DE102018211468A1 - battery case - Google Patents

Abstract

Battery housing, comprising a cover (2) and a battery trough (3) which abut one another with two edge surfaces (4, 5), with a circumferential groove (14) in at least one edge surface (4, 5) in which a sealant (13 ), which seals towards the opposite edge surface (4, 5), is provided, the groove (14) having a desired width (b1) and a desired depth (t1), the groove (14) in one Area in which the actual width (b2) is smaller than the target width (b1), has a depth (t2) that is greater than the target depth (t1), and that in this area at the bottom of the groove (15 ) One or more elevations (16) on which the sealant (13) rests before the cover (2) is joined to the battery trough (3) are provided.

Description

The invention relates to a battery housing, comprising a cover and a battery trough, which abut one another with two edge surfaces, a circumferential groove, in which a sealant is sealed, which seals off from the opposite edge surface, being provided in at least one edge surface, the groove being a Has target width and a target depth.

Such battery housings are used to hold one or more energy storage modules to form a powerful battery, for example for use in a motor vehicle. Such a battery housing usually consists of a cover and a battery trough, which form the receiving space in which the energy storage module or modules are accommodated. The lid and trough are usually connected to one another or supported against one another via corresponding spacing or fastening elements arranged in the receiving space and in any case connected to one another at the edge via suitable screw connections or other fastening elements. Inside, the receiving space can be divided into compartments in which the energy storage modules are accommodated via the support or fastening elements, which can be designed in the form of a web or wall. The basic structure of such a battery housing is known.

It is necessary to seal the recording space from the outside. For this purpose, a sealant is used, which is arranged in the area of the adjoining edge surfaces of the lid and battery pan, in order to seal the lid and pan against one another. In order to integrate the sealant, for example a round cord made of a plastic sealing material with a constant cross-section, in this area either the cover or, as is usually the case, the battery trough in the edge area or in the edge surface with which it rests on an opposite edge surface of the second component , a circumferential groove into which the sealant, i.e. the round cord, can be introduced. The geometry of the groove, that is to say its width and depth, is defined and is the same around the entire circumference, so that a defined groove volume or a defined groove cross section is given at each position. The nominal width and the nominal depth are matched to the geometry and the cross-sectional size of the round cord, i.e. the sealant. This ensures that the sealant, when it is introduced into the groove, is positioned on the one hand and rests on the groove base in such a way that when the cover is put on, for example, it comes into defined contact with the edge surface of the cover, but it is also pressed into the groove can be and at the same time there is a sufficiently large or flat sealing system on the edge surface of the lid. This means that the coordination of the sealing groove volume or the sealing groove cross-sectional geometry to the volume or the cross-section of the round cord ensures that there is good contact of the sealing agent with the other component when the sealing partners are joined.

The introduction of such a groove is possible if the edge surface of the battery pan, for example, is sufficiently wide so that the target values that define the groove can be maintained at any position. Sometimes, however, it is necessary for reasons of space to narrow the width of the edge surface, so that a groove with the desired values cannot be formed in this area. There it is then necessary to reduce the width, but in return the depth must be increased so that the volume in this area or the cross-section is comparable to that in the target area. However, a sealing cord can then no longer be used, since the sealing cord would sink too far in this area, in which there is a greater depth, and consequently, when joining, it does not, or does not attach itself sufficiently to the second joining partner or its edge surface would. A sealing cord cannot be used in this case; other sealants must be used.

The invention is based on the problem of specifying an improved battery housing in comparison with this.

To solve this problem, it is provided according to the invention in a battery housing of the type mentioned at the outset that the groove has a depth in a region in which the actual width is smaller than the target width, and is greater than the target depth that in this area at the bottom of the groove one or more elevations are provided, on which the sealant rests before the lid is joined to the battery trough.

According to the invention, in an area in which the target values cannot be maintained and due to a narrower groove width, provision is made for the sealant, that is to say the sealing cord, to be in a manner based on the actual groove base in is held in this raised position, so that when the second joining component is joined, the sealing means also inevitably comes into contact with the opposite edge or sealing surface in this area. This configuration makes it possible to design the cross-sectional area in this area deviating from the target values largely similarly to the cross-sectional area in the target area, nevertheless it is ensured that, despite the greater groove depth, the Sealing means or the sealing cord is in a similar or almost the same position relative to the open groove end and thus relative to the second joining partner, as in the target area. If the second joining partner, for example the lid, is now placed, its edge surface runs against the sealing cord, which in the target area rests on the one hand directly on the groove base, but is supported in the deviating area via the one or more elevations, so that the Sealing cord comes into contact with the second edge surface and, when the lid is put on immediately, is pressed or pressed into the groove and at the same time also seals against the counter surface.

The one or more elevations are expediently formed in the middle of the groove base and at a distance from the groove flanks. This means that a corresponding space or channel is formed on the side of the elevation, which contributes to the groove volume and into which the sealing material or the plastic sealing cord is pressed. There are lateral depressions next to the elevations. This means that the size of the groove cross-section in this deviating area corresponds as closely as possible to the size of the groove cross-section in the target area, so that even after the sealing cord has been pressed in, the same sealing system or seal in the target area as well as in the non-target area given is.

The elevation is preferably designed as a web running along the groove region. This web therefore extends along the narrower but deeper groove area, expediently in the middle of the groove, so that the corresponding depressions or channel sections form on both sides. As an alternative, it is also conceivable to design the elevation as at least one local bump, wherein, of course, a plurality of bumps which follow one another but are spaced apart from one another can also be provided on the length of the groove region.

It is particularly preferred if the upper side of the one or more elevations lies in a plane with the groove base of the area having the desired width and the desired depth. This ensures that the sealing cord, which has a constant cross section and a constant geometry over its length, is supported virtually over its entire length in the same plane. This means that the top of the sealing cord is also in one plane. Ultimately, for example, the web running along the groove area continues the groove base of the desired area in the same plane, but in addition to the web, the lateral depressions or channel sections are formed in order to form the same cross section in the groove area.

The component that has the groove is preferably a cast metal component. In such a metal casting component, a corresponding groove geometry can be easily formed using the corresponding casting mold. Alternatively, it is of course conceivable for the component having the groove, that is to say either the cover or the battery trough, to also be a deep-drawn component made of a metal sheet. In this case too, a corresponding varying groove geometry can be formed by the forming deep-drawing process in connection with a suitable tool. However, it can also be an optionally fiber-reinforced plastic component, in particular a plastic injection molded component.

• 1 eine geschnittene Perspektivansicht eines erfindungsgemäßen Batteriegehäuses,
• 2 eine Schnittansicht entlang der Linie II-II aus 1, und
• 3 eine Schnittansicht entlang der Linie III-III aus 1.

Further advantages and details of the present invention result from the exemplary embodiments described below and from the drawings. Show:

• 1 2 shows a sectional perspective view of a battery housing according to the invention,
• 2 a sectional view along the line II-II out 1 , and
• 3 a sectional view along the line III-III out 1 ,

1 shows an inventive battery case 1 comprising a lid 2 and a battery tray 3 , with the lid 2 a first edge surface 4 and the battery tray 3 a second edge surface 5 have that in the area of corresponding edge flanges 6 . 7 are formed, and in the area in which they abut each other in the assembly position. The lid 2 and the battery tray 3 define a recording room 8th , in which, shown in dashed lines, one, usually several energy storage modules 9 are included. The battery case 1 or an energy store formed in this way is used, for example, in a motor vehicle, be it a partially electric or a fully electric motor vehicle.

The lid 2 and the battery tray 3 are in the area of the edge flanges 6 . 7 via suitable fasteners 10 , connecting screws in the example shown 11 , on the corresponding nuts 12 are screwed, attached to each other. Appropriate through holes are provided for this 18 . 19 in the edge flanges 6 . 7 provided after putting the lid on 2 on the battery tray 3 aligned with each other so that the connecting screws 11 can be carried out.

The recording room 8th is to be sealed to the outside, for which purpose in the area of the adjacent edge areas 4 . 5 a sealant 13 is provided that realizes the seal in this area. The sealant 13 is in a groove 14 that in example shown on the battery tray 3 or their edge flange 7 is formed, introduced, the size of the cross section or the volume of the groove 14 corresponding to the cross section or the volume of the sealant 13 is dimensioned so that the sealant 13 when putting the lid on 2 , so if the edge surface 4 on the edge surface 5 sits, is pressed and in sealing contact with the edge surface 4 goes and the groove 14 fills.

The groove 14 is circumferential, so there is a groove running around all four sides. The sealant 13 itself is a sealing cord that goes into the groove 14 before putting on the lid 2 is introduced.

The battery case 1 and in particular the edge flange 7 , if necessary the edge flange 6 , usually have a width that is as constant as possible, so that the dimension of the groove 14 remains constant around the entire circumference, which means that there is a target width and a target depth. Occasionally, as exemplarily in the present case, one or more regions can arise in which the flange widths are narrower or there is not enough space around the desired width of the groove 14 to adhere to so that the groove 14 is narrower, but has a greater depth to maintain the groove cross-section size almost the same.

2 shows a sectional view along the line II-II in an area where the groove 14 a target width b1 and a target depth t1 having. The groove shape is rectangular here as an example. A defined cross-sectional size is formed. Now the sealant is in the form of the sealing cord shown here only with dots 20 introduced, it lies on the groove base 15 and stands out from the groove, for example 14 slightly out so that it abuts the edge surface 4 when putting the lid on 2 arrives and is pressed when fully seated. But it is also conceivable that on the lid-side edge flange 6 a projecting circumferential web is formed, which in the circumferential groove 14 engages and ultimately the web the edge surface 4 forms, which then against the sealing cord 20 runs and crushes this. Regardless of whether it is a flat edge 4 or an edge surface formed over a projecting web 4 on the lid 2 is provided, the edge flange 7 with the groove 14 almost all around a geometry with the in 2 specified target width b1 and target depth t1 on.

In 2 is also the measure d1 shown, namely the distance of the groove base 15 to the top of the groove 14 or to the plane of the edge surface 5 , This distance d1 is in the present example where the target width b1 and target depth t1 is given, equal to the target depth t1 ,

3 shows a sectional view along the line III-III from an area where the groove 14 has a different geometry. It does not have the target width b1 on, but is narrower, the width is in this area b2 , In order to keep the groove volume or the size of the groove cross section constant in this area as far as possible, the groove depth is greater in this area, it is here t2 , That means that the real groove reason 15 here lies deeper than the bottom of the groove 15 in the "undisturbed" groove area, as in 2 shown. The following therefore applies: b2 <b1 and t2> t1.

However, to ensure that the inserted sealing cord, also shown here only with dots 20 not too deep in the groove 14 sinks in this area and is therefore insufficient or insufficient in contact with the edge surface 4 arrived, there is at least one survey in this area 16 trained by the bottom of the groove 15 in the groove 14 projects. An elevation running along this “disturbed” area is preferred 16 formed in the form of a web which serves to support the sealing cord, that is to say that the sealing cord 20 respectively the sealant 13 when it is in the groove 14 is brought in on the survey 16 rests. The assessment 16 , i.e. the web, is preferably in the middle of the groove 14 , so that corresponding channel sections on either side of it 17 are formed. The amount of the survey 16 , ie the web, is dimensioned such that there is a distance from the end of the elevation even in this “disturbed” groove area 16 , so where the sealing cord 20 rests to the free or open end of the groove 14 , i.e. to the edge surface 5 of d2 is given, where it applies that d2 = d1, which means that there is a comparable distance between the support point and the support level of the sealant even in the "disturbed" area 13 to the edge surface 5 results.

The depth t2 the groove 14 in the "disturbed" area and the width or geometry of the web-shaped elevation 16 is dimensioned such that the cross-sectional area of the resulting groove 14 as far as possible the cross-sectional area of the groove 14 in the target range corresponds to or is identical to this. This means that the groove volume in the "disturbed" area is almost the same or identical to the groove volume in the "undisturbed" groove area, so that here too the groove 14 through the sealant 13 is filled out completely during pressing.

The introduced sealing cord 20 is also in the in 3 shown groove area in the groove 14 crushed when the lid 2 is placed, the pressing either through the flat edge surface 4 can be done or over the edge surface 4 forming, on the lid 2 molded circumferential protrusion that into the groove 14 intervenes. In any case, as in the "undisturbed" target area, the plastic sealing material is in the "disturbed" area in the groove 14 crushed, it gets into the channel sections 17 pressed in and fills the groove 14 , but at the same time it is also on the edge surface 4 sealing.

Although in the exemplary embodiment an elevation running along the groove area 16 is designed in the form of a web, it would also be conceivable to have several local bump-like elevations formed one behind the other 16 that are spaced apart from one another along the groove region. These also offer sufficient support for the sealing cord, whereby the entire cross section or the volume can also be designed accordingly.

Claims (5)

Battery housing, comprising a cover (2) and a battery trough (3) which abut one another with two edge surfaces (4, 5), with a circumferential groove (14) in at least one edge surface (4, 5) in which a sealant (13 ), which seals towards the opposite edge surface (4, 5), is provided, the groove (14) having a desired width (b1) and a desired depth (t1), characterized in that the groove (14 ) in a region in which the actual width (b2) is smaller than the target width (b1), has a depth (t2) which is greater than the target depth (t1), and that in this region on Groove base (15) one or more elevations (16) are provided, on which the sealant (13) rests before the cover (2) is joined to the battery trough (3). Battery case after Claim 1 , characterized in that the one or more elevations (16) are formed in the center of the groove base (15) and at a distance from the groove flanks. Battery case after Claim 1 or 2 , characterized in that the elevation (16) is designed as a web running along the groove region or as at least one local bump. Battery housing according to one of the preceding claims, characterized in that the upper side of the one or more elevations (16) lies in a plane with the groove base (15) of the region having the desired width (b1) and the desired depth (t1) , Battery housing according to one of the preceding claims, characterized in that the cover (2) having the groove (14) or the battery tray (3) having the groove (14) are a cast metal component.

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