What is the pulley tension?
The tension pulley can be considered one of the most complex forms of all different types of pulleys that are used to facilitate work for users and machines. Tension pulleys are belt pulleys that have at least one pulley or "block" that is not in a fixed position. This moving block is located in a way in a pulley system that allows it to reduce the amount of voltage on the belt that controls the pulleys. It moves in a position that places the amount of stresses on the belt or string. The voltage also connects a belt or string. The tensioning pulley works on the basis of the amount of stresses placed on the chain or belt.
One of the simplest and most common forms of voltage pulley is in the complex functioning of the automotive engine in the serpentine belt system. The tensioning wheel in the pulley system causes the snakeery to engage. It is the same belt that turns the coil wheel on the alternator and adds a charge to all electric elements of the car.
While the circuits and components of the engine can be complex and complex, the voltage of the voltage is simple. This includes only the location of sufficient stress on the belt to pull it out without slipping. This will then involve a number of other components in the automotive system.
Another example of the voltage pulley is in the gear wheel mechanism. There it is one of the two smaller spindles that contains a three-back gear system located on the rear tire. This voltage pulley is responsible for allowing the necessary sagging in the wheel chain to chain with a chain that moves in the system of the second wheel pulley, a cone system.
This system moves alternately with a chain of the wheel up and down-the spindle. This makes the task of selling the bike easier or heavier, depending on the user's preference. However, the cone system in which the gear spindles are arranged would not be able to perform its function if it was not for the function of the beltEnice voltage that would allow the necessary amount of voltage to the wheel string.