MQZ Energy-saving Bearing Drive Ball Mill Dry Process Ball Mill Customized Solution

Product Description:

Energy-saving bearing ball mill is a type of mill developed on the basis of conventional ball mill. The transmission adopts double-row spherical roller bearings instead of sliding bearings, thus changing the original sliding friction into rolling friction, reducing its friction and resistance, thereby saving power consumption and cost, and extending service life.

Application areas: Widely used in mineral processing, chemical industry, coal, refractory materials and other industries.

Applications:

1. Mineral Processing – For grinding ores such as gold, copper, iron, zinc, and other metallic and non-metallic minerals to achieve fine particle size for further beneficiation.
2. Chemical Industry – Used in grinding raw materials and chemical products, including pigments, dyes, fertilizers, and other powdered chemicals.
3. Coal & Energy – Applied in coal pulverization for power plants and coal-water slurry production, improving combustion efficiency.
4. Refractory Materials – Suitable for grinding silica, alumina, magnesia, and other refractory raw materials to produce high-temperature-resistant products.
5. Building Materials – Utilized in cement production, ceramic manufacturing, and limestone grinding for construction applications.
6. Metallurgy – Employed in powder metallurgy and metal oxide processing for smelting and material synthesis.
7. Environmental Protection – Applied in waste recycling, such as grinding industrial solid waste and tailings for reuse.

Customization:

Product Customization Services for the Ceramic Ball Mill:

Brand Name: ZK

Place of Origin: China

Color: As Customer Required

Application: Cement, Lime, Lithum, Ceramic, Building Materials, and Mining Industries

Grinding materials: ore, limestone

Equipment model: MQZ1224-MQZ3660

Equipment weight: 13.43-189t

Working Principle:

The mill is slowly rotated by the transmission device. The material to be ground enters the mill through the feed end. Under the friction and centrifugal force generated by the rotation of the cylinder, the grinding media and material are lifted to a certain height and then thrown or cascaded down in a curtain-like manner. The material is then impacted and ground by the grinding media.
As fresh material is continuously fed into the mill, it moves from the feed end toward the discharge end. When the particles reach the desired fineness, they are discharged from the outlet end. In wet grinding, the material is carried out by water flow, while in dry grinding, it is forcibly discharged.
This process ensures efficient size reduction through a combination of impact, abrasion, and cascading motion, adapting to both wet and dry grinding operations.