German patent granted: https://lnkd.in/dVgSWVE https://lnkd.in/eQGmPnPf
United States Patent granted: https://lnkd.in/eVwYbges
Photovoltaic cells are covering the upper surface of the air frame on a surface greater than 1000 m². As long as the sun shines this solar airplane is capable of transporting ten passengers on regional distances without consuming other energy than the one provided by the sun. The RES-Sun flyer is equipped with rather modestly sized accumulator packs to provide extra power for starting and climbing. Once in the air the airplane is maneuvering with its wings and does not need a conventional tail with control surfaces. It is also possible to incline the wings in order to expose the PV-cells to the sun. This is made possible by variable wing profiles which can moderate lift. Four wings are interconnected among each other and together with a slim fuselage form the diamond shaped air frame. During flight the kinematic air frame acts as an empennage when the angle of attack changes in opposite direction by altering the distance between front and rear nodal joints.
#resfa1 #ressunflyer #resempennage #respvflight #resregioair #ressolarwing #ewing #resblade #aerospace #technology #engineering #innovation #lightweight #aviation #manufacturing #automation #industry #composites #sustainable #aviation #mobility #aircraft #thefutureiselecric #engineering #aerodynamics #aam #uam #mechanical #engineering #mathematics #aerodynamics #asktheinventor #technology #science #advancedairmobility #sustainabledevelopment #volarenecesseest #senexarboresnonsibiseret #resinstitute #resfoldableairplane
res-institute.com

Compact Airplane For Regional Air Traffic: https://lnkd.in/e58h8f2h
German patent granted: https://lnkd.in/eQGmPnPf. https://lnkd.in/dVgSWVE
United States Patent pending: https://lnkd.in/eVwYbges https://lnkd.in/egUDF6sc
#resfa2 #resempennage #resregioair #aerospace #technology #engineering #innovation #lightweight #aviation #manufacturing #automation #industry #composites #sustainable #aviation #mobility #aircraft #thefutureiselecric #engineering #aerodynamics #aam #uam #mechanical #engineering #mathematics #aerodynamics #technology #science #advancedairmobility #sustainabledevelopment #volarenecesseest #resfoldableairplane #evtol
res-institute.com

Maneuvering Without A Tale: https://lnkd.in/daKBQBr
US Patent granted: https://lnkd.in/eVwYbges
German Patent granted: https://lnkd.in/dVgSWVE
RES Virtual Airlines invites you to the maiden flight of the brand new RES Air Clipper in a sequence of take-off, flight and landing for the future of electric flight! In comparison to bird flight, the manoeuvrability of aeroplanes seems somewhat complicated. The climb, descent and curve flight of man-made aeroplanes require the individual activation of different adjustable planes, such as the rudder plane, the elevator plane and the aileron plane. In contrast, a hawk's manoeuvrability is unparalleled and is solely executed by its wings and tail. What might a future aeroplane look like, inspired by this natural role model? Is it possible to manoeuvre an aeroplane mainly by adjusting the wings? The RES Foldable Airplane features a new manoeuvring system for aircraft airframes. The foldable airframe comprises a fuselage extending between a bow and a tail segment and four wings forming a square with nodal elements connected in such a way that the distance between the nodal elements at the bow and tail segments of the fuselage can be varied during flight by shortening or expanding the distance between the nodes at the bow and tail. An aeroplane with a dihedral wing arrangement will climb by shortening the distance, and descend by widening it. Curve flight is possible through the separate adjustment of the starboard and port-board wings. Changing the distance between the nodes also changes the angle of attack of the front and rear wings, which are joined together by outer nodes that serve as winglets.
#resfa3 #resempennage #resregioair #aerospace #technology #engineering #innovation #lightweight #aviation #manufacturing #automation #industry #composites #sustainable #aviation #mobility #aircraft #thefutureiselecric #engineering #aerodynamics #aam #uam #mechanical #engineering #mathematics #aerodynamics #technology #science #advancedairmobility #sustainabledevelopment #volarenecesseest #resfoldableairplane #evtol
res-institute.com

Drone 2: Foldable Drone
Maneuvering With Minimal Air Resistance: https://lnkd.in/ecriqYNq
US Patent granted: https://lnkd.in/eVwYbges
German Patent granted: https://lnkd.in/dVgSWVE
This transport drone has four wings arranged in pairs on the starboard and port sides, connected to the fuselage via rails. Changing the distance between the two nodes and the fuselage changes the angle of attack of the front and rear wings in opposite directions. The starboard and port wing pairs can be moved independently, enabling all the functions of a conventional tailplane to be performed by changing the angle of attack of the four wings alone. This means that a conventional tail unit can be dispensed with, for example at the rear of the aircraft, significantly reducing drag. Additionally, the drone's vertical take-off can be controlled by adjusting the position of the four propellers, as demonstrated in the video clip. The video clip provides an insight into the manoeuvrability of this innovative drone.
#resdrone2 #resturtle4 #resempennage #resregioair #resturtle #technology #engineering #innovation #lightweight #aviation #manufacturing #automation #industry #composites #sustainable #aviation #mobility #aircraft #thefutureiselecric #engineering #aerodynamics #aam #uam #mechanical #engineering #mathematics #aerodynamics #technology #science #advancedairmobility #sustainabledevelopment #volarenecesseest #resfoldableairplane #evtol
res-institute.com

Drone 2: Drone with only Two Rotors
Maneuvering With Minimal Air Resistance: https://lnkd.in/div_K3B
US Patent granted: https://lnkd.in/eVwYbges
German Patent granted: https://lnkd.in/dVgSWVE
This transport drone has four wings arranged in pairs on the starboard and port sides, connected to the fuselage via a rail. Changing the distance between the two nodes and the fuselage changes the angle of attack of the front and rear wings in opposite directions. The starboard and port wing pairs can be moved independently, enabling all the functions of a conventional tailplane to be performed by changing the angle of attack of the four wings alone. This means that a conventional tail unit can be dispensed with, for example at the rear of the aircraft, significantly reducing drag. Additionally, the drone's vertical take-off can be controlled by adjusting the position of the four propellers, as demonstrated in the video clip. The video clip provides an insight into the manoeuvrability of this innovative drone.
#resdrone2 #resturtle3 #resempennage #resregioair #resturtle #technology #engineering #innovation #lightweight #aviation #manufacturing #automation #industry #composites #sustainable #aviation #mobility #aircraft #thefutureiselecric #engineering #aerodynamics #aam #uam #mechanical #engineering #mathematics #aerodynamics #technology #science #advancedairmobility #sustainabledevelopment #volarenecesseest #resfoldableairplane #evtol
res-institute.com

Drone 2: Drone with only Two Rotors
Maneuvering With Minimal Air Resistance: https://lnkd.in/db-PwQk
US Patent granted: https://lnkd.in/eVwYbges
German Patent granted: https://lnkd.in/dVgSWVE
This transport drone has four wings arranged in pairs on the starboard and port sides, connected to the fuselage via a rail. Changing the distance between the two nodes and the fuselage changes the angle of attack of the front and rear wings in opposite directions. The starboard and port wing pairs can move independently, enabling all the functions of a conventional tailplane to be performed by changing the angle of attack of the four wings alone. This means that a conventional tail unit can be dispensed with, for example at the rear of the aircraft, significantly reducing drag. Additionally, the drone's vertical take-off can be controlled by adjusting the position of the four propellers, as demonstrated in the video clip. The video clip demonstrates the manoeuvrability of this innovative drone.
#redrone2 #resturtle5 #resempennage #resregioair #resturtle #technology #engineering #innovation #lightweight #aviation #manufacturing #automation #industry #composites #sustainable #aviation #mobility #aircraft #thefutureiselecric #engineering #aerodynamics #aam #uam #mechanical #engineering #mathematics #aerodynamics #asktheinventor #technology #science #advancedairmobility #sustainabledevelopment #volarenecesseest #resfoldableairplane #evtol
res-institute.com

Maneuvering With Minimal Air Resistance: https://lnkd.in/dB6-Bd7
German patent granted: https://lnkd.in/eQGmPnPf https://lnkd.in/dVgSWVE
United States Patent pending: https://lnkd.in/eVwYbges
The four wings of this transport drone are arranged in pairs on the starboard and port sides and connected to the fuselage on a rail. If the distance between the two nodes and the fuselage is changed, the angle of attack of the front and rear wings changes in opposite directions. The pair of wings on the starboard and port sides can be moved independently of each other, so that all the functions of a conventional tailplane can be performed with the four wings alone by changing the angle of attack. In this way, a conventional tail unit can be dispensed with, for example at the rear of the aircraft, which significantly reduces drag. Independently of this, the drone taking off vertically can also be controlled by the position of the four propellers, as shown in the video clip. The video clip gives an impression of the maneuverability of this novel drone.
#resdrone2 #resturtle1 #resempennage #resregioair #resturtle #technology #engineering #innovation #lightweight #aviation #manufacturing #automation #industry #composites #sustainable #aviation #mobility #aircraft #thefutureiselecric #engineering #aerodynamics #aam #uam #mechanical #engineering #mathematics #aerodynamics #asktheinventor #technology #science #advancedairmobility #sustainabledevelopment #volarenecesseest #resfoldableairplane #evtol
res-institute.com

Drone 2: Drone with only Two Rotors
Maneuvering With Minimal Air Resistance: https://lnkd.in/eR9xHqU9
US Patent granted: https://lnkd.in/eVwYbges
German Patent granted: https://lnkd.in/dVgSWVE
#resdrone2 #resturtle2
res-institute.com

Drone 2: Drone with only Two Rotors
Maneuvering With Minimal Air Resistance: https://lnkd.in/div_K3B
US Patent granted: https://lnkd.in/eVwYbges
German Patent granted: https://lnkd.in/dVgSWVE
#resdrone2 #resturtle3 #resempennage #resregioair #resturtle #technology #engineering #innovation #lightweight #aviation #manufacturing #automation #industry #composites #sustainable #aviation #mobility #aircraft #thefutureiselecric #engineering #aerodynamics #aam #uam #mechanical #engineering #mathematics #aerodynamics #technology #science #advancedairmobility #sustainabledevelopment #volarenecesseest #resfoldableairplane #evtol
res-institute.com

Drone 2: Drone with only Two Rotors
Maneuvering With Minimal Air Resistance: https://lnkd.in/eB6Z7e_V
US Patent granted: https://lnkd.in/eVwYbges
German Patent granted: https://lnkd.in/dVgSWVE
#resdrone2 #resturtle6
res-institute.com