Ventilator with a sensor device to avoid a collision between an object with the rotor

The invention claimed is: 1. A ventilator having a rotor operatively connected to an electro mechanical transducer, wherein the rotor is rotatably mounted around an axis of rotation, wherein the rotor includes a plurality of rotor blades arranged around the axis of rotation, the ventilator comprising: a sensor device, wherein the sensor device detects an object approaching one of the plurality of rotor blades and wherein the sensor determines a position of the object relative to the one of the plurality of rotor blades and a speed of the object; a control device connected in a signal-transmitting manner to the sensor device, wherein the control device receives the position and the speed of the object from the sensor device and uses the position and the speed of the object to extrapolate a trajectory of the object, and wherein the control device adjusts an angular position or a rotational speed of the rotor using the electro mechanical transducer to avoid a collision between the object and the one of the plurality of rotor blades; and a braking device, wherein the control device uses the braking device to decelerate the rotational speed of the rotor to avoid a collision between the object and one of the plurality of rotor blades, wherein the braking device is capable of stopping the rotor within less than two rotations of the rotor and wherein the braking device comprises an annular surface arranged at an outer circumference of the rotor and a brake shoe cooperating therewith. 2. A ventilator having a rotor operatively connected to an electro mechanical transducer, wherein the rotor is rotatably mounted around an axis of rotation, wherein the rotor includes a plurality of rotor blades arranged around the axis of rotation, the ventilator comprising: a sensor device, wherein the sensor device detects an object approaching one of the plurality of rotor blades and wherein the sensor determines a position of the object relative to the one of the plurality of rotor blades and a speed of the object; a control device connected in a signal-transmitting manner to the sensor device, wherein the control device receives the position and the speed of the object from the sensor device and uses the position and the speed of the object to extrapolate a trajectory of the object, and wherein the control device adjusts an angular position or a rotational speed of the rotor using the electro mechanical transducer to avoid a collision between the object and the one of the plurality of rotor blades; and a pyrotechnically inflatable catch cushion, wherein the control device deploys the pyrotechnically inflatable catch cushion to stop the rotor before one of the plurality of rotor blades collides with the object. 3. The ventilator according to claim 2 , wherein the pyrotechnically inflatable catch cushion extends around a portion of an outer circumference of the ventilator when deployed. 4. The ventilator according to claim 2 , wherein the pyrotechnically inflatable catch cushion partially covers the rotor in the axial direction to form a barrier between the object and the rotor. 5. The ventilator according to claim 1 , further comprising a mechanical stopping device that enters into a trajectory of the one of the plurality of rotor blades to abruptly stop the rotor from rotating. 6. The ventilator according to claim 1 , wherein the control device increases a speed of the electro mechanical transducer to prevent the object from colliding with one of the plurality of rotor blades. 7. The ventilator according to claim 1 , wherein the sensor device comprises a first sensor and a second sensor, wherein the first sensor detects a first measured variable and the second sensor detects a second measured variable that differs from the first measured variable, and wherein the first and second sensors comprise an infrared sensor, an infrared camera, an ultrasonic sensor, a lidar sensor, a radar sensor, or a camera operating under visible light. 8. The ventilator according to claim 7 , wherein the first sensor detects the position of the object relative to the one of the plurality of rotor blades and the second sensor detects the speed of the object. 9. A process for controlling a ventilator including a rotor having a plurality of rotor blades and a sensor device, wherein the process comprises the steps of: detecting an object approaching one of the plurality of rotor blades; determining a position of the object relative to the one of the plurality of rotor blades; determining a speed of the object; using the position and the speed of the object to extrapolate a trajectory of the object relative to the one of the plurality of rotor blades; and adjusting a rotational speed of the rotor to prevent the object from colliding with the one of the plurality of rotor blades, wherein the rotational speed of the rotor is adjusted using an actuator that actuates a brake shoe to stop the rotor. 10. The process according to claim 9 , further comprising the step of unfolding a pyrotechnically inflatable catch cushion to stop or cover the one of the plurality of rotor blades. 11. The ventilator according to claim 2 , further comprising a mechanical stopping device that enters into a trajectory of the one of the plurality of rotor blades to abruptly stop the rotor from rotating. 12. The ventilator according to claim 2 , wherein the control device increases a speed of the electro mechanical transducer to prevent the object from colliding with one of the plurality of rotor blades. 13. The ventilator according to claim 2 , wherein the sensor device comprises a first sensor and a second sensor, wherein the first sensor detects a first measured variable and the second sensor detects a second measured variable that differs from the first measured variable, and wherein the first and second sensors comprise an infrared sensor, an infrared camera, an ultrasonic sensor, a lidar sensor, a radar sensor, or a camera operating under visible light. 14. The ventilator according to claim 13 , wherein the first sensor detects the position of the object relative to the one of the plurality of rotor blades and the second sensor detects the speed of the object.