Mechanical propeller emergency stop mechanism

Scientists from the University of Hannover have developed a purely mechanical system and mechanism, which enables a rotor stop within few milliseconds as soon as a first rotor contact with an object occurs. For a single rotor setup a rebound strap is fixed in the outer region of the rotor, in order to allow free rotor movement. In its fixed position, the rebound strap is under tension. As soon as the strap is released, the strap moves towards the rotating propeller due to material relaxation. The strap entangles in the rotor and stops its rotation immediately. A more advanced emergency stop system is achieved for a two-rotor configuration by using material-specific, circular cage structures, which surround the rotors. The cage structures exhibit channels for free rotor movement. Black ropes are attached to the cage and connected via red ropes with each other. When the cage touches or gets touched by an object, the cage material deforms. This triggers a mechanism, which pushes the black ropes towards the moving rotors, followed by rotation stop. The entanglement of a rope in one rotor triggers a second mechanism via the red ropes, which pull the black ropes towards the second rotor and stop its movement. The sensitivity of cage deformation and propeller stop mechanism is controllable by used material.