Hybrid multicopter and fixed wing aerial vehicle
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-029/00
B64C-027/20
B64F-005/10
B64C-039/02
B64C-027/52
출원번호
US-0021800
(2018-06-28)
등록번호
US-10239611
(2019-03-26)
발명자
/ 주소
Apkarian, Jacob
출원인 / 주소
Coriolis Games Corporation
대리인 / 주소
Bereskin & Parr LLP/S.E.N.C.R.L., s.r.l.
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
An aerial vehicle is includes a wing, first and second rotors, and a movement sensor. The first and second multicopter rotors are rotatably coupled to the wing, the first multicopter rotor is rotatable relative to the wing about a first lateral axis, and the second multicopter rotor is rotatable rel
An aerial vehicle is includes a wing, first and second rotors, and a movement sensor. The first and second multicopter rotors are rotatably coupled to the wing, the first multicopter rotor is rotatable relative to the wing about a first lateral axis, and the second multicopter rotor is rotatable relative to the wing about a second lateral axis. Each multicopter rotor is coupled to each other multicopter rotor, wherein the multicopter rotors are restricted to collective synchronous rotation relative to the wing between a multicopter configuration and a fixed-wing configuration. The movement sensor is coupled to the multicopter rotors, wherein the movement sensor is positioned to rotate relative to the wing when the multicopter rotors rotate relative to the wing between the multicopter and fixed-wing configurations.
대표청구항▼
1. An aerial vehicle comprising: a multicopter linkage;first and second multicopter rotors connected to the multicopter linkage, the multicopter linkage being freely movable between a vertical thrust configuration and a horizontal thrust configuration by modulating thrust of the first and second mul
1. An aerial vehicle comprising: a multicopter linkage;first and second multicopter rotors connected to the multicopter linkage, the multicopter linkage being freely movable between a vertical thrust configuration and a horizontal thrust configuration by modulating thrust of the first and second multicopter rotors; anda movement sensor coupled to the multicopter linkage, the movement sensor providing movement sensor readings indicative of a position of the multicopter linkage between the vertical and horizontal thrust positions. 2. The aerial vehicle of claim 1, wherein: the multicopter linkage comprises a transmission, andmoving the multicopter between the vertical thrust configuration and the horizontal thrust configuration includes rotating the first multicopter rotor about a first lateral axis and rotating the second multicopter rotor about a second lateral axis, the transmission synchronizing rotation of the first multicopter rotor about the first lateral axis and the second multicopter rotor about the second lateral axis, the multicopter linkage being movable between the vertical and horizontal thrust configurations by modulating thrust of the first and second multicopter rotors to torque the first and second multicopter rotors about the first and second axes respectively. 3. The aerial vehicle of claim 2, wherein: the transmission includes one of a four-bar linkage, a drive shaft, a drive belt, and a drive cable. 4. The aerial vehicle of claim 1, wherein: the movement sensor is positioned to rotate in concert with the multicopter rotors when the multicopter linkage moves between the vertical and horizontal thrust configurations. 5. The aerial vehicle of claim 4, further comprising: a hardware controller communicatively coupled to the movement sensor to receive the movement sensor readings, and communicatively coupled to the first and second multicopter rotors to send control signals to the first and second multicopter rotors based at least in part on the movement sensor readings. 6. The aerial vehicle of claim 1, further comprising: a configuration lock selectively connectable to the multicopter linkage to inhibit rotation of the multicopter linkage between the vertical and horizontal thrust configurations. 7. The aerial vehicle of claim 1, further comprising: a body, the multicopter linkage mounted to the body. 8. The aerial vehicle of claim 2, wherein: the multicopter linkage comprises a first axle extending along the first lateral axis and connected to the first multicopter rotor, and a second axle extending along the second lateral axis and connected to the second multicopter rotor, andthe transmission is connected to the first and second axles. 9. An aerial vehicle kit comprising: a multicopter linkage having a body mount;first and second multicopter rotors connected to the multicopter linkage, the multicopter linkage being freely movable between a vertical thrust configuration and a horizontal thrust configuration, by modulating thrust of the first and second multicopter rotors; anda movement sensor coupled to the multicopter linkage, the movement sensor providing movement sensor readings indicative of a position of the multicopter linkage between the vertical and horizontal thrust positions. 10. The aerial vehicle kit of claim 9, wherein: the multicopter linkage comprises a transmission, andmoving the multicopter between the vertical thrust configuration and the horizontal thrust configuration includes rotating the first multicopter rotor about a first lateral axis and rotating the second multicopter rotor about a second lateral axis, the transmission synchronizing rotation of the first multicopter rotor about the first lateral axis and the second multicopter rotor about the second lateral axis, the multicopter linkage being movable between the vertical and horizontal thrust configurations by modulating thrust of the first and second multicopter rotors to torque the first and second multicopter rotors about the first and second axes respectively. 11. The aerial vehicle kit of claim 10, wherein: the transmission includes one of a four-bar linkage, a drive shaft, a drive belt, and a drive cable. 12. The aerial vehicle kit of claim 10, wherein: the transmission comprises a first rotor arm and a second rotor arm,each of the first and second rotor arms rotates to move the multicopter linkage between the vertical and horizontal thrust configurations,the first multicopter rotor is provided on the first rotor arm, and the second multicopter rotor is provided on the second rotor arm. 13. The aerial vehicle kit of claim 12, wherein: the transmission further comprises a connector arm rotatably coupled to the first and second rotor arms such that the body mount, the first and second rotor arms, and the connector arm form a four bar linkage. 14. The aerial vehicle kit of claim 9, wherein: the movement sensor rotates in concert with the first and second multicopter rotors when the multicopter linkage moves between the vertical and horizontal thrust configurations. 15. The aerial vehicle kit of claim 9, further comprising: a configuration lock selectively connectable to the multicopter linkage to inhibit rotation of the multicopter linkage between the vertical and horizontal thrust configurations. 16. The aerial vehicle kit of claim 10, wherein: the multicopter linkage comprises a first axle extending along the first lateral axis and connected to the first multicopter rotor, and a second axle extending along the second lateral axis and connected to the second multicopter rotor, andthe transmission is connected to the first and second axles. 17. The aerial vehicle kit of claim 16 wherein: the transmission comprises a drive shaft having gear connections to the first and second axles. 18. The aerial vehicle kit of claim 16, wherein: the transmission comprises a drive belt having pulley connections to the first and second axles. 19. The aerial vehicle kit of claim 16, wherein: the transmission comprises a cable wound around the first and second axles. 20. A method of making an aerial vehicle, the method comprising: providing a multicopter linkage having a body mount and first and second rotors mounts, the multicopter linkage being freely movable between a vertical thrust configuration and a horizontal thrust configuration,mounting a vehicle body to the body mount;mounting first and second multicopter rotors to the first and second rotor mounts respectively,wherein the multicopter linkage is movable between the vertical and horizontal thrust configurations by modulating thrust of the first and second multicopter rotors; andproviding a movement sensor coupled to the multicopter linkage, the movement sensor providing movement sensor readings indicative of a position of the multicopter linkage between the vertical and horizontal thrust positions. 21. The method of claim 20, wherein: the multicopter linkage comprises a transmission,moving the multicopter between the vertical thrust configuration and the horizontal thrust configuration includes rotating the first rotor mount about a first lateral axis and rotating the second rotor mount about a second lateral axis, the transmission synchronizing rotation of the first multicopter rotor about the first lateral axis and the second multicopter rotor about the second lateral axis, andthe multicopter linkage is movable between the vertical and horizontal thrust configurations by modulating thrust of the first and second multicopter rotors to torque the first and second multicopter rotors about the first and second axes respectively. 22. The method of claim 21, wherein: the transmission includes one of a four-bar linkage, a drive shaft, a drive belt, and a drive cable. 23. The method of claim 20, wherein: providing the movement sensor comprises mounting the movement sensor to the multicopter linkage at a position that moves in concert with the multicopter rotors when the multicopter linkage rotates between the vertical and horizontal thrust configurations.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.