Hybrid Vehicle Having an Internal Combustion Engine and an Electric Drive

Abstract

A hybrid vehicle has an internal combustion engine drive that includes at least one internal combustion engine and an electromotive drive that includes at least one electric motor and a battery. The battery can be charged both via the internal combustion engine and via an external power supply. At least one electronic control unit is designed such that, in the event of at least one defined condition that indicates an insufficient use of the electromotive drive compared to the internal combustion engine drive, at least one coercive measure is taken to influence the behavior of the driver towards increasing the use of the electrical drive. The coercive measure may be keeping an automatically lockable fuel tank cover locked.

Claims

1.-10. (canceled)

11. A hybrid vehicle, comprising: an internal combustion engine drive, which comprises at least one internal combustion engine; an electromotive drive, which comprises at least one electric motor and one storage battery, wherein the storage battery is chargeable both by the internal combustion engine and by an external electrical grid; at least one electronic control unit; and an automatically lockable cover of a fuel tank, wherein the electronic control unit is configured such that, when at least one defined condition that indicates insufficient use of the electromotive drive in relation to the internal combustion engine drive is present, at least one coercive measure is implemented to influence a behavior of the driver toward increased use of the electromotive drive.

12. The hybrid vehicle according to claim 11, wherein one coercive measure is keeping the cover locked.

13. The hybrid vehicle according to claim 12, wherein one coercive measure is reducing available drive performance.

14. The hybrid vehicle according to claim 11, wherein one coercive measure is reducing available drive performance.

15. The hybrid vehicle according to claim 11, wherein a defined condition is an undershooting of a specified charge quantity and/or of a specified charging frequency with regard to charging of the storage battery with energy from the external electrical grid.

16. The hybrid vehicle according to claim 15, wherein a defined condition is an overshooting of a defined fuel consumption threshold.

17. The hybrid vehicle according to claim 16, wherein a defined condition is an undershooting of an electric driving proportion threshold or of an electric driving proportion range.

18. The hybrid vehicle according to claim 17, wherein a multi-stage coercive measure sequence is specified on the basis of multiple defined conditions.

19. The hybrid vehicle according to claim 18, wherein a first coercive measure stage is reducing available drive performance and a second coercive measure stage is keeping the cover locked until the storage battery has been fully recharged, if no recharging of the storage battery with energy from the external electrical grid has been performed in the first coercive measure stage.

20. The hybrid vehicle according to claim 19, wherein the defined conditions and the coercive measures are performed in a manner dependent on tank content and/or on state of charge of the storage battery.

21. The hybrid vehicle according to claim 11, wherein implementation of the at least one coercive measure is manually deactivated via a display and an operator control unit.

22. The hybrid vehicle according to claim 11, wherein a defined condition is an overshooting of a defined fuel consumption threshold.

23. The hybrid vehicle according to claim 11, wherein a defined condition is an undershooting of an electric driving proportion threshold or of an electric driving proportion range.

24. The hybrid vehicle according to claim 11, wherein a multi-stage coercive measure sequence is specified on the basis of multiple defined conditions.

25. The hybrid vehicle according to claim 24, wherein a first coercive measure stage is reducing available drive performance and a second coercive measure stage is keeping the cover locked until the storage battery has been fully recharged, if no recharging of the storage battery with energy from the external electrical grid has been performed in the first coercive measure stage.

Description

BRIEF DESCRIPTION OF THE DRAWING

[0015] FIG. 1 illustrates an exemplary embodiment of the invention.

DETAILED DESCRIPTION OF THE DRAWING

[0016] FIG. 1 schematically shows the most important components of the invention in a hybrid vehicle, which is not fully illustrated.

[0017] FIG. 1 illustrates an electric motor 1, which is connected to a storage battery 7, and an internal combustion engine 2 of a hybrid vehicle. The storage battery 7 can be electrically charged, in particular during driving operation of the internal combustion engine 2 or at a standstill, for example by way of a fast-charging station 6 of an external electrical grid. The motor 1 and engine 2 are in particular controlled by at least one electronic control unit 3, which is also connected to an automatically lockable cover 5 of a fuel tank, and preferably to a display and operator control unit 4.

[0018] The electronic control unit 3 can receive at least one signal, preferably multiple signals, for the purposes of determining the following input parameters:

E: the electrical energy that is charged into the storage battery 7 from an external electrical grid (for example from a fast-charging station 6), wherein the charge quantity and/or the charging frequency may be detectable and can be compared with a specified charge quantity LM and/or a specified charging frequency LH;
K: the fuel consumption (for example per 100 km), which can be compared with a stored fuel consumption threshold KS (for example 2.21/100 km);
R: the ratio or the proportion of purely electric driving in an overall traveling distance, which can be compared with an electric driving proportion threshold RS (for example 75%);
T: the tank content of the fuel tank, which can be compared with a tank content threshold TS; and
B: the state of charge (SOC) of the storage battery 7 (for example high-voltage battery) for the electric drive, which can be compared with a state of charge threshold SOCS.

[0019] Any conditions based on these or similar input parameters—individually or in combination with one another—that indicate insufficient use of the electromotive drive 1 and 7 in relation to the internal combustion engine drive 2 may be defined. In a manner dependent on these, it is possible for one or more, also multi-stage, coercive measures to be implemented by the control unit 3 to influence the behavior of the driver toward increased use of the electric drive 1 and 7.

[0020] For example, it may preferably be provided that, if a specified charge quantity LM and/or a specified charging frequency LH with regard to the charging of the storage battery 7 with energy E from the external electrical grid 6 is undershot, and/or if a defined fuel consumption threshold KS is overshot, and/or if an electric driving proportion threshold RS or an electric driving proportion range is undershot, a first coercive measure stage (Level 1) in the form of a reduction (P−) of the available drive performance P may be implemented. If no recharging of the storage battery 7 with energy E from the external electrical grid 6 is performed in this first coercive measure stage (Level 1), then a second coercive measure stage (Level 2) may be implemented, in the form of keeping the tank cover 5 locked S until the storage battery 7 has been fully recharged. Here, it is preferable for corresponding notifications A1 or A2 to be output on the display and operator control unit 4, which can also allow the driver to make further inputs. Furthermore, the defined conditions and the coercive measures may also be implemented in a manner dependent on the tank content T and/or on the state of charge SOC, for example in a manner dependent on the undershooting of the threshold values TS and SOCS, in such a way that a good compromise between emissions reduction and availability can be achieved.

[0021] The implementation of the coercive measures may be manually deactivatable by the driver by means of the display and operator control unit 4 in order to allow voluntary behavior for the purposes of increasing acceptance.