The motor power of a wire rope electric hoist is primarily determined by the following factors:

Load Capacity:

Heavier loads require more torque to lift, necessitating a higher-power motor. The motor must generate sufficient force to overcome gravity and inertia, which scales directly with the load's weight.

Lifting Speed:

Power is the product of force and velocity (P=F×v). A faster lifting speed (even for the same load) increases power demand, as the motor must work harder to move the load quickly.

Duty Cycle:

Light Duty: Intermittent use (e.g., 10-30 minutes per hour).

Medium/Heavy Duty: Continuous or frequent operation.

Motors for heavier duty cycles are rated for sustained performance, often with higher service factors to prevent overheating.

Mechanical Efficiency:

Friction in gears, bearings, and wire ropes reduces efficiency. A more efficient system may allow a slightly lower-rated motor, but peak power must still meet demand.

Gear Ratio:

Gearboxes trade speed for torque. While not directly affecting power, the gear ratio optimizes motor performance for specific load/speed requirements.

Application-Specific Factors:

Ambient Conditions: Extreme temperatures may require motors with specialized insulation.

Control Systems: Variable frequency drives (VFDs) can adjust power dynamically but may influence motor sizing.

The main equipment produced by Hebei Makita: stage electric hoist, electric chian hoist, wire rope electric hoist，Hand chain hoist, lever hoist, pneumatic hoist and other lifting equipment