초록 ▼

A vertical take-off and landing aircraft using a hybrid electric propulsion system includes an engine, a generator that produces electric power using power supplied by the engine, and a battery that stores the produced electric power. A motor receives the electric power stored in the battery and ele

A vertical take-off and landing aircraft using a hybrid electric propulsion system includes an engine, a generator that produces electric power using power supplied by the engine, and a battery that stores the produced electric power. A motor receives the electric power stored in the battery and electric power produced by the generator but not stored in the battery and provides the power to a thrust generating apparatus. A controller selects either silence mode or normal mode, and determines the amount of electric power stored in the battery and the amount of electric power not stored in the battery from the electric power supplied to the motor. In the silence mode, the controller supplies only the electric power stored in the battery and controls a duration by adjusting output power of motor. In the normal mode, the controller supplies electric power not stored in the battery.

대표청구항 ▼

1. A hybrid aircraft comprising: an engine;a generator configured to produce electric power using power supplied by the engine;a battery configured to store the electric power produced by the generator;a motor configured to receive at least one of the electric power stored in the battery and electri

1. A hybrid aircraft comprising: an engine;a generator configured to produce electric power using power supplied by the engine;a battery configured to store the electric power produced by the generator;a motor configured to receive at least one of the electric power stored in the battery and electric power produced by the generator but not stored in the battery and provide the power to at least one thrust generating apparatus; anda controller configured to select either silence mode or normal mode, and determine the amount of electric power stored in the battery and the amount of electric power not stored in the battery among the electric power supplied to the motor, based on the selected mode,wherein, in the silence mode, the controller configured to supply only the electric power stored in the battery to the motor, andwherein, in the normal mode, the controller configured to supply electric power not stored in the battery to the motor. 2. The hybrid aircraft of claim 1, wherein the controller configured to select the silence mode or the normal mode based on a piloting signal received through a communication interface. 3. The hybrid aircraft of claim 2, wherein the controller configured to control the output power of the motor according to the piloting signal and determine required power indicating electric power supplied to the motor based on the controlled output power of the motor. 4. The hybrid aircraft of claim 3, wherein, in the silence mode, the controller configured to control the output power of the motor to decrease the amount of required power to the amount of electric power stored in the battery or less when the amount of required power is greater than the amount of electric power stored in the battery. 5. The hybrid aircraft of claim 3, wherein, in the silence mode, the controller configured to supply only the electric power stored in the battery to the motor when the amount of required power is equal to or less than the amount of electric power stored in the battery. 6. The hybrid aircraft of claim 1, wherein, in the silence mode, the controller configured to stop the generator from producing electric power. 7. The hybrid aircraft of claim 3, wherein, in the silence mode, the controller compares the required power and the electric power stored in the battery to estimate the duration of the silence mode. 8. The hybrid aircraft of claim 7, wherein the controller configured to transmit a notification message through the communication interface when the estimated duration is equal to or less than a predetermined time. 9. The hybrid aircraft of claim 7, wherein the controller configured to decrease the amount of required power to the current amount of required power or less when the estimated duration is equal to or less than a predetermined time. 10. The hybrid aircraft of claim 1, wherein, in the silence mode, the controller configured to select the normal mode when the amount of electric power stored in the battery is decreased to a predetermined amount of electric power. 11. The hybrid aircraft of claim 2, wherein: the piloting signal includes information regarding coordinates or time at which the hybrid aircraft enters the silence mode; andthe controller configured to select the silence mode when the hybrid aircraft reaches the coordinates or time. 12. The hybrid aircraft of claim 2, wherein: the piloting signal includes information regarding coordinates or time at which the hybrid aircraft exits the silence mode; andthe controller configured to select the normal mode when the hybrid aircraft reaches the coordinates or time. 13. The hybrid aircraft of claim 11, wherein, in the normal mode, before reaching the coordinates or time, the controller configured to adjust the amount of electric power produced by the generator to store the produced electric power in the battery so that the silence mode is entered when the coordinates or time is reached. 14. The hybrid aircraft of claim 12, wherein: the piloting signal includes information regarding the duration of the silence mode; andin the normal mode, the controller configured to determine whether the silence mode is maintained during the duration and adjusts the amount of electric power produced by the generator before reaching the coordinates or time to store the produced electric power in the battery so that the silence mode can be maintained during the duration when it is determined that the silence mode is not maintained during the duration. 15. The hybrid aircraft of claim 1, wherein, in the normal mode, the controller configured to supply only the electric power not stored in the battery to the motor or supply the electric power not stored in the battery to the motor together with the electric power stored in the battery. 16. The hybrid aircraft of claim 2, wherein the normal mode includes dash mode, and wherein, in the dash mode, the controller configured to rapidly accelerate the hybrid aircraft. 17. The hybrid aircraft of claim 16, wherein: the piloting signal includes information regarding at least one of target speed and target acceleration of the hybrid aircraft; andthe controller configured to control the output power of the motor so that at least one of the target speed and the target acceleration is reached and the controller configured to determine required power indicating electric power supplied to the motor based on the controlled output power of the motor. 18. The hybrid aircraft of claim 1, wherein the controller comprises: a first controller configured to select either silence mode or normal mode,wherein, in the silence mode, the controller configured to supply only the electric power stored in the battery to the motor, control a duration by adjusting output power of motor, andwherein, in the normal mode, the controller configured to supply electric power not stored in the battery to the motor, anda second controller configured to determine the amount of electric power stored in the battery and the amount of electric power not stored in the battery from the electric power supplied to the motor, based on the selected mode. 19. A method of controlling a hybrid aircraft, the method comprising: selecting either silence mode or normal mode,wherein, the hybrid aircraft comprises a battery, an engine, a generator, at least one thrust generating apparatus and a motor,wherein, the battery configured to store electric power produced by the generator using power supplied by the engine,wherein, the motor configured to receive at least one of the electric power stored in the battery and electric power produced by the generator but not stored in the battery and provide the power to the at least one thrust generating apparatus,wherein, in the silence mode, the electric power stored in a battery is only supplied to the motor, andwherein, in the normal mode, the electric power not stored in the battery is supplied to the motor; anddetermining the amount of electric power stored in the battery and the amount of electric power not stored in the battery among the electric power supplied to the motor, based on the selected mode. 20. A non-transitory computer-readable recording medium having recorded thereon a program for executing the method of claim 19.