In mechanical transmission systems, when a motor is used in combination with a reducer, accurately calculating its output torque is crucial. So, how exactly should the torque of the motor combined with the reducer be calculated?
First of all, we need to understand some key parameters. The motor power is an important factor, which reflects the work capacity of the motor. At the same time, the rotational speed of the motor is also an indispensable element in the calculation.
The calculation formula can be expressed as: motor power multiplied by 9550, then multiplied by the rotational speed, and multiplied by the efficiency. The final result is in N.m.
The 9550 in this formula is a constant, which is derived and converted through a series of steps. The efficiency represents the loss situation of the entire transmission system during the energy transfer process.
Through this formula, we can calculate the torque of the motor combined with the reducer relatively accurately, providing an important reference basis for mechanical design and engineering applications, and ensuring the stable operation and performance of the system.