Abstract
Imbalance vibration is a typical failure mode of rotational machines and has significant negative effects on the efficiency, accuracy, and service life of equipment. To automatically reduce the imbalance vibration during the operational process, different types of active balancing actuators have been designed and widely applied in actual production. However, the existing electromagnetic-ring active balancing actuator is designed based on an axial excitation structure which can cause structural instability and has low electromagnetic driving efficiency. In this paper, a novel radial excitation structure and the working principle of an electromagnetic-ring active balancing actuator with a combined driving strategy are presented in detail. Then, based on a finite element model, the performance parameters of the actuator are analyzed, and reasonable design parameters are obtained. Self-locking torque measurements and comparative static and dynamic experiments are performed to validate the self-locking torque and driving efficiency of the actuator. The results indicate that this novel active balancing actuator has sufficient self-locking torque, achieves normal step rotation at 2000 r/min, and reduces the driving voltage by 12.5%. The proposed novel balancing actuator using radial excitation and a combination of permanent magnets and soft-iron blocks has improved electromagnetic efficiency and a more stable and compact structure.
Highlights
Rotational machines, including turbine machinery [1, 2] and machine tools [3, 4], are extensively employed in industrial production
Compared to the above two kinds of actuators, electromagnetic-ring balancing actuators, which use electromagnetic force to drive the counterweight block for dynamic balancing, have the advantages of small volume, rapid response, high accuracy, and easy assembly
The experimental results show that the novel actuator can achieve normal step rotation at 2 000 r/min, and that the driving voltage is reduced by 12.5% by adding 24 soft-iron blocks to the counterweight disc
Summary
Rotational machines, including turbine machinery [1, 2] and machine tools [3, 4], are extensively employed in industrial production. Compared to the above two kinds of actuators, electromagnetic-ring balancing actuators, which use electromagnetic force to drive the counterweight block for dynamic balancing, have the advantages of small volume, rapid response, high accuracy, and easy assembly. This type of balancing actuator does not require a complex auxiliary system and is easy to operate. An electromagnetic-ring balancing actuator that adopts a radial excitation structure is proposed in this paper This novel type actuator effectively avoids the deflection and friction associated with the counterweight disc and has significantly improved efficiency and stability.
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