DE102018221942A1 - Cell housing with extinguishing effect - Google Patents

Abstract

Cell housing (2) for receiving battery cells (12), comprising a housing top (4), a housing bottom (6), a cavity (8) arranged between the housing top (4) and the housing bottom (6) for receiving a heat exchange medium (14) , a bursting region (10) arranged inside the cell housing (2), the bursting region (10) being designed and arranged within the cell housing (2) in such a way that at least part of the heat exchange medium (14) which can be arranged within the cell housing (2) is in the case a flaming of a battery cell (12) which can be arranged within the cell housing (2) can emerge in a defined manner through the bursting area (10) and can reach the flammable battery cell (12) in order to maximize an extinguishing effect of the flammable battery cell (12).

Description

The present invention is based on a device according to the type of the independent device claim and a system according to the type of the independent system claim.

State of the art

Today's electric and hybrid vehicles are operated with high-performance batteries in which a large number of battery cells are interconnected to provide energy. The provision of energy involves a great deal of heat, which has to be dissipated by powerful cooling systems. Despite effective cooling systems known today, high-performance batteries repeatedly fire individual battery cells due to local overheating. The local generation of heat on individual ignited battery cells often causes neighboring battery cells to ignite, so that the fire from one battery cell immediately extends to the entire battery system. In the context of such an undesired propagation, the entire battery system is often on fire after a very short time. In addition to the high level of heat and the formation of explosive gases, the hydrofluoric acid generated when battery gases escape is particularly problematic since it is not only caustic and very toxic, but is also very easily absorbed through the skin and the respiratory tract.

Disclosure of the invention

According to a first aspect, the invention relates to a device with the features of the independent device claim and a system with the features of the independent system claim. Further features and details of the invention emerge from the respective subclaims, the description and the drawings. Features and details that are described in connection with the device according to the invention apply, of course, also in connection with the system according to the invention and vice versa, so that with respect to the disclosure of the individual aspects of the invention, reference can always be made to one another.

The cell housing according to the main claim serves in particular to accommodate and ensure the possibility of connecting battery cells. The advantage of the cell housing is to be seen in the fact that its structure according to the invention, in particular the bursting area arranged inside the cell housing, enables a defined exit of a heat exchange medium, through which a flamed battery cell arranged inside the cell housing can be quickly and effectively extinguished . The rapid and effective extinguishing of an inflamed battery cell in particular prevents the fire from propagating and thus destroying an entire battery system and the formation of extremely toxic hydrofluoric acid. The double function of the heat exchange medium as an extinguishing agent and heat or coolant also ensures a higher level of security without incurring additional costs or additional weight. The prevention of propagation of a cell fire within a battery system, which is possible according to the invention, makes it possible in the event of a fire to replace only the ignited battery and thus to be able to continue to use the remaining battery module.

The cell housing according to the invention for accommodating battery cells can preferably be used in a motor vehicle, in particular in an electric or hybrid vehicle. It is also conceivable to use the cell housing according to the invention in trucks, cranes, forklifts, ships, flying objects or stationary systems.

The cell housing according to the invention for accommodating battery cells in this case comprises an upper side of the housing, a lower side of the housing, a cavity arranged between the upper side of the housing and the lower side of the housing for receiving a heat exchange medium and a bursting area arranged inside the housing. According to the invention, the bursting area is designed and arranged within the cell housing in such a way that at least a part of the heat exchange medium that can be arranged inside the cell housing can emerge in a defined manner through the bursting area in the event of a flare of a battery cell that can be arranged within the cell housing and can reach the inflamed battery cell in order to have an extinguishing effect on the flamed one Maximize battery cell.

The cell housing in question is advantageously cuboid in shape and is intended, for example, to accommodate a plurality of round cells arranged side by side and / or one behind the other. In the context of a stable arrangement, the cell housing is preferably formed from a metal material, in particular a copper material, an aluminum material or an iron material or the like, and is preferably coated with a plastic coating or the like for electrical insulation. To arrange the heat exchange medium, the cell housing can in particular have a heat exchange channel for heat exchange with the battery cells that can be arranged within the cell housing. The objective In this case, the cell housing can in particular be formed in several parts, at least in two parts and, for example, be composed of a cover plate and a base plate, which are then preferably fastened to one another by means of fastening elements such as screws, rivets or the like. The cell housing in question can also be formed in one piece. With regard to simple, inexpensive and mass-production, the cell housing according to the invention - whether formed in one piece or in several parts - can be manufactured, for example, by an injection molding process, the bursting areas according to the invention or the bursting area according to the invention preferably being incorporated by means of corresponding post-processing steps. An injection molding process can be used, in particular, to produce high-quality and robust housings or housing elements. With regard to mechanical protection and electrical insulation, the cell housing in question can also be provided with a cover plate or the like, which is also detachably or non-releasably non-positively, positively or materially connected to the cell housing. In the context of the invention, an objectively igniting a battery cell is understood to mean igniting a battery cell in question with a registerable flame. In the context of the invention, a bursting area is understood to mean, in particular, an area which functions as a predetermined breaking point as soon as a battery cell arranged within the cell housing in question ignites. The bursting of the bursting area can preferably be at least partially pressure-controlled, at least partially temperature-controlled, at least partially electrically or at least partially mechanically controlled.

With regard to a particularly quick and effective extinguishing effect of an inflamed battery cell, it can advantageously be provided according to the invention that the rupture area is arranged between the upper side of the housing and the lower side of the housing, preferably essentially centrally between the upper side of the housing and the lower side of the housing. The bursting area can preferably be arranged along the entire longitudinal section and / or along the entire cross section of the cell housing. Alternatively, the bursting area can also be arranged at least partially in the outer areas and / or in the interior of the cell housing in the context of a simple and inexpensive embodiment. An arrangement of the bursting area that is essentially central according to the invention promises in particular the best possible distribution of the potential extinguishing areas for extinguishing an inflamed battery cell. It has also been recognized in the context of the invention that battery cells mostly ignite frequently between the two poles of a cell, so that the positioning provided essentially centrally between the top and bottom of the housing in the case of an arrangement of battery cells within the cell housing preferably also essentially centrally between the The positive pole and the negative pole of the battery cells are arranged.

In order to guarantee a rapid and effective extinguishing effect as well as simple and inexpensive manufacture, it can further be provided according to the invention that a plurality of rupture areas arranged separately from one another is provided, the rupture areas preferably essentially centrally between the top and bottom of the housing, in particular are each arranged on opposite sides of the cell housing. Furthermore, for example, a compromise can be found between a quick extinguishing effect and an inexpensive manufacture, in that the bursting areas are preferably only arranged in central areas of the cell housing.

With regard to a simultaneous, precisely controllable and adjustable extinguishing effect by means of the bursting areas in question, it can advantageously be provided according to the invention that the bursting area is formed in the form of a broom disk. By using rupture disks, the diameter of an outlet opening for the outlet of the heat exchange medium can be precisely defined. Furthermore, when using rupture disks, the cell housing can be reused even after a deletion process, in particular with significantly shorter downtimes. As part of the use of rupture disks, these can be formed at least partially from a metal material, in particular at least partially from an iron material. The use of graphite or a plastic is also conceivable. With regard to the structure of the rupture disks, these can be formed in particular in the form of compact rupture disks, reverse rupture disks, tension-loaded rupture disks, single-layer rupture disks or high-pressure rupture disks or the like.

In the context of better controllability of the distribution of the heat exchange medium used for extinguishing, it can further be provided according to the invention that at least one reinforcement area is provided, the reinforcement area being at least partially arranged directly adjacent to the bursting area. The reinforcement area or the reinforcement areas are preferably formed in the form of thicker wall thicknesses and / or additional reinforcement elements or the like and should in particular ensure that the heat exchange medium escapes at the bursting areas provided for this purpose and the cell housing does not break at other locations. In order to ensure a particularly reliable controllability, the bursting areas can preferably be completely surrounded by reinforcement areas. It also goes without saying that, in the case of an embodiment with a plurality of bursting areas arranged separately from one another, a plurality of reinforcing areas can also be arranged.

With regard to a light and stable and, in particular, scalable design of the cell housing in question, it can advantageously be provided that recesses are provided for receiving the battery cells, the recesses preferably being arranged in the top and bottom of the housing, in particular corresponding to one another in shape. The recesses can in particular be cylindrical in shape and be formed for the introduction of appropriately designed round cells.

The invention also relates to a battery system. Here, the battery system has a cell housing as described above, a plurality of battery cells arranged inside the cell housing and a heat exchange medium arranged inside the cell housing. According to the invention, the heat exchange medium and the bursting area are designed and arranged within the cell housing in such a way that at least part of the heat exchange medium arranged inside the cell housing can emerge in a defined manner through the bursting area in the event of a battery cell within the cell housing igniting and reach the inflamed battery cell by one Maximize the extinguishing effect of the inflamed battery cell. The battery system according to the invention thus brings with it the same advantages as have already been described in detail in relation to the cell housing according to the invention.

In order to guarantee the best possible extinguishing effect by means of the heat exchange medium arranged within the battery system, it can also be provided according to the invention that the heat exchange medium is in the form of a flame-retardant liquid, preferably in the form of a flame-retardant coolant, in particular in the form of Novec® from 3M. Alternatively or cumulatively to the use of Novec®, other flame-retardant liquids, such as 3-hydroxyphenylphosphinyl or fluorinated polymer coatings, such as FPC or the like, can also be used.

As part of an effective cooling of the battery system in question, it can advantageously also be provided that a heat exchange channel is provided for heat exchange between the battery cells and the heat exchange medium, the heat exchange channel preferably being sealed to the outside by sealing elements. The sealing elements can advantageously be arranged at least partially between the cell carrier wall and the poles of the battery cell. The sealing means can also preferably be formed from a plastic, in particular rubber, and can be pressed onto the cell carrier by means of fastening elements such as screws or rivets or the like.

With regard to a safe design of the cell housing in question, which is also scalable for larger applications, it can advantageously also be provided that at least two levels are provided for the arrangement of battery cells, each level preferably having a bursting area. It goes without saying that more than two, preferably three, four or more than four levels can also be provided, each level preferably having at least one bursting area.

The invention also relates to a motor vehicle, comprising a cell housing described above, in particular comprising a battery system described above.

Further advantages, features and details of the invention result from the following description, in which exemplary embodiments of the invention are described in detail with reference to the drawings. The features mentioned in the claims and in the description can each be essential to the invention individually or in any combination.

• 1 eine schematische Darstellung eines Teilausschnitts eines erfindungsgemäßen Zellgehäuses zur Aufnahme von Batteriezellen gemäß einem ersten Ausführungsbeispiel gemeinsam mit zwei innerhalb des Zellgehäuses angeordneten Batteriezellen,
• 2 eine schematische Darstellung eines Teilausschnitts eines erfindungsgemäßen Zellgehäuses zur Aufnahme von Batteriezellen gemäß einem zweiten Ausführungsbeispiel gemeinsam mit zwei innerhalb des Zellgehäuses angeordneten Batteriezellen,
• 3 eine schematische Darstellung eines erfindungsgemäßen Batteriesystems gemäß einem ersten Ausführungsbeispiel,
• 4 eine schematische Darstellung eines erfindungsgemäßen Batteriesystems gemäß einem zweiten Ausführungsbeispiel in einer Schnittansicht gemäß einem Schnitt entlang der Schnittlinie I-I aus 3.

Show it:

• 1 2 shows a schematic representation of a partial section of a cell housing according to the invention for receiving battery cells according to a first exemplary embodiment together with two battery cells arranged inside the cell housing,
• 2nd 1 shows a schematic illustration of a partial section of a cell housing according to the invention for receiving battery cells according to a second exemplary embodiment together with two battery cells arranged inside the cell housing,
• 3rd 1 shows a schematic illustration of a battery system according to the invention in accordance with a first exemplary embodiment,
• 4th a schematic representation of a battery system according to the invention according to a second embodiment in a sectional view according to a section along the section line II from 3rd .

Identical reference symbols are used in the figures for the same technical features.

1 shows a schematic representation of a partial section of a cell housing according to the invention 2nd to accommodate battery cells 12 according to a first embodiment together with two within the cell housing 2nd arranged battery cells 12 . Here, the cell housing 2nd to accommodate battery cells 12 a case top 4th , an underside of the case 6 , one between the top of the case 4th and the bottom of the case 6 arranged cavity 8th for holding a heat exchange medium 14 as well as one inside the cell housing 2nd arranged burst area 10th on. The bursting area 10th is designed according to the invention in this way and within the cell housing 2nd arranged that at least part of the inside of the cell housing 2nd disposable heat exchange medium 14 in the event of a fire, one within the cell housing 2nd arranged battery cell 12 defined by the burst area 10th emerge and to the inflamed battery cell 12 can reach an extinguishing effect of the inflamed battery cell 12 to maximize.

Under a burst area 10th is understood here in particular as an area that functions as a predetermined breaking point as soon as one within the cell housing in question 2nd arranged battery cell 12 inflamed. The bursting of the bursting area 10th can preferably be at least partially pressure-controlled, at least partially temperature-controlled, at least partially electrically or at least partially mechanically controlled. In addition to the according 1 bursting areas arranged side by side 10th shows the cell housing 2nd two more near the bursting areas 10th arranged reinforcement areas 20th on, which can preferably be formed in the form of thicker walls and / or additional reinforcing elements or the like and in particular ensure that this is within the cell housing 1 arrangable heat exchange medium 14 at the designated bursting areas 10th and does not leave in other places.

2nd shows a schematic representation of a partial section of a cell housing according to the invention 2nd to accommodate battery cells 12 according to a second embodiment together with two within the cell housing 2nd arranged battery cells 12 . According to the second embodiment, there are also two bursting areas 10th inside the cell housing 2nd provided, which in the present case is essentially centered between the top of the housing 4th and the bottom of the case 6 are arranged. Such an arrangement promises in particular the best possible distribution of the potential extinguishing areas for extinguishing an inflamed battery cell 12 . Since it has also been recognized in the context of the invention that battery cells 12 mostly common between the two poles of the cells 12 ignite, the present arrangement is also favorable with regard to localized fire. As an alternative to a plurality of bursting areas arranged separately from one another 10th can also be a single burst area 10th inside the cell housing 2nd be arranged either the cell housing 2nd completely, ie along the entire longitudinal section and / or along the entire cross section or only locally, for example on opposite sides of the cell housing 2nd is arranged. Due to the present complete framing of the bursting areas 10th through the reinforcement areas 20th , in particular a particularly safe controllability of the exit from within the cell housing 2nd arranged heat exchange medium 14 to extinguish a fire in a battery cell 12 created.

3rd shows a schematic representation of a battery system according to the invention 1 according to a first embodiment. The battery system 1 includes in addition to the cell housing 2nd to accommodate battery cells 12 a plurality from inside the housing 2nd arranged battery cells 12 as well as one not recognizable here within the housing 2nd arranged heat exchange medium 14 . The heat exchange medium 14 and the one identified here by the red bar and within the battery system 1 arranged burst area 10th are designed in this way and within the housing 2nd arranged that at least part of the inside of the housing 2nd arranged heat exchange medium 14 in the event of a fire within the housing 2nd arranged battery cell 12 defined by the burst area 10th emerge and to the inflamed battery cell 12 can reach an extinguishing effect of the inflamed battery cell 12 to maximize. With regard to mechanical protection and electrical insulation, the battery system in question comprises 1 in the present another on the cell housing 2nd arranged cover plate 15 , which in the present case are fastened to the cell housing by means of fastening means 2nd connected is.

4th shows a schematic representation of a battery system according to the invention 1 according to a second embodiment in a sectional view according to a section along the section line II 3rd . The battery system 1 according to the second exemplary embodiment, here comprises two levels 30th for the arrangement of battery cells 12 , each level 30th separate bursting areas 10th comprises, which in the present case is essentially centered between an upper side 4th and a bottom 6 between neighboring battery cells 12 are arranged. Inside the in the cell housing 2nd arranged cavities 8th are for cooling or heating the battery cells 12 also heat exchange channels 22 arranged, the present with a heat exchange medium 14 are filled. The heat exchange medium 14 can here via a feed opening 26 into the channels 22 be introduced. The channels arranged one above the other 22 are also about a short circuit 22a connected with each other. About sealing elements 24th , in the present case at least partially between the cell carrier wall and the poles of the battery cells 12 are arranged, is the heat exchange channel 22 sealed to the outside. Each above a cell housing 2nd are also cover plates 15 arranged for insulation and mechanical stability. The battery system shown here also includes 1 Fasteners 20th for connecting the cell housing 2nd that the battery system 1 give additional stability.

Through the battery system according to the invention 1 , or the cell housing according to the invention 2nd it is possible, in particular, to fire in a particularly rapid and effective manner from battery cells arranged within a cell housing 12 erase by one also inside the cell case 2nd arranged heat exchange medium 14 through specifically arranged bursting areas 10th exit defined and to the inflamed battery cell 12 can reach. This in particular makes it possible to prevent propagation and thus complete destruction of an entire battery system.

Claims (11)

Cell housing (2) for accommodating battery cells (12), comprising - a housing top (4), - a housing bottom (6), - a cavity (8) arranged between the housing top (4) and the housing bottom (6) for receiving a heat exchange medium (14), - a bursting area (10) arranged inside the cell housing (2), characterized in that the bursting area (10) is designed and arranged within the cell housing (2) such that at least a part of the inside of the cell housing (2) in the event of a flare of a battery cell (12) that can be arranged within the cell housing (2), the heat exchange medium (14) that can be arranged can emerge in a defined manner through the bursting area (10) and can reach the flamed battery cell (12) in order to maximize an extinguishing effect of the flamed battery cell (12) . Cell housing (2) according to claim 1, characterized in that the bursting region (10) is arranged between the housing top (4) and the housing bottom (6), preferably essentially centrally between the housing top (4) and the housing bottom (6). Cell housing (2) according to claim 1 or 2, characterized in that a plurality of separately arranged bursting areas (10) are provided, wherein the bursting areas (10) preferably essentially centrally between the housing top (4) and the housing bottom (6), in particular are each arranged on opposite sides of the cell housing (2). Cell housing (2) according to one of the preceding claims, characterized in that the bursting region (10) is formed in the form of a bursting disc. Cell housing (2) according to one of the preceding claims, characterized in that at least one reinforcement area (20) is provided, the reinforcement area (20) being at least partially arranged directly adjacent to the bursting area (10). Cell housing (2) according to one of the preceding claims, characterized in that recesses are provided for receiving the battery cells (12), the recesses preferably being arranged in the upper side of the housing (4) and the lower side (6) of the housing, in particular corresponding to one another in shape. Battery system (1), comprising: - a cell housing (2) according to one of the Claims 1 to 6 , - a plurality of battery cells (12) arranged inside the cell housing (2), - a heat exchange medium (14) arranged inside the cell housing (2), characterized in that the heat exchange medium (14) and the bursting area (10) are designed in this way and within of the cell housing (2) are arranged such that at least a part of the heat exchange medium (14) arranged inside the cell housing (2) in the event of ignition of a battery cell (12) arranged inside the cell housing (2) emerges and passes through the bursting area (10) inflamed battery cell (12) to maximize an extinguishing effect of the inflamed battery cell (12). Battery system (1) after Claim 7 , characterized in that the heat exchange medium (14) is formed in the form of a flame-retardant liquid, preferably in the form of a flame-retardant cooling liquid, in particular in the form of Novec®. Battery system (1) according to one of the Claims 7 or 8th , characterized in that a Heat exchange channel (22) for heat exchange between the battery cells (12) and the heat exchange medium (12) is provided, the heat exchange channel (22) preferably being sealed to the outside by means of sealing elements (24). Battery system (1) according to one of the Claims 7 to 9 , characterized in that at least two levels (30) are provided for the arrangement of battery cells (12), each level (30) preferably having a burst area (10). Motor vehicle, comprising a battery system according to one of the Claims 7 to 10th .

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