically reproduced modules of the traction battery are above the modules 10 arranged.

Both modules 10 include battery cells 12 for storing electrical energy and longitudinally between the battery cells 12 built-in elongated spacers 14 that the cohesion of each module 10 strengthen.

The erfindungswesentlichen, frontally on the battery cells 12 resting cell holding plates 11 serve to attach the battery cells 12 passing through connector sheets 13 electrically connected to each other. Said connector sheets 13 are for this purpose nationwide over the whole module 10 on its cell holding plates 11 welded.

For monitoring the battery cells 12 include the modules 10 cell controller 16 That's through at the modules 10 attached holders 15 on both sides of the modules 10 being held. Zeichnerisch not shown electrical lines connect the connector plates 13 in turn with these cell controllers 16 ,

2 illuminates the detailed structure of a single cell plate 13 , The cell plate 13 clearly has a peripheral diverting contour 17 as well as guiding contours 18 from a preferably glass fiber reinforced epoxy resin. The latter serve to guide the coolant according to a predetermined flow direction 21 , in the 4 highlighted graphically. These guiding contours 18 run serpentine on the battery cells 12 facing away from the image top of the cell plate 13 ,

The described "snakes" 18 Their contour ensures targeted turbulence in order to flow through the sections defined by cell packets in the present case and thus to cool them. They also serve as spacers to any above or below the module 10 lying intermediate floor or housing. Finally, the serpentine guide contours 18 - To allow a tight package - adapted to the contour of the terminal panels.

3 shows an edge region of the traction battery 20 in a sectional view. This picture leaves a case-side reverse collector 19 the traction battery 20 from a lightweight composite material. The bypass contour 17 of the edge module 10 and the reversal collector - their counterpart 19 are shaped complementary to each other and together they serve the direction of flow 21 reverse and the coolant between the cans of the battery cells 12 to lead. The described bypass and guide contours 17 . 18 lend the cell holding plates 11 thus, as it were, an integrated cooling channel guiding function.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 112011103564 T5 [0003]
• WO 2010116234 A1 [0004]
• EP 2107632 B1 [0005]
• DE 102008034695 B4 [0006]
• DE 102006040202 B4 [0007]
• DE 102006010063 A1 [0008]

Claims (10)

Module ( 10 ) for a traction battery, characterized by the following features: - the module ( 10 ) includes battery cells ( 12 ) for storing electrical energy and - the module ( 10 ) comprises frontally on the battery cells ( 12 ) resting cell holding plates ( 11 ) for attaching the battery cells ( 12 ). Module ( 10 ) according to claim 1, characterized by the following features: - the module ( 10 ) comprises frontally on the battery cells ( 12 ) arranged connector sheets ( 13 ) for electrically connecting the battery cells ( 12 ) and - the connector sheets are, preferably across the entire module ( 10 ), on the cell holding plates ( 11 ) welded. Module ( 10 ) according to claim 1 or 2, characterized by the following feature: - the module ( 10 ) includes longitudinally between the battery cells ( 12 ) built-in elongated spacers ( 14 ) to hold the module together ( 10 ). Module ( 10 ) according to one of claims 1 to 3, characterized by the following features: - the module ( 10 ) includes cell controllers ( 16 ) for monitoring the battery cells ( 12 ) and - the module ( 10 ) comprises electrical leads for connecting the connector sheets ( 13 ) with the cell controllers ( 16 ). Module ( 10 ) according to claim 4, characterized by the following feature: - the module ( 10 ) comprises on both sides of the modules ( 10 ) mounted holders ( 15 ) for holding the cell controllers ( 16 ). Module ( 10 ) according to one of claims 1 to 5, characterized by the following feature: - the cell holding plates ( 11 ) have a peripheral deflection contour ( 17 ) for diverting coolant between the battery cells ( 12 ) on. Module ( 10 ) according to claim 6, characterized by the following features: - the cell holding plates ( 11 ) also have guide contours ( 18 ) for guiding the coolant according to a predetermined flow direction ( 21 ) and - the guiding contours ( 18 ) run serpentine on one of the battery cells ( 12 ) facing away from the cell holding plates ( 11 ). Module ( 10 ) according to claim 7, characterized by the following feature: - the guide contours ( 18 ) are made of a preferably glass fiber reinforced epoxy resin. Traction battery ( 20 ), characterized by the following feature: - the traction battery ( 20 ) comprises side-by-side and stacked modules ( 10 ) according to claim 7 or 8. Traction battery ( 20 ) according to claim 9, characterized by the following features: - the traction battery ( 20 ) has a reversing collector on the housing side ( 19 ) for reversing the flow direction ( 21 ) and - the reverse collector ( 19 ) is complementary to the Umleitkontur ( 17 ) shaped.

Images