DE102011111930A1 - Battery module i.e. lithium ion battery module, for use in vehicle, has clamping unit for surrounding cells and opposite wall parts and serving for cohesion of structure with cases, battery cells and opposite wall parts - Google Patents

Abstract

The module (61) has two opposite wall parts with intermediately formed cases and battery cells that are arranged in the cases. A clamping unit e.g. tightening strap (108) or belt, surrounds the cells and the opposite wall parts and serves for cohesion of a structure with the cases, the battery cells and the opposite wall parts. A U-shaped housing portion is provided with walls. Another U-shaped housing portion forms a hexagonal cuboid housing. The clamping unit is formed by a wrapped tape or an upside-wrapped film made of plastic or rubber material under action of heat-shrinking material.

Description

The present invention relates to a battery module comprising at least two opposing wall parts with compartments formed therebetween and arranged in the compartments battery cells.

A battery module of this kind is for example from the German patent application with the official file number DE 102009018787.1 known. In this case, the two opposing wall parts may be individual cooling plates, each having a coolant inlet and a coolant outlet, as shown in said German patent application. The coolant drain of the first cooling plate may, if desired, be connected to the coolant inlet of the second cooling plate via a connecting line, so that the two cooling plates are fluidly connected in series, even if the individual cooling channels are arranged parallel to each other in the respective cooling plates.

There is also the possibility of forming the cooling plates as part of a cooling module having three U-shaped mutually formed outer walls, as in the German patent application DE 102010018040.8 is described. In this arrangement, the cooling plates are formed by two sheet metal layers, wherein the one layer is pressed to form open channels, which are formed by attaching the second sheet metal layer to closed cooling passages.

Furthermore, there is the possibility, as in the German patent application DE 102010036151.8 form, ie from individual extruded elements that can be stacked on each other.

Object of the present invention is to pack a battery module of the type described above with the least possible cost in addition so that on the one hand an increase in mechanical stability and improved thermal insulation and resistance to vibration, shocks and short circuits is generated, on the other hand but also finished The packaged battery module must be designed in such a way that tampering by unauthorized persons is immediately recognizable, whereby liability can be excluded in case of warranty.

To achieve this object, a battery module of the type mentioned is further developed so that a clamping device which surrounds at least the arranged in the compartments cells and preferably also the opposite walls and the cohesion of the subjects and the battery cells and possibly the itself opposite walls existing structure serves.

Such a clamping device can be produced relatively inexpensively from plastic, in a manner which is suitable for a series production of such battery modules or for a packaging for such battery modules. Since the clamping device can be designed so that it can only be solved by destructive forces and would be very difficult for an unauthorized person who does not have the appropriate manufacturing capabilities to restore, the desired protection against manipulation is given. Furthermore, the packaging of the battery modules increases their stability, and also the thermal insulation of the battery module is improved and the risk of short circuits or corrosion further reduced.

It is particularly favorable when the battery module is provided with a first U-shaped housing part and with a second likewise U-shaped housing part, which together form a six-sided approximately cuboidal housing and the clamping device surrounds both the first housing part and the second housing part. wherein each U-shaped housing part has opposite walls.

Furthermore, the first housing part is preferably formed as part of a cooling module with at least one coolant inlet and at least one coolant outlet and at least one coolant path extending therebetween, wherein the first housing part preferably consists of aluminum, an aluminum alloy or another heat-conducting material, in particular of a heat-conducting metal.

The second housing part can advantageously consist of a flexible plastic part or two elements connected to one another via a hinge, such as a film hinge, or even formed in two parts or in several parts. In this case, the individual housing parts can be joined together to complete the housing, wherein at least a part of the second housing part has openings for the passage of the inlet and outlet connections of the first housing part and / or terminals of the battery module and / or an electrical connection for a battery management system or to create an access to the inlet and outlet connections of the first housing part and / or to terminals of the battery module and / or to an electrical connection for a battery management system, wherein the clamping device has or forms corresponding openings or is designed so that they also have access to the inlet and outlet connections of the first housing part and / or to terminals of the battery module and / or to a electrical connection for a battery management system.

It is particularly favorable if the second housing part has receptacles and / or tabs in the wall area facing the first housing part, which receptacles, in particular the positive reception of edge areas of the first housing part, are used.

For the training of the clamping device several possibilities come into question.

In a first embodiment, the tensioning device is formed by at least one band or a belt.

In a second embodiment, the tensioning device is formed by at least one tube, in the interior of which at least the cells and the compartments are arranged.

There is also the possibility that a second tubing crosswise surrounding the first tube is provided. The or each tube is preferably formed elastically and / or realized as a shrink tube.

In a third embodiment, the tensioning means is constituted by at least one rewound band or film which is made of plastic, rubber, heat shrinking material or self-welding material.

All of these embodiments have the advantage that they are simple and inexpensive to produce from plastic and yet solve the above problems well.

The invention will be explained in more detail below with reference to the accompanying drawings, in which:

1A a schematic representation of a cooling module according to the invention with three sides without connecting plates,

1B a schematic representation of how the three-sided cooling module according to 1 is made of a strip-like sheet metal part,

1C a representation similar to the 1 , but with inserted connecting plates,

1D a perspective view of a single connecting plate,

1E a representation of the cooling module of 3 with inserted battery cells and spacers between the terminals of the individual cells,

2A - 2D perspective views of an assembled second housing part of a housing according to the invention for a battery module, wherein the 2A is a perspective view of the second housing part, seen from the front and from the top left, 2 B a corresponding perspective view of the upper part of the second housing part according to 2A , the 2C a corresponding perspective view of the lower part of the second housing part according to 2A and the 2D shows a perspective view of a cap for the connector of the battery management system of the corresponding battery module,

3A an illustration of a second housing part, the second housing part of 2A very similar, but in a one-piece first embodiment,

3B a schematic representation of how the housing part according to 3A to the first housing part according to the 1A is attached

4A an illustration of a second housing part, the second housing part of 2A very similar, but in a one-piece second embodiment,

4B a schematic representation of how the housing part according to 4A to the first housing part according to the 1A is attached

5A an illustration of a second housing part, the second housing part of 2A very similar, but in a one-piece third embodiment,

5B a schematic representation of how the housing part according to 5A to the first housing part according to the 1A is attached

6A a perspective view of a variant of the invention similar to 2A , but with a two-part design of the second housing part, in which the two housing parts are pivotally connected to each other via a hinge pin.

6B a schematic representation of how the housing part according to 6A to the first housing part according to the 1A is attached

7 a perspective view of a completed battery module with housing, in which the first and the second housing part and the battery module is held together by means of two clamping bands or is additionally secured, in which case the clamping bands in Circumferential direction of the module are placed around the front, the bottom, the back and the top of the module,

8th a representation similar to the 7 in which, however, the tension straps in a direction perpendicular to the direction of the tension bands according to 7 are placed around the left side, around the top side, around the right side and around the bottom side of the battery module,

9A a schematic representation of the use of a portion of a shrink tube for receiving the finished battery module with the two-part housing, wherein the cavity of the shrink tube is dimensioned slightly larger than the cross section through the battery module, so that the hose easily from the back (as shown) or from the front of the battery module can be pushed onto this,

9B the finished battery module after attachment of the shrink tube according to 9A and after shrinking it by heat,

10A an arrangement similar to the 9B however, upon insertion of the left or right battery module into the cavity of the tube such that the tube surrounds the battery module on the front, bottom, back and top,

10B in principle the same representation as 10A but after making openings in the shrunken tube to expose the ports,

11A another way to separately secure a battery module by means of a wrapped band that is wrapped around the back, the top, the front and the bottom of the module,

11B the finished wound state of the battery module,

12A . 12B schematic representations similar to those of 11A and 11B in which, however, the tape is the assembled housing in a direction transverse to the tape according to 11A wrapped, ie from the left side over the top, the right side and the bottom side of the module is wrapped and the 12B shows the fully wound state.

Referring to the 1A to 1E is first illustrated by principle drawings, as the inventive method for producing a cooling module 10 ( 1C ) for a rechargeable battery with multiple cells 12 ( 1D ), in particular for a lithium ion battery can be performed.

The finished cooling module 10 according to 1C is approximately cuboid and has a liquid cooling on three consecutive pages 14 . 16 and 18 on. To produce this cuboidal module, an approximately rectangular metal sheet is pressed to form a groove-shaped entrance area 20 for a cooling liquid and a groove-shaped exit region for the cooling liquid 22 on two opposite sides of the rectangle as well as several between the entrance area 20 and the exit area 22 at least substantially parallel to each other extending cooling passages forming grooves 24 train. The rectangular panel will then be at least two places 26 . 28 bent over two usually at least substantially right-angled corners 30 . 32 train. The pressed sheet metal part 34 , this is the outside of the cooling module 10 forms in this example, before the bend with a cover plate part 36 provided, which is formed at least substantially planar before bending and after attachment to the pressed sheet metal part 34 with the mentioned grooves 24 corresponding cooling passages closed on all sides, which form the entrance area 20 to the exit area 22 extend.

The cover plate part 36 gets to the pressed sheet metal part 34 by soldering, welding, gluing or otherwise applied. This process will preferably take place before bending when the cover sheet part 36 with the pressed sheet metal part 36 bent as a unit, but can be done if desired after bending. The process of attachment could take place at a later time even if the cover sheet part 36 from the pressed sheet metal part 34 is produced separately, is bent separately and only then brought to the pressed sheet metal part in plant, which is quite possible.

It is particularly favorable if the pressed sheet metal part 34 integral with the cover plate part 36 is made from the same board or from a sheet metal strip by bending the metal strip. Then the pressed sheet metal part goes 24 in an elongated fold area 38 in the cover plate part 36 above. The metal sheet 33 or a section of the sheet metal strip 90 is in the fold area 38 to the fold 39 bent over to the cover sheet part 36 in a position adjacent to the pressed sheet metal part 34 or vice versa.

Several clinching points 40 can be placed distributed along the fold to the fold 39 to stabilize.

hose 42 . 44 be in the entrance area 20 or in the exit area between the pressed sheet metal part 34 and the folded sheet metal part 36 used and then to the pressed sheet metal part 34 and the folded cover sheet part 36 sealingly attached. This may be during the attachment of the cover sheet part 36 to the pressed sheet metal part 34 or at a later date.

It is also particularly advantageous if the cover plate part 36 in the entrance area 20 and in the exit area 22 is pressed to the pressed-in entrance area and exit area of the pressed sheet metal part a suitable shape for receiving the hose nozzles 42 . 44 train.

For a three-sided cooling module 10 will, as in the 1C and 1D shown, this then with connecting plates 80 provided on at least two opposite sides 14 . 18 the cooling module and preferably on three sides 14 . 16 and 18 the cooling module are mounted heat-conducting, as shown in 1E evident. The connecting plates form compartments between them 82 for receiving battery cells 12 are measured. The connecting plates 80 lie in parallel planes, which are also parallel to the planes of the cooling passages 24 are. The connecting plates preferably have right angles bent side edges 84 which provides a high quality thermally conductive connection to the planar insides of the cooling module 10 ensure and also allow an advantageous tolerance compensation.

For the production of the cooling module (for the pressed sheet metal part 34 , the cover sheet part 36 and the connecting plates 80 ) used both sides solder-coated aluminum sheet in thermoforming quality, for example, an aluminum sheet of 0.8 mm thickness with a 0.1 mm solder layer on both sides, which leads to a total thickness of 1.0 mm. The connection between said components is preferably carried out by brazing with non-corrosive flux. If desired, a post-treatment of the cooling module may only take place at certain points, such as the outer sides of the cooling module. Treatment methods such as anodizing and / or powder coating are possible.

Referring to the 2A is there as the second housing part 62 designated component of the housing, wherein the second housing part 62 here from three individual elements 64 . 66 . 68 exists, namely from the upper element 64 , the lower element 66 and a cap 68 for the connector for the battery management system. Such a cap 68 is not absolutely necessary and could be omitted, so that a total of a two-part design of the second housing part 62 is present.

Like also out 2A seen, have the second housing part 62 or the upper element 64 recessed areas 74 with openings 70 through which the inlet and outlet connections 42 . 44 of the cooling module 10 according to 1A to 1C can protrude through. Furthermore, there are more openings 72 present, through which the battery terminals are accessible, for example by means of a screw that comes from above, and attached appropriate pole pieces or connecting elements to the battery terminals.

In the middle of the front of the upper element 64 of the second housing part 62 There is also a recessed area 75 in which the connector for the battery management system is accessible in the assembled battery module. The plug can either through a corresponding opening 76 in the upper element 64 of the second housing part 62 protrude or above or below the bottom surface of the corresponding recess 74 be provided so that with a complementary plug part of the required connection to the battery management system can be performed.

Will like a cap here 68 used to cover the plug, so this cap 68 for example via locking lugs 77 (please refer 2D ) coming from above or coming from the side into the depression 75 plugged in and held there. It can, as shown here, the cap 68 with a side opening 78 can be provided, from which the connection cables can be led out to the battery management system. This opening 78 but could also top the cap 68 be provided, or the cap 68 can be omitted altogether. The two parts of the connector can also be screwed together by screws similar to computer terminals, so that the connection is safe against vibration and shock, and it can also be provided between the two male parts a seal or between the male parts and the upper Element of the housing, if a sealed connection appears desirable, for example, if vehicles, with the battery module 61 are operated in wet terrain or regions with higher salinity. Due to the fact that the second housing part 62 from two main elements 64 . 66 the upper element can exist 64 readily to the appropriate inlet and outlet connections 42 . 44 of the cooling module 10 and placed on the terminals of the battery as well as on the connector for the battery management system. The lower element 66 of the second housing part 62 can come from below with the upper part 64 at a fugue 88 be brought together.

You can see from the 2A as well as from the 2C that a tongue and groove connection 86 between the lower element 66 and the upper element 64 of the second housing part 62 is provided, and that at the location of the parting line 88 , whereby the two parts can be kept aligned with each other. Optionally, a seal can be used here or the two elements 64 . 66 of the second housing part 62 can be glued together here.

One sees further from the 2A and also out 2C that the lower element 66 of the housing 62 with recordings (eg a U-shaped recording, for example) or tabs 92 is provided for receiving the edge area 15 (please refer 1A ) of the first housing part 11 according to 1A - 1E are designed, whereby the lower element 66 of the second housing part 62 positive fit to the first housing part 11 can be attached.

The upper side 94 of the upper element 64 of the second housing part 62 is with appropriate shots and / or tabs 92 provided to them to the upper walls of the cooling module 10 ie the first housing module 11 according to 1A to 1E , Can also be mounted form-fitting, with such recordings or tabs 92 on the left side 96 , the right side 98 and at the back 100 of the second housing part 62 according to 2A are provided.

The recordings or tabs 92 can with the first part of the case 11 ie with the outsides 14 . 16 . 18 of the cooling module 10 according to 1A - 1E be attached in a variety of ways. For example, screws can pass through the edges 15 of the first housing part 11 and through the tabs 92 or walls of the shots 92 of the second housing part 62 be guided through, in particular thread-cutting screws such as sheet metal screws, or it may be appropriate riveting used. The arrows show the direction of insertion of the corresponding sheet metal screws or rivets.

Furthermore, between the edges 88 the upper and lower elements 64 . 66 of the second housing part 62 and the related edge areas 15 of the first housing part 11 , ie the cooling module 10 , are bonded together by means of an adhesive. It would come with a suitable design of the first and second housing parts 11 . 62 Also, a welded joint or a solder joint in question, a welded joint, especially if the module 10 that is the first housing part 11 forms, is provided in its edge region with a plastic strip or a solder joint when the second housing part 62 or its elements 64 . 66 are provided with a metallic frame, which is connected for example by injection molding with the rest of the plastic housing part. It is also possible, the first housing part 11 form of a thermally conductive plastic or the second housing part 62 made of metal, provided measures are taken to avoid short circuits in the battery terminals.

These mounting options for the first housing part 11 and the second housing part 62 can in principle be used in all embodiments of the invention, which will not be described in detail in detail.

However, it is not mandatory, the second housing part 62 of two or more elements 64 . 66 . 68 to train, it would be quite a one-piece design in question.

A first example of such an embodiment show the 3A and 3B , A one-piece second housing part 62 with approximately the same shape as the second housing part 62 according to 2A , but here is the parting line 88 omitted. To the merger of the two housing parts 11 . 62 , ie the first housing part 11 and the second housing part 62 to a cuboid battery module 61 are formed at the locations of the openings in this embodiment 70 for the inlet and outlet connections 42 . 44 slots 70 ' in the second housing part 62 provided, which is a simple sliding on the second housing part 62 on the cooling module 10 with the built-in battery cells according to 1A allows. If the arrangement is made so that the battery terminals through openings (not shown) in the second housing part 62 protrude, so more slots can be provided at the points of the battery terminals. The same applies to the connector for connecting the battery management system.

The 3B shows the situation immediately before the bringing together of the first and second housing part 11 . 62 , In this case, a slightly resilient design of the second housing part 62 be beneficial, so the shots or tabs 92 that are extensively related to the 2A to 2D described with the border areas 15 of the first housing part 11 ie with the outer walls of the cooling module 10 , can be brought to a positive conclusion. Such a resilient effect is relatively easy to implement, especially the housing part 62 Here is U-shaped and offers no particular resistance to a resilient bending.

The 4A and 4B then show an embodiment in which this resilient embodiment of the second housing part 62 is further driven. Here is shown by means of double arrows, as the top 64 and the bottom 66 of the second housing part 62 can be bent apart to the introduction of the battery module 61 allow so that the hose nozzles 42 . 44 through appropriate openings 70 in the second housing part 62 can be passed. Once this is done, the bottom can 66 and the top 64 the one-piece second housing part 62 spring back according to the double arrows, whereby the positive connection between the first housing part 11 and the second housing part 62 is completed. In the 4B Bending of the second housing part takes place almost exclusively in the region of the front side 104 , but can also be in the area of the lower or upper side 66 . 64 happen (not shown).

If necessary or if even more bending of the upper and lower sides 64 . 66 of the second housing part 62 is required, the front can 104 of the housing module 62 with a spring hinge 102 (Film hinge or film hinge) are provided, as in 5A and 5B shown. However, it is not mandatory to use this spring hinge 102 in the middle of the front side 104 of the battery module 61 provided. It could be significantly closer to the upper side 64 or the lower side 66 of the second housing part 62 be provided or even at the transition from the upper side 64 of the housing module 62 in the front 104 or on the lower side of the housing module 62 in the front 104 be placed, whereby the assembly is further facilitated.

This concept can also be developed, in the sense that the second housing part 62 from an upper element 64 and a lower element 66 which has a real hinge with hinge pin 106 pivotally connected to each other, ie the hinge pin 106 leads in this example in the horizontal direction by tubular or partially tubular formations on the upper and lower elements 64 . 66 of the second housing part 62 , which are aligned with each other to allow the implementation of the hinge pin (see 6A and 6B ).

Again, the corresponding hinge can be provided elsewhere, as well as in connection with the 5A and 5B described.

In itself, it is not absolutely necessary measures for further cohesion of the battery module 61 to be provided as the measures with fasteners associated with 2A - 2D have been described.

Nevertheless, it can be quite useful to have another "packaging" 108 of the battery module 61 desirable. On the one hand can be ensured by an appropriate design of the packaging that no manipulation of the battery cells by unauthorized persons, which may be important in the event of a warranty claim, ie the battery module as possible to protect against improper opening, especially since improperly treated lithium-ion cells can also lead to hydrogen production , which should be avoided at all costs. On the other hand, an additional packaging of the battery module is used 61 a better stability in operation and a better heat balance, which is important because lithium ion cells are preferably not to be operated below 5 ° C and not above 35 ° C. This requirement makes it necessary to heat or cool the battery cells, if necessary. It plays a good thermal insulation of the battery module 61 a crucial role.

For this purpose, various measures are proposed according to the invention to provide an even more stable packaging 108 of the battery module 61 which can be secured against tampering by unauthorized persons or make such manipulations immediately recognizable and can therefore be used to exclude liability. Furthermore, the additional packaging 108 the thermal behavior of the battery module 61 improve and ultimately provide improved protection against electrical shorting. In addition, the additional packaging 108 relatively inexpensive and relatively easy to install.

A first possibility shows the 7 , Here are two tension bands 108 around the battery module 61 placed, each in a closed loop over the front 110 , over the bottom 112 , over the back 114 and over top 116 of the battery module 61 , Such tension bands 108 may be made of weldable plastic, wherein a length of a strip material around the battery module 61 can be placed and is welded to overlap the free ends with itself, for example by ultrasonic welding. However, it is not mandatory with two such straps 108 to work. It could instead just be with a strap 108 which is a wider strap 108 could be worked.

It is also possible, the tension bands 108 not like in 7 shown around the front 110 , the bottom 112 , the backside 114 and the top 116 of the battery module 61 but like in 8th shown from the left side 118 over the top 116 , on the right side 120 and the bottom 112 of the battery module 61 to lay. Again, if necessary, with a strap 108 or with a wider strap 108 or with more than two straps 108 to be worked. Also, the training according to 8th with the training of 7 combined, which is indicated by the dashed line of the tension bands 108 according to 7 in the 8th is shown. It is immaterial whether the tension straps 108 according to 8th according to 7 cover or vice versa, whether a kind of interwoven interpretation is made.

Since most workshops do not have individuals about such attachment options for straps 108 teach, let alone, about the right material for the straps 108 Despite its simplicity, this version is relatively safe against manipulation. It could eventually tension belts 108 used, which are provided with a turnbuckle, similar to load straps for a trailer or the like. Again, then the free end of the tensioning belt 108 be welded to another part of the belt to open the battery module 61 to prevent.

The 9A and 9B show another way of packaging a battery module. In this embodiment, a portion of a hollow shrink tube comes 122 for use, where, as in 9A shown the battery module 61 ie the module 61 consisting of the housing with the first housing part 11 and the cells of the battery management system housed therein and other components, with the back in the cavity 124 of the shrink tube 122 axially guided into this, as indicated schematically by the arrow.

After the introduction of the battery module 61 in the cavity 124 the section of the shrink tube 122 this is brought to shrink, for example by introducing heat, creating a structure, as in 9B shown.

As another alternative to a shrink tube 122 here is an elastically stretchable hose 122 mentioned initially spread to the introduction of the battery module 61 and then due to its elasticity by removal of the spreader shrinks to the battery module 61 to surround tightly. Such spreaders are well known, for example from the production of harnesses, where appropriate hose sleeves are stretched or spread by means of three- or four-finger expansion tools to allow the implementation of an electrical terminal and then to isolate the shaft portion of the electrical terminal or by coloring or Special mark on printed numbers.

It is also possible with a shrink tube 122 or to work with an elastically stretchable hose to attach it so that now not the back of the battery module 61 but the left side 118 or the right side 120 of the battery module 61 axially in the shrink tube 122 is introduced. Such an arrangement is in the 10A and 10B shown where the here too 10B indicates the situation after the shrinkage.

Since here the heat shrink tubing 122 or the elastically stretchable hose 122 the inlet and outlet connections 42 . 44 of the cooling module 10 covers and also the battery terminals and the connector for the battery management system with corresponding openings in the shrink tube 122 be provided. This can be done before attaching the shrink tubing 122 done or subsequently by using a corresponding cutting tool or punching tool.

There is also the possibility of execution according to 9A and 9B to combine, ie the battery module 61 with two shrink tubing sections 122 to pack, which are arranged crosswise. Finally, several layers of shrink tubing can 122 or elastically stretchable heat shrink tubing 122 used if this appears useful for a particular reason.

Another way of packaging the battery module 61 is in the 11A and 11B shown. Here is the battery module 61 with a plastic band 116 wrapped on a supply roll 128 is stored.

The 11A shows the beginning of the winding process, the 11B the situation after winding with the corresponding tape 126 , The individual windings are slightly inclined, so that the individual turns 130 overlapping are attached and the battery module 61 covered, so to speak, over the entire surface.

In this case, the winding 130 be made under tension or it can also be used as a tape material, which is itself designed as a shrinking material, to subsequently after wrapping the battery module 61 and is brought to shrinkage by the introduction of heat, thereby the battery module 61 to cling firmly.

Another possibility is the tape 130 as a self-adhesive tape. Such bands 130 are known in the field of harness manufacturing, wherein the individual layers fuse together after attachment, to provide a high-quality coverage.

Instead of a relatively tight band 126 in comparison to the dimensions of the cuboid battery module 61 It can be used with a wider band 130 be worked, even with a band 130 that the dimensions of the battery module 61 fully covers or even exceeds. There are then several turns on top of each other.

There is also the possibility, as in the 12A and 12B shown, the wrapping of the battery module 61 in a different direction than in 11A and 11B shown. That is, instead of the battery module 61 Wrap around so that the band around the top 116 , the front 110 , the bottom 112 and the back 114 of the battery module 61 is wrapped, proceed so that the tape 130 around the left side 118 , the top 116 , the right side 120 and the bottom 112 of the battery module 61 what is more accurate in the 12A and 12B is shown. Again, that is rather than having a relatively tight band 130 , with a much wider band 130 work, as well as in connection with the remarks of the 11A and 11B described. Again, the band can 130 either a more elastic band 130 which may be wound under bias, or it may be a shrinking material that shrinks by heat input. Again, there would be a self-adhesive version of the tape 130 in question.

Furthermore, it is also possible, the embodiment according to 11B and 12B to combine, ie the battery module 61 with two bands 130 wrap around crosswise.

For all packaging options shown here according to the 7 to 12B becomes a packaging material 108 . 122 . 130 over at least two sides of the housing consisting of the first and the second housing part 11 . 62 curious; excited. For example, in the embodiment of 12B a band 130 over the pages 14 . 15 of the first housing part 11 and over the top side 64 and the bottom side 66 of the second housing part 62 led, leaving a battery module 61 is created, which at least two opposite wall parts 14 . 15 . 64 . 66 having trained in between subjects.

If you work with a wider film, you can finally get the battery module 61 pack in a manner known from airports for the packaging of luggage with a thin plastic film, which in several directions around the battery module 61 is wound.

For the material of the additional packaging, the various options are available. For example, it is known to use shrinking materials such as PTFE, Viton, polyvinylidene fluoride, fluorinated ethylene-propylene, copolymer of hexafluoropropylene and tetrafluoroethylene, silidone rubber, polyolefins, PVC or neoprene for this purpose.

Such materials, in particular polypropylene and polyethylene are also to be described as elastic, in the sense that they also for elastic packaging of the battery module 61 would come into question.

As material for a self-sealing tape 130 Polyisobutylene can be used.

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 102009018787 [0002]
• DE 102010018040 [0003]
• DE 102010036151 [0004]

Claims (10)

Battery module ( 61 ) consisting of at least two opposing wall parts ( 14 . 15 ; 16 . 104 ; 64 . 66 ) with interleaved subjects ( 82 ) as well as in the subjects ( 82 ) arranged battery cells, characterized by a tensioning device ( 108 ; 122 ; 130 ), at least those in the subjects ( 82 ) arranged cells and preferably also the opposing walls ( 14 . 15 ; 16 . 104 ; 64 . 66 ) and the cohesion of the subjects ( 82 ) and the battery cells and optionally from the opposite walls ( 14 . 15 ; 16 . 104 ; 64 . 66 ) existing structure is used. Battery module ( 61 ) according to claim 1, which is provided with a first U-shaped housing part ( 11 ), which consists of opposing walls ( 14 . 15 ) is formed, and with a second likewise U-shaped housing part ( 62 ), which together form a six-sided approximately cuboidal housing, wherein the tensioning device ( 108 ; 122 ; 130 ) both the first housing part ( 11 ) as well as the second housing part ( 62 ) surrounds. Battery module ( 61 ) according to claim 1 or 2, characterized in that the first housing part ( 11 ) as part of a cooling module ( 10 ) is formed with at least one coolant inlet ( 42 ) and at least one coolant outlet ( 44 ) and at least one coolant path extending therebetween ( 24 ), wherein the first housing part ( 11 ) is preferably made of aluminum, an aluminum alloy or another heat-conducting material, in particular of a thermally conductive metal. Battery module ( 61 ) according to claim 3, characterized in that the second housing part ( 62 ) of a flexible plastic part or of two with each other via a hinge ( 102 ; 106 ), such as a film hinge ( 102 ), connected elements ( 64 ; 66 ) or is formed in two parts or multipart, wherein the individual housing parts ( 11 . 62 ) are collapsible to complete the housing, wherein at least a part of the second housing part ( 62 ) Openings ( 70 ) for the implementation of the inlet and outlet connections ( 42 . 44 ) of the first housing part ( 11 ) and / or terminals of the battery module ( 61 ) and / or an electrical connection for a battery management system or to provide access to the inlet and outlet connections ( 42 . 44 ) of the first housing part ( 11 ) and / or terminals of the battery module ( 61 ) and / or to an electrical connection for a battery management system, wherein the tensioning device ( 108 ; 122 ; 130 ) has corresponding openings or is designed or designed so that they also have access to the inlet and outlet connections ( 42 . 44 ) of the first housing part ( 11 ) and / or terminals of the battery module ( 61 ) and / or to an electrical connection for a battery management system. Battery module ( 61 ) according to one of claims 2 to 4, characterized in that the second housing part ( 62 ) in the first housing part ( 11 ) facing edge portion receptacles and / or tabs ( 92 ), the recording, in particular the positive reception of edge areas ( 15 ) of the first housing part ( 11 ) serve. Battery module ( 61 ) according to one of the preceding claims, characterized in that the tensioning device ( 108 ; 130 ) by at least one band ( 108 ; 130 ) or a belt is formed. Battery module ( 61 ) according to one of the preceding claims, characterized in that the tensioning device ( 122 ) through at least one hose ( 122 ), in the interior of which at least the cells and the compartments ( 82 ) are arranged. Battery module ( 61 ) according to claim 7, characterized in that a second, the first hose ( 122 ) crosswise surrounding hose ( 122 ) is provided. Battery module ( 61 ) according to claim 7 or 8, characterized in that the or each hose ( 122 ) is elastic and / or as a shrink tube ( 122 ) is realized. Battery module ( 61 ) according to one of the preceding claims 1 to 5, characterized in that the tensioning device ( 108 ; 122 ; 130 ) by at least one wrapped band ( 130 ) or a wrapped film made of plastic, rubber, under the action of heat shrinking material or of self-welding material.

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