EP3143652A2

EP3143652A2 - Battery unit comprising a plurality of electrochemical cells and battery module comprising a plurality of battery units

Info

Publication number: EP3143652A2
Application number: EP15719464.8A
Authority: EP
Inventors: Silvan Poller; Holger Reinshagen; Rudi Kaiser
Original assignee: Robert Bosch GmbH
Current assignee: Robert Bosch GmbH
Priority date: 2014-05-16
Filing date: 2015-04-27
Publication date: 2017-03-22
Also published as: CN106463653B; US10044014B2; WO2015172997A3; CN106463653A; WO2015172997A2; DE102014209286A1; US20170084893A1

Abstract

The invention relates to a battery unit (1) comprising: a plurality of electrically interconnected electrochemical cells (2), each of said cells having an electrode arrangement (3), in particular a lithium-based electrode arrangement (3) with a cathode contact element (4) and an anode contact element (5); and an outer sheathing (7) surrounding a chamber (6) in which the electrochemical cells (2) are arranged. The outer sheathing (7) is designed as a humidity barrier and as a chemical barrier. Each individual electrochemical cell (2) of the battery unit (1) comprises an electrically insulating sheathing (8) which surrounds the respective electrode arrangement (3). The invention also relates to a battery module comprising a plurality of electrically interconnected battery units (1) designed according to the invention.

Description

description

title

Battery unit with a plurality of electrochemical cells as well

Battery module with a plurality of battery units

The invention relates to a battery unit comprising a plurality of electrically interconnected electrochemical cells, each having an electrode assembly having a Kathordenkontaktierungselement and a Anodenkontaktierungselement, and an arrangement space enclosing outer shell, in which the electrochemical cells are arranged.

Furthermore, the invention relates to a battery module with a plurality of electrically interconnected battery units.

State of the art

Battery cells with a plurality of electrically interconnected electrochemical cells are known in different configurations in the prior art. In addition, battery modules are known which a

Have a plurality of interconnected battery cells as electrochemical cells. In particular, due to the high energy density, preferably lithium-ion cells are used as battery cells. Lithium-ion cells can be designed in particular as so-called round cells, as prismatic cells or as so-called pouch cells. In this case, the lithium-ion cells have an electrode arrangement with a cathode contact element and an anode contact element. In particular, cylindrical cell coils for round cells, prismatic flat coils for prismatic cells and so-called Cell stack known. Such an electrode arrangement comprises a cathode material, an anode material, a separator and an electrolyte.

Disadvantages of battery units and battery modules known in the prior art exist in particular with regard to the interconnection of the electrochemical cells, with regard to the size of the battery units and battery modules, in particular with regard to battery units to be used in hybrid, plug-in hybrid or electric vehicles or battery modules, and with regard to the variability of battery units and battery modules with a view to adapting to different requirements to be made of a battery unit or a battery module, for example, in terms of the capacity and / or power to be provided.

Against this background, it is an object of the invention to provide an improved in view of the aforementioned disadvantages battery unit and an improved battery module. In particular, a battery unit is to be provided, which has a higher energy density, that is, with the same capacity and power as a conventional battery unit has smaller dimensions and thus takes up less space.

Disclosure of the invention

To achieve the object, a battery unit comprising a plurality of electrically interconnected electrochemical cells, each having an electrode assembly with a Kathordenkontaktierungselement and a Anodenkontaktierungselement, and an arrangement space enclosing outer shell, in which the electrochemical cells are arranged, proposed, wherein the outer shell as Moisture barrier and is designed as a chemical barrier and the individual electrochemical cells each comprise an electrically insulating insulating sheath surrounding the respective electrode assembly. Preferably, the electrode assemblies are lithium-based electrode assemblies. Through the insulation sheaths are the electrode assemblies of the electrochemical cells advantageously electrically isolated from each other. In particular, the insulating sheath itself does not assume the function of a moisture barrier and / or a chemical barrier, but advantageously serves for ionic isolation, so that the electrode arrangements are not unintentionally short-circuited.

The interconnection of the electrochemical cells advantageously takes place via the cathode contacting elements as well as the anode contacting elements of the electrode arrangements. In particular, it is provided that the battery unit itself has led out of the outer shell contacting elements for contacting the battery unit.

As electrochemical cells battery cells according to the invention in particular secondary battery cells, particularly preferably lithium-ion cells are provided, wherein the electrochemical cells with the surrounding outer shell have a common moisture barrier and chemical barrier and not each electrochemical cell itself each such a moisture barrier and / or has chemical barrier. As a result, the weight of a battery unit according to the invention is advantageously reduced, which advantageously contributes to a higher energy density.

That is, an essential aspect of the present invention is that the electrode assembly itself is not surrounded by a metal-based shell, wherein the insulation shell itself is not a moisture barrier and no chemical barrier, so moisture and / or an electrolyte can diffuse through the insulation shell. The insulating sheath surrounding an electrochemical cell is advantageously a plastic film, in particular a polyethylene (PE) or polyetheretherketone (PEEK) film. The moisture barrier and the chemical barrier is advantageously provided in the battery unit according to the invention exclusively by the outer shell. Because not all of the insulation sheaths are metal-based, weight can advantageously be saved here. In addition, advantageously, a higher energy density can be achieved. In particular, it is provided that the outer shell of the battery unit has a metallization providing the moisture barrier and the chemical barrier; in particular, a plastic foil metallized from the outside is provided as the outer shell as the embodiment. In addition, the outer shell according to an advantageous embodiment, a metal foil. In particular, it is provided that the outer shell is formed from two half-shells, wherein the half shells are preferably each made by means of a deep-drawing method of a metal foil, preferably a half-shell of an aluminum-based metal foil and the other half shell of a copper or steel -based half shell. In this case, preferably the first half-shell serves as a first contacting element of the battery unit and the second half-shell as a second contacting element of the battery unit, via which the battery unit can advantageously be connected by arranging with other battery units.

Another particularly preferred embodiment of the battery unit according to the invention provides that a solvent is introduced into the arrangement space enclosed by the outer shell, preferably a solvent free of conductive salt. As a result, the electrolyte concentration of the individual electrochemical cells is advantageously kept constant, in particular since the

Electrolyte does not diffuse out of the electrochemical cells without solvents would diffuse into the electrochemical cells. This advantageously prevents the electrochemical cells from drying out. In particular, it is provided that the outer shell has a closable filling opening, via which a solvent in the

Arrangement space can be introduced.

According to a further advantageous embodiment of the battery unit according to the invention an inert gas is introduced into the space enclosed by the outer shell arrangement space. By the inert gas is advantageously a

Explosion protection provided.

In a further advantageous embodiment of the battery unit according to the invention, the outer shell is also designed as a mechanical barrier. In this case, the outer shell is preferably designed as a hardcase, in particular as a metallic housing. Advantageously, the outer shell hereby protects the electrochemical cells against mechanical action, in particular against deformations and / or impacts. Another particularly advantageous embodiment of the invention

Battery unit provides that the outer shell has at least one first electrically conductive connecting element and at least one second electrically conductive connecting element, wherein at least some of the electrochemical cells are interconnected via the connecting elements. According to a particularly advantageous embodiment of the invention it is provided that a first number of electrochemical cells is electrically connected in parallel and a second number of electrochemical cells is electrically connected in parallel. The first number of electrochemical cells is advantageously connected electrically in series with the second number of electrochemical cells. For parallel switching of the electrochemical cells, it is provided that in each case the cathode contacting elements and the anode contacting elements of the first number or the second number of electrochemical cells are contacted with one another. For the series connection of the first number of electrochemical cells with the second number of electrochemical cells, provision is made in particular for the interconnected cathode contacting elements of the first number of electrochemical cells to be connected to the first connecting element and the anode contacting elements of the second number of electrochemical cells to the first connecting element are connected. The anode contact elements of the first number of electrochemical

Cells are advantageously connected to the second connection element and the cathode contact elements of the second plurality of electrochemical cells are likewise connected to the second connection element, so that the first number of electrochemical cells is electrically connected in series with the second number of electrochemical cells.

The type of interconnection advantageously determines the capacity and / or the performance of the battery unit.

According to a further advantageous embodiment of the battery unit according to the invention is in the arrangement space at least one safety barrier between at least a first number of electrochemical cells and at least a second number of electrochemical cells, wherein the safety barrier is configured to prevent a thermal chain reaction between the first number of electrochemical cells and the second number of electrochemical cells. In particular, the safety barrier prevents a thermal chain reaction in the case of a thermal runaway of one of the electrochemical cells. The safety barrier advantageously comprises a thermally poorly conducting filling material which largely reduces a heat exchange between the electrochemical cells. The filling material is preferably formed as a temperature absorber, preferably by means of so-called phase change materials (pcm).

A further advantageous embodiment of the battery unit according to the invention provides that at least one cooling device is arranged in the arrangement space, wherein at least one electrochemical cell is thermally contacted with the at least one cooling device. In particular, it is provided that the cooling device is designed as a cooling plate. The cooling plate advantageously comprises at least one coolant conduit, through which a coolant for controlling the temperature of the electrochemical cells can flow. In particular, it is provided that in each case a certain number of electrochemical cells is surrounded by two cooling devices, so that advantageously a uniform temperature of the electrochemical cells is made possible. According to a particularly advantageous embodiment of the invention is the

Safety barrier also designed as a cooling device.

A further advantageous embodiment of the invention provides that the electrode arrangements of the electrochemical cells of the battery unit are designed as cell rolls (English: Jelly Roll). In particular, a solid electrolyte is provided as the electrolyte.

A further advantageous embodiment of the battery unit according to the invention provides that the outer shell comprises at least one safety valve for reducing an overpressure within the outer shell. The safety valve is included advantageously designed to open at a predetermined pressure within the outer shell. The safety valve is thus advantageously designed to prevent bursting of the battery unit, in particular if the internal pressure in the arrangement space enclosed by the outer shell increases, for example because of a strong heating of an electrochemical cell of the battery unit. In particular, it is provided that the solvent is introduced into the arrangement space and, if appropriate, the inert gas into the arrangement space via the safety valve or via the opening which is closed by the safety valve during production of the battery unit. In particular, it is provided that the safety valve is designed as a bursting membrane or as a check valve.

To achieve the object mentioned above, furthermore, a battery module with a plurality of electrically interconnected

Battery units proposed, wherein the battery units are designed as battery units according to the invention. Advantageously, such a battery module has a high energy density. In addition, this advantageously an energy storage unit is further better adaptable. In particular, it is provided that the battery module a

Battery management system includes, which is designed in particular for controlling the operation and / or monitoring of the operation of the battery units of the battery module. Further advantageous details, features and design details of

Invention will be explained in more detail in connection with the embodiments illustrated in FIGS. Showing:

Figure 1 is a schematic representation of an embodiment of a battery unit according to the invention. and

2 shows a schematic representation of an exemplary embodiment of an electrochemical cell of a battery unit according to the invention. The battery unit 1 illustrated in FIG. 1 comprises a total of eight electrochemical cells 2. The electrochemical cells 2 are rechargeable lithium-ion cells. The electrochemical cells 2 each have an electrode arrangement 3, which in the present case is designed as a cell winding. The electrode arrangement 3 of an electrochemical cell 2 furthermore has a cathode contact element 4 and an anode contact element 5.

The four electrochemical cells 2 shown on the left in FIG. 1 are electrically connected in parallel by the electrochemical cells 2 with their

Kathodenkontaktierungselementen 4 and their Anodenkontaktierungselementen 5 are contacted with each other. The same applies to the further four electrochemical cells 2 shown on the right.

An electrochemical cell 2 of the battery unit 1 further comprises an electrically insulating insulating sleeve 8, which surrounds the electrode assembly 3. The electrode arrangements 3 of the electrochemical cells 2 are electrically insulated from each other by the insulation sheaths 8. The insulation sheath 8 is in the embodiment, a plastic film. The insulation sheath 8 is not metal-based, that is to say the insulation sheath 8 is permeable to moisture and also permits diffusion of the solvent of the electrolyte of an electrochemical cell 2 surrounding the insulation sheath 8.

The eight electrochemical cells 2 of the battery unit 1 shown in FIG. 1 are surrounded by an outer shell 7. The outer shell 7 encloses an arrangement space 6, in which the electrochemical cells 2 are arranged. The outer shell 8 is designed as a moisture barrier and as a chemical barrier and thus prevents in particular a penetration of moisture into the arrangement space 6 and thus a moisture entry into the electrochemical cells 2 and leakage of solvents from the arrangement space 6. The outer shell 7 is to plastic housing formed with an applied metallization.

In the arrangement space 6 of the battery unit 1 is a conductive salt-free solvent (in Fig. 1 is not explicitly shown) introduced. This solvent prevents Advantageously, the electrochemical cells 2 dry out. In addition, an inert gas (not explicitly shown in FIG. 1) is advantageously introduced into the arrangement space. The inert gas advantageously serves as explosion protection.

Furthermore, the outer shell 7 of the battery unit 1 shown in FIG. 1 has a first electrically conductive connecting element 9 and a second electrically conductive connecting element 10. The electrochemical cells 2 are contacted via the cathode contacting elements 4 and the anode contacting elements 5 with the first connecting element 9 and the second connecting element 10 such that the first four parallel-connected electrochemical cells 2 are electrically connected in series with the second four parallel-connected electrochemical cells 2 , Moreover, the battery unit 1 can advantageously be contacted via the first connection element 9 and the second connection element 10, in particular such that an electrical load device or a charging device can be connected to the battery unit 1. In addition, the battery unit 1 is advantageously electrically connected via the connecting elements 9, 10 with further battery units, in particular to a battery module. For this purpose, it is provided in particular that the battery units are arranged with the corresponding connecting elements to each other.

Between the four first electrically connected electrochemical cells 2 and the second four electrically connected in parallel electrochemical cells 2, a safety barrier 11 is arranged in the embodiment shown in FIG. 1, which advantageously prevents a thermal chain reaction in the event of thermal runaway of one of the electrochemical cells 2 which would lead to all the electrochemical cells 2 arranged in the arrangement space 6 being destroyed. The safety barrier 11 is advantageously also designed as a cooling device 12. In particular, as a cooling device through which a coolant can flow. For this purpose, the cooling device 12 advantageously has at least one coolant conduit (not explicitly shown in FIG. 1). FIG. 2 shows an exemplary embodiment of an electrochemical cell 2 for a battery unit according to the invention. In this case, the electrochemical cell 2 comprises an electrode arrangement 3 with a cathode contact element 4 and an anode contact element 5. The electrode arrangement 3 is in the form of a cell coil or cell stack or

Electrode stack formed with a solid electrolyte. The electrode assembly 3 is surrounded by an insulating sheath 8, which electrically isolates the electrode assembly 3 to the outside. The insulating sheath 8 thus advantageously represents an ionic insulation. The chemical partitioning of the electrochemical cell 2 takes place advantageously only at the level of

Battery unit through an outer shell. This outer shell surrounds, as explained in connection with FIG. 1, a plurality of electrochemical cells, which are advantageously interconnected. The illustrated in the figures and explained in connection with these

Embodiments serve to illustrate the invention and are not limiting for these.

Claims

claims

1. battery unit (1) comprising a plurality of electrically interconnected electrochemical cells (2), each having an electrode assembly (3) with a Kathordenkontaktierungselement (4) and a Anodenkontaktierungselement (5), and a Anordnungsraum (6) enclosing outer shell ( 7), in which the electrochemical cells (2) are arranged, characterized in that the outer shell (7) is formed as a moisture barrier and as a chemical barrier and the individual electrochemical cells (2) each comprise an electrically insulating insulating sheath (8) surrounds the respective electrode arrangement (3).

Second battery unit (1) according to claim 1, characterized in that the outer shell (7) has a metallization providing the moisture barrier and the chemical barrier.

3. Battery unit (1) according to one of the preceding claims, characterized in that in the of the outer shell (7) enclosed arrangement space (6) is introduced a conductive salt-free solvent.

4. Battery unit (1) according to any one of the preceding claims, characterized in that in the by the outer shell (7) enclosed arrangement space (6), an inert gas is introduced.

5. Battery unit (1) according to one of the preceding claims, characterized in that the outer shell (7) is also designed as a mechanical barrier.

6. Battery unit (1) according to one of the preceding claims, characterized in that the outer shell (7) at least a first electrically conductive connecting element (9) and at least one second electrically conductive connecting element (10), wherein at least some of the electrochemical cells via the connecting elements (9, 10) are interconnected.

Battery unit (1) according to one of the preceding claims, characterized in that in the arrangement space (6) at least one safety barrier (11) between at least a first number of electrochemical cells (2) and at least a second number of electrochemical cells (2) is arranged in that the safety barrier (11) is designed to prevent a thermal chain reaction between the first number of electrochemical cells (2) and the second number of electrochemical cells (2).

Battery unit (1) according to one of the preceding claims, characterized in that in the arrangement space (6) at least one cooling device (12) is arranged, wherein at least one electrochemical cell (2) with the at least one cooling device (12) is thermally contacted.

Battery unit (1) according to any one of the preceding claims, characterized in that the electrode arrangements (3) are formed as cell coils or cell stacks.

Battery unit (1) according to one of the preceding claims, characterized in that the outer shell (7) comprises at least one safety valve for reducing an overpressure within the outer shell (7).

Battery module with a plurality of electrically interconnected battery units (1), characterized in that the battery units (1) are formed as a battery unit according to one of claims 1 to 10.