| Customization: | Available |
|---|---|
| Type: | Ball Mill |
| Motor Type: | AC Motor |
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Ball mills stand as the cornerstone machinery for the proficient and effective grinding of diverse ores and materials. These indispensable machines find extensive application across a multitude of industries, including mineral processing, construction materials, and chemical sectors. Their versatility is showcased in their capability to execute both dry and wet grinding methods with exceptional efficiency. Ball mills are distinctively categorized into lattice and overflow types based on their ore discharge techniques. Serving as pivotal equipment, these mills enable the ultimate crushing process after the initial material breakdown. Their applications span a wide spectrum of production sectors, encompassing cement, silicate products, innovative building materials, refractory substances, fertilizers, and the beneficiation of both ferrous and nonferrous metals. Moreover, they hold significant importance in the glass and ceramic industries. With remarkable adeptness, these mills perform either dry or wet grinding of an extensive range of ores and other grindable substances, ensuring high-quality results.
At the heart of the ball mill's operation is the grinding process that occurs within its revolving drum, which is filled with an assortment of grinding media, including steel balls, steel forgings, and steel bars of varying sizes. Driven by a robust engine, the mill rotates seamlessly through a sophisticated gear mechanism. During its rotation, the grinding media elevate and then descend, creating a powerful impact force on the ores, thereby generating an effective grinding action. Simultaneously, this rotary motion exerts a squeezing effect on the ore, further advancing the grinding process. This synergy of impact and compression dramatically enhances the efficiency of the grinding operation, making it a crucial component in ore processing.
| Model | Φ900*1200 | Φ900*2100 | Φ900*3300 | Φ1200*2400 | Φ1200*2800 | |
| Rotation Rate(r/m) | 41.6 | 41.6 | 41.6 | 35.1 | 35.1 | |
| Maximum charge of balls(t) | 1.1 | 1.8 | 2.8 | 4.0 | 4.6 | |
| Feed particle size(mm) | 25 | 25 | 25 | 25 | 25 | |
| Throughput (t/h) | 0.3~0.9 | 0.6~1.5 | 0.9~2.3 | 1.6~4.1 | 1.9~4.8 | |
| Motor | Nubmer | Y180L-8 | Y180L-6 | Y225M-6 | Y2805-8 | Y280M-8 |
| Power | 11 | 15 | 30 | 37 | 45 | |
| Size(K*W*H)(mm) | 3843*1850*1400 | 4743*1850*1400 | 5943*1850*1400 | 5540*2300*1850 | 5940*2300*1850 | |
| Weight(kg) | 4210 | 6660 | 7770 | 10020 | 10935 | |
The ball mill's design is a masterstroke of engineering, comprising multiple essential components: it includes a feeding end, a discharging port, a robust and durable drum, and a sophisticated transmission section. This transmission section seamlessly integrates a reduction box, a small transmission gear, an engine, and an advanced electronic control system. All components work harmoniously in concert to ensure uninterrupted and flawless operation, demonstrating the brilliance of its structure.
Zhiyan Future Machinery Equipment (Xiamen) Co., Ltd., a trailblazer in Xiamen City, Fujian Province, remains steadfast in its commitment to 'Intelligent Innovation and Precision Engineering, Jointly Expanding Green Energy'. The company is at the forefront of propelling the mining industry into the future by integrating cutting-edge technology that champions the sustainable development of global mining practices. This dedication contributes significantly to ushering in a new era of efficient resource utilization, ensuring a brighter and more sustainable future for mining operations worldwide.
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