A rotor system for a rotorcraft includes a first rotor assembly defining a rotation axis, a second rotor assembly offset from the first rotor assembly along the rotation axis, and a drive system connected to the first and second rotor assemblies. The drive system includes a first electric motor disp
A rotor system for a rotorcraft includes a first rotor assembly defining a rotation axis, a second rotor assembly offset from the first rotor assembly along the rotation axis, and a drive system connected to the first and second rotor assemblies. The drive system includes a first electric motor disposed along the rotation axis and operably connected to the first rotor assembly, and a second electric motor disposed along the rotation axis and operably connected to the second rotor assembly to rotate the second rotor assembly about the rotation axis independent of rotation of the first rotor assembly about the rotation axis.
대표청구항▼
1. A rotor system, comprising: a first rotor assembly defining a rotation axis;a second rotor assembly offset from the first rotor assembly along the rotation axis;a drive system operably connected to the first rotor assembly and the second rotor assembly, including: a first electric motor connected
1. A rotor system, comprising: a first rotor assembly defining a rotation axis;a second rotor assembly offset from the first rotor assembly along the rotation axis;a drive system operably connected to the first rotor assembly and the second rotor assembly, including: a first electric motor connected to the first rotor assembly and configured to rotate the first rotor assembly about the rotation axis; anda second electric motor connected to the second rotor assembly, wherein the first electric motor and the second electric motor are coaxially disposed along the rotation axis; anda controller operably connected to the first electric motor and the second electric motor, wherein while each of the first electric motor and the second electric motor is in operation, the controller is configured to rotate the second rotor assembly about the rotation axis independently of rotation of the first rotor assembly about the rotation axis; anda heat exchanger in thermal communication with the second electric motor, wherein the heat exchanger is disposed axially along the rotation axis between the first rotor assembly and the second rotor assembly. 2. The rotor system as recited in claim 1, wherein the first electric motor and the first rotor assembly are coaxially arranged about the rotation axis. 3. The rotor system as recited in claim 1, wherein the first electric motor includes a rotor portion supported for rotation relative to a stator portion, wherein the rotor portion of the first electric motor is fixed relative to the first rotor assembly. 4. The rotor system as recited in claim 1, further including a static mast extending between the first rotor assembly and the second rotor assembly, wherein the stator portion of the first electric motor is connected to the static mast. 5. The rotor system as recited in claim 1, wherein the rotor portion of the first electric motor is disposed radially outward of the first electric motor stator portion relative to the rotation axis. 6. The rotor system as recited in claim 1, wherein first electric motor is arranged along the rotation axis between the first rotor assembly and the second rotor assembly. 7. The rotor system as recited in claim 1, wherein either or both of the first electric motor and second electric motor is a direct drive electric motor. 8. The rotor system as recited in claim 1, further including a heat exchanger in thermal communication with the first electric motor, wherein the heat exchanger is disposed axially along the rotation axis between the first rotor assembly and the second rotor assembly. 9. The rotor system as recited in claim 1, wherein second electric motor is arranged along the rotation axis between the first rotor assembly and the second rotor assembly. 10. The rotor system as recited in claim 1, wherein the first rotor assembly and the second rotor assembly include teetering rotor assemblies. 11. A rotorcraft, comprising: an airframe;a first rotor assembly defining a rotation axis and supported for rotation about the rotation axis by the airframe;a second rotor assembly offset from the first rotor assembly along the rotation axis and supported for rotation about the rotation axis by the airframe;a drive system operably connected to the first rotor assembly and the second rotor assembly and external of the airframe including: a first electric motor connected to the first rotor assembly and configured to rotate the first rotor assembly about the rotation axis; anda second electric motor connected to the second rotor assembly and, while each of the first electric motor and the second electric motor is in operation, the second electric motor is configured to rotate the second rotor assembly about the rotation axis independent of rotation of the first rotor assembly about the rotation axis,wherein the second rotor assembly is axially interposed along the rotation axis between the first rotor assembly and the airframe, the second rotor assembly axially overlaying the airframe and arranged below the first rotor assembly. 12. The rotorcraft as recited in claim 11, wherein the second electric motor and the second rotor assembly are coaxially arranged about the rotation axis. 13. The rotorcraft as recited in claim 11, wherein the second electric motor includes a rotor portion supported for rotation relative to a stator portion, wherein the rotor portion of the second electric motor is fixed relative to the second rotor assembly. 14. The rotor system as recited in claim 13, further including a static mast extending between the first rotor assembly and the second rotor assembly, wherein the stator portion of the second electric motor is connected to the static mast. 15. The rotor system as recited in claim 13, wherein the rotor portion of the second electric motor is disposed radially outward of the stator portion of the second electric motor relative to the rotation axis. 16. The rotorcraft as recited in claim 11, wherein the rotorcraft defines a longitudinal axis, wherein the airframe includes a longitudinally extending tail mounting a translational thrust system with pusher prop rotatable about a thrust axis parallel to the longitudinal axis, wherein the rotation axis defined by the first rotor assembly is orthogonal to the thrust axis. 17. The rotorcraft as recited in claim 11, further comprising: a first heat exchanger in thermal communication with the first electric motor, wherein the first heat exchanger is disposed axially along the rotation axis between the first rotor assembly and the second rotor assembly; anda second heat exchanger in thermal communication with the second electric motor, wherein the second heat exchanger is disposed axially along the rotation axis between the first rotor assembly and the second rotor assembly. 18. A method of operating a rotor system, comprising: receiving torque at a first rotor assembly from a first electric motor;rotating the first rotor assembly about a rotation axis using the torque received from the first electric motor;receiving torque at a second rotor assembly from a second electric motor; androtating the second rotor assembly about the rotation axis using the torque received from the second electric motorwherein the first electric motor applies the torque to the first rotor assembly directly,wherein while the first electric motor and the second electric motor are in operation rotation of the first rotor assembly about the rotation axis is independent of rotation of the second rotor assembly. 19. A method as recited in claim 18, further including varying rotation of the second rotor assembly about the rotation axis relative to the first rotor assembly. 20. A method as recited in claims 18, further including varying rotational speed of the second rotor assembly about the rotation axis relative to rotational speed of the first rotor assembly about the rotation axis. 21. A method as recited in claim 18, further including: receiving torque at the second rotor assembly from a second electric motor;rotating the second rotor assembly about a rotation axis using the torque received from the second electric motor,wherein the second electric motor applies the torque to the second rotor assembly directly,wherein rotation the second rotor assembly about the rotation axis is independent of rotation of the first rotor assembly about the rotation axis; andvarying rotational speed of the second rotor assembly about the rotation axis relative to rotational speed of the first rotor assembly about the rotation axis.
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이 특허에 인용된 특허 (8)
Lawrence, John M., Dual rotor vertical takeoff and landing rotorcraft.
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