WO2012168180A2 - Energy system for a vehicle, method for reducing the charging of a battery and motor vehicle - Google Patents

Abstract

The invention relates to an energy system for a vehicle and to a method for reducing the charging of a battery. According to the invention, in order to reduce the charging of a battery (1), in particular a lithium ion battery, at least one consumer device is used, every operating mode of which has the effect of reducing the charging of the battery (1), wherein, by means of a control device (50), the consumer device is activated upon the input of a danger signal in such a way that a reduction in the charging of the battery (1) by at least 90% is implemented within a specific time interval by means of the consumer device. The invention further relates to a motor vehicle which has an energy system according to the invention.

Description

 Description title

 Energy system for a vehicle, method for reducing the charge of a battery and motor vehicle

The present invention relates to an energy system for a vehicle, in particular for an electric motor driven vehicle and a method for reducing the charge of a battery, in particular a lithium-ion battery.

Furthermore, the present invention relates to a motor vehicle, in particular a motor vehicle driven by an electric motor.

State of the art

There is a significant demand for batteries for a wide range of applications, such as vehicles, stationary equipment and mobile electronic devices.

Predestined for a wide range of applications is lithium-ion technology. It is characterized among other things by high energy density and extremely low self-discharge.

Lithium-ion cells have at least one positive and one negative electrode (cathode or anode), which can reversibly intercalate or deintercalate (deintercalation) lithium ions (Li ⁺ ) by means of an electrolyte component.

Commercially established lithium-ion cells can be present as a roll or stack in the so-called hardcase or in the so-called soft pack. Soft packs or pouch cells are cell units packaged with an aluminum composite foil; The term lithium-ion polymer cells is also used. Nominal capacities of lithium-ion single cells for cars or trucks are in the range of 3 Ah to 300 Ah, and typically between 4 Ah and 80 Ah, to the high electrical required for the required high drive power

To be able to provide voltages or currents. When using such energy storage for driving vehicles, however, the safety of the vehicle occupants and the environment of the vehicle must be ensured in every situation. This means that even in the case of an accident or accident of the vehicle or the battery cell and / or in an insulation fault in an electrical line connected to the battery, the risk of electric shock must be prevented.

The usually used in detecting a dangerous situation service device whose function can be taken over, for example, the battery management system is, depending on the configuration, with respect to a serious accident and / or serious insulation fault alone insufficient to avoid electric shock, since such a service device only then safety precautions meet if it itself was not affected by the accident.

A known method for risk minimization is to make a targeted emergency discharge of the battery cells. As a result, it is possible, in particular after recognition of certain dangerous situations, such as after an accident, to balance potential differences between the battery and the environment in a targeted and controlled manner and thus eliminate the risk of electric shock. In this regard, US 2010/0026242 A1 discloses a method and a device for discharging an energy storage system, in which, in the event of an accident, an emergency discharge is carried out by means of a first and / or second discharge resistor. From US 7,592,776 B2, an energy storage unit is known, which in the case of

Danger situation can be discharged. During unloading, the in

Energy storage stored electrical energy is converted into heat. For this purpose, in particular serve a charging coil, the operation of which is set up and arranged to charge the battery. For discharge is thus a certain

Circuit engineering and control engineering effort to operate by the originally not intended for the discharge coil to realize a conversion of the electrical energy into heat.

Disclosure of the invention

According to the invention, an energy system for a vehicle, in particular for an electromotive driven vehicle, is provided, wherein the energy system comprises at least one battery, in particular a lithium-ion battery, and at least one electrically connected to the battery

Consumption device, any operation of which reduces the charge of the

Battery causes. Furthermore, the energy system according to the invention comprises a control device. The energy system is set up such that upon receipt of a danger signal in the control device with this the

Consumption device is controlled such that by means of the consumption device within a certain period of time, a reduction in the charge of the battery by at least 90% can be realized. From the concept of the battery in the sense of the

Invention also battery cells and battery cell modules, which have a plurality of battery cells, includes his. The consumption device is thus set up and arranged for implementing the electrical energy stored in the battery and / or for monitoring and / or regulating the battery. This means that when using the energy system according to the invention in an electric motor driven vehicle the

Consumption device for driving the vehicle and / or for the realization of at least one further electrical process in the vehicle while consuming the

Charge is set up during the electrical operation of the vehicle or its electrical operational readiness. For the purposes of the invention, the operation of the vehicle means the driving state of the vehicle or its traveling readiness, and not the state of the vehicle during the charging of the battery.

The period of time during which said charge minimization is to be realized is preferably at most 60 s from the time the hazard signal is received in the

Control device. The time span can vary depending on the desired

Danger elimination be selected. If there is no danger to humans and animals, this period of time can be significantly exceeded, depending on permissible operating parameters and boundary conditions such as temperatures in cells, the consumer or the lines. The period of time within which a detected hazardous voltage potential is to be reduced is preferably at most 30 ms in order to prevent an electric shock or life-threatening effects of an electric shock even in the event of a fault.

The reduction of the charge of the battery should be at least 90%. That is, based on the state of charge of the battery prior to receipt of the danger signal after the discharge made by the consumer device maximum 10% of the charge should be present, in particular preferably not more than 5% and, for absolute risk elimination, in particular 0% of the charge should be present. This means that preferably a complete equipotential bonding between the battery and the environment should be realized.

The consumer device may be a device in whose operation electrical energy can be implemented. Such a consumption device is for example a device that is powered by the battery during operation of the motor vehicle, such as a heater for controlling the temperature of the passenger compartment or the converter for operating the electric drive. Such implementing

Facilities use electrical energy in other forms of energy such as

Example heat around. In particular, by means of the electrically operated heating device a quick potential equalization is possible.

In an alternative embodiment, the consumption device may be a device, upon actuation of which a flow of current into the environment of the vehicle can be realized. For example, for this purpose, a device for preventing the static charge of the vehicle can be used, which can be configured such that with it a targeted potential equalization can be realized. Such a device for preventing the static charge may be connected to an opening switch, the deactivation of which, on the basis of a danger signal, enables, for example, a potential equalization to the ground via a conductor loop.

In a further alternative embodiment can be provided that the

Consumption device is a balancing device with which a Charge balance between multiple cells of at least one battery can be realized. This means that in this case the consumption device for monitoring and / or regulating the battery is set up and arranged. The balancing device can be part of the battery management system. For the purposes of the invention, it is to be assumed that the balancing device is supplied by the battery, so that the operation of the balancing device results in a reduction of the charge in the battery. In particular when the balancing device is embodied as an integral part of the battery management system, it may be provided that the control device is also a component of the battery management system.

In an alternative embodiment, however, the control device may also be a simple mechanical device, such as a switch, which responds to extreme accelerations, as they occur in accidents.

In a preferred embodiment, the energy system is set up such that with the control device first the balancing device for carrying out a charge equalization between several cells can be controlled and then a further consumption device can be controlled, upon actuation of which electrical energy can be converted or a current flow into the environment of the vehicle is feasible. This means that with the energy system according to the invention, depending on the severity of an accident or an insulation fault initially a targeted discharge by means of balancing can be tried, and upon detection of a continuing hazard potential targeted discharging by means of a consumer device with conversion of electrical energy or a

Current flow is realized in the environment of the vehicle.

Furthermore, a method for reducing the charge of a battery, in particular a lithium-ion battery is provided according to the invention, by means of at least one consumer device whose operation any one

Reduction of the charge causes, by means of a control device at

Input of a danger signal, the consumer device is driven such that by means of the consumption device within a certain period of time, a reduction in the charge of the battery is realized by at least 90%. This is, as already described in relation to the energy system according to the invention, with a low circuit engineering and control effort a targeted discharge of the battery by means of the operation of the vehicle anyway provided components possible.

The period of time within which the reduction of the charge of the battery is to take place, is from the input of the danger signal to the control device in

Dependent on the desired risk elimination, preferably a maximum of 60 s. The inventive method for reducing the charge of a battery can be advantageously designed in particular by initially balancing a plurality of cells with a balancing device and then converting electrical energy by means of another consumer device a current flow is realized in the environment of the battery. If the cell balancing is carried out by means of a battery management system of a vehicle battery, this means that the control device firstly controls the battery management system to carry out a charge equalization between a plurality of cells and then activates a further consumption device, upon actuation of which the electrical energy is converted Current flow to the environment of the battery or the vehicle is realized. The conversion of the electrical energy into kinetic energy in an electric motor or heat in a heater is understood here, for example. That is, according to the invention, primarily a discharge of the battery with opened contactors by means of balancing, optionally controlled by the battery management system, is carried out, wherein the battery can be disconnected from the high-voltage network of the vehicle. Only upon detection of a danger from the still existing potential of the battery, which could not be reduced, is used in addition to or instead a discharge of the battery by means of the consumption device, in the operation of electrical energy is implemented or a current flow in the environment of the battery or the vehicle is realized. The advantage of the method according to the invention is the minimization of the risk for persons or objects in the environment of the energy system by the discharge by means of the balancing device, which can establish a charge balance between individual battery cells, with no currents to the body or the chassis of the vehicle or into the environment. Only when a danger is recognized by the remaining potential, a rapid discharge by closing the contactors and a concomitant flow of current to the body and / or the environment should be done in order to eliminate in a very short time the risk resulting from the battery charge, and consequently rule out that there is a risk of electric shock after the targeted discharge.

The danger signal, which can trigger the targeted discharge, can be generated, for example, upon detection of a deviation of an actual parameter from a desired parameter range of a physical quantity, wherein the

physical quantity the temperature of the battery, the acceleration of the battery, a geometric measure of the battery, an electrical voltage at

Battery management system, a resistor in a voltage divider or an existing AC voltage can be. For example, a danger signal at a temperature of the battery above 200 ° C, preferably already from a temperature of

60 ° C., which may already indicate an impermissible overheating and possibly also a so-called "thermal runaway." In addition, the danger signal can also be generated when detecting, in particular, a negative acceleration, which is for example the case of a vehicle impact The danger signal can, however, also on detection of a positive acceleration upon impact of an object, such as another vehicle to that with the inventive

Energy system equipped vehicle to be generated. That means that at

Detection of a potential accident the danger signal is generated. In such an accident, damage to the battery and / or the insulation of the electrical lines can not be ruled out, so that consequently the risk of an electric shock is assumed. Furthermore, the danger signal can be generated if the battery has been deformed inadmissible, so that at least a geometric dimension of the battery no longer corresponds to the setpoint parameter range. Such deformation may be due, for example, to increased

Internal pressure and / or due to a mechanical external load, both of which indicate accident situations. In particular, in the event of a failure of the battery management system is a change in the voltage at

Record battery management system, so based on this

Voltage change from the risk of electric shock due to lack of power Functionality of the battery management system is assumed. In an arranged within the battery management system voltage divider, which is preferably connected in high impedance with the respective contacts of the battery, in an insulation fault, which causes an unintended flow of current, for example, between the battery and the body and / or the environment, a change of

Voltage distribution recorded. By evaluating the respective resistance, an insulation fault that could lead to a dangerous electric shock can thus be detected. In a so-called AC method (AC method), a coupled into the high-voltage circuit of the vehicle AC signal is evaluated. By evaluating this signal, an insulation fault can be detected.

The inventive method is preferably designed such that in the targeted discharge also a cooling of the battery is made, as in the event of an accident, a so-called thermal runaway of the battery ("thermal runaway") can not be excluded, which may damage the battery and / or When the converter and / or electric motor of the electric drive unit of a vehicle is used to reduce the charge of a battery according to the invention, it can be provided that these are likewise cooled.

The method according to the invention can be used not only for preventing electric shocks in emergency situations, but also for preparing the recycling at the end of the service life of the battery, wherein a dangerous situation is simulated or the targeted production of a deviation of an actual parameter from a target

Parameter range of a specified physical quantity is generated, so that a corresponding hazard signal is generated, which triggers the potential equalization.

Furthermore, according to the invention, a motor vehicle, in particular a

provided electromotive powered motor vehicle, which comprises at least one energy system according to the invention. drawings

The present invention will be described with reference to the accompanying drawing

illustrated embodiment explained.

The sole FIGURE 1 shows schematically an energy system according to the invention.

This energy system comprises a battery 1, which may be in particular a lithium-ion battery. Control technology is coupled to the battery 1 a

Battery management system 10. With the battery 1, an electric motor 20 and a heater 30 is further electrically connected. The electric motor 20 is preferably for driving an electric vehicle, which with the

equipped energy system according to the invention is furnished. The heating device 30 is preferably set up to heat the passenger compartment of the vehicle. The energization of the electric motor 20 is realized by closing the second switch 52. The energization of the heater 30 is realized by closing the first switch 51. The two switches 51 and 52 are each with a

Control device 50 connected. This control device 50 is in turn connected to a detection device 40 in terms of control technology. The

Detection device 40 may be configured to detect a deviation of an actual parameter from a desired parameter range of a physical quantity, the physical quantity being, for example, the temperature of the battery, the acceleration of the battery, a geometric measurement of the battery, the electrical voltage on

Battery management system 10, the resistor in a not shown

Voltage divider or an alternating voltage in a high-voltage circuit of

Vehicle can be. If the actual parameter deviates from the desired parameter range, the detection device 40 generates a danger signal, which is input to the control device 50. The control device may, depending on the type of detected danger signal, the first switch 51 for actuating the heater 30 and / or the second

Close switch 52 for actuating the electric motor 20 so that electrical

Energy stored in the battery 1 is converted into heat by the heater 30 and / or converted into kinetic energy by the electric motor 20. As a result, the charge in the battery 1 is reduced. Alternatively or

In addition, it can be provided that the control device 50 the Battery management system 10 controls whose integral part may be a balancing device. Upon receipt of a hazard signal at the

Control device 50, this can the battery management system for

Carrying out a balancing (balancing) between individual cells of the battery 1, wherein also the charge of the battery 1 is reduced.

Depending on the type of detected danger signal, for the purpose of reducing the charge in the battery, the balancing can first be carried out and, depending on the severity of the detected accident or the insulation fault, a discharge of the battery 1 at the same time or subsequently by actuation of the battery

Heating device 30 and / or the electric motor 20 done.

Claims

claims

1 . Energy system for a vehicle, in particular for an electric motor

 powered vehicle, comprising at least one battery (1), in particular a lithium-ion battery, and at least one with the battery (1) electrically connected consumption device, whose operation any one

 Reducing the charge of the battery (1) causes, and further comprising a control device (50), characterized in that

 the energy system is set up such that upon receipt of a danger signal in the control device (50) with this the consumption device is controlled such that by means of the consumption device within a certain period of time, a reduction in the charge of the battery (1)

 at least 90% is feasible.

2. Energy system according to claim 1, wherein the consumption device a

 Device is in the operation of electrical energy is implemented.

3. Energy system according to claim 1, wherein the consumption device a

 Device is, upon actuation of a current flow in the environment of

 Vehicle is feasible.

4. Energy system according to claim 1, wherein the consumption device a

 Balancing device is with which a charge balance between

 a plurality of cells of at least one battery (1) can be realized.

5. Energy system according to claim 4, wherein the energy system such

 is set up that with the control device (50) first the

 Balancing device for carrying out a charge equalization between multiple cells can be controlled and then another

Consumable device can be controlled, when actuated electrical Energy is implemented or a flow of current in the environment of the vehicle is feasible.

6. A method for reducing the charge of a battery (1), in particular a

 Lithium-ion battery, by means of at least one consumption device whose operation causes a reduction in the charge of the battery (1), wherein by means of a control device (50) upon receipt of a danger signal, the consumption device is controlled such that by means of

 Consumption device within a certain period of time, a reduction in the charge of the battery (1) is realized by at least 90%.

7. A method for reducing the charge of a battery (1) according to claim 6, wherein the time period from the input of the danger signal to the

 Control device (50) is a maximum of 60 seconds.

8. A method for reducing the charge of a battery (1) according to one of

 Claims 6 and 7, wherein the first with a balancing device

 Charge balance between multiple cells is performed and then by means of another consumer electrical energy is implemented or a current flow is realized in the environment of the battery.

9. A method for reducing the charge of a battery (1) according to any one of claims 6 to 8, wherein the danger signal is generated upon detection of a deviation of an actual parameter of a desired parameter range of a physical quantity, where the physical size can:

 a) the temperature of the battery (1);

 b) the acceleration of the battery (1);

 c) a geometric dimension of the battery (1);

 d) electrical voltage on the battery management system (10);

 e) resistance in a voltage divider;

 f) AC voltage.

10. Motor vehicle, in particular an electric motor driven motor vehicle,

 comprising at least one energy system according to one of claims 1 to 5.