Method and apparatus for automated launch, retrieval, and servicing of a hovering aircraft
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64F-001/02
B64F-001/12
B64C-025/68
B64C-039/02
B64F-001/06
B64F-001/04
B64F-005/00
B64F-001/28
출원번호
US-0247807
(2014-04-08)
등록번호
US-8955801
(2015-02-17)
발명자
/ 주소
McGeer, Brian T.
von Flotow, Andreas H.
출원인 / 주소
Aerovel Corporation
대리인 / 주소
Neal, Gerber & Eisenberg LLP
인용정보
피인용 횟수 :
5인용 특허 :
47
초록▼
Various embodiments of the present disclosure provide an apparatus configured to automatically retrieve, service, and launch an aircraft. For retrieval, the aircraft drops a weighted cable, and pulls it at low relative speed into a broad aperture of the apparatus. In certain instances, the cable is
Various embodiments of the present disclosure provide an apparatus configured to automatically retrieve, service, and launch an aircraft. For retrieval, the aircraft drops a weighted cable, and pulls it at low relative speed into a broad aperture of the apparatus. In certain instances, the cable is dragged along guiding surfaces of the apparatus into and through a slot until its free end is captured. The aircraft becomes anchored to the apparatus, and is pulled downward by the cable into a receptacle. Guiding surfaces of the receptacle adjust the position and orientation of a probe on the aircraft, directing the probe to mate with a docking fixture of the apparatus. Once mated, the aircraft is automatically shut down and serviced. When desired, the aircraft is automatically started and tested in preparation for launch, and then released into free flight. A full ground-handling cycle is thus accomplished with a simple, economical apparatus.
대표청구항▼
1. A flying object capturing apparatus, said flying object capturing apparatus comprising: (a) a base;(b) a docking station supported by the base and configured to receive a portion of a flying object;(c) a member holder supported by the base and configured to receive a member of the flying object;(
1. A flying object capturing apparatus, said flying object capturing apparatus comprising: (a) a base;(b) a docking station supported by the base and configured to receive a portion of a flying object;(c) a member holder supported by the base and configured to receive a member of the flying object;(d) two arms supported by and extending from the base and defining an opening therebetween configured to admit the member of the flying aircraft, into the member holder; and(e) a member mover supported by the base and configured to, after the member holder receives the member of the flying object, move the member relative to the docking station until the docking station receives the portion of the flying object. 2. The flying object capturing apparatus of claim 1, which includes a sensor configured to detect when the docking station receives the portion of the flying object, and wherein the member mover is configured to stop moving the member relative to the docking station when the sensor detects that the docking station receives the portion of the flying object. 3. The flying object capturing apparatus of claim 1, which includes at least one service connector supported by the base and configured to removably connect to the flying object. 4. The flying object capturing apparatus of claim 3, wherein the at least one service connector is configured to automatically add fuel to the flying object. 5. The flying object capturing apparatus of claim 1, wherein the docking station includes a plurality of spaced-apart flying object receiving members extending therefrom, the flying object receiving members defining a flying object receiving slot therebetween. 6. The flying object capturing apparatus of claim 5, wherein the flying object receiving slot is configured to receive the portion of the flying object. 7. The flying object capturing apparatus of claim 1, wherein the docking station includes the member holder. 8. The flying object capturing apparatus of claim 1, wherein the docking station, the member holder, and the arms are rotatable about a substantially vertical axis. 9. The flying object capturing apparatus of claim 1, wherein each of the arms includes an aerodynamic member extending therefrom. 10. A flying object capturing apparatus, said flying object capturing apparatus comprising: (a) a base;(b) a docking station supported by the base and including at least one flying object receiving member extending therefrom, the docking station configured to receive a portion of a flying object;(c) a member holder supported by the base and configured to receive a member of the flying object;(d) two arms supported by and extending from the base and defining an opening therebetween configured to admit the member of the flying aircraft into the member holder; and(e) a member mover supported by the base and configured to, after the member holder receives the member of the flying object, move the member relative to the docking station until the docking station receives the portion of the flying object. 11. The flying object capturing apparatus of claim 10, which includes a sensor configured to detect when the docking station receives the portion of the flying object, and wherein the member mover is configured to stop moving the member relative to the docking station when the sensor detects that the docking station receives the portion of the flying object. 12. The flying object capturing apparatus of claim 10, which includes at least one service connector configured to removably connect to the flying object. 13. The flying object capturing apparatus of claim 12, wherein the at least one service connector is configured to automatically add fuel to the flying object. 14. The flying object capturing apparatus of claim 10, wherein the docking station includes a plurality of spaced-apart flying object receiving members extending therefrom, the flying object receiving members defining a flying object receiving slot therebetween. 15. The flying object capturing apparatus of claim 14, wherein the flying object receiving slot is configured to receive the portion of the flying object. 16. The flying object capturing apparatus of claim 10, wherein the docking station includes the member holder. 17. The flying object capturing apparatus of claim 10, wherein the docking station, the member holder, and the arms are rotatable about a substantially vertical axis. 18. The flying object capturing apparatus of claim 10, wherein each of the arms includes an aerodynamic member extending therefrom. 19. A flying object capturing apparatus, said flying object capturing apparatus comprising: (a) a base;(b) a docking station supported by the base and including a plurality of spaced-apart flying object receiving members extending therefrom, the flying object receiving members defining a flying object receiving slot therebetween, the flying object receiving slot configured to receive a portion of a flying object;(c) a member holder supported by the base and configured to receive a member of the flying object;(d) two arms supported by and extending from the base and defining an opening therebetween configured to admit the member of the flying aircraft into the member holder; and(e) a member mover supported by the base and configured to, after the member holder receives the member of the flying object, move the member relative to the docking station until the docking station receives the portion of the flying object.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (47)
Winter Ralph C. (Doylestown PA), Aircraft arresting system.
Greenhalgh Richard David (Warton near Preston EN) Saunders Ronald Alexander (Warton near Preston EN) Seyfang George Reginald (Warton near Preston EN), Aircraft recovery methods.
Burgess R. Anthony (Toronto CAX) Cunliffe Geoffrey (Mississauga CAX) Tadros Atef (Brampton CAX), Apparatus for capturing, securing and traversing remotely piloted vehicles and methods therefor.
Burgess R. Anthony (Toronto CAX) Cunliffe Geoffrey (Mississauga CAX) Tadros Atef (Brampton CAX), Apparatus for capturing, securing and traversing remotely piloted vehicles and methods therefor.
Dennis,Brian D.; Jackson,Clifford; McGeer,Brian T.; von Flotow,Andreas H., Methods and apparatuses for capturing and recovering unmanned aircraft, including extendable capture devices.
Dennis,Brian D.; Jackson,Clifford; McGeer,Brian T., Methods and apparatuses for capturing and storing unmanned aircraft, including methods and apparatuses for securing the aircraft after capture.
Dennis,Brian D.; McGeer,Brian T.; Roeseler,Cory, Methods and apparatuses for capturing unmanned aircraft and constraining motion of the captured aircraft.
McGeer,Brian T.; Roeseler,Cory; von Flotow,Andreas H., Methods and apparatuses for launching unmanned aircraft, including methods and apparatuses for releasably gripping aircraft during launch.
McGeer,Brian T.; von Flotow,Andreas H.; Roeseler,Cory, Methods and apparatuses for launching unmanned aircraft, including releasably gripping aircraft during launch and braking subsequent grip motion.
McGeer, Brian T.; von Flotow, Andreas H.; Roeseler, Cory, Methods and apparatuses for launching unmanned aircraft, including releasably gripping aircraft during launch and breaking subsequent grip motion.
McGeer,Brian T.; von Flotow,Andreas H.; Roeseler,Cory, Methods and apparatuses for launching unmanned aircraft, including releasably gripping aircraft during launch and breaking subsequent grip motion.
McGeer,Brian T., Methods and apparatuses for launching, capturing, and storing unmanned aircraft, including a container having a guide structure for aircraft components.
McGeer,Brian T., Methods and apparatuses for launching, capturing, and storing unmanned aircraft, including a container having a guide structure for aircraft components.
Roeseler, Corydon C.; Woodruff, Caleb Andrew; Reiss, Daniel Pepin, Multicopter-assisted system and method for launching and retrieving a fixed-wing aircraft.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.