Exterior Structure
Aerodynamic Hull :
Made from lightweight, strong composite material (e.g. carbon fiber or aluminum alloy), the shell guarantees impact protection and optimized aerodynamic performance.
Link: https://youtu.be/33T8eZGyQYc
Integrated lighting :
Equipped with 24 ultra-bright, high-intensity LED lamps. These lamps serve both as decorative elements for sophisticated lighting effects and for visual communication via patterns or a programmable lighting language.
Propulsion systems :
6 Ultra-quiet Reactors: Each reactor is equipped with fans of optimized design to minimize vibration and noise.
Helical Fans: 24 specially designed propellers for maximum thrust and enhanced stability.
Precision fasteners: fans are mounted via 24 micro fastener components, ensuring mechanical reliability and perfect alignment.
Airflow systems :
Extraction Buckets: Installed to efficiently channel outgoing airflow, increasing stability and reducing turbulence. Internal Core: Control and Power System
Chassis and Housing: A light-alloy internal housing protects electronic components.
Reinforcement Grids: Three internal grids keep the structure stable and durable.
Electrical Conduction Systems: Conductive Rings: Three rings made of copper (or other conductive metal) ensure the transmission of current through the drone.
36 Conductive Receivers: Connected to the rings, these receivers distribute power evenly to all critical components.
Protective cage: An internal metal cage protects the energy core from electromagnetic interference and mechanical damage.
Central Core and Power Supply:
Aluminum core: Placed in the center, it plays a crucial role in heat dissipation and load distribution.
Reflection Bio-Lamp: A high-intensity lamp uses a reflection principle to generate a self-sustaining direct current, making the drone self-sufficient in energy.
Features and compatibility
Automated System: The aircraft is fully autonomous thanks to its self-generating power systems and on-board sensors.
Remote control and PLC: The model is compatible with modern PLCs, enabling customized programming and remote control via an on-board processor. s can thus configure specific routines or pilot the drone via mobile applications.
Practical applications :
This model can be used for :
Discrete aerial surveillance.
Synchronized light shows.
Scientific research in noise-sensitive environments.
Theoretical calculations: Performance
Reactor power :
Let's assume that each engine generates 15 N (newtons) of thrust. With 6 engines, total thrust would be :
F = 6 ร 15 N = 90 N. This force is sufficient to keep an aircraft of average weight in flight, depending on air density and altitude.
Energy consumption :
If each lamp consumes 2 W, the total consumption of the 24 lamps is: P = 24 ร 2 W = 48 W.
Thanks to the self-powered core, this consumption is compensated for, guaranteeing extended autonomy.