The hexacopter combines both propellers and ducted fans to create a new kind a thrust. The ducted fans will primarily be in charge of a powerful take-off while the propellers will take over once the drone has reached the desired altitude. This combination gives the drone the best from each technology regarding thrust. The entire drone frame is 3D-printed with a solid and lightweight design. The frame arms are modular and can easily be changed to only use propellers or ducted fans or the combination which we are currently working with. The hexacopter has a robotic arm attached underneath which is powered by solar panels on the top to use as much green energy as possible. The hexacopter can both be controlled autonomously and with a transmitter.
Using the same mechanism as for the medicinal robot, we will use this dispensing robot to fight rats, a worldwide plague to humanity because of the many dangerous viruses they carry. Decreasing the rat population is a task for every municipality in Denmark and this task is both dirty and dangerous for humans to do. We are currently developing a case for the Rotbot making it possible to carry various rat poison and locate rat colonies with cameras and sensors mounted on the robot. Humans are too big and fragile to access the environment and homes of rat colonies, primarily in sewers, why robots are needed to keep humans safe and decrease the rat population of Denmark.
The turbine drone combines turbines with a special developed frames. This combination gives the drone the best from each technology regarding thrust. The entire drone frame is 3D-printed with a solid and lightweight design. The frame arms fixed size.