Аннотация:
The most difficult moment in the work with an asynchronous motor is the
launch. And the more powerful drive is the more difficult launch. This is due to certain features of
the asynchronous motors: a limited starting torque and starting throws of the current of the stator
motor chain. The mathematical modeling of oscillating process of actuation of the actuator with an
asynchronous motor, which includes an elastic coupling with nonlinear mechanical feedback, is
carried out. The influence of the type of elastic characteristics of the coupling on the magnitude of
the amplitude and frequency of the oscillation process and its time was studied. A single-mass
rotational system model was used for the studies. According to the Runge-Kutta method, the
oscillation processes of starting the transmission of a machine unit with an induction motor were
investigated. To determine the coefficient of vibration isolation, a system with an elastic coupling
having a linear elastic characteristic was calculated. A study was also conducted in the case where
the coupling determines the elastic characteristics of the Duffing type "soft" and "hard" type.
The results of the calculations show that it is advisable to use a nonlinear coupling with a combined
characteristic. On the basis of this, a synthesis of the target elastic characteristic and the study of the
oscillatory process in the application of the proposed elastic coupling.
