WO2013113473A1 - High-voltage battery for a vehicle and method for operating a high-voltage battery - Google Patents

Abstract

The invention relates to a high-voltage battery (10) for a vehicle, which has a plurality of battery cells (12). At least one device (18) for temperature identification experiences an irreversible change of state when a threshold value for the temperature is exceeded. In this case, the at least one device (18) for temperature identification is designed to change irreversibly from an initial state into a second state independently of an electrical current flow when the threshold value is exceeded. Furthermore, the invention relates to a method for operating such a high-voltage battery (10).

Description

 High-voltage battery for a vehicle and method for operating a high-voltage battery

The invention relates to a high-voltage battery for a vehicle, which has a plurality of battery cells. The high-voltage battery further comprises at least one device for temperature detection, which occurs when a threshold value of the temperature is exceeded, an irreversible change in state. Furthermore, the invention relates to a method for operating such a high-voltage battery.

From the prior art, such as the US 2005/0233210 A1 or the

US 2010/0028723 A1, it is known in the current path of a high-voltage battery a

Provide fuse. This interrupts the flow of current when it heats up so much due to the current flowing through it, that a fuse element of the fuse melts.

Based on this so-called tripping of the fuse can thus be found that a threshold value of the temperature has been exceeded, namely that which has led to melting of the fusible conductor.

Object of the present invention is to provide a high-voltage battery of the type mentioned above and a method for operating such a high-voltage battery, which or which allows a particularly safe handling of the high-voltage battery.

This task is performed by a high-voltage battery with the characteristics of

Patent claim 1 and solved by a method having the features of claim 7. Advantageous embodiments with expedient developments of the invention are specified in the dependent claims. In the case of the high-voltage battery according to the invention, the at least one device for temperature detection is designed to irreversibly change from an initial state to a second state, independently of an electric current flow when the threshold value is exceeded. This is based on the finding that it is possible by means of conventional fuses only with active, ie in operation current-providing or current-consuming high-voltage battery, thermal loads to detect, which can potentially lead to an unsafe battery behavior.

Due to the independent of the passage of electrical current to a heating responsive device for temperature detection, a thermal load can also be detected in the passive battery state, so for example when the vehicle is stationary and the battery is not charged. The device for

Temperature detection is thus designed as a passive component, which is not the

Being traversed by electric current as a trigger requires to irreversibly change from the initial state to the second state.

A backup of the high-voltage battery, which may be necessary due to the thermal load, for example in the form of a shutdown of the same, can then be carried out or triggered. In addition, for service personnel, rescue services and the like operators a potentially unsafe battery condition can be seen, namely because the device for temperature detection is irreversibly transferred to the second state. The operator therefore notices, on the basis of the temperature detection device transferred to the second state, that at least locally the

Threshold of the temperature has been exceeded and therefore potentially an unsafe battery may be present.

The fact that the overtemperature detection, as a result of a fire, regardless of the active operation of the high-voltage battery can be made, a long-term monitoring of the passive high-voltage battery is possible, such as storage, spare parts inventory or reuse. Furthermore, a safe and sustainable decommissioning of the high-voltage battery can take place if due to the thermal load situations have occurred that require a transport safety assessment. Unsafe high-voltage batteries can thus easily be distinguished from other high-voltage batteries in which the threshold value was not exceeded and thus the device for detecting the temperature is in its initial state. This brings particularly low costs for the transport, the determination of findings or the rework on defective high-voltage batteries with it. By the device for

Temperature detection is therefore a particularly safe handling of the high-voltage battery allows.

Preferably, the at least one device for temperature detection is designed to change when exceeding a threshold value of the temperature from a temperature interval of 60 ° C to 120 ° C in the second state. This ensures that the high-voltage battery was not exposed to temperatures beyond which the safety of components of the high-voltage battery could possibly be restricted. This is especially true when the device for temperature detection when exceeding a threshold value of the temperature from the temperature interval of 80 ° C to 100 ° C changes from the initial state to the second state.

The exceeding of the threshold value of the temperature can be detected particularly reliably if a plurality of devices for the high-voltage battery are used

Temperature detection are arranged at different installation locations. This also allows inhomogeneous temperature loads of the high-voltage battery

determine if it has come only locally to a warming, in which the threshold value of the temperature has been exceeded. The facilities for

Temperature detection can also be provided redundantly, so that at least two such devices are present at the same location.

Furthermore, it can be provided that, in order to increase the reliability of detection and to increase the robustness of the detection, various devices for temperature detection in the high-voltage battery are arranged on the basis of their functional principle.

For example, the at least one device for temperature detection in the second state may have a different color than in the initial state. In particular, such color changes can take place at different temperatures from one another, so that, depending on the exceeded threshold value of the temperature, respective temperature detection devices trigger different temperature changes.

The at least one device for temperature detection may further be deformed in the second state relative to the initial state, for example in the manner of a

Bimetal, which deforms under temperature load, in which case then it is ensured that during the subsequent drop in temperature, the bimetal does not return to its original shape.

In a further advantageous embodiment of the invention, at least one component of the at least one device for temperature detection when changing to the second state undergoes a change in the state of aggregation, which is at least indirectly recognizable. For example, the melting of the component may result in a change in the appearance of the device. This changed

Appearance then suggests that the threshold of temperature has been exceeded at the installation site of the facility. Also, the heating that results in exceeding the threshold temperature may cause the gas bubble of the temperature detection device to expand, which in turn results in the escape of a liquid or solid from the device.

The at least one device for temperature detection can be arranged in a line for monitoring connections of the high-voltage battery and / or in a pre-charge line of the high-voltage battery and / or in a line for driving at least one contactor of the high-voltage battery. Furthermore, an arrangement in one

Low-voltage line possible, which serves to supply a control device of the high-voltage battery, and / or an arrangement in a line, which

Insulation measurement of the high-voltage battery is used. If the facility for

Temperature detection is arranged in a measuring line for a current measurement and / or in a line for detecting a temperature and / or voltage of the battery cells of the high-voltage battery, so it is particularly easy and easy to determine whether the threshold value of the temperature has been exceeded in the region of these lines.

In the method according to the invention for operating a plurality of

Battery cells having high-voltage battery for a vehicle is at least one device for temperature detection due to exceeding a

Threshold of the temperature irreversibly transferred from an initial state to a second state. In this case, the at least one device changes to

Temperature detection independent of electrical current flow during

Crossing the threshold from the initial state to the second state. This allows a particularly safe handling of the high-voltage battery, since the irreversible change in the second state for an operator is easily recognizable. The advantages and preferred embodiments described for the high-voltage battery according to the invention also apply to the method according to the invention.

The features and feature combinations mentioned above in the description as well as the features and feature combinations mentioned below in the description of the figures and / or shown alone in the figure are not only in the respectively indicated combination, but also in other combinations or in

Used alone, without departing from the scope of the invention.

Further advantages, features and details of the invention will become apparent from the claims, the following description of preferred embodiments and from the drawing.

This shows schematically a high-voltage battery, in which at a plurality of installation locations, a fuse is provided which triggers regardless of a current flow through the high-voltage battery when a threshold value is exceeded.

The figure shows schematically a high-voltage battery 10 of a vehicle, which comprises a - or in other embodiments a plurality - stack of battery cells 12. The battery cells 12 may in this case be designed in particular as lithium-ion cells. In one of the battery cells 12 to an electrical terminal 14 of the

High-voltage battery 10 leading line is a high-voltage fuse 16 is arranged, which interrupts the circuit as an overcurrent protection device when in operation

High-voltage battery 10 a current of great magnitude occurs. However, this high-voltage fuse 16 triggers only in active operation of the high-voltage battery 10, so when it is discharged or charged.

In the present case, as further devices for temperature detection, one or, as shown in the exemplary embodiment, several fuses 18 are provided which trigger independently of whether the high-voltage battery 10 is active or not. Rather, these devices for temperature detection are designed as passive components, which make it possible for a high-voltage battery 10 located in a bearing to determine whether this high-voltage battery 10 was exposed to an undesirable thermal load, which could potentially have led to unsafe battery performance. Such a fuse 18 may be arranged, for example, in an interlock line 20 of the high-voltage battery 10, which serves as a signal line to determine whether 10 open switch or a cable break are present in the range of terminals 14, 22 of the high-voltage battery. However, a fuse 18 may also be arranged in a precharge circuit 24, that is in a line branch, in which a high resistance ensures that at high voltage of the high-voltage battery 10 voltage drops, and which is then bridged, if no damage from the high-voltage battery 10 to be connected electrical or electronic components is more to be feared.

Another possibility is to arrange a fuse 18 in lines 26, via which contactors 28, 30 of the high-voltage battery 10 are driven. These lines 26, like the interlock line 20, are coupled to a control unit 32 of the high-voltage battery 10, which comprises a battery management unit 34 and a monitoring device 36 for safety monitoring.

To supply the controller 32 with power from the electrical system is a

Low-voltage line 38 is provided, in which also a fuse 18 may be arranged. Moreover, it is possible in a line 40, which serves for the insulation measurement of the high-voltage battery 10, and which the resistance between the positive terminal and a housing 42 of the high-voltage battery 10 and between the

Negative pole and the housing 42 measures to provide a fuse 18. A fuse 18 may further in a measuring line 44 for a

Current measuring device 46 may be arranged, which is also connected to the controller 32.

Furthermore, in the present example, fuses 18 are shown in lines which are associated with a voltage measuring device 48 or a temperature measuring device 50, that is to say the voltage and temperature of the battery cells 12 are detected.

Instead of using existing safety circuits for the integration of the fuse 18 in selbige, but it may also be provided to arrange the fuse 18 or such a device for temperature detection in a specially connected for this purpose to the control unit 32 line. In addition or as an alternative to the fuses 18 as an example, color indicators can be used as devices for temperature detection, which show a color change when a temperature threshold is exceeded.

The said devices for temperature detection have in common that they can detect the occurrence of thermal stress on the high-voltage battery 10 even when there is no electrical current flow. In these facilities for

Thus, temperature detection is not an excessive current flowing through it, which ensures that it is irreversibly transferred from an initial state to a second state. Such passive components thus enable in particular long-term monitoring of the high-voltage battery 10 and overtemperature detection independently of the active operation of the high-voltage battery 10.

If, due to the exceeding of the threshold value of the temperature, a change of state of the device for temperature detection, for example the fuse 18, has set, then this change from the initial state to the second state is irreversible and therefore easily detectable by an operator. If the presence of the second state is noticed, in the case of the fuse 18, therefore, the melting of a corresponding temperature-sensitive element of the

Fuse 18, this is a clear indication that the

High-voltage battery 10 is to be examined more closely. In this case, a self-diagnosis is preferably possible, for example via a measurement of the internal resistance.

In particular, devices for temperature detection of different types can be used in order to increase the reliability of detecting temperature loads on the high-voltage battery 10.

The high-voltage battery 10 further comprises a cooling connection 52, via which a cooling liquid or a refrigerant can be introduced into a cooling circuit 54 of the high-voltage battery 10. Another inlet 56 or outlet is provided for pressure equalization. A bursting device 58 ensures that a high internal pressure of the high-voltage battery 10 that occurs due to an error can be reduced. Via a CAN bus 60 there is a communication between the control unit 32 of the high-voltage battery 10 and other components of the vehicle. LIST OF REFERENCE NUMBERS

10 high-voltage battery

 12 battery cell

 14 connection

 16 high-voltage protection

 18 fuse

 20 interlock line

 22 connection

 24 precharge circuit

 26 line

 28 contactor

 30 contactor

 32 control unit

 34 battery management unit

36 monitoring device

38 low-voltage line

 40 line

 42 housing

 44 measuring line

 46 current measuring device

48 voltage measuring device

50 temperature measuring device

52 cooling connection

 54 cooling circuit

 56 inlet

 58 Bursting direction

 60 CAN bus

Claims

claims

1. High-voltage battery for a vehicle, having a plurality of battery cells (12) and at least one device (18) for temperature detection, which upon exceeding a threshold value of the temperature irreversible

 Change of state,

 characterized in that

 the at least one device (18) for temperature detection is designed to be independent of an electrical current flow when it is exceeded

 Threshold from an initial state irreversibly to a second state.

2. High-voltage battery according to claim 1,

 characterized in that

 the at least one device (18) for temperature detection is designed to switch over from a threshold value of the temperature

 Temperature interval of 60 ° C to 120 ° C, in particular from 80 ° C to 100 ° C, to change to the second state.

3. High-voltage battery according to claim 1 or 2,

 characterized in that

 a plurality of means (18) for temperature detection at different installation locations in the high-voltage battery (10) are arranged.

4. High-voltage battery according to one of claims 1 to 3,

 characterized in that

the at least one device (18) for temperature detection in the second state has a different color than in the initial state and / or is deformed from the initial state.

High-voltage battery according to one of claims 1 to 4,

characterized in that

at least one component of the at least one device (18) for

Temperature detection is designed such that it undergoes a change in the state of aggregation when changing to the second state, which is at least indirectly recognizable.

High-voltage battery according to one of claims 1 to 5,

characterized in that

the at least one device (18) for temperature detection

 in a line (20) for monitoring terminals (14, 22) of

 High-voltage battery (10) and / or

 in a precharge line (24) of the high-voltage battery (10) and / or

 in a line (26) for driving at least one contactor (28, 30) of the

High-voltage battery (10) and / or

 in a low-voltage line (38) designed to supply a control device (32) of the high-voltage battery (10) and / or

 in a line (40) for insulation measurement of the high-voltage battery (10) and / or in a measuring line (44) for a current measurement and / or

 in a line for detecting a temperature and / or a voltage of the battery cells (12) of the high-voltage battery (10)

is arranged.

A method for operating a high-voltage battery (10) for a vehicle, which has a plurality of battery cells (12), wherein at least one means (18) for temperature detection due to exceeding a

Threshold value of the temperature is irreversibly transferred from an initial state to a second state,

characterized in that

the at least one device (18) for temperature detection changes from the initial state to the second state independently of an electric current flow when the threshold value is exceeded.