ELECTRIC MOTOR SUPPORTED BALANCE CONTROL IN DRONES WITH ENGINE

Abstract

Balancing a drone is difficult with engines, when drones are equipped with engines to increase the flight time. However, balancing the drone can be made easy by providing the drone with an electric motor or an electric motor that involves a generator feature.

Claims

1. (canceled)

2. (canceled)

3. (canceled)

4. (canceled)

5. A method to balance a drone that contains combustion engines and electric motors that involves a generator feature, characterized in that: providing the lifting power by only using the combustion engines for the propeller rotation to hang the drone in air; and using only the rotational speed regulation of electric motors that involves the generator feature to balance the drone after lifting.

6. A method according to claim 1, characterized in that it comprises the methods of: reducing the rotational speed of respective combustion engine by pulling extra current from the electric motor that involves the generator feature in the charging current flow direction, with the command received from the control unit of electric motor that involves the generator feature, in accordance to the command received from the balancing system; and/or increasing the rotational speed of respective combustion engine, by pushing extra energy to the electric motor that involves the generator feature in the discharging current flow direction, with the command received from the control unit of electric motor that involves the generator feature, in accordance to the command received from the balancing system, for stabilizing the rotational speed regulation of the combustion engines, with the purpose of balancing the drone.

Description

FIGURES AND THEIR DESCRIPTION

[0019] FIG. 1: Drone structure which has engine and electric motor that involves the generators feature.

[0020] FIG. 2: Drone structure which has engine and electric motor that is separate than the generator.

[0021] FIG. 3: Drone structure which has engine and electric motor.

EXPLANATION OF THE NUMBERS ON THE FIGURES

[0022] 1. Propeller [0023] 2. Propeller of electric motor [0024] 3. The shaft of engine and electric motor [0025] 4. The shaft of electric motor [0026] 5. Engine [0027] 6. Speed control unit of engine [0028] 7. Fuel vault [0029] 8. Electric motor that involves the generator feature [0030] 9. Electricity generator [0031] 10. Electric motor [0032] 11. Control unit of electric motor that involves the generator feature [0033] 12. Control unit of electric motor and generator [0034] 13. Control unit of electric motor [0035] 14. Battery [0036] 15. Charging current flow direction [0037] 16. Discharging current flow direction

[0038] Note: The relative order of propeller (1), engine (5), electric motor that involves the generator feature (8) in FIG. 1, and the order propeller (1), engine (5), electricity generator (9) in FIG. 2 are not a strict requirement. The order can be altered. For example: propeller (1), electric motor that involves the generator feature (8), engine (5).

[0039] In the figures, group drawings are provided to show the balance. These groups can be multiples of two such as 2, . . . , 16, varying by the design of the drone.

EXPLANATION OF THE FIGURES

[0040] FIG. 1: The drone structure which has engine and electric motor that involves the generator feature. The propeller (1) receives moving force from the shaft of engine and electric motor from engine (5) and electric motor that involves the generator feature (8). The speed of the engine (5) is controlled by speed control unit of engine (6). Fuel vault provides the engines (5) with fuel oil. The engines' (5) ignition movement is provided by using electric motor that involves the generator feature (8). Battery is charged with electric motor that involves the generator feature (8) which rotates with engines' (5) movement. While charging the current flows in the charging current flow direction (15). The stabilization of the charge is maintained by control unit of electric motor that involves the generator feature (11). In this system, the balance control of the drone is handled by the control unit of electric motor that involves the generator feature (1) with the following two methods: [0041] 1. According to the command received from the balance control system of the drone, drawing more current in the charging current flow direction (15) from the electric motor that involves the generator feature (8) using control unit of electric motor that involves the generator feature (11), decreasing the speed of the corresponding motor. [0042] 2. According to the command received from the balance control system of the drone, more current is pushed to electric motor that involves the generator feature (8) that is at the side of the drone that should be lifted, in the discharging current flow direction (16). With such technique, this balance the drone kept by lifting this side of the drone.

[0043] FIG. 2: Drone structure which has engine and electric motor that is separate than the generator. The propeller (1) is connected to engine (5) with the shaft of engine and electric motor (3). The propeller (1) is turned using engine (5). With the electricity generator (9) connected to the same system, the battery (14) is charged. The charge stabilisation is maintained by the unit of electric motor and generator (12).

[0044] In this system, electric motor (10) is used for the balance control of the drone. Electric motor (10) turns the propeller by the shaft of electric motor (4).

[0045] In this system, the balance control of the drone is handled by the control unit of electric motor and generator (12) with the following two methods: [0046] 1. According to the command received from the balance control system of the drone, drawing more current in the charging current flow direction (15) from the electric motor and generator (9) using control unit of electric motor and generator (12), decreasing the speed of the corresponding motor. [0047] 2. According to the command received from the balance control system of the drone, more current is pushed to electric motor and generator (9) that is at the side of the drone that should be lifted, in the discharging current flow direction (16). With such technique, this balance the drone kept by lifting this side of the drone.

[0048] FIG. 3: The system that has engine, electric motors. The propeller (1) is connected to engine (5). The propeller (1) is turned using engine (5).

[0049] In this system, electric motor (10) is used for the balance control of the drone. Electric motor (10) turns the propeller by the shaft of electric motor (4).

[0050] In this system, the balance control of the drone is handled by the control unit of electric motor (13).

[0051] According to the command received from the balance control system of the drone, more current is pushed to electric motor (10) that is at the side of the drone that should be lifted, in the discharging current flow direction (16). With such technique, this balance the drone kept by lifting this side of the drone.