The cable reel driven by a hysteresis motor provides a constant torque output during operation.
The motor must be started in synchronization with the main machine’s traveling mechanism to ensure smooth performance.
When the main machine stops, the drum motor can continue running for a short time and then power off with a delay, depending on the movement of the trolley.
If multiple hysteresis drives are used, it is important to ensure that all motors operate uniformly and in coordination to meet system requirements.
During trolley movement, when the drum motor is energized, the phase sequence remains unchanged, whether the direction is forward or reverse.
After crane operation stops, the drum motor is designed to shut down after a controlled delay for safe performance.
Working Condition
The system must operate under stable and coordinated mechanical conditions to ensure smooth functioning of all components.
All driving units should maintain synchronized performance to avoid imbalance or irregular movement.
Electrical and mechanical parts must be capable of handling continuous operational loads without performance loss.
The control system should ensure safe start, operation, and shutdown sequences under varying working conditions.
The cable reel driven by a hysteresis motor provides a constant torque output during operation.
The motor must be started in synchronization with the main machine’s traveling mechanism to ensure smooth performance.
When the main machine stops, the drum motor can continue running for a short time and then power off with a delay, depending on the movement of the trolley.
If multiple hysteresis drives are used, it is important to ensure that all motors operate uniformly and in coordination to meet system requirements.
During trolley movement, when the drum motor is energized, the phase sequence remains unchanged, whether the direction is forward or reverse.
After crane operation stops, the drum motor is designed to shut down after a controlled delay for safe performance.
Working Condition
The system must operate under stable and coordinated mechanical conditions to ensure smooth functioning of all components.
All driving units should maintain synchronized performance to avoid imbalance or irregular movement.
Electrical and mechanical parts must be capable of handling continuous operational loads without performance loss.
The control system should ensure safe start, operation, and shutdown sequences under varying working conditions.
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