Ground effect acting on an aerial vehicle, such as an unmanned aerial vehicle, may be simulated by discharging a gas around propeller blades of the aerial vehicle while the propeller blades are rotating. For example, a gas, such as air, may be discharged at or near the tip of the propeller blades wi
Ground effect acting on an aerial vehicle, such as an unmanned aerial vehicle, may be simulated by discharging a gas around propeller blades of the aerial vehicle while the propeller blades are rotating. For example, a gas, such as air, may be discharged at or near the tip of the propeller blades with enough velocity to disrupt the airflow around the blade tips, thereby altering the sound generated by rotation of the propeller blade.
대표청구항▼
1. An aerial vehicle comprising: a motor configured to rotate a propeller such that the propeller generates a lifting force;the propeller including: a hub that is coupled to the motor so that the motor can rotate the propeller;a propeller blade extending from the hub, the propeller blade including:
1. An aerial vehicle comprising: a motor configured to rotate a propeller such that the propeller generates a lifting force;the propeller including: a hub that is coupled to the motor so that the motor can rotate the propeller;a propeller blade extending from the hub, the propeller blade including: a tip;a cavity extending from the hub to the tip and including an opening at the tip of the propeller blade, wherein the cavity is configured to allow a gas to pass through the cavity and exit the opening proximate the tip of the propeller blade;a gas canister that contains the gas; anda gas discharge controller configured to control a discharge of the gas canister, wherein when the gas canister is discharged when gas contained in the gas canister exits the gas canister, passes through the cavity of the propeller blade, and exits the opening at the tip of the propeller blade. 2. The aerial vehicle of claim 1, wherein the gas is at least one of air, hydrogen, helium, nitrogen, oxygen, argon, krypton, or xenon. 3. The aerial vehicle of claim 1, further comprising: a navigation component configured to determine an altitude of the aerial vehicle; andwherein the gas discharge controller causes the gas to be discharged from the gas canister when the aerial vehicle is below a defined altitude. 4. The aerial vehicle of claim 1, wherein the gas exiting the opening at the tip of the propeller blade disrupts a flow of air around the tip of the propeller blade. 5. The aerial vehicle of claim 4, wherein the disruption of the flow of air around the tip of the propeller blade reduces a sound generated by a rotation of the propeller blade. 6. An aerial vehicle, comprising: a frame;a motor configured to rotate a propeller;the propeller coupled to the motor;a gas canister affixed to the frame of the aerial vehicle, the gas canister containing a gas prior to the gas being discharged;a cavity that extends from the gas canister to a position proximate a tip of the propeller; anda gas discharge controller configured to control a discharge of the gas from the gas canister such that the gas is discharged out of an opening in the cavity and around at least a portion of the propeller while the propeller is rotated by the motor. 7. The aerial vehicle of claim 6, further comprising: a second motor configured to rotate a second propeller;the second propeller coupled to and rotated by the second motor; andwherein the gas discharge controller is configured to control the discharge of gas: around at least a portion of the propeller while the propeller is rotated by the motor; oraround at least a portion of the second propeller while the second propeller is rotated by the second motor. 8. The aerial vehicle of claim 6, wherein the cavity includes a plurality of openings. 9. The aerial vehicle of claim 6, further comprising: a scoop configured to collect air from around the aerial vehicle; anda pump configured to pump the collected air through a cavity such that the collected air is discharged around at least the portion of the propeller, wherein the gas includes the collected air. 10. An aerial vehicle comprising: a motor configured to rotate a propeller such that the propeller generates a lifting force;the propeller including a surface area having an opening along the surface area; anda gas discharge controller configured to control a discharge of the gas from the opening. 11. The aerial vehicle of claim 10, wherein the gas is at least one of air, hydrogen, helium, nitrogen, oxygen, argon, krypton, or xenon. 12. The aerial vehicle of claim 10, further comprising: a navigation component configured to determine an altitude of the aerial vehicle; andwherein the gas discharge controller causes the gas to be discharged from the opening when the aerial vehicle is below a defined altitude. 13. The aerial vehicle of claim 10, further comprising: a gas canister that contains the gas prior to the gas being discharged. 14. The aerial vehicle of claim 10, further comprising: a sensor configured to monitor an operating condition of the aerial vehicle; andwherein the gas discharge controller discharges the gas when the operating condition satisfies a criterion. 15. The aerial vehicle of claim 10, further comprising: a scoop configured to collect air from around the aerial vehicle; anda pump configured to pump the collected air through a cavity such that the collected air is discharged through the opening. 16. The aerial vehicle of claim 10, wherein the propeller includes a plurality of openings. 17. The aerial vehicle of claim 16, wherein the gas discharge controller is configured to selectively discharge the gas through one or more of the plurality of openings.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (14)
Inhofer Harold G. (Hopkins MN) De Veau John E. (Minnetonka MN), Aeration propeller and apparatus.
Hubbell James C. (Fond du Lac WI), Integrally formed driveshaft housing structure for interposition between the powerhead and lower unit of a marine propul.
McGowan Philip J. (Grayslake IL) McNeill Steven R. (Waukegan IL) Mondek Matthew H. (Wonder Lake IL) Mahnich James A. (Lake Villa IL), Marine propulsion device with screened water inlet.
Keennon, Matthew Todd; Andryukov, Alexander; Klingebiel, Karl Robert; Won, Henry Thome, Air vehicle flight mechanism and control method for non-sinusoidal wing flapping.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.