Passenger aircraft with a downwardly foldable wing tip device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-003/56
B64C-023/06
출원번호
US-0301858
(2015-04-02)
등록번호
US-10189557
(2019-01-29)
우선권정보
GB-1406099.0 (2014-04-04)
국제출원번호
PCT/GB2015/051031
(2015-04-02)
국제공개번호
WO2015/150816
(2015-10-08)
발명자
/ 주소
Boye, Sylvain
출원인 / 주소
Airbus Operations Limited
대리인 / 주소
Nixon & Vanderhye P.C.
인용정보
피인용 횟수 :
0인용 특허 :
8
초록▼
A passenger aircraft including a wing (1) and a wing tip device (3). The wing tip device (3) is moveable between a flight configuration for use during flight and a ground configuration for use during ground-based operations. In the ground configuration the wing tip device is folded downwardly from t
A passenger aircraft including a wing (1) and a wing tip device (3). The wing tip device (3) is moveable between a flight configuration for use during flight and a ground configuration for use during ground-based operations. In the ground configuration the wing tip device is folded downwardly from the flight configuration such that the span of the aircraft is reduced. The wing tip device (3) is connected to the wing along a hinge (9) defining a hinge line (11). The hinge (9) may be arranged to prevent the wing tip device (3) rotating upwardly beyond the flight configuration. The hinge line (11) may be orientated at an angle to the flight direction such that the wing tip device (3) presents a larger frontal area when it is in the ground configuration than when it is in the flight configuration, such that aerodynamic forces urge it to rotate about the hinge line (11) away from the ground configuration and towards the flight configuration.
대표청구항▼
1. A passenger aircraft comprising a wing, the wing having a wing tip device at the tip thereof, wherein the wing tip device is moveable between: i. a flight configuration for use during flight, andii. a ground configuration for use during ground-based operations, in which ground configuration the w
1. A passenger aircraft comprising a wing, the wing having a wing tip device at the tip thereof, wherein the wing tip device is moveable between: i. a flight configuration for use during flight, andii. a ground configuration for use during ground-based operations, in which ground configuration the wing tip device is folded downwardly from the flight configuration such that the span of the aircraft is reduced, andwherein the wing tip device is connected to the wing along a hinge defining a hinge line, the hinge being arranged to allow the wing tip device to rotate about the hinge line between the flight configuration and the ground configuration, but to prevent the wing tip device rotating upwardly beyond the flight configuration;wherein the hinge line is orientated at an angle to a flight direction such that the wing tip device presents a larger frontal area when in the ground configuration than when in the flight configuration, and such that during forward motion of the aircraft, aerodynamic forces act on the wing tip device to allow the wing tip device to rotate away from the ground configuration and towards the flight configuration under the action of the aerodynamic forces, andwherein the aircraft further comprises an actuator for moving the wing tip device from the ground configuration to the flight configuration, the actuator having a capacity of less than that required for moving the wing tip device in the absence of the aerodynamic forces. 2. The passenger aircraft according to claim 1, wherein during flight, with the wing tip device in the flight configuration, the aerodynamic forces acting on the wing tip device are such that the wing tip device is urged away from rotating back to the ground configuration. 3. The passenger aircraft according to claim 1, wherein the wing and the wing tip device comprise respective abutment surfaces, and the hinge is configured such that in the flight configuration, the abutment surfaces of the wing tip device and the wing abut one another thereby blocking further rotation of the wing tip device upwardly beyond the flight configuration. 4. The passenger aircraft according to claim 3, wherein during flight, with the wing tip device in the flight configuration, a bending moment generated about the hinge line is reacted against the abutment surface of the wing. 5. The passenger aircraft according to claim 1, wherein the aircraft comprises a lock configured to lock the wing tip device when the wing tip device is in the flight configuration, the lock being arranged to prevent rotation of the wing tip device from the flight configuration to the ground configuration. 6. The passenger aircraft according to claim 5 wherein the lock is rated to prevent the rotation of the wing tip device during negative-g flight over a negative-g flight envelope. 7. The passenger aircraft according to claim 5, wherein the lock is arranged to be substantially free from loads during positive-g flight. 8. The passenger aircraft according to claim 1 wherein the wing comprises a multiplicity of wing ribs orientated at an angle to the direction of flight, and the hinge line is orientated parallel to the wing ribs. 9. A method of operating an aircraft, the aircraft comprising a wing, the wing having a wing tip device at the tip thereof, wherein the wing tip device is moveable between: i. a flight configuration for use during flight, andii. a ground configuration for use during ground-based operations, in which ground configuration the wing tip device is folded downwardly from the flight configuration such that the span of the aircraft is reduced, andwherein the wing tip device is connected to the wing along a hinge defining a hinge line, the hinge being arranged to allow the wing tip device to rotate about the hinge line between the flight configuration and the ground configuration, but to prevent the wing tip device rotating upwardly beyond the flight configuration,such that during forwards motion of the aircraft, and wherein with the wing tip device in the ground configuration, aerodynamic forces acting on the wing tip device during forwards motion of the aircraft are such that the wing tip device is allowed to rotate about the hinge line away from the ground configuration and towards the flight configuration under the action of said forces; andwherein the aircraft further comprises an actuator for moving the wing tip device from the ground configuration to the flight configuration, the actuator having a capacity of less than that required for moving the wing tip device in the absence of the aerodynamic forces, andwherein the method comprises the steps of:i. having the wing tip device in the ground configuration when the aircraft is about to start a take-off run,ii. starting the take-off run, andiii. allowing the wing tip device to rotate from the ground configuration towards the flight configuration, at least some of that movement being effected as a result of the aerodynamic forces on the wing tip device during take-off. 10. The method according to claim 9 wherein the hinge line is orientated at an angle to the flight direction such that the wing tip device presents a larger frontal area when it is in the ground configuration than when it is in the flight configuration. 11. The method according to claim 9, further comprising the step of locking the wing tip device in the flight configuration when the wing tip device reaches that flight configuration. 12. A method of operating an aircraft, the aircraft comprising a wing, the wing having a wing tip device at the tip thereof, wherein the wing tip device is moveable between: i. a flight configuration for use during flight, andii. a ground configuration for use during ground-based operations, in which ground configuration the wing tip device is folded downwardly from the flight configuration such that the span of the aircraft is reduced, andwherein the wing tip device is connected to the wing along a hinge defining a hinge line, the hinge being arranged to allow the wing tip device to rotate about the hinge line between the flight configuration and the ground configuration, but to prevent the wing tip device rotating upwardly beyond the flight configuration,such that during forwards motion of and wherein with the wing tip device in the ground configuration, aerodynamic forces acting on the wing tip device during forwards motion of the aircraft are such that the wing tip device is allowed to rotate about the hinge line away from the ground configuration and towards the flight configuration under the action of said forces; andwherein the aircraft further comprises an actuator for moving the wing tip device from the ground configuration to the flight configuration, the actuator having a capacity of less than that required for moving the wing tip device in the absence of the aerodynamic forces,wherein the method comprises the steps of:i. having the wing tip device in the flight configuration,ii. starting the landing procedure,iii. allowing the wing tip device to rotate from the flight configuration towards the ground configuration, at least some of that movement being effected as a result of the decreasing aerodynamic forces on the wing tip device during the landing procedure. 13. The method according to claim 12 wherein the hinge line is orientated at an angle to the flight direction such that the wing tip device presents a larger frontal area when it is in the ground configuration than when it is in the flight configuration. 14. The method according to claim 12, wherein the step of allowing the wing tip device to rotate from the flight configuration comprises the step of unlocking the wing tip device from the flight configuration. 15. A passenger aircraft comprising: a wing including a tip, anda wing tip device connected to the tip of the wing, wherein the wing tip device is moveable between a flight configuration and a ground configuration, wherein the wing tip device, while in the ground configuration, is folded downwardly from the flight configuration,wherein the wing tip device is connected to the wing by a hinge and along a hinge line extending through the hinge,wherein the wing tip device rotates about the hinge line between the flight configuration and the ground configuration,wherein the wing tip device presents a larger frontal area while in the ground configuration than while in the flight configuration, andwherein during forward flight of the aircraft, aerodynamic forces bias the wing tip device towards the flight configuration, andwherein the aircraft further comprises an actuator for moving the wing tip device from the ground configuration to the flight configuration, the actuator having a capacity of less than that required for moving the wing tip device in the absence of the aerodynamic forces. 16. The passenger aircraft of claim 15 further comprising a first abutment surface fixed to the tip of the wing and second abutment surface fixed to the wing tip device, wherein the first abutment surface abuts the second abutment surface while the wing tip device is in the flight configuration, and the first abutment surface is separated from the second abutment surface while the wing tip device is in the ground configuration. 17. The passenger aircraft of claim 16 wherein the second abutment surface is an end of an arm extending from a root end of the wing tip device, and the passenger aircraft further comprises a tether attached to a point on the arm and to the wing, and an actuator configured to retract or deploy the tether to pivot the wing tip device about the hinge, wherein a bending moment is formed between the point on the arm and the hinge. 18. The passenger aircraft of claim 17 wherein the hinge line extends in a chordwise direction of the wing.
Bradshaw, Philip John Templeton; Whitehouse, Ian Roy; Wood, Norman; Alexander, Stuart; Randall, John David, Wing tip device having configurations for flight and ground-based operations.
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