The tire-driven ball mill is a grinding equipment that relies on friction transmission between rubber tires and the cylinder.  It features a simple structure, stable operation, and convenient maintenance, making it suitable for material grinding operations under specific working conditions. To fully utilize its performance advantages, a suitable working environment is necessary.

Firstly, this equipment is suitable for use in locations with strict noise control requirements. Due to the flexible contact transmission of the tire drive, it significantly reduces operating noise compared to gear drives, and is therefore often used in areas near residential areas, office buildings, or other areas sensitive to noise.

Secondly, the working environment should be relatively dry and clean. Although the tire-driven structure has good sealing performance, prolonged exposure to high humidity, dust, or corrosive gases may accelerate rubber aging or slippage, affecting transmission efficiency and equipment lifespan. Therefore, it performs best in well-ventilated, moderately humid factory buildings.

Furthermore, the tire-driven ball mill is suitable for medium to low load, continuous and stable operation. It is not suitable for frequent start-stop cycles or heavy loads, as this will accelerate tire wear and may even lead to slippage and failure. If the production process is stable, the raw material particle size is moderate, and the processing volume is not large, its advantages of energy saving, low noise, and easy maintenance can be better utilized.

Finally, the installation foundation should be flat and solid to ensure uniform contact pressure between the cylinder and the tires, avoiding uneven loading that could cause localized wear or vibration.