AT514061A4 - Rechargeable battery - Google Patents

Abstract

The invention relates to a rechargeable battery (100) having at least one, preferably a plurality of battery cells (110, 110 ') arranged in frame elements (120, 120'), characterized in that the frame elements (120, 120 ') comprise a base body made of foamed material, and a method therefor.

Description

1 56581

The invention relates to a rechargeable battery having at least one, preferably with a plurality of battery cells, which are arranged in frame elements.

Rechargeable batteries, so-called accumulators are found in all areas of technology. In the automotive industry, such accumulators are used for alternative drive systems, in which high demands are placed on performance, reliability and maintenance of the battery cells used, in particular, the size and weight of such batteries are an essential factor for their efficiency in the operation in motor vehicles. The rechargeable batteries used in this case usually consist of a large number of battery cells, which are combined in cell stacks, in so-called modules, and connected to one another.

Such cells are sensitive to mechanical stress and vibrations, in particular when so-called pouch cells are used, so that in the prior art such cells are fixed in usually rigid cell frames and these frames are lined up in cell stacks. Furthermore, within these cells, due to the ongoing electrochemical reactions, changes in thickness occur during a charge / discharge cycle that must be balanced within the cell stack. Likewise, if necessary, manufacturing tolerances must be compensated.

The arrangement of battery cells in a cell frame can be found, for example, in WO 2011/057815 A1 or DE 10 2010 051 010 A1. These solutions can only be used to a limited extent for so-called Poch cells because they can only insufficiently counteract mechanical loads that can occur in motor vehicles or the changes in thickness during operation.

It is therefore an object of the invention to provide a rechargeable battery of the type mentioned above, which eliminates the disadvantages of the prior art and has an improved mechanical load capacity, and is simple, space-saving and inexpensive to manufacture.

This object is achieved in that the frame members have a base made of foamed material. Here is the 2/16 2

Base body of the respective frame members made of a foam and may optionally have additional, also made of a different material internals such as fasteners, cooling channels and the like. Due to their material, these frame elements are particularly suitable for absorbing mechanical loads, while at the same time they act in an electrically insulating manner between the individual battery cells. Another advantage is the cost-effective production and their low weight.

In a particularly preferred embodiment of the invention, the frame elements each have a first transverse belt, a second transverse belt opposite the first transverse belt and two longitudinal grooves lying opposite one another, wherein the first transverse belt of a first frame element can be arranged in a substantially form-fitting manner on a second transverse belt of an adjacent second frame element. In this case, the cross sections of the transverse straps are selected such that, when the frame elements are arranged side by side, the transverse straps rest against each other in a space-saving manner. The battery cells are inserted into these frame elements, the two electrical contacts of the respective battery cell being arranged either together on a transverse belt, or the contacts abutting against opposite transverse belts.

In a particularly preferred variant of the invention, the first transverse belt has a substantially trapezoidal cross section and the second transverse belt has a substantially triangular cross section, while the two longitudinal belts preferably have a rectangular or square cross section.

In a special embodiment, the frame may also have only triangular or exclusively trapezoidal transverse straps. Likewise, a variant is provided in which a single transverse belt has a triangular section as well as a substantially trapezoidal cross section.

Particularly preferably, it is provided that two adjacent frame members are arranged to each other such that the first transverse strap of the first frame member is disposed in direct proximity to the second transverse belt of the second frame member, wherein the two transverse straps at least partially by the usually planar electrical contact of a battery cell / 16 3 are separated from each other. Thus, the first transverse belt with a trapezoidal cross-section contacts at least a first surface of an electrode contact the battery cell, while on the surface of a second electrode contact a second battery cell, the second transverse belt is arranged with triangular cross-section of the second frame member. In this way, a particularly space-saving arrangement of the frame members and the battery cells arranged therein is achieved, while at the same time the electrode contacts are securely fixed between the transverse straps of the adjacent frame members.

In this way, the connection of the electrode contacts of two adjacent battery cells is facilitated.

In order to ensure a safe electrical separation of two adjacent battery cells, it is provided in a particularly preferred embodiment of the invention that the frame element has an insulating layer. It can be designed as a thermal and / or electrical insulation layer, and optionally self-adhesive on one or both sides. The insulating layer is particularly preferably formed as an insulating film, which was miteing foamed in a further variant of the invention during the manufacture of the frame element and, for example, has recesses on the edge as anchoring structure, whereby the layer is embedded in the foam form-fitting manner. Suitable materials are here e.g. Ceramic composites, polyamide, polyimide, polyethylene or fiber-reinforced plastics

In order to increase the operational safety of the battery according to the invention, in a particularly preferred embodiment of the invention, it is provided that at least one degassing opening is provided between two adjacent frame elements. This degassing opening is formed for example as a recess between the individual frame elements and allows the escape of excess pressure from the battery cell when, for example, the outer skin is cracked. Thus, the damage of adjacent intact battery cells and / or frame members is prevented, and the outflowing gas can be removed.

Particularly suitable for use in the battery according to the invention, those frame elements have been found, which are made of an elastic or non-elastic foam, wherein the foam is selected from a group 4/16 4, the polyurethane foams, silicone foams, integral foams, epoxy foams and RlM (Reaction Injection Molding) foams.

In order to further increase the reliability of the battery according to the invention, in a further embodiment of the invention, the foam material is mixed with self-extinguishing and / or fire-retardant additives.

The invention is furthermore achieved by a method for producing a frame element, in particular for a rechargeable battery according to the invention, in that the frame element is shaped in shape. For this purpose, the usually liquid, reactive starting materials are introduced into a foaming mold and optionally reacted under pressure and / or temperature. Here, discontinuous processes such as the RSG (reaction foam casting) and the RIM (Reaction Injection Molding) method are used.

It is particularly preferred in the method according to the invention that, during production of the frame element, further functional elements, in particular cable channels, cooling lines, insulation elements or metal parts such as fastening clips, are inserted into the mold and foamed.

The invention will be explained in more detail below with reference to a non-limiting exemplary embodiment with associated figures. Show in it

1 is a schematic representation of the battery according to the invention in a Perspektiischen view,

2 shows a battery cell in a frame element in a front view,

3 shows an alternative battery cell in a frame element in a front view,

4 shows the battery according to the invention from FIG. 3 in a sectional view, FIG.

Fig. 5 shows the battery of FIGS. 1 and Fig. 2 in a schematic side view, 5/16. 5

Fig. 6 is a schematic side view of frames having only triangular or trapezoidal cross straps, and

Fig. 7 is a schematic side view of frames having both a triangular and a trapezoidal cross section on the same cross belt.

1 shows a battery 100 according to the invention in the form of a cell stack, wherein the individual battery cells 110 are arranged with their electrode contacts 111 in frame elements 120. The cell stack of the battery 100 according to the invention is arranged between two end plates 130 which, in a manner known per se, fix the individual battery cells 110 with their associated frame elements 120 in their position relative to one another. The frame element 120 is in this case made of foam, which is inexpensively manufactured in a mold, which allows easy production of the different cross sections of the cross straps 121, 122 and longitudinal straps 123.

Here, the frame member 120 may be made in one piece with a base body made of foamed material, or the individual transverse straps 121, 122 and longitudinal straps 123 are manufactured individually and then assembled and connected to the frame member 120.

FIG. 2 shows a battery cell 110 in a front view, with its two electrode contacts 111 being arranged on a first transverse belt 121 of the frame element 120.

Furthermore, in the base body of the longitudinal straps 123 fasteners 124 are foamed, which serve the arrangement of the individual battery cells 110 to a cell stack of the battery 100 and are made for example of metal or plastic. The transverse belt 122 also has threaded inserts 125 in its end regions, which likewise serve to arrange individual battery cells 110 relative to one another.

FIG. 3 shows an alternative embodiment of the battery cell, in which the first contact lilac is arranged in the region of the first transverse belt 121, while the second electrode contact 111b is arranged on the second transverse belt 122 of the first transverse belt 121

Frame member 120 abuts. Here, in the main body of the frame member 120, a cooling channel 126 is arranged for the passage of a cooling medium.

On the surface of the battery cell 110, an insulating layer 140 is arranged, which is particularly preferably formed as a film or thin plate and the thermal and / or electrical insulation of two adjacent battery cells 110, 110 'to each other. The insulating layer 140 is shown by a dotted line (Figures 2 and 3) and has recesses 141 at the edges to form a positive connection with the cured foam.

As shown in FIGS. 4 and 5, the first transverse belt 121, 121 'of the frame element 120, 120' has a trapezoidal cross section, while its second transverse belt 122, 122 'has a triangular cross section. In addition, the cooling channels 126 in the transverse straps 121, 121 ', 122, 122' can be seen in FIG. The two longitudinal straps 123, 123 'each have a substantially rectangular cross-section in these embodiments of the invention.

As can be seen in particular from FIG. 5, a first battery cell 110 is arranged between two adjacent frame elements 120, 120 'in such a way that their electrode contacts 15a, 111b between the first trapezoidal transverse belt 121' of the first frame element 120 and the second transverse belt 122 'of the adjacent frame member 120 'is arranged. Due to the special shape of the transverse straps 121, 121 ', 122, 122' and their arrangement to each other, the electrode contacts purple, purple ', 111b, 111b' of two adjacent battery cells 110, 110 'are bent to each other, so that their contact is much easier. Since the longitudinal straps 123, 123 'of the individual frame elements 120, 120' have a smaller width than the associated transverse straps 121, 121 ', 122, 122', a gap-like longitudinal opening is created between the longitudinal straps 123, 123 ', which acts as a degassing opening 150.

FIGS. 6 and 7 show further variants of the frame element 120, the respective first transverse strap 121 having either a triangular or trapezoidal cross section (FIG. 6) or the first transverse strap 121 having a trapezoidal and a triangular cross section in sections (Figure 7). In both cases, the cross section 7/16 7 of the second transverse belt 122 is substantially square or rectangular and does not protrude beyond the longitudinal straps 123,

It is understood that the present invention is not limited to the illustrated embodiment, in particular, in the frame element still further functional elements, in particular cooling lines, cable channels, as well as different openings may be provided. 8.16

Claims (10)

1. A rechargeable battery (100) with at least one, preferably with a plurality of battery cells (110, 110 '), which are arranged in frame elements (120, 120'), characterized in that the frame elements (120 , 120 ') have a base body made of foamed material. 2. Battery (100) according to claim 1, characterized in that the frame elements (120, 120 ') each have a first transverse belt (121, 121'), a first transverse belt (121, 121 ') opposite the second transverse belt (122, 122 ') and two longitudinal belts (123, 123') lying opposite each other, it being possible for the first transverse belt (121) of a first frame element (120) to be arranged substantially in a form-fitting manner on a second transverse belt (122 ') of an adjacent second frame element (120'). 3. Battery (100) according to claim 2, characterized in that the first transverse belt (121, 121 ') has a substantially trapezoidal cross section and the second transverse belt (122, 122') has a substantially triangular cross section, while the two longitudinal straps ( 123, 123 ') preferably have a rectangular or square cross-section. 4. Battery (100) according to claim 2 or 3, characterized in that two adjacent frame members (120, 120 ') are arranged to each other such that the first transverse belt (121) of the first frame member (120) in direct proximity to the second transverse belt (122 ') of the second frame element (120') is arranged, wherein the two transverse straps (121, 122 ') by a flat electrical contact (111, purple, purple', 111b, 111b ') of a battery cell (110, 110') at least partially separated from each other. 5. Battery (100) according to one of claims 1 to 4, characterized in that the frame element (120, 120 ') has an insulation layer (140) for the electrical and / or thermal separation of two adjacent battery cells (110, 110'). 9/16 9 6. battery (100) according to claim 5, characterized in that the insulating layer (140) has an anchoring structure (141) for improved embedding in the foamed material of the frame member (120), 7. Battery (100) according to any one of claims 1 to 6, characterized in that between two adjacent frame elements (120, 120 ') at least one degassing opening (150) is provided. 8. battery (100) according to one of claims 1 to 7, characterized in that the frame member (120, 120 ') is made of an elastic or non-elastic foam, which is selected from the group, the polyurethane foams, silicone foams, integral foams Contains epoxy foams and RIM (Reaction Injection Molding) -Sehäume, and preferably with self-extinguishing and / or fire retardant additives is added. 9. A method for producing a frame member (120, 120 '), in particular for a battery (100) according to one of claims 1 to 8, characterized in that the main body of the frame member (120, 120') is molded foam. 10. The method according to claim 9, characterized in that during the manufacture of the frame member (120, 120 ') further functional elements, in particular cable channels, cooling lines (126), insulating elements (140) or metal parts such as mounting brackets (124) inserted into the mold and foamed become. 2013 04 03 Ha 10/16