DE102008059971A1 - Battery i.e. lithium-ion battery, for e.g. vehicle with hybrid drive, has battery component arranged at pole end of cooling plate and fully or partially enclosed by electrically isolated protective layer - Google Patents

Abstract

The battery (1) has cells (4) interconnected with each other in series and/or parallel, and a cooling plate (5) arranged on the cells. The cells with the cooling plate and an electronic unit (7) are arranged in a battery-housing (2). A battery component is arranged at pole end of the cooling plate, and is fully or partially enclosed by an electrically isolated protective layer. The protective layer is formed of heat resistance material, silicon, foam or epoxy resin. The electronic component is surrounded by the protective layer. An independent claim is also included for a method for manufacturing a lithium-ion battery.

Description

The The invention relates to a battery, in particular a lithium-ion battery, according to the features of the preamble of claim 1. Furthermore the invention a method for its preparation according to the features of the preamble of claim 17.

From the prior art is, as in DE 10 2007 009 315 A1 described, a device for cooling electrical elements, in particular a motor vehicle known. The apparatus comprises a plurality of electrical elements, each having a bottom surface and a side surface, wherein the bottom surfaces of the elements are disposed substantially in a plane, a plurality of conductive bodies in thermal contact with the side surfaces of the elements for dissipating heat , and a heat sink permeable by a cooling body, wherein the heat sink extends in a plane which is aligned substantially parallel to the plane of the bottom surfaces of the elements so that the heat sink covers the bottom surfaces of the elements.

In DE 103 52 046 A1 a battery is described with at least one cylindrical electrochemical storage cell and a cooling device, which has a housing which is flowed through by a, in particular liquid, cooling medium.

In EP 0 044 753 A1 An electrochemical storage battery and modules for this battery will be described. A sodium-sulfur battery comprises a plurality of modules, each containing one or more cells. Through each of these modules runs a passage which is traversed by heating and / or coolant. Between the outer housing and the cells is an air-empty area, in which means for heat radiation shielding are arranged, for example metal foil and / or ceramic paper. Thermostat-controlled valves control the flow of heating and / or cooling agent through the passage.

In US 2006/0115720 A1 a battery module is described. This battery module includes a plurality of single cells with spaces between them. A cooling medium flows along a predetermined path in these spaces.

at a short circuit or overloading of the individual cells build up in the individual cells, an overpressure, which burst the single cells and emit gases. These Gases can cross over the spaces between the individual cells are performed and for example in the cell head area Damaged electronics damage.

Of the Invention is based on the object, an improved battery indicate that there is damage in the battery arranged electronics is largely avoided.

The Object is achieved by a battery solved with the features of claim 1. Regarding of the manufacturing process, the object is achieved by the invention the features specified in claim 17 solved.

preferred Embodiments and developments of the invention are in the dependent Claims specified.

A Battery, in particular a lithium-ion battery, includes a Plurality of series and / or parallel interconnected Single cells and one pole on the individual cells arranged Cooling plate and an electronic assembly, wherein the individual cells with the cooling plate and the electronic assembly in one Battery housing are arranged.

According to the invention at least one of a plurality of pole side arranged battery components partially or completely by an electrically insulating Surrounded by protective layer.

By provided with a protective layer pole side arranged battery components secure protection of these components is given when bursting one of the individual cells. For example, by a short circuit or overcharge may form an overpressure in the individual cells of the batteries, which open at predetermined locations of the individual cells for venting openings. The outflowing gas can be trapped in a Ventingraum and thus a gas leakage from the battery prevented or defined dischargeable. If the battery is used in a vehicle, then there is the risk of damage to the battery or other battery components, in particular electronic polseitig arranged components, for example, by an accident of the vehicle. In this case, the battery and in particular the individual cells and electronic components of the battery to be protected from serious damage from the outflowing gases. Due to the protective layer surrounding these electronic components (also called battery electronics), short circuits and resulting short-circuit currents are reliably avoided. In addition, damages caused by rapid corrosion processes are also avoided. Furthermore, a continued operation of the battery is made possible by such a protective layer even in the event of a fault. In particular, it is ensured that electronic components such. B. a battery management and / or battery monitoring system for cell and battery monitoring, continue in Operation are. Thus, a possible overheating of the battery can be determined. In addition, the protective layer at times allows at least overheating protection of the battery electronics by the protective layer forms a heat sink. Also, the protective layer can be applied in a simple manner in different manufacturing and assembly stages of the battery. The inventive solution is relatively easy and inexpensive to implement in existing battery concepts. In addition, the protective layer allows effective protection of the relevant battery components against mechanical, thermal and / or environmental influences and a sealing effect, for. As in a crack in the battery case, and protection of the battery components from moisture and condensation.

In One possible embodiment is as a battery component at least the electronic assembly surrounded by the protective layer. Alternatively or additionally, as a battery component at least cell poles are surrounded by the protective layer. Furthermore may additionally or alternatively be considered a battery component at least cell connectors and / or cell connector boards from the protective layer be surrounded. Preferably, all are above the Cell side arranged battery components of the protective layer surround. Here is the protective layer with a corresponding thickness in the manner of a sufficiently thick coating on the battery components applied. Alternatively, the battery components are the protective layer potting material and thus encapsulated.

Conveniently, is the protective layer of a heat-resistant, in particular thermally conductive and / or electrically formed insulating material. This ensures that the protective layer even in thermal, chemical, electrical and / or mechanical stresses on the battery and its individual cells, such as B. deformations, thermal expansion, their function as a protective layer, d. H. Protection of the relevant battery components, opposite Heat, water or moisture, as well as escaping gases reserves.

For this the protective layer-forming material is preferably a silicone, a paint, a foam or epoxy resin. Also can other suitable, in particular heat-resistant and / or electrically insulating and hydrophobic materials used become. Preferably, a silicone-containing material is provided, which in particular a high temperature and fire resistance having. It also allows a flexible fit and points a high specific heat capacity for capacitive Cooling up.

A possible embodiment of the invention provides that the protective layer on the surface of each Battery component is sprayed or painted on. Alternatively, the or more battery components in the Protective layer forming material to be immersed, wherein the material after removal of the battery component on the respective battery component remains as a protective layer.

In Another alternative embodiment is the protective layer formed in the region above the cell surface as a potting compound, wherein a protective layer forming material completely or partly in a corresponding shape, in particular in a battery housing cover, with the or in this form arranged endmontierten battery components is introduced.

Also it is possible for the protective layer to be in the area above the cell surface so prepared and formed as a potting compound is that initially a protective layer forming material partially in a horizontally arranged shape, in particular in a battery housing cover, with the or in this form arranged endmontierten battery components is einbringbar and after hardening of the horizontal protective layer additional material in the tilted, in particular by at least 45 °, In particular, tilted by at most 90 ° tilted form introduced is.

Preferably are cell poles of the individual cells through recesses in the cooling plate passed through and the individual cells through to the cell poles attached cell connectors serially and / or parallel to each other interconnected and attached to the cooling plate. By the Fixing the single cells to the cooling plate are these, in addition to an optimal thermal connection to the cooling plate, decoupled from direct contact with the battery case, whereby on the one hand the formation of the Ventingraums possible is and on the other acting on the battery case outer Forces can not be transferred directly to the individual cells are.

Conveniently, the individual cells are parallel to one another in their longitudinal direction arranged, wherein in a particularly advantageous embodiment in a cell composite several single cells in series and several rows of individual cells are arranged parallel to each other in such a way, the cell composite forms a honeycomb structure. This is an optimal one Space-saving arrangement of the individual cells, creating a space requirement the battery is as low as possible. In particular in Hybrid vehicles in which several of these batteries are used and in which the available space extremely limited is, this is of great importance.

At the inventive method for producing a Battery, in particular a lithium-ion battery, having a plurality of single cells connected in series and / or in parallel, a pole side arranged on the individual cells cooling plate and an electronic assembly, wherein the single cells with the cooling plate and the electronic assembly disposed in a battery case are at least one of several polseitig arranged Battery components partly or completely from one surrounded by electrically insulating protective layer.

Preferably be as a battery component at least the electronics assembly, the Cell poles and / or the cell connectors and / or the cell connector board surrounded by the protective layer. This can be the battery components separately from each one protective layer or together from one Be surrounded by a protective layer. Preferably, all arranged above the cell surface, in particular electronic and / or electrical battery components surrounded by the protective layer.

For a sufficiently good protection of the battery components mechanical, chemical, electrical and / or thermal stresses becomes a heat-resistant material for the protective layer, in particular thermally conductive and / or electrically insulating material used. As a particularly suitable material It has proven to be a silicone, a paint, a foam or epoxy resin. Preferably, a silicone-containing material is used, which in particular a high temperature and fire resistance as well as a flexible fit and high specific heat capacity.

there For example, the material forming the protective layer can be processed at various stages of production to the relevant or all relevant battery components be applied. In particular, the protective layer may also be on Battery components applied an already manufactured battery become. For this purpose, for example, in one possible embodiment the protective layer on the surface of the respective battery component sprayed or painted on. Alternatively, the or a plurality of battery components in the protective layer forming material dipped, the material after removal of the battery component remains on the respective battery component as a protective layer. In a further alternative, the protective layer is in the range formed above the cell surface as a potting compound, wherein a protective layer forming material completely or partly in a corresponding shape, in particular in a battery housing cover, with the or in this form arranged endmontierten battery components is introduced. In other words, all pole side arranged battery components, such. B. cell monitoring electronics, Cell connector board, cell heads including terminals, are after the final assembly of the cell assembly with the electronics by means of the protective layer shed. This will be the cell composite or block in a corresponding form, for. B. in a separate mold, put on the "head" so that horizontally in this form the protective layer forming material or the so-called Potting compound with a given filling height is filled.

alternative The affected battery components may be in the final assembly Condition with cell assembly arranged in the battery housing in the battery housing cover, which serves as a casting mold, with the material forming the protective layer is potted. For this be the battery components in an analogous manner as in Potting poured in the mold with the potting compound.

Around a complete potting of all relevant battery components To achieve, the protective layer in the area above the cell surface is so manufactured as a potting compound and formed that first a protective layer forming material partially in the horizontal arranged shape or horizontally arranged battery case cover, with the or in this form or in the battery housing cover arranged end assembled battery components is introduced and after hardening of the horizontal protective layer further Material in the tilted, in particular by at least 45 °, in particular tilted by a maximum of 90 ° or the tilted battery case cover is introduced. there For example, the shape or battery case lid is preferred twice by at least 45 °, in particular at most Tilted 90 °, leaving a u-shaped protective layer gives or the potting U-shaped the relevant Battery components surrounds.

The Battery is preferably a vehicle battery, in particular a Battery for a hybrid vehicle or a fuel cell vehicle. Such a secured battery is safe to operate in a vehicle, because by means of the solution according to the invention it is ensured that the battery also, for example, after an accident of the vehicle no danger runs out and In addition, the battery, in particular the battery electronics after a Accident is still in operation and can continue to operate.

The advantages achieved by the invention are in particular that by the coated with a protective layer battery components, the function of these components in the so-called venting case and thus at an exit from Gases is maintained. In addition, the protective layer as a heat sink protects against thermal stress, in particular overheating of electronic battery components. In addition, the protective layer serves as protection against environmental influences, moisture, condensation and other possible stresses. Furthermore, the protective cover can be applied in different stages of production.

embodiments The invention will be explained in more detail with reference to drawings.

there demonstrate:

1 an exploded view of a battery with battery case and battery case cover and can be arranged cell composite of single cells, cooling plate and cell connector, and head side of the cell assembly anordbarer electronic assembly,

2 a sectional view of a longitudinal section of a battery in the assembled state, with pole side arranged battery components, such as cooling plate, cell connector, cooling plate, electronics assembly, each provided with a protective layer, and

3 a sectional view of a longitudinal section of a battery in the assembled state, with pole side arranged battery components, such as cooling plate, cell connector, cooling plate, electronics assembly, each encapsulated with a protective layer forming material and thus encapsulated.

each other corresponding parts are in all figures with the same reference numerals Mistake.

1 shows an exploded view of a battery 1 with a battery case 2 , The battery 1 is in particular a vehicle battery, z. As a battery for a vehicle with hybrid drive or for a fuel cell vehicle.

The battery case 2 For example, is made in two parts and includes a battery housing base 2.1 and a disposable and lockable battery case cover 2.2 ,

In the battery case 2 is a cell network 3 from single cells 4 locatable. Here is the cell network 3 For example, as a prefabricated mounting module together with a pole side arranged cooling plate 5 and cell connectors 6 as well as on this and thus on the head side of the cell composite 3 arranged electronic assembly 7 in the battery case 2 , in particular the battery housing lower part 2.1 used. Subsequently, the battery housing lower part 2.1 with the battery case lid 2.2 locked. Alternatively, the cell composite 3 separately in the battery housing lower part 2.1 be used. Subsequently, then the cooling plate 5 , the cell connectors 6 and the electronics assembly 7 pole mounted.

In the exemplary embodiment is a so-called head or pole side cooled battery 1 shown. Alternatively, a reverse construction may also be a bottom-cooled battery 1 act.

The battery case 2 is for example made of a lightweight and stable material, eg. As aluminum. In the battery case 2 are for example as single cells 4 Lithium-ion battery cells in the cell assembly 3 in the longitudinal direction parallel to each other and so in series and a plurality of rows of single cells 4 parallel to each other and in particular staggered to each other that the cell composite 3 forms a honeycomb structure.

In a manner not shown are cell poles of the individual cells 4 through recesses in the cooling plate 5 passed. On the cell poles of neighboring single cells 4 are the cell connectors 6 set up so that the individual cells 4 connected in series and / or in parallel with each other and on the cooling plate 5 are attached.

Since lithium-ion battery cells heat up very strongly when the charging and / or discharging current is too high, but especially during a short circuit, internal cells build up inside the cells 4 a very high internal pressure, which leads to the destruction of the individual cells 4 can lead. In a possible embodiment, the individual cells 4 In order to avoid an explosive destruction, in addition, for example, a device not shown in detail for a controlled pressure reduction, z. B. rupture discs, especially in the bottom region of the respective single cell 4 on. When a single cell bursts 4 , ie when opening the rupture disk, are in the battery case 2 prevailing internal pressure and outgassing advantageous about one in the battery case 2 provided, not shown opening reducible.

Due to the escaping gases, however, it may cause damage to particular electronic components of the battery 1 like the electronic assembly 7 , the cell connector 6 or a cell connector board and / or the cell poles of the single cells 4 and other components come. To avoid this, at least one of a plurality of pole side arranged, in particular electronic battery components is partially or completely of an electrically insulating protective layer 8th surround. In the 2 and 3 are different embodiments for this protective layer 8th shown.

In 2 is a possible embodiment in which, for example, the electronic assembly 7 , the cell connectors 6 and the cell poles 9 of the single cells 4 partially with the protective layer 8th surrounded in a kind of overflow. Such a casting is preferably prior to mounting the battery 1 applied to the relevant components. In contrast, these components are in the embodiment according to 3 completely from the protective layer 8th surrounded in the manner of a potting. Such a potting is preferably after the installation of the battery 1 with the battery case 2 produced as a mold.

Such a protective layer 8th serves to protect the cell head area of the battery 1 and the electronics in the high voltage and low voltage range against the particular electrically conductive venting gases in the case of cell opening in case of overload. As a result, it is largely avoided that short-circuit currents can form in this sensitive area, rapid overheating or thermal destruction occurs, or damage is caused by rapid corrosion processes. In addition, a further operation of the battery management electronics, which in the with the protective layer 8th encapsulated electronic assembly 7 is integrated, so that even in case of failure over a long period of time, the single cells 4 and the battery 1 can be monitored.

Depending on the type of battery 1 be and are in a head-side alignment of the individual cells 4 with the cell poles 9 all above the cell surface arranged battery components of the protective layer 8th surround; otherwise, the side or bottom of the individual cells 4 arranged electronic battery components of the protective layer 8th surround. By using a separate headspace, a further increase in robustness and resistance to venting gases is possible.

Conveniently, the protective layer 8th formed from a heat and heat resistant, flame retardant and / or electrically insulating material which is a silicone, a paint, a foam or epoxy resin. The material used also has a correspondingly high heat capacity, whereby the protective layer 8th the function of a heat sink (capacitive cooling) takes over. As a result, over a longer period overheating of the electronic unit 7 avoided, although the ambient temperatures are well above the operating temperature of these.

The protective layer 8th can be applied to the battery components in various ways.

For the preparation of the partial protective layer 8th after the in 2 illustrated embodiment, the material of the protective layer 8th on the surface of the respective battery component, for. B. the electronic assembly 7 , the cell connector 6 or a cell connector board, the cell poles 9 , sprayed on or painted on. Alternatively, the or more battery components in the protective layer 8th submerged forming material, wherein the material after removal of the battery component on the respective battery component as a protective layer 8th remains.

For producing the encapsulation of the battery components according to the embodiment according to 3 through the protective layer 8th As in the area above the cell surface trained potting compound becomes a protective layer 8th forming material completely or partially introduced into a corresponding shape with the or arranged in this form final assembled battery components. As a form, in particular, the battery case cover 2.2 used. In other words: after final assembly of the cell assembly 3 with the head-end battery components, such as the electronics assembly 7 for cell monitoring, the cell connector board or cell connector 6 , the cell heads including the cell poles 9 these are shed. For this purpose, the assembled block in the battery housing cover 2.2 turned upside down and potting compound sufficiently filled up.

Alternatively, first, a protective layer 8th forming material partially in a horizontally arranged shape, in particular in the battery housing cover 2.2 with which or in this form arranged endmontierten battery components are introduced. After hardening the horizontal protective layer 8th Further material is introduced into the tilted, in particular by at least 45 °, in particular tilted by at most 90 ° mold. In this case, the mold is tilted to all sides, so that there is a cup-shaped encapsulation and thus a cup-shaped encapsulation of the battery components.

1

battery

2

battery case

2.1

Battery housing base

2.2

Battery cover

3

cell assembly

4

Single cells

5

cooling plate

6

cell connectors

7

electronics package

8th

protective layer

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 102007009315 A1 [0002]
• - DE 10352046 A1 [0003]
• EP 0044753 A1 [0004]
• US 2006/0115720 A1 [0005]

Claims (27)

Battery ( 1 ), in particular a lithium-ion battery, having a plurality of individual cells connected in series and / or in parallel ( 4 ), one pole on the single cells ( 4 ) arranged cooling plate ( 5 ) and an electronic assembly ( 7 ), whereby the single cells ( 4 ) with the cooling plate ( 5 ) and the electronic assembly ( 7 ) in a battery case ( 2 ) are arranged, characterized in that at least one of a plurality, in particular pole side arranged battery components partially or completely by an electrically insulating protective layer ( 8th ) is surrounded. Battery according to claim 1, characterized in that as a battery component at least the electronic assembly ( 7 ) of the protective layer ( 8th ) is surrounded. Battery according to claim 1, characterized in that as a battery component at least cell poles ( 9 ) of the protective layer ( 8th ) are surrounded. Battery according to claim 1, characterized in that as a battery component at least cell connectors ( 6 ) and / or cell connector board from the protective layer ( 8th ) are surrounded. Battery according to claim 1, characterized in that all the battery components arranged above the cell surface are protected by the protective layer ( 8th ) are surrounded. Battery according to claim 1, characterized in that the protective layer ( 8th ) is formed of a heat-resistant and / or electrically insulating material. Battery according to Claim 6, characterized that the material is silicone, a paint, a foam or epoxy resin is. Battery according to claim 1, characterized in that the protective layer ( 8th ) is sprayed or painted on the surface of the respective battery component. Battery according to claim 1, characterized in that the or more battery components in which the protective layer ( 8th ) are dipped, wherein the material after removal of the battery component on the respective battery component as a protective layer ( 8th ) remains. Battery according to claim 1, characterized in that the protective layer ( 8th ) is formed in the region above the cell surface as a potting compound, wherein a protective layer ( 8th ) forming material completely or partially into a corresponding shape, in particular in a battery housing cover ( 2.2 ), with or arranged in this form endmontierten battery components is introduced. Battery according to claim 1, characterized in that the protective layer ( 8th ) in the region above the cell surface in such a way as a potting compound is formed and formed so that a first the protective layer ( 8th ) forming material partially in a horizontally arranged shape, in particular in a battery housing cover ( 2.2 ), with the or in this form arranged endmontierten battery components can be introduced and after hardening of the horizontal protective layer ( 8th ) further material in the tilted, in particular by at least 45 °, in particular tilted by at most 90 ° mold can be introduced. Battery according to claim 1, characterized in that cell poles ( 9 ) of the single cells ( 4 ) through recesses in the cooling plate ( 5 ) are passed. Battery according to claim 12, characterized in that the individual cells ( 4 ) through to the cell poles ( 9 ) mounted cell connectors ( 6 ) connected in series and / or parallel to one another and to the cooling plate ( 5 ) are attached. Battery according to claim 1, characterized in that the individual cells ( 4 ) are arranged in their longitudinal direction parallel to each other. Battery according to claim 1, characterized in that in a cell network ( 3 ) several single cells ( 4 ) in series and several rows of single cells ( 4 ) are arranged parallel to each other in such a way that the cell assembly ( 3 ) forms a honeycomb structure. Battery according to claim 1, characterized in that the battery ( 1 ) is a vehicle battery, in particular a battery for a hybrid drive vehicle or a fuel cell vehicle, is. Method for producing a battery ( 1 ), in particular a lithium-ion battery, having a plurality of individual cells connected in series and / or in parallel ( 4 ), one pole on the single cells ( 4 ) arranged cooling plate ( 5 ) and an electronic assembly ( 7 ), whereby the single cells ( 4 ) with the cooling plate ( 5 ) and the electronic assembly ( 7 ) in a battery case ( 2 ) are arranged, characterized in that at least one of a plurality of battery side arranged battery components partially or completely by an electrically insulating protective layer ( 8th ) are surrounded. A method according to claim 17, characterized in that as a battery component at least the electronic assembly ( 7 ) of the protective layer ( 8th ) is surrounded. A method according to claim 17, characterized in that as a battery component at least cell poles ( 9 ) of the protective layer ( 8th ) are surrounded. Method according to claim 17, characterized in that as a battery component at least cell connectors ( 6 ) and / or cell connector board from the protective layer ( 8th ) are surrounded. Method according to Claim 17, characterized in that all the battery components arranged above the cell surface are separated from the protective layer ( 8th ) are surrounded. A method according to claim 17, characterized in that as material for the protective layer ( 8th ) a heat-resistant and / or electrically insulating material is used. Method according to claim 22, characterized in that that as a material silicone, a paint, a foam or epoxy resin is used. Method according to claim 17, characterized in that the protective layer ( 8th ) is sprayed or painted on the surface of the respective battery component. A method according to claim 17, characterized in that the or more battery components in the protective layer ( 8th immersed material, wherein the material after removal of the battery component on the respective battery component as a protective layer ( 8th ) remains. Method according to claim 17, characterized in that the protective layer ( 8th ) is formed in the region above the cell surface as a potting compound, wherein a protective layer ( 8th ) forming material completely or partially into a corresponding shape, in particular in a battery housing cover ( 2.2 ), with the or arranged in this form endmontierten battery components is introduced. Method according to claim 17, characterized in that the protective layer ( 8th ) is produced and formed in the region above the cell surface in such a way as a potting compound that first a protective layer ( 8th ) forming material partially in a horizontally arranged shape, in particular in a battery housing cover ( 2.2 ), with the or in this form arranged endmontierten battery components is introduced and after hardening of the horizontal protective layer ( 8th ) further material in the tilted, in particular by at least 45 °, in particular tilted by at most 90 ° mold is introduced.