Acro: Redefining 3D Flight Experiences
This electric marvel, designed by French design group Klissarov Design, uses cycloidal rotor technology to provide 360-degree force vectoring. Acro will be outfitted with dual joysticks and two screens for increased visibility. It will include a variety of flight modes, including AI-assisted "Acro" mode.
credits: klissarov.design |
Unleash the Joy of Ultralight eVTOL
Aiming to meet the growing demand for new yachting experiences and adventures, and based on the rapid technological development in the eVTOL sector, "Acro" is an ultralight recreational eVTOL concept vehicle that provides the ultimate 3D flight joy experience: aerobatic, fun, and emotional.
credits: klissarov.design |
The objective is to entice the next generation of boat users with an
emotionally compelling experience.The vehicle's propulsion system is built
on cutting-edge cycloidal rotor technology, which enables full 360° thrust
vectoring, outstanding maneuverability, and stability.
This new type of aircraft will not only deliver the best flight
experience and safety above water, but will also be able to land on yachts
in nearly any sea/weather situation.
The very low noise pollution, electrical propulsion mechanism, and
compact form factor will eliminate the requirement for a traditional
helipad. Inside the cabin, the contoured seat guarantees that the pilot is
comfortable while flying. There is also a structural harness to keep the
flier safe in the air.
Vehicle mass breakdown: The maximum take-off weight matches the overall
hover thrust, which is approximately 62% of the maximum overall thrust
that each cyclorotor can generate. Vehicle Mass: 80kg Pilot, 40kg
Airframe, 5kg Avionics, 58kg Energy Storage, and 97kg Propulsion
System.
Summary of Acro Ultralight Recreational eVTOL Concept - Specifications:
credits: klissarov.design |
Design and Technology:
- Designed by French design group Klissarov Design.
- Utilizes cutting-edge cycloidal rotor technology for 360-degree force vectoring.
- Dual joysticks and two screens for enhanced visibility.
- Features various flight modes, including AI-assisted "Acro" mode.
Performance:
- Ultralight recreational eVTOL concept vehicle.
- Provides a 3D flight joy experience: aerobatic, fun, and emotional.
- Objective is to cater to the next generation of boat users with an emotionally compelling experience.
- Propulsion system based on cycloidal rotor technology for 360° thrust vectoring, outstanding maneuverability, and stability.
- Capable of delivering the best flight experience and safety above water.
- Able to land on yachts in nearly any sea/weather situation.
Environmental Features:
- Very low noise pollution.
- Electrical propulsion mechanism.
- Compact form factor eliminates the need for a traditional helipad.
Cabin Features:
- Contoured seat for pilot comfort during flight.
- Structural harness to ensure flyer safety in the air.
Vehicle Mass Breakdown:
- Maximum Take-off Weight: Matches overall hover thrust (approximately 62% of maximum cyclorotor thrust).
Vehicle Mass:
- Pilot: 80kg
- Airframe: 40kg
- Avionics: 5kg
- Energy Storage: 58kg
- Propulsion System: 97kg