An unmanned aerial vehicle, comprising: a fuselage having a first side board and a second side board spaced apart and connected by at least one transverse board; the first side board, the second side board, and the at least one transverse board being printed circuit boards; at least one of the first
An unmanned aerial vehicle, comprising: a fuselage having a first side board and a second side board spaced apart and connected by at least one transverse board; the first side board, the second side board, and the at least one transverse board being printed circuit boards; at least one of the first side board, the second side board, and the at least one transverse board having formed and mounted thereon conductive traces and at least one component, respectively, for controlling and monitoring the unmanned aerial vehicle; first and second wings mounted to the fuselage; and, a tail mounted to the fuselage.
대표청구항▼
1. An unmanned aerial vehicle, comprising: a fuselage having a first side board and a second side board spaced apart and connected by at least one transverse board; the first side board, the second side board, and the at least one transverse board being printed circuit boards; at least one of the fi
1. An unmanned aerial vehicle, comprising: a fuselage having a first side board and a second side board spaced apart and connected by at least one transverse board; the first side board, the second side board, and the at least one transverse board being printed circuit boards; at least one of the first side board, the second side board, and the at least one transverse board having formed and mounted thereon conductive traces and at least one component, respectively, for controlling and monitoring the unmanned aerial vehicle;first and second wings mounted to the fuselage; and,a tail mounted to the fuselage. 2. The unmanned aerial vehicle of claim 1, further comprising a conductive trace routed proximate a perimeter of at least one of the first side board and the second side board for detecting damage to the at least one of the first side board and the second side board. 3. The unmanned aerial vehicle of claim 1, further comprising a conductive trace routed proximate a connection between the at least one transverse board and at least one of the first side board and the second side board for detecting damage to the connection. 4. The unmanned aerial vehicle of claim 1, further comprising a conductive trace routed proximate a connection between the at least one component and at least one of the first side board, the second side board, and the at least one transverse board for detecting damage to at least one of the connection and the at least one component. 5. The unmanned aerial vehicle of claim 1, further comprising a propeller and motor for providing thrust. 6. The unmanned aerial vehicle of claim 5, wherein the motor is an electric motor. 7. The unmanned aerial vehicle of claim 6, further comprising a battery mounted in the fuselage for providing electric power to the electric motor and to the at least one component. 8. The unmanned aerial vehicle of claim 1, wherein the first side board and the second side board are vertical and parallel and the at least one transverse board is horizontal. 9. The unmanned aerial vehicle of claim 1, wherein the at least one component includes a processor. 10. The unmanned aerial vehicle of claim 1, further comprising a payload bay formed proximate bottom edges of the first side board and the second side board, the payload bay for mounting a payload module. 11. The unmanned aerial vehicle of claim 10, wherein at least one of the first side board and the second side board is provided with at least one conductive trace for receiving an electrical connector of the payload module. 12. The unmanned aerial vehicle of claim 10, wherein the payload module is a camera. 13. The unmanned aerial vehicle of claim 1, wherein the wings are detachable. 14. The unmanned aerial vehicle of claim 1, wherein the at least one component includes at least one sensor. 15. The unmanned aerial vehicle of claim 1, further comprising at least one boom for mounting the tail to the fuselage. 16. The unmanned aerial vehicle of claim 1, wherein the tail includes a horizontal stabiliser and a vertical stabiliser. 17. The unmanned aerial vehicle of claim 16, wherein the at least one component includes at least one servo motor for adjusting flight control surfaces of the horizontal stabiliser and the vertical stabiliser. 18. The unmanned aerial vehicle of claim 1, further comprising at least one opening formed in a nose of the fuselage to allow air to pass therethrough to cool the at least one component. 19. The unmanned aerial vehicle of claim 1, wherein the first side and the second side are elongate and are tapered toward fore and aft of the fuselage. 20. A method for forming an unmanned aerial vehicle, comprising: assembling a fuselage having a first side board and a second side board spaced apart and connected by at least one transverse board; the first side board, the second side board, and the at least one transverse board being printed circuit boards; at least one of the first side board, the second side board, and the at least one transverse board having formed and mounted thereon conductive traces and at least one component, respectively, for controlling and monitoring the unmanned aerial vehicle;mounting first and second wings to the fuselage; and,mounting a tail to the fuselage. 21. A fuselage for an unmanned aerial vehicle, comprising: a first side board and a second side board spaced apart and connected by at least one transverse board;wherein the first side board, the second side board, and the at least one transverse board are printed circuit boards; and,wherein at least one of the first side board, the second side board, and the at least one transverse board has formed and mounted thereon conductive traces and at least one component, respectively, for controlling and monitoring the unmanned aerial vehicle.
Lucero, Michael; Collette, Daniel Ross; Axtman, David, Structural ring interconnect printed circuit board assembly for a ducted fan unmanned aerial vehicle.
Maurer,Scott M.; Brewer,Ryan C.; Jackson,Larry D.; Kofler,Kevin J., UAV comprising a sensing system for detection and identification of biological particles.
Poling, Bryan T.; Salant, Kimberly A.; Poling, Theodore C.; Launer, Christopher A., Airborne multispectral imaging system with integrated navigation sensors and automatic image stitching.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.