An excellent example for understanding how does gear multipliers work can be found in the application of wind turbines. The concept of wind turbines is to transform the kinetic energy of the wind into electrical energy. The blow of the wind rotates the blades of a rotor which drives the speed multiplier, the purpose of which is to transform the slow rotation of the blades into a faster rotation. The rotor is connected to an alternator which allows to generate electric current. But how exactly does the gear multiplier work in this case? The multiplier is a gear system consisting of a large diameter motor gear, on which a torque is applied and transmitted to a smaller diameter driven gear. Let’s assume that the first is 3 times larger than the second. One rotation of the large gear corresponds to 3 rotations of the small one. So the small gear rotates 3 times faster than the large one. The gear system thus allows to increase the slow rotation of the blades, which otherwise would not be able to drive the alternator.
How does gearboxes work?
The speed reducer works exactly the opposite of a gear multiplier. Therefore, suppose we have a gear system in which the motor gear, with a smaller diameter, is applied a torque with a diameter equal to one third of the diameter of the driven gear. One rotation of the smaller gear will correspond to ⅓ of rotation of the large gear. The latter will then rotate 3 times slower than the small one. The reducers are therefore mechanical gear transmissions that reduce the movement speed of the machine to which they are connected to adapt it to the operating needs. While reducing the speed, the gearbox multiplies the torque.