Body-integrated rotary wings for an airplane: https://lnkd.in/eAyiEmkT
US-Patent: https://lnkd.in/eG3rxDAw
German-Patent: https://lnkd.in/gFesNkZY
EU-Patent pending
This aircraft, as well as the larger aircraft shown under #resbwb2, is capable of taking off and landing vertically and reaching high speeds in straight flight. The aircraft's fuselage contains cavities that create an environment where four rotors with bow-shaped blades are able to rotate. These blades are arranged in a perpendicular orientation relative to the axis of rotation. The absence of direct airflow is compensated for by these rotors, drawing in ambient air. This process, as depicted in #resbwb2, enables the variable blades, which are arranged parallel to the axis of rotation, to be exposed to airflow during takeoff and landing. This generates lift, thereby maintaining the aircraft's flight. The suction side of the asymmetrical wing profile is capable of alternating between the exterior and interior of the orbit at a frequency of 60 Hz. This capability arises from the flexibility of adjusting the diameter P and P' within an angular range of 360°, ensuring constant perpendicularity to the desired direction of flight. The corresponding simulation results for a helicopter, as shown in #resheli1 and #resheli2, are available in my office.
#resfa4 #resbwb1 #resmanta #resblade #resewing #resheli2 #aerospace #technology #engineering #innovation #lightweight #aviation #manufacturing #automation #composites #sustainable #aviation #mobility #futureofmobility #aircraft #thefutureiselecric #aerodynamics #aam #uam #evtol #electricaircraft #mechanical #engineering #mathematics #aeronautics #technology #science #BlendedWingBody #FlyingWing #not4erverybody #nottobeignored
res-institute.com

One Of A Kind Blended Wing Body Aircraft: https://lnkd.in/exGpnMg8
US-Patent: https://lnkd.in/eG3rxDAw
German-Patent: https://lnkd.in/gFesNkZY
EU-Patent pending
The video is really remarkable. It shows an incredible aircraft that can take off and land vertically while flying in a straight line at high speed. The way in which the three components of the variable wing profile are connected without contact, controlled by an actuator, is truly remarkable. It is amazing to see how the suction side of the asymmetrical wing profile adjusts from outside to inside and vice versa at an impressive frequency of 40 Hz. The maneuverability of the aircraft is astonishing, allowing the precise alignment of the diameters P, P' over a 360° angle perpendicular to the desired direction of flight. This incredible feat allows the aircraft to be maneuvered with unprecedented ease without tilting the cabin. According to our calculations, this aircraft can generate 20 tons of lift for a short vertical takeoff using the electric fuel cell propulsion of the eight integrated rotor blades in the wings. This impressive lift is sufficient for vertical takeoff and a cruising speed of 700 kilometers per hour. With a takeoff mass of approximately 15 tons, including 20 passengers and a pilot, this aircraft will be a game changer. The flying wing has an impressive length of 15 meters and a wingspan of 28 meters. Passengers can also enjoy a refreshing drink throughout the flight thanks to the aircraft's innovative propulsion and maneuvering system, which keeps the cabin level at all times.
#resfa5 #resbwb2 #resvectorcraft #resdevice12 #resblade #resewing #resheli2 #aerospace #technology #engineering #innovation #lightweight #aviation #manufacturing #automation #composites #sustainable #aviation #mobility #futureofmobility #aircraft #thefutureiselecric #aerodynamics #aam #uam #evtol #electricaircraft #mechanical #engineering #mathematics #aeronautics #technology #science #BlendedWingBody #BWB #FlyingWing #not4erverybody #nottobeignored
res-institute.com

RES - Variable Wing1: https://lnkd.in/eWy8MwEM
Electrically adjustable wings from #theländ. Let us fly electric in the near future ! #reswing https://lnkd.in/enegiNyE This elegant regional aircraft combines two innovations. A total of ten electrically driven propellers stream the leading edge of the wing and are adjustable in any direction due to a new type of electric machine. The nose segment and the trailing edge segment of the wing can be pivoted relative to a supporting center segment in such a way that the lift of the variable wing profile can be varied according to the situation by means of a gear integrated into the center wing segment with a transmission ratio of about 1:60. The future of flight will be electric.
#aerospace1 #technology #engineering #innovation #lightweight #aviation #manufacturing #automation #industry #composites #sustainabledevelopment #sustainable #aviation #mobility #futureofmobility #aircraft #thefutureiselecric #engineering #engineeredmind #aerodynamics #aam #uam #evtol #helicopter #electricaircraft #mechanical #engineering #mathematics #aeronautics #thebest #technology #science
res-institute.com

RES - Variable Wing 2: https://lnkd.in/e6KesUAW
Regional Electric Flight.
Welcome to another premiere of the virtual RES Flying Circus featuring a new concept for electric flight combining a variable wing with variable propellers arranged at the trailing edge of the wing. This concept can substitute conventional controlled surfaces at the leading and the trailing edge of a wing.
#aerospace2 #technology #engineering #innovation #lightweight #aviation #manufacturing #automation #industry #composites #sustainabledevelopment #sustainable #aviation #mobility #futureofmobility #aircraft #thefutureiselecric #engineering #engineeredmind #aerodynamics #aam #uam #evtol #electricaircraft #mechanical #engineering #mathematics #aeronautics #thebest #technology #science #resmorphingwing
res-institute.com