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Found results for
patents
1.
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VTOL AIRCRAFT USING ROTORS TO SIMULATE RIGID WING DYNAMICS
| Application Number |
US2017059809 |
| Publication Number |
2018/151777 |
| Status |
In Force |
| Filing Date |
2017-11-02 |
| Publication Date |
2018-08-23 |
| Owner |
JOBY AVIATION, INC. (USA)
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| Inventor |
- Bevirt, Joeben
- Stoll, Alex
- Mikic, Gregor Veble
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Abstract
A vertical take-off and landing aircraft which uses fixed rotors for both VTOL and forward flight operations. The rotors form a synthetic wing and are positioned to achieve a high span efficiency. The rotors are positioned to even out the lift across the span of the synthetic wing. The synthetic wing may also have narrow front and rear airfoils which may provide structural support as well as providing lift during forward flight. The wing rotors are tilted forward and provide some forward propulsion during horizontal flight.
IPC Classes ?
- B64C 27/08 - Helicopters with two or more rotors
- B64C 27/00 - RotorcraftRotors peculiar thereto
- B64C 27/22 - Compound rotorcraft, i.e. aircraft using in flight the features of both aeroplane and rotorcraft
- B64C 27/26 - Compound rotorcraft, i.e. aircraft using in flight the features of both aeroplane and rotorcraft characterised by provision of fixed wings
- B64C 27/28 - Compound rotorcraft, i.e. aircraft using in flight the features of both aeroplane and rotorcraft with forward-propulsion propellers pivotable to act as lifting rotors
- B64C 27/52 - Tilting of rotor bodily relative to fuselage
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2.
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AERODYNAMICALLY EFFICIENT LIGHTWEIGHT VERTICAL TAKE-OFF AND LANDING AIRCRAFT WITH PIVOTING ROTORS AND STOWING ROTOR BLADES
| Application Number |
US2015021344 |
| Publication Number |
2015/143093 |
| Status |
In Force |
| Filing Date |
2015-03-18 |
| Publication Date |
2015-09-24 |
| Owner |
JOBY AVIATION, INC. (USA)
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| Inventor |
- Bevirt, Joeben
- Stoll, Alex
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Abstract
An aerial vehicle adapted for vertical takeoff and landing using a set of wing mounted thrust producing elements and a set of tail mounted rotors for takeoff and landing. An aerial vehicle which is adapted to vertical takeoff with the rotors in a rotated, take-off attitude then transitions to a horizontal flight path, with the rotors rotated to a typical horizontal configuration. The aerial vehicle uses different configurations of its wing mounted rotors and propellers to reduce drag in all flight modes.
IPC Classes ?
- B64C 27/28 - Compound rotorcraft, i.e. aircraft using in flight the features of both aeroplane and rotorcraft with forward-propulsion propellers pivotable to act as lifting rotors
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3.
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AERODYNAMICALLY EFFICIENT LIGHTWEIGHT VERTICAL TAKE-OFF AND LANDING AIRCRAFT WITH PIVOTING ROTORS AND STOWING ROTOR BLADES
| Application Number |
US2015021350 |
| Publication Number |
2015/143098 |
| Status |
In Force |
| Filing Date |
2015-03-18 |
| Publication Date |
2015-09-24 |
| Owner |
JOBY AVIATION, INC. (USA)
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| Inventor |
- Bevirt, Joeben
- Stoll, Alex
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Abstract
An aerial vehicle adapted for vertical takeoff and landing using a set of wing mounted thrust producing elements and a set of tail mounted rotors for takeoff and landing. An aerial vehicle which is adapted to vertical takeoff with the rotors in a rotated, take-off attitude then transitions to a horizontal flight path, with the rotors rotated to a typical horizontal configuration. The aerial vehicle uses different configurations of its wing mounted rotors and propellers to reduce drag in all flight modes.
IPC Classes ?
- B64C 27/28 - Compound rotorcraft, i.e. aircraft using in flight the features of both aeroplane and rotorcraft with forward-propulsion propellers pivotable to act as lifting rotors
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4.
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LIGHTWEIGHT VERTICAL TAKE-OFF AND LANDING AIRCRAFT AND FLIGHT CONTROL PARADIGM USING THRUST DIFFERENTIALS
| Application Number |
US2010046500 |
| Publication Number |
2011/081683 |
| Status |
In Force |
| Filing Date |
2010-08-24 |
| Publication Date |
2011-07-07 |
| Owner |
JOBY AVIATION, INC. (USA)
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| Inventor |
- Bevirt, Joeben
- Craig, David
- Gibboney, Jeffrey
- Peddie, Matthew
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Abstract
An aerial vehicle adapted for vertical takeoff and landing using the same set of engines for takeoff and landing as well as for forward flight. An aerial vehicle which is adapted to takeoff with the wings in a vertical as opposed to horizontal flight attitude which takes off in this vertical attitude and then transitions to a horizontal flight path. An aerial vehicle which controls the attitude of the vehicle during takeoff and landing by alternating the thrust of engines, which are separated in at least two dimensions relative to the horizontal during takeoff, and which may also control regular flight in some aspects by the use of differential thrust of the engines.
IPC Classes ?
- B64C 15/12 - Attitude, flight direction or altitude control by jet reaction the jets being propulsion jets the power plant being tiltable
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