DE102018205641A1 - Battery for a motor vehicle, motor vehicle and method for monitoring a temperature of at least one battery cell of a battery - Google Patents

Abstract

The invention relates to a battery (10) for a motor vehicle, the battery (10) having a temperature monitoring device (20) for monitoring a temperature of at least one battery cell (14a) of the battery (10), the temperature monitoring device (20) comprising an evaluation unit (20). 18), which is designed to determine whether the temperature of the at least one battery cell (14a) exceeds a predetermined limit and triggering at least one predetermined measure when exceeded. Furthermore, the temperature monitoring device (20) has at least one conductor cable (22) connected to the evaluation unit (18) with an insulation which is designed as a PTC or NTC conductor cable (22) and which is partly in a specific first region (14b ) of the at least one battery cell (14a) is arranged, wherein the evaluation unit (18) is adapted to measure a resistance of the conductor cable (22) and to determine in dependence on the measured resistance, whether the temperature of the at least one battery cell (14a) exceeds the predetermined limit.

Description

The invention relates to a battery for a motor vehicle, wherein the battery has a temperature monitoring device for monitoring a temperature of at least one battery cell of the battery. In this case, the temperature monitoring device has an evaluation unit which is designed to determine, depending on a detected physical quantity, whether the temperature of the at least one battery cell exceeds a predetermined limit and under the condition that the temperature determined in dependence on the detected physical quantity exceeds the predetermined limit, trigger at least one predetermined action. The invention also includes a motor vehicle with a battery and a method for monitoring a temperature of at least one battery cell of a battery for a motor vehicle.

A high-voltage battery usually has a plurality of battery modules, wherein in a high-voltage battery module up to 12 Lithium single cells are housed. The temperature of these cells must not exceed a maximum limit, for example to prevent the cells from exploding or burning off. For this purpose, the temperatures are usually measured on the module via temperature sensors.

These temperature sensors can measure the individual cell temperatures, especially at the temperature hotspots of the cells, only indirectly because of their Verbaumöglichkeit so that conclusions must be drawn on the actual cell temperature value via approximate calculations and approximation models with appropriate safety factors.

As temperature sensors can be used, inter alia, thermistor or PTC thermistor, such as in the DE 10 2012 210 262 A1 or the DE 10 2014 200 997 A1 described.

Disadvantageously, therefore, only an indirect measurement of the critical cell hotspot temperatures is possible and no direct measurement or monitoring of individual cells. This results in high safety factors in the cell temperature calculation due to these indirect measurement methods, which in turn leads to relatively unsafe indirect methods that do not allow safe direct monitoring of critical cell hotspots.

Object of the present invention is therefore to provide a battery for a motor vehicle, a motor vehicle and a method for monitoring a temperature of at least one battery cell of a battery that allows the safest possible monitoring of the temperature of at least one battery cell of the battery in the simplest possible way.

This object is achieved by a battery, a motor vehicle and a method having the features according to the respective independent claims. Advantageous embodiments of the invention are subject of the dependent claims, the description and the figures.

A battery according to the invention for a motor vehicle has a temperature monitoring device for monitoring a temperature of at least one battery cell of the battery, the temperature monitoring device having an evaluation unit which is designed to determine depending on a detected physical quantity, if the temperature of the at least one battery cell exceeds a predetermined threshold, and under the first condition that the temperature detected in response to a detected physical quantity exceeds the predetermined threshold, to initiate at least one predetermined action. In addition, the temperature monitoring device has at least one conductor cable connected to the evaluation unit with an insulation which is designed as a PTC (Positive Temperature Coefficient) or NTC (Negative Temperature Coefficient) conductor cable and which is partly in a specific first region of the at least one Battery cell is arranged, wherein the evaluation unit is adapted to measure as the physical size of a resistance of the conductor cable and to determine depending on the measured resistance, whether the temperature of the at least one battery cell exceeds the predetermined limit.

By using an insulated conductor cable, which is designed as a PTC or NTC conductor cable, it is advantageously possible to detect the temperatures directly on the at least one battery cell of the battery, and thus directly the Zellhotspottemperaturen. In contrast to the use of individual temperature sensors also allows a conductor cable advantageously a particularly simple attachment to all individual battery cells, so that in a particularly simple manner, a monitoring of multiple battery cells is evenly possible. Since above all the training and installation of such a conductor cable in a particularly cost-effective manner is possible, this conductor cable is above all as an additional temperature monitoring means, that is, in addition to an existing temperature monitoring system, which may for example have the usual temperature sensors. The invention thus makes it possible advantageously, in a particularly simple and cost-effective manner To provide a safe, redundant temperature monitoring.

The conductor cable can, as described above, be formed from a PTC material, that is to say a PTC thermistor, or an NTC material, that is to say a thermistor, or generally a thermistor, with corresponding covering insulation. The conductor cable is preferably designed as a PTC conductor cable, since PTC materials can be formed much more easily than cables or wires than NTC materials. Another advantage of PTC materials, unlike NTC materials, is that a PTC conductor cable has a lower resistance at normal operating temperatures of the battery than in the exceptional case of exceeding the temperature limit, while a NTC conductor cable at a significant operating temperatures significantly Has higher resistance than in the exceptional case described, which also leads to higher losses and thus more waste heat in normal operation.

Furthermore, the determination as to whether the temperature of the at least one battery cell exceeds the predetermined limit depending on the measured resistance of the PTC or NTC conductor cable can be made by using a corresponding characteristic which describes the relationship between the resistance of the conductor cable and the temperature. In particular, a corresponding resistance limit value for the conductor cable can be predefined in a simple manner for the temperature limit value, which can be, for example, in the range between 50 degrees Celsius and 60 degrees Celsius. Thus, if the conductor cable is designed, for example, as a PTC conductor cable, and if, in the measurement of the resistance of the conductor cable, it is detected that the resistance exceeds the specific limiting resistance corresponding to the temperature limit value, the at least one predetermined measure is triggered. If the conductor cable is formed, for example, as an NTC conductor cable and it is detected in the measurement of the resistance of the conductor cable, that the temperature limit value falls below the corresponding resistance limit value, the at least one predetermined measure is also triggered. In this way, no elaborate modeling or calculation of the cell temperature is required, but only a corresponding resistance limit can be specified and as soon as it is exceeded or undershot, the at least one predetermined measure can be triggered.

The at least one predetermined measure may, for example, be the provision of a signal as a function of which further measures can be initiated. In particular, the predetermined measure may also represent switching off the battery or disconnecting the battery from the vehicle electrical system. This can in turn be done by opening the battery main contactors. Also, additional additional measures can be initiated, for example, increased cooling of the respective battery cells or battery modules. Also, a predetermined measure may be to output a warning signal to the driver or the like. The predetermined measure may also take various other forms.

A particularly high level of security is also given if the insulated conductor cable provides a redundant hardware line, that is, in addition to existing temperature monitoring systems is provided. Therefore, it is provided according to a particularly advantageous embodiment of the invention that the temperature monitoring device has at least one arranged in a second region in a predetermined proximity to the battery cell and coupled to the evaluation temperature sensor, wherein the evaluation unit is designed, depending on a detected by the temperature sensor Sensor temperature according to a predetermined rule to determine the temperature of the at least one battery cell and to check whether the determined temperature exceeds the predetermined limit and under the second condition that the determined in dependence on the sensor temperature of the at least one battery cell the predetermined Limit exceeds that trigger at least one predetermined action.

As a result, a redundant temperature monitoring of the at least one battery cell is advantageously provided, whereby a significantly higher security in the overall system is provided due to this additional redundancy with respect to the critical parameter of the cell temperature. The determination of the temperature of the at least one battery cell on the basis of the sensor temperature detected by the at least one temperature sensor can be carried out by known methods, in particular by determining known approximate calculations and / or approximate models with corresponding safety factors which then provide said predetermined prescription. However, since the temperature monitoring is provided by means of the conductor cable as a redundant additional monitoring measure, the safety factors used in the calculation of the temperature of the at least one battery cell based on the detected sensor temperature advantageously be chosen lower than usual, which advantageously allows a more precise temperature determination, without doing any security risks.

Preferably, an associated temperature sensor is not provided for each battery cell of the battery, but, for example, a temperature sensor for every two or three or four battery cells. As a result, space and costs can be advantageously saved, as well as the calculation effort can be reduced and yet a reliable temperature monitoring can be provided.

The additionally provided temperature sensors also allow further control tasks to be taken over. For example, as a function of the temperatures detected by means of the temperature sensors, a temperature control of the battery or of the battery modules can be regulated or controlled.

Above all, it is particularly advantageous if the evaluation unit is set up in such a way that the at least one predetermined measure is triggered as soon as either the first or the second condition is met. In other words, the at least one predetermined measure is triggered as soon as only one of the two described temperature monitoring mechanisms, namely the temperature monitoring based on the temperature sensors and the temperature monitoring based on the conductor cable determines that the temperature of the at least one battery cell exceeds the predetermined limit. Thus, a significantly increased level of security is provided. Also with regard to a possible defect, for example the temperature sensors, this gives a significantly higher level of security. This safety is particularly relevant in high-voltage applications.

Therefore, it is particularly advantageous if the battery is designed as a high-voltage battery. Especially with high-voltage batteries, a supercritical battery temperature can have fatal consequences. Thus, the invention and its embodiments, especially for high-voltage batteries provide a particularly high level of security.

Accordingly, it is also particularly advantageous if the insulation of the conductor cable is designed as a high-voltage insulation. This high-voltage insulation is designed so that even with direct contact of the conductor cable and, for example, a positive pole of a battery cell, no current can flow through this insulation and the potentials of the PTC or NTC material of the conductor cable and the battery cell pole are securely isolated from each other. This advantageously allows direct contacting of the conductor cable with the battery cells of such a high-voltage battery in a secure manner.

According to a particularly advantageous embodiment of the invention, the conductor cable is arranged in the region of a positive electrode, in particular on the positive electrode, of the at least one battery cell. The positive electrode of a battery cell represents the cell hotspot, via which the current cell temperature can be measured directly. An increasing cell temperature thus manifests itself first in a corresponding, elevated temperature of the positive electrode of this battery cell. By attaching the conductor cable directly to the positive electrode of the at least one battery cell thus a direct detection of the cell temperature is made possible via the correspondingly adjusting resistance of the conductor cable.

According to a further embodiment of the invention, the battery has at least one module with a plurality of battery cells, wherein the conductor cable is guided along respective first regions of the respective plurality of battery cells. Preferably, the conductor cable is also guided along the respective positive electrodes of the respective plurality of battery cells, which in turn allows a particularly reliable and direct temperature detection. Thus, if the conductor cable is designed, for example, as a PTC conductor cable, exceeding the limit temperature of only one of these multiple battery cells will cause the corresponding limiting resistance of the PTC conductor cable to be exceeded, thereby triggering the at least one predetermined measure. If a critical temperature value is exceeded at one point, the PTC conductor cable, for example, abruptly changes its resistance according to its PTC characteristic. In this way can be provided in a very simple way, a hardware cords for temperature monitoring and the system can safely respond to it and safely turn off the current that leads to heating. At the same time, the conductor cable provides a particularly high degree of flexibility, since it can be arranged anywhere in the installation space so that all hotspots and critical locations can be covered and monitored. This means that almost any number of battery cells can be monitored simultaneously, and in particular also any number of cell modules connected in series or also connected in parallel.

Therefore, it represents a further advantageous embodiment of the invention, when the battery has a plurality of modules, wherein a respective module has at least one battery cell, and wherein the conductor cable along respective first portions of the respective battery cells of at least two of the plurality of modules is performed. The conductor cable can also be routed along all battery cells of all modules. Thus, a temperature control for all battery cells within the battery, in particular the HV battery can be provided by only a single conductor cable. Alternatively, of course, several such PTC conductor cable in of the battery, for example one per module or one each for two, three and so on, modules. The conductor cable thus enables particularly flexible applications and can monitor the temperature at any desired point.

Furthermore, the invention also relates to a motor vehicle with a battery according to the invention or one of its embodiments. Preferably, the motor vehicle is designed as an electric vehicle or hybrid vehicle with electric motor. In such vehicles usually high-voltage batteries are used as a power supply for the electric motor, in connection with which the advantages of the invention in a particularly high degree come into play, as a result, the safety can be significantly increased especially for high-voltage batteries.

Furthermore, the invention also relates to a method for monitoring a temperature of at least one battery cell of a battery for a motor vehicle, wherein it is determined depending on a detected physical quantity, whether the temperature exceeds a predetermined limit and under the first condition that the temperature exceeds predetermined limit, at least one predetermined action is triggered. Furthermore, as the physical quantity, a resistance of an insulated PTC or NTC conductor cable arranged in a region of the at least one battery cell is measured and it is determined in dependence on the measured resistance whether the temperature exceeds the predetermined limit value.

The advantages described with reference to the battery according to the invention and its embodiments apply in the same way to the motor vehicle according to the invention and to the method according to the invention. In addition, the physical features mentioned in connection with the battery according to the invention and its embodiments enable the development of the method according to the invention by further corresponding method steps.

The invention also includes the combinations of features of the described embodiments.

• 1 eine schematische Darstellung eines Teils einer Batterie mit einem Batteriemodul gemäß einem Ausführungsbeispiel der Erfindung; und
• 2 eine schematische Darstellung einer Batterie mit mehreren Batteriemodulen und einer Temperaturüberwachungseinrichtung gemäß einem Ausführungsbeispiel der Erfindung.

In the following, embodiments of the invention are described. This shows:

• 1 a schematic representation of a portion of a battery with a battery module according to an embodiment of the invention; and
• 2 a schematic representation of a battery having a plurality of battery modules and a temperature monitoring device according to an embodiment of the invention.

The exemplary embodiments explained below are preferred embodiments of the invention. In the exemplary embodiments, the described components of the embodiments each represent individual features of the invention, which are to be considered independently of one another, which each further develop the invention independently of one another and thus also individually or in a different combination than the one shown as part of the invention. Furthermore, the described embodiments can also be supplemented by further features of the invention already described.

In the figures, functionally identical elements are each provided with the same reference numerals.

1 shows a schematic representation of a part of a battery with 10 a battery module 12 according to an embodiment of the invention. The battery module 12 is shown here in particular in an exploded view. The battery module 12 also has a cell pack, which is an array of multiple battery cells connected in series 14a includes. Furthermore, the battery module 12 a housing 16 on which an upper housing part 16a and a lower housing part 16b includes. In addition, the battery module points 12 a control unit 18 on, which in this example also the evaluation unit 18 the temperature monitoring device 20 can provide. The temperature monitoring device 20 has a PTC conductor cable 22 on, which in this example along the cell hotspots, that is, along the respective positive electrodes 14b the respective battery cells 14a is guided. These positive electrodes 14b are in there 1 represented by the corresponding points, for reasons of clarity, only one of the positive electrodes 14b is provided with a reference numeral. Per battery module 12 can do such a PTC conductor cable 22 be provided, which then, for example, with the respective control unit 18 of the module concerned 12 coupled, which then simultaneously takes over the evaluation.

Alternatively, this PTC conductor cable 22 also along several such modules 12 be guided, as for example in 2 is shown. In this case it is preferred that the evaluation unit 18 a central evaluation unit 18 represents and is not assigned to a respective module.

In addition, has a respective module 12 like that in 1 illustrated, advantageously additional temperature sensors 24 on. These can be, for example, in the area of the housing 16 be arranged, preferably also in the vicinity of the electrodes, in particular the positive electrodes 14b the respective battery cells 14a , For example, you can such temperature sensors 24 also on a circuit board in the region of the electrodes of the battery cells 14a be arranged. This board can for example be part of the control unit 18 be. The control unit 18 is further designed based on the temperature sensors 24 detected respective sensor temperatures according to a predetermined rule, for example, according to a given approximation and / or an approximation model with appropriate safety factors, the temperature of the battery cells 14a to investigate. If the temperature thus determined exceeds a predetermined limit value, the control unit triggers 18 a corresponding predetermined measure, which causes the current flow through the battery cells 14a is interrupted, as well as that the battery 10 is decoupled from the rest of the motor vehicle electrical system. In addition, the evaluation unit measures 18 continuously the resistance of the PTC conductor cable 22 , This is correlated with the cell temperature, in particular according to a characteristic, so that the exceeding of the predetermined limit temperature leads to an exceeding of a correspondingly defined limit resistance, which can be detected by measuring the resistance. For the resistance measurement, for example, a suitable voltage to the ends of the PTC conductor cable 22 be applied and the current through the PTC conductor cable are measured, which then gives the resistance according to R = U / I, where R denotes the resistance, I the current strength and U the voltage.

2 shows a schematic representation of a battery 10 according to a further embodiment of the invention. In this example, the battery includes 10 several cell modules 12 which may be connected in series and / or in parallel, for example. Along the respective modules, in particular along the respective positive electrodes of the battery cells 14a the respective modules 12 again is the PTC conductor cable 22 guided. The ends of this conductor cable 22 are again with the evaluation unit 18 coupled, which constantly the resistance of the PTC conductor cable 22 monitors and thus the temperature of the respective cell modules 12 , The battery is preferably designed as a high-voltage battery and includes, for example, eight or nine modules, wherein a respective module 12 up to twelve battery cells 14a may include.

Thus, monitoring of cell temperature hotspots by means of a PTC conductor cable can be provided as redundant hardware cords. The PTC conductor cable can thus be installed as desired, that is, ideally, be placed anywhere in the space so that all hotspots and critical locations to be expected are covered and monitored. Almost any number of cell modules connected in series can be monitored. If a critical temperature value is exceeded at one point, the PTC conductor cable abruptly changes its resistance according to the PTC characteristic. In this way, can be developed in a very simple way, a hardware cords for temperature monitoring and the system respond to it and the current load that leads to heating safely shut off. Due to the use in a high-voltage battery, it is particularly advantageous that the PTC conductor cable also has a suitable high-voltage insulation, which may be formed from a plastic having.

Thus, overall, a direct monitoring of the critical cell hotspot temperatures as well as a direct monitoring of each individual cell is made possible. This in turn allows lower safety factors in the cell temperature calculation based on the temperature sensors, since now also the redundant hardware in the form of the PTC conductor cable is present. Overall, this leads to a higher safety in the overall system due to additional redundancy with respect to the critical parameter of the cell temperature.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102012210262 A1 [0004]
• DE 102014200997 A1 [0004]

Claims (10)

Battery (10) for a motor vehicle, wherein the battery (10) has a temperature monitoring device (20) for monitoring a temperature of at least one battery cell (14a) of the battery (10), wherein the temperature monitoring device (20) has an evaluation unit (18), which is designed to determine, depending on a detected physical quantity, whether the temperature of the at least one battery cell (14a) exceeds a predetermined limit and under the first condition that the temperature determined in dependence on the detected physical quantity exceeds the predetermined limit to initiate at least one predetermined measure, characterized in that the temperature monitoring device (20) has at least one conductor cable (22) connected to the evaluation unit (18) with insulation, which is designed as PTC or NTC conductor cable (22), and which partly in a particular first Area (14b) of the at least one battery cell (14a) is arranged, wherein the evaluation unit (18) is designed to measure as the physical size of a resistance of the conductor cable (22) and to determine in dependence on the measured resistance, whether the temperature the at least one battery cell (14a) exceeds the predetermined limit. Battery (10) after Claim 1 , characterized in that the temperature monitoring device (20) has at least one in a second region in a predetermined proximity to the battery cell (14a) and coupled to the evaluation unit (18) temperature sensor (24), wherein the evaluation unit (18) is adapted to Dependence of a detected by the temperature sensor (24) sensor temperature according to a predetermined rule, the temperature of the at least one battery cell (14a) to determine and to check whether the determined temperature exceeds the predetermined limit and at least under the second condition that in dependence Temperature of the at least one battery cell (14a) determined by the sensor temperature exceeds the predetermined limit value which triggers at least one predetermined measure. Battery (10) after Claim 2 , characterized in that the evaluation unit (18) is arranged such that the at least one predetermined measure is triggered as soon as either the first or the second condition is met. Battery (10) according to one of the preceding claims, characterized in that the battery (10) is designed as a high-voltage battery (10). Battery (10) according to one of the preceding claims, characterized in that the insulation of the conductor cable (22) is designed as a high-voltage insulation. Battery (10) according to one of the preceding claims, characterized in that the conductor cable (22) in the region of a positive electrode (14b), in particular on the positive electrode (14b), the at least one battery cell (14a) is arranged. Battery (10) according to one of the preceding claims, characterized in that the battery (10) has at least one module (12) with a plurality of battery cells (14a), wherein the conductor cable (22) along respective first regions of the respective plurality of battery cells (14a) is guided. Battery (10) according to one of the preceding claims, characterized in that the battery (10) comprises a plurality of modules (12), wherein a respective module (12) has at least one battery cell (14a), and wherein the conductor cable (22) along respective first areas of the respective battery cells (14a) of at least two of the plurality of modules (12) is guided. Motor vehicle with a battery (10) according to one of the preceding claims. A method for monitoring a temperature of at least one battery cell (14a) of a battery (10) for a motor vehicle, wherein it is determined in dependence on a detected physical quantity, whether the temperature exceeds a predetermined limit and under the first condition that the temperature of the predetermined Threshold exceeds, at least one predetermined measure is triggered, characterized in that as the physical quantity, a resistance of a in an area (14 b) of the at least one battery cell (14 a) arranged, insulated PTC or NTC conductor cable (22) is measured and in Depending on the measured resistance is determined whether the temperature exceeds the predetermined limit.

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