Abstract
Synchronization is widespread in many engineering fields. The double eccentric rotary exciter driven synchronous vibration system can be simplified as a dual-rotor self-synchronizing system. Taking a universal synchronous test bench as the research object, the synchronization characteristics of the self-synchronization system are quantitatively studied in several cases, which fully verifies the ability of the vibration system to self-recover synchronization. Based on the parameters of the experimental platform as a reference, and compared with the measured results, the rationality of the simulation results is proved. Moreover, through experiments and simulations, it is found that when the excitation force is not equal, even if the motor power with larger excitation force is turned off, the system can resume the vibration synchronization state by itself.
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