Presented is a system to launch, carry and recover aerial vehicles with a portal circular synthetic runway formed by a moving pad which is equivalent to flying carpet in the ancient tale. Based on the fact that during the process of takeoff, landing or being carried, an aircraft only needs be suppor
Presented is a system to launch, carry and recover aerial vehicles with a portal circular synthetic runway formed by a moving pad which is equivalent to flying carpet in the ancient tale. Based on the fact that during the process of takeoff, landing or being carried, an aircraft only needs be supported from limited space directly underneath (or above) it, a pad (or a beam or a cable), which is acting as carriage and moving in unison with an aircraft, can be used to provide the same structural support as what's rendered by conventional runway or transportation vehicle. Circular structure of the synthetic runway makes such a device compact and portable.
대표청구항▼
1. A system to launch, carry and recover aerial vehicles, comprising: a first tilt pad with one or more arresting cables to catch a landing aerial vehicle and one or more grippers to hold and release and launch said aerial vehicle;said first tilting pad has a tilting mechanism in order to match atti
1. A system to launch, carry and recover aerial vehicles, comprising: a first tilt pad with one or more arresting cables to catch a landing aerial vehicle and one or more grippers to hold and release and launch said aerial vehicle;said first tilting pad has a tilting mechanism in order to match attitude of said aerial vehicle in circling motion;said first tilting pad is connected to a rotating arm;a guide wheel is attached to said rotating arm, so that a driving and position sensing unit can detect position of a counterweight, and drive said counterweight to desired position between a first and a second end of said rotating arm;a base, which contains a motor, an electronic control system, and a battery;said motor is used to drive a rotation axis and said rotating arm;in order to detect imbalance, a horizontal force sensor, a vertical force sensor and a mounting disk are added;when said rotating arm is not rotating, static balancing is achieved by detecting imbalance via force sensors and driving counterweight to appropriate location on the rotating arm accordingly using driving and position sensing unit under the control of electronic control system inside base;in order to reduce imbalance dynamically when launching or landing only one aerial vehicle, counterweight driven by driving and position sensing unit, a pulley system and guide wheel is attached to rotating arm, so that driving and position sensing unit can detect position of the counterweight, and drive the counterweight to desired position between said ends of rotating arm; andwhen said rotating arm is rotating, dynamic balancing is achieved by detecting imbalance via force sensors and driving counterweight to appropriate location on the rotating arm using driving and position sensing unit, and adjusting deflection of flaperon and accordingly under the control of electronic control system inside base. 2. The device as set forth in claim 1, wherein said tilting mechanism directly attaches to one end of said rotating arm. 3. The device as set forth in claim 1, wherein to achieve a larger rotational radius, said first tilting pad is connected to said rotating arm by a pole and wherein said tilting mechanism is attached directly to said pole. 4. The device as set forth in claim 1, wherein to achieve a larger rotational radius, said first tilting pad is connected to said rotating arm by a telescoping pole mechanism to further extend the rotational radius and wherein said tilting mechanism is attached directly to said telescoping pole mechanism. 5. The device as set forth in claim 1, wherein to achieve a larger rotational radius, said first tilting pad is connected to said rotating arm by a soft cable with a pole to yet further extend the rotational radius and wherein said tilting mechanism is attached directly to said soft cable with said pole. 6. The device as set forth in claim 1, further comprising a second tilt pad with one or more arresting cables to catch a landing aerial vehicle and one or more grippers to hold and release and launch said aerial vehicle; said second tilting pad has a tilting mechanism in order to match attitude of said aerial vehicle in circling motion; andsaid second tilting pad is connected to said rotating arm. 7. The device as set forth in claim 6, wherein to achieve a larger rotational radius, said second tilting pad is connected to said rotating arm by a pole and wherein said tilting mechanism is attached directly to said pole. 8. The device as set forth in claim 6, wherein to achieve a larger rotational radius, said second tilting pad is connected to said rotating arm by a telescoping pole mechanism to further extend the rotational radius and wherein said tilting mechanism is attached directly to said telescoping pole mechanism. 9. The device as set forth in claim 6, wherein to achieve a larger rotational radius, said second tilting pad is connected to said rotating arm by a soft cable with a pole to yet even further achieve an even larger rotational radius and wherein said tilting mechanism is attached directly to said soft cable with said pole. 10. The device as set forth in claim 1, wherein said pulley system is a chain. 11. The device as set forth in claim 1, wherein said pulley system is a belt. 12. A system to launch, carry and recover aerial vehicles, comprising: one or more tilt pad with one or more arresting cables to catch a landing aerial vehicle and one or more grippers to hold and release and launch said aerial vehicle;said tilting pad has a tilting mechanism in order to match attitude of said aerial vehicle in circling motion;said tilting pad is connected to a rotating arm by a pole and wherein said tilting mechanism is attached directly to said pole;a guide wheel is attached to said rotating arm, so that a driving and position sensing unit can detect position of a counterweight, and drive said counterweight to desired position between a first and a second end of said rotating arm;a base, which contains a motor, an electronic control system, and a battery;said motor is used to drive said rotation axis and said rotating arm;in order to detect imbalance, a horizontal force sensor, a vertical force sensor and a mounting disk are added;when said rotating arm is not rotating, static balancing is achieved by detecting imbalance via force sensors and driving counterweight to appropriate location on the rotating arm accordingly using driving and position sensing unit under the control of electronic control system inside base;in order to reduce imbalance dynamically when launching or landing only one aerial vehicle, counterweight driven by driving and position sensing unit, a pulley system and guide wheel is attached to rotating arm, so that driving and position sensing unit can detect position of the counterweight, and drive the counterweight to desired position between said ends of rotating arm; andwhen said rotating arm is rotating, dynamic balancing is achieved by detecting imbalance via force sensors and driving counterweight to appropriate location on the rotating arm using driving and position sensing unit, and adjusting deflection of flaperon, accordingly under the control of electronic control system inside base. 13. The device as set forth in claim 12, wherein said pole is a telescoping pole mechanism to extend the rotational radius and wherein said tilting mechanism is attached directly to said telescoping pole mechanism. 14. The device as set forth in claim 12, further comprising a second tilt pad with one or more arresting cables to catch a landing aerial vehicle and one or more grippers to hold and release and launch said aerial vehicle; said second tilting pad has a tilting mechanism in order to match attitude of said aerial vehicle in circling motion; andsaid second tilting pad is connected to said rotating arm by said pole. 15. The device as set forth in claim 14, wherein said pole is a telescoping pole mechanism to extend the rotational radius and wherein said tilting mechanism is attached directly to said telescoping pole mechanism. 16. The device as set forth in claim 12, wherein said pulley system is a chain. 17. The device as set forth in claim 12, wherein said pulley system is a belt. 18. A system to launch, carry and recover aerial vehicles, comprising: one or more tilt pad with one or more arresting cables to catch a landing aerial vehicle and one or more grippers to hold and release and launch said aerial vehicle;said tilting pad has a tilting mechanism in order to match attitude of said aerial vehicle in circling motion;to achieve a larger rotational radius, said tilting pad is connected to a rotating arm by a soft cable with a pole, and wherein said tilting mechanism is attached directly to said soft cable with said pole;a guide wheel is attached to said rotating arm, so that a driving and position sensing unit can detect position of a counterweight, and drive said counterweight to desired position between a first and a second end of said rotating arm;a base, which contains a motor, an electronic control system, and a battery;said motor is used to drive said rotation axis and said rotating arm;in order to detect imbalance, a horizontal force sensor, a vertical force sensor and a mounting disk are added;when said rotating arm is not rotating, static balancing is achieved by detecting imbalance via force sensors and driving counterweight to appropriate location on the rotating arm accordingly using driving and position sensing unit under the control of electronic control system inside base;in order to reduce imbalance dynamically when launching or landing only one aerial vehicle, a counterweight driven by driving and position sensing unit, a pulley system and a guide wheel is attached to rotating arm, so that driving and position sensing unit can detect position of the counterweight, and drive the counterweight to desired position between said ends of rotating arm; andwhen said rotating arm is rotating, dynamic balancing is achieved by detecting imbalance via force sensors and driving counterweight to appropriate location on the rotating arm using driving and position sensing unit, and adjusting deflection of flaperon and accordingly under the control of electronic control system inside base. 19. The device as set forth in claim 18, further comprising a second tilt pad with one or more arresting cables to catch a landing aerial vehicle and one or more grippers to hold and release and launch said aerial vehicle; said second tilting pad has a tilting mechanism in order to match attitude of said aerial vehicle in circling motion; andsaid second tilting pad is connected to a rotating arm. 20. The device as set forth in claim 19, to achieve a larger rotational radius, said second tilting pad is connected to a rotating arm by said soft cable with said pole, and wherein said tilting mechanism is attached directly to said soft cable with said pole.
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이 특허에 인용된 특허 (4)
Goossen, Emray R.; Sheoran, Yogendra Y., Launch and capture systems for vertical take-off and landing (VTOL) vehicles.
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