DE102008059960B4 - Method for producing a battery, battery produced according to the method and battery assembly of two such batteries - Google Patents

Abstract

A method for producing a battery (1), comprising a battery housing (2), in which - a cell composite of a plurality of battery cells (3), - a cooling plate (5) with Berstöffnungen (6) - and a plurality of the cooling plate (5) cohesively, positively and / or non-positively heat conductively connected heat conducting elements (4) are arranged, - wherein the bursting openings (6) in the cooling plate (5) by inserting closure elements (7) are closed such that a height (h) of a respective cavity formed between depending at least a portion of a bottom surface of a battery cell and the cooling plate over the depth of insertion of the closure elements (7) in the bursting openings (6) is set, - an electrically insulating and heat-conductive potting compound (8) is filled in such a way in the battery case (2) in that the cavities are also filled with potting compound and, after the potting compound (8) has cured, the closure elements (7) are made the bursting openings (6) are removed.

Description

The invention relates to a method for producing a battery, comprising a battery housing, in which a cell assembly of a plurality of battery cells, a cooling plate with Berstöffnungen and a plurality of the cooling plate cohesively, positively and / or non-positively heat conductively connected heat conducting elements are arranged, wherein an electrically insulating and heat conductive potting compound is filled in the battery case. The invention further relates to a battery produced by the process according to the invention and a composite of two batteries produced by the process according to the invention.

High-voltage batteries, such as can be used for example as vehicle batteries in vehicles with hybrid drive and / or vehicles with fuel cell drive, usually consist of a cell combination of multiple battery cells, in particular lithium-ion battery cells. The heat generated during charging and / or discharging of the battery cells is dissipated via a cooling plate arranged on the cell assembly. The cooling plate is usually located on one of the two end faces of the battery cells. For better heat dissipation from the battery cells, the battery cell walls are made thicker in the cell longitudinal direction and heat conducting elements, which are conductively connected to the cooling plate heat, mounted between the battery cells.

Such a battery is out of the DE 10 2007 009 315 A1 known. There, a cooling plate through which a coolant can flow is described, which is arranged on the bottom surfaces of the battery cells. Furthermore, heat conducting elements are arranged between the battery cells, which are conductively connected to the cooling plate heat. In addition, the gaps which remain between the battery cells and the heat-conducting elements, filled with an electrically insulating and heat-conductive potting compound. On the one hand, the potting compound improves the thermal contact between the battery cells and the heat-conducting elements and, on the other hand, the battery cells are electrically insulated from one another when the battery cell walls are electrically contacted. In order to prevent the potting compound from flowing out of the bursting openings during the filling of the intermediate spaces, the battery cells rest on annular spacers.

The invention has for its object to provide an improved method for producing such a battery. In addition, an improved battery and a battery combination of two of these batteries must be specified.

The object is achieved by a method having the features of claim 1. With regard to the battery, the object is achieved by the features of claim 11. The battery combination results from the features of claim 17.

Advantageous embodiments of the invention are the subject of the dependent claims.

The inventive method for producing a battery comprising a battery housing, in which a cell composite of a plurality of battery cells, a cooling plate with Berstöffnungen and a plurality of the cooling plate cohesively, positively and / or non-positively heat conductively connected heat conducting elements are arranged, provides that an electrically insulating and Heat conductive potting compound is filled in the battery case. In this case, according to the invention, the burst openings in the cooling plate are closed by closure elements before filling the electrically insulating potting compound.

By using the closure elements, the potting compound can be filled in an advantageous manner in the battery case that the battery cells are also surrounded at their bottom surfaces of potting compound and thus are in heat-conducting contact with the cooling plate. Outflow of the potting compound in a filling of the battery case is preferably prevented by the closure elements. Spacer elements which prevent the flow of potting compound according to the prior art, but do not produce good heat conductive contact between battery cells and cooling plate, are no longer necessary and eliminated. Material costs for these spacers are thus saved.

In an advantageous embodiment of the invention, the closure elements are introduced into the burst openings such that the battery cells sit with a bottom surface on the closure elements.

In addition, by inserting the closure elements into the burst openings via a depth of introduction, a height of a cavity formed at least in regions between a bottom surface of a battery cell and the cooling plate is set.

This cavity serves to electrically insulate a battery cell wall designed as an electrical pole with respect to the cooling plate. When filling the potting compound and this cavity is filled with potting compound, so that this one hand, the electrical insulation and on the other hand, the heat conduction between the battery cell and the cooling plate improved. By a size of the closure elements or the depth of the introduction of the closure elements, the height of the cavity and thus also the electrical insulation property or the thermal properties of this cavity are preferably set defined.

In one embodiment of the invention, plugs are used as closure elements, which are combined in an alternative or supplementary embodiment to form a molded part.

As a closure element, a molded part is provided with molded plug. This offers the advantage of better usability and ease of installation. Thus, not every bursting opening must be closed individually, but all bursting openings are closed with a handle through the molding, resulting in a significant time savings in the production of the battery.

A further embodiment of the invention provides that closure elements made of plastic, in particular of elastic plastic, are used. By a closure element made of elastic plastic tolerances in the dimensions of the bursting holes are compensated, since the elastic plastic can adapt to the shape or size of the bursting openings.

An advantageous embodiment of the invention provides that at least one epoxy resin is filled in as potting compound, which is characterized by high strength and chemical resistance.

Another embodiment provides for the use of at least polyurethane as potting compound.

In another embodiment of the invention, at least one additive is added to the potting compound. By appropriate additives, inter alia, the electrical insulation, the thermal conductivity and mechanical properties of the potting compound can be improved.

A further advantageous embodiment of the invention provides that the potting compound is filled in the battery housing such that the battery cells are completely surrounded by the potting compound except for a bottom surface on which the battery cells sit on the closure elements. In this case, the electrical poles are surrounded by potting compound on one end side of the battery cells.

Between a designed as an electrical pole battery cell wall and the pole carried out isolated and between the battery cells with each other and between the battery cells and the heat conducting creepage currents flow and current flashovers can take place. Therefore, the invention provides, with the exception of the above-mentioned bottom surface, substantially complete enclosure or covering of the respective battery cell with the potting compound. Furthermore, an electrochemical corrosion caused by condensation and dirt on the end faces of the battery cells, from which the electrical poles protrude, can be reduced, in particular avoided, by the potting compound in an advantageous manner. In addition, the cured potting compound of the stabilization of the battery cells in the battery case.

In order to enable the function of the bursting openings during operation of the battery, the closure elements are removed from the bursting openings in a development of the invention after curing of the potting compound. Preferably, the closure elements can be reused, whereby material and manufacturing costs can be saved.

An embodiment of the invention provides that the closure elements are provided with a release agent to facilitate detachment of the closure elements from the battery cell bottoms and a wall of the burst openings after curing of the potting compound.

The release agent used is at least silicone or a wax.

In a further development of the invention, two batteries are combined to form a battery combination. The two batteries are connected to each other via the cooling plates in such a way that the bottoms of the battery cells face each other.

Embodiments will be explained in more detail with reference to four drawings.

Showing:

1 a perspective view of a cell assembly of battery cells and cooling plate from above,

2 a perspective view of a cell assembly of battery cells and cooling plate from below,

3 an exploded view of a cell assembly of battery cells with closure elements and

4 a sectional view of a cell assembly of battery cells and cooling plate with a inserted and a remote closure element.

Corresponding parts are provided in all figures with the same reference numerals.

1 represents a battery produced by a method according to the invention 1 In the assembled state. Such a battery can be used for example as a vehicle battery in a vehicle with hybrid drive and / or fuel cell drive.

This battery 1 includes a battery case 2 in which a cell combination of several battery cells 3 is arranged. Furthermore, there are gaps between the battery cells 3 heat-conducting elements 4 that with a cooling plate 5 as they are in 2 is shown, material, form and / or non-positively heat conductively connected. These heat-conducting elements 4 serve a heat dissipation of the votes of battery cell walls heat to the cooling plate 5 ,

Furthermore, remaining gaps in the battery case 2 with an electrically insulating and heat-conductive potting compound 8th filled as they are in 4 can be seen, whereby the heat dissipation of the battery cell walls via the heat conducting elements 4 to the cooling plate 5 is improved. The potting compound 8th is therefore z. B. at least an epoxy resin, which is characterized by a good heat conduction, its electrically insulating property and high chemical resistance.

The potting compound 8th appropriate additives may be added to the properties of the potting compound 8th in terms of thermal conductivity and electrical insulation to optimize.

The potting compound 8th may also consist for example of a polyurethane or other good heat conducting and electrically insulating material.

The heat-conducting elements 4 In one possible embodiment, they have a triangular cross-section and consist of a material which conducts heat well, for example an aluminum alloy.

The cross section of the heat conducting elements 4 but may also have a different shape, for example a circular.

2 shows a different view of the mounted battery 1 , Here is the cooling plate 5 illustrated, in one embodiment, on the bottom side of the battery cells 3 is arranged and forms a battery housing bottom. Also shown are burst openings 6 in the cooling plate, which covers the bottom surfaces of the battery cells 3 face. When a battery cell bursts 3 What, for example, at a designated breaking point in the bottom surface of the battery cell 3 happens, offers this burst opening 6 The necessary alternative space for a bursting material and thus improves the reliability of the battery 1 ,

The preferably made of a metal cooling plate 5 has inside a non-illustrated channel structure for a channel structure flowing through the heat transfer medium. The heat transfer medium may be, for example, air or carbon dioxide or a liquid heat transfer medium.

In an advantageous embodiment flows through a tempered by a heat exchanger of an air conditioning circuit of the vehicle coolant, such as a water-glycol mixture, the channel structure of the cooling plate 5 ,

The cooling plate 5 can also be on a front side of the battery cells 3 be arranged, in which case the cooling plate 5 no burst openings 6 but bushings for electrical poles of the battery cells 3 having.

The inventive method for producing the battery 1 provides that prior to filling the electrically insulating heat conductive potting compound 8th the bursting openings 6 in the cooling plate 5 through closure elements 7 as they are in 3 and 4 are shown closed. This will be the closure elements 7 , to 4 , so in the burst openings 6 introduced that the battery cells 3 with a bottom surface on the closure elements 7 seated.

The bottom surfaces of in 4 illustrated battery cells 3 are provided in an edge region with a circumferential recess. Now become the closure elements 7 to 4 into the burst openings 6 the cooling plate 5 introduced, creates a cavity 9 between the cooling plate 5 and that edge region of the bottom surface of the battery cells 3 , This cavity 9 is defined by a height h and by a corresponding introduction of the closure elements 7 into the burst openings 6 in particular by a depth of insertion of the closure elements 7 , discontinued.

How out 4 further evident is the cavity 9 from the potting compound 8th filled. This offers a great advantage in terms of thermal coupling of battery cells 3 and cooling plate 5 , Through the potting compound, the battery cells are in direct heat conductive contact with the cooling plate 5 and thus can be tempered better.

Due to the insulating property of the potting compound 8th are the battery cells 3 opposite the cooling plate 5 also electrically isolated, which is of particular importance when at least one battery cell wall is designed as an electrical pole.

Preferably, the electrical insulation properties of the potting compound 8th filled cavity 9 adjusted over the height h. This height is for example in a range of 0.2 mm to 2 mm, in particular, a height of 0.5 mm is set.

In particular, the electrical poles of the battery 1 from the potting compound 8th surround. This is at least one end face of the battery cell 3 protected against condensation and contamination, reducing corrosion, leakage currents and flashovers on the front side of the battery cell 3 are avoidable.

Furthermore, also battery cells can 3 with a flat bottom surface for the production of a battery 1 be used according to the inventive method. This will be closure elements 7 used when in the burst openings 6 the cooling plate 5 are introduced into the battery case 2 protrude. It can turn a cavity 9 with a height h over the depth of insertion of the closure elements 7 be set.

As closure elements 7 For example, plugs are used, which consist for example of a plastic, in particular an elastic plastic.

In a further development of the invention, the closure elements 7 be used as a combined to form a composite, for example, the plug molding.

Furthermore, the closure elements 7 whether as a single part or a molded part, provided with a release agent, to a later release of the closure elements 7 from the burst openings 5 after curing of the potting compound 8th to improve.

As a release agent, for example, silicone or a resin is used.

After curing of the potting compound 8th become the closure elements 7 removed and can be used to fill another battery.

A development of the invention includes a composite of two batteries produced by the process according to the invention 1 , Both batteries are being used 1 over their cold plates 5 connected in the way that the bottoms of the battery cells 3 the respective battery 1 face. The corresponding burst openings 6 in the respective cooling plate 5 of the two batteries 1 form a cavity.

For mounting both batteries 1 can on the respective battery case 2 and / or on the respective cooling plate 5 Be provided fastening elements.

LIST OF REFERENCE NUMBERS

1

battery

2

battery case

3

battery cell

4

thermally conductive element

5

cooling plate

6

Berstöffnung

7

closure element

8th

potting compound

H

Height of the cavity

Claims (17)

Method for producing a battery ( 1 ), comprising a battery case ( 2 ), in which - a cell group of several battery cells ( 3 ), - a cooling plate ( 5 ) with burst openings ( 6 ) - and several with the cooling plate ( 5 ) cohesively, positively and / or non-positively heat conductively connected heat conducting elements ( 4 ) are arranged, - wherein the bursting openings ( 6 ) in the cooling plate ( 5 ) by introducing closure elements ( 7 ) are closed in such a way that a height (h) of a respectively formed cavity, between at least a partial region of a bottom surface of a battery cell and the cooling plate over the depth of the introduction of the closure elements ( 7 ) into the burst openings ( 6 ), - an electrically insulating and heat-conductive potting compound ( 8th ) in the battery case ( 2 ) is filled, that the cavities are filled with potting compound and after curing of the potting compound ( 8th ) the closure elements ( 7 ) from the burst openings ( 6 ) are removed. A method according to claim 1, characterized in that the partial areas of the bottom surfaces of the battery cells ( 3 ) on the closure elements ( 7 ) sit up. Method according to one of the preceding claims, characterized in that as closure elements ( 7 ) Plugs are used. Method according to one of the preceding claims, characterized in that as closure elements ( 7 ) A molding is used with molded plug. Method according to claim 3 or 4, characterized in that closure elements ( 7 ) made of plastic, in particular of elastic plastic used. Method according to one of the preceding claims, characterized in that as potting compound ( 8th ) at least one epoxy resin is filled. Method according to one of the preceding claims, characterized in that as potting compound ( 8th ) at least polyurethane is filled. A method according to claim 6 or 7, characterized in that the potting compound ( 8th ) at least one additive is added. Method according to one of the preceding claims, characterized in that the closure elements ( 7 ) are provided with a release agent. A method according to claim 9, characterized in that at least silicone or a wax is used as a release agent. Battery ( 1 )), - comprising a battery housing ( 2 ), in which a cell combination of several battery cells ( 3 ), each with a bottom surface, a cooling plate ( 5 ) with burst openings ( 6 ) and several with the cooling plate ( 5 ) cohesively, positively and / or non-positively heat conductively connected heat conducting elements ( 4 ) are arranged, - an electrically insulating and heat-conductive potting compound ( 8th ) in the battery case ( 2 ), which also has a height (h) of one, in each case between at least one subregion of a bottom surface of a battery cell ( 3 ) and the cooling plate formed cavity fills. Battery ( 1 ) according to claim 11, characterized in that the cooling plate ( 5 ) forms a battery case bottom. Battery ( 1 ) according to claim 11 or 12, characterized in that the battery cells ( 3 ) via the potting compound ( 8th ) with the heat conducting elements ( 4 ) and the cooling plate ( 5 ) Are conductively connected. Battery ( 1 ) according to one of the preceding claims, characterized in that the potting compound ( 8th ) is at least one epoxy resin. Battery ( 1 ) according to one of the preceding claims, characterized in that the potting compound ( 8th ) is at least polyurethane. Battery ( 1 ) according to one of the preceding claims, characterized in that the potting compound ( 8th ) is offset with at least one additive. Battery combination of two batteries ( 1 ) according to one of the preceding claims, characterized in that the two batteries ( 1 ) via their cooling plates ( 5 ) are connected to each other in such a way that the bottom surfaces of the battery cells ( 3 ) face each other.

Images