초록 ▼

A vehicle includes an internal-combustion engine for driving a drive train of the vehicle, at least one charger for increasing the pressure of the air supplied to the internal-combustion engine and an electrical machine which can be or is coupled to the charger in a torque-transmitting manner and is

A vehicle includes an internal-combustion engine for driving a drive train of the vehicle, at least one charger for increasing the pressure of the air supplied to the internal-combustion engine and an electrical machine which can be or is coupled to the charger in a torque-transmitting manner and is provided for driving or supporting the drive of the charger. The drive train can be or is coupled with the electrical machine in a torque-transmitting manner.

대표청구항 ▼

1. A vehicle, comprising: a drive train of the vehicle;an internal-combustion engine operatively configured for driving the drive train of the vehicle;at least one charger operatively configured for increasing pressure of air supplied to the internal-combustion engine;an electrical machine that is m

1. A vehicle, comprising: a drive train of the vehicle;an internal-combustion engine operatively configured for driving the drive train of the vehicle;at least one charger operatively configured for increasing pressure of air supplied to the internal-combustion engine;an electrical machine that is mechanically coupleable to the charger in a torque-transmitting manner, the electrical machine driving the charger, wherein the drive train is mechanically coupleable with the electrical machine in a torque-transmitting manner, andthe drive train is mechanically coupleable in a torque-transmitting manner with the charger by way of the electrical machine. 2. The vehicle according to claim 1, further comprising: a first coupling device operatively arranged between the charger and the electrical machine, said first coupling device having an open condition and a closed condition; andwherein in the open condition of the first coupling device, the electrical machine is uncoupled from the charger by way of the first coupling device; andwherein in the closed condition of the first coupling device, the electrical machine is coupled with the charger by way of the first coupling device. 3. The vehicle according to claim 2, further comprising: a second coupling device operatively arranged between the drive train and the electrical machine, said second coupling device having an open condition and a closed condition; andwherein in the open condition of the second coupling device, the drive train is uncoupled from the electrical machine by way of the second coupling device; andwherein in the closed condition of the second coupling device, the drive train is coupled with the electrical machine by way of the second coupling device. 4. The vehicle according to claim 3, further comprising: a third coupling device by which the internal-combustion engine is coupleable with a portion of the drive train downstream of the internal-combustion engine. 5. The vehicle according to claim 4, wherein at least one of the first, second, and third coupling devices is an electromagnetic clutch. 6. The vehicle according to claim 1, further comprising: a second coupling device operatively arranged between the drive train and the electrical machine, said second coupling device having an open condition and a closed condition; andwherein in the open condition of the second coupling device, the drive train is uncoupled from the electrical machine by way of the second coupling device; andwherein in the closed condition of the second coupling device, the drive train is coupled with the electrical machine by way of the second coupling device. 7. The vehicle according claim 1, further comprising: a transmission device operatively arranged between the drive train and the electrical machine, wherein the transmission device comprises at least one of a chain drive, a belt drive, and at least one gear step. 8. The vehicle according to claim 1, wherein the at least one charger is a displacement charger. 9. The vehicle according to claim 1, wherein the at least one charger is an exhaust gas turbocharger. 10. The vehicle according to claim 1, wherein the at least one charger is constructed as a flow compressor. 11. The vehicle according to claim 1, further comprising: a first charger operatively configured to increase pressure of air supplied to the internal-combustion engine; andwherein said at least one charger is a second charger. 12. The vehicle according to claim 11, wherein the second charger is a high-pressure charger operatively configured to increase the pressure of intake air from a first pressure level generated by the first charger to a second, higher pressure level, and the first charger is an exhaust gas turbocharger. 13. The vehicle according to claim 12, further comprising: a bypass arranged in a flow direction of the intake air behind the first charger such that the second charger is bypassable by at least a portion of the intake air. 14. The vehicle according to claim 1, further comprising: an electric energy accumulator for storing electric energy, the electric energy accumulator being operatively arranged in an electrical connection with the electrical machine. 15. The vehicle according to claim 1, wherein an upstream end of the electrical machine is engageable with the at least one charger, and a downstream end of the electrical machine is engageable with a transmission. 16. A method of operating a vehicle having an internal-combustion engine that drives a drive train of the vehicle, the internal-combustion engine being acted upon by air from at least one charger, the method comprising the acts of: during an acceleration of the vehicle in a first operating condition, driving the charger via a mechanical connection with an electrical machine;during at least one of a coasting and braking operation of the vehicle in a second operating condition, mechanically coupling the electrical machine in a torque-transmitting manner with the drive train of the vehicle, wherein the electrical machine functions as a generator during at least one time increment of the second operating condition; andduring a constant drive of the vehicle at a low rotational speed of the internal combustion engine in a third operating condition of the vehicle, mechanically coupling the charger with the drive train in a torque-transmitting manner by way of the electrical machine. 17. The method according to claim 16, further comprising the act of: during at least one of a constant drive and an acceleration in a fourth operating condition of the vehicle, mechanically coupling the electrical machine in a torque-transmitting manner with the drive-train of the vehicle; andduring at least one time increment of the fourth operating condition, driving the drive train exclusively via the electrical machine or in a supporting manner via the electrical machine. 18. The method according to claim 16, further comprising: engaging an upstream end of the electrical machine with the at least one charger, andengaging a downstream end of the electrical machine with a transmission.