Applied Field: Mineral ball mill is specially used for grinding ores. Mineral ores can be divided into metal ores and non-metallic ores, such as iron, manganese, chromium, vanadium, titanium, graphite ore, magnesite, mica, fluorite ore, etc. For different mineral ores, the choice of mineral ball mill is also different.
Introduction of Mineral Ball Mill
Mineral ball mills are divided into metal ore ball mill and Non-metallic ore ball mill. Metal ore ball mill is mainly used to grind the ore containing metal minerals and the fine particles or powders after grinding will enter the next process (flotation, magnetic separation, or gravity separation) for separation. According to the nature of extracted metals, metal ores can be divided into ferrous metals, nonferrous metals, precious metals, light metals, etc. Non-metallic ore includes magnesite, graphite ore, mica, fluorite, etc. Most of the non-metallic ore ball mills produced by ball mill manufacturers mainly grind these non-metallic ores.
Advantages of Mineral Ball Mill
1.Mineral ball mill has a wide range of applications, which is incomparable with other ball mills.
2.The mineral ball mill can effectively avoid noise. Noise is a big problem in the process of grinding ore. Because there will be large noise in the process of contact between mineral ore and ball mill barrel. The mineral ball mill is lined with a rubber lining plate and installed with sound insulation cover to reduce the noise.
3.The output of the mineral ball mill is high. Mineral ball mill adopts the motor with excellent performance and enlarges the diameter of the discharge port, which improves working efficiency and production capacity.
4.Mineral ball mill is impacted and self-grinding by steel balls and ore itself. It has high ore grinding efficiency, static and dynamic pressure bearings, smoothly and reliably running cylinder, which is convenient for multiple grinding of materials in the cylinder. At the same time, the lubrication device between the large and small gears of the mineral ball mill makes the production efficiency higher.
Model | Ball loading (t) | Feed size(мм) | Size | Performance engine power (kw) | Weight |
Ф900×1800 | 1.4 | ≤20 | 0.075-0.89 | 18.5 | 3.6 |
Ф900×2100 | 1.7 | ≤15 | 0.075-0.83 | 15 | 3.9 |
Ф900×3000 | 2.7 | ≤20 | 0.075-0.89 | 22 | 4.5 |
Ф1200×2400 | 3.5 | ≤25 | 0.075-0.6 | 30 | 11.5 |
Ф1200×2800 | 6.8 | ≤25 | 0.075-0.6 | 37 | 13 |
Ф1200×4500 | 5.5 | ≤25 | 0.074-0.4 | 55 | 13.8 |
Ф1500×3000 | 6.8 | ≤25 | 0.074-0.4 | 75 | 17 |
Ф1500×4500 | 10.5 | ≤25 | 0.074-0.4 | 110 | 21 |
Ф1500×5700 | 15 | ≤25 | 0.074-0.4 | 130 | 24.7 |
Ф1830×3000 | 13 | ≤25 | 0.074-0.4 | 160 | 28 |
Ф1830×3600 | 15 | ≤25 | 0.075-0.4 | 160 | 33.5 |
Ф1830×4500 | 17 | ≤25 | 0.075-0.6 | 185 | 35 |
Ф1830×7000 | 25 | ≤25 | 0.074-0.4 | 210 | 36 |
Ф2100×3600 | 21 | ≤25 | 0.074-0.4 | 185 | 46.8 |
Ф2200×5500 | 30 | ≤25 | 0.074-0.4 | 245 | 48.5 |
Ф2200×6500 | 35 | ≤25 | 0.074-0.4 | 380 | 52.8 |
Ф2200×7500 | 33 | ≤25 | 0.074-0.4 | 380 | 56 |
Ф2400×3000 | 30 | ≤25 | 0.075-0.4 | 245 | 59 |
Ф2400×4500 | 33 | ≤25 | 0.074-0.4 | 380 | 65 |
Ф2700×3600 | 39 | ≤25 | 0.074-0.4 | 400 | 91.3 |
Ф2700×4000 | 40 | ≤25 | 0.074-0.4 | 400 | 94 |
Ф2700×4500 | 48 | ≤25 | 0.074-0.4 | 430 | 102 |
Ф3200×4500 | 65 | ≤25 | 0.075-0.4 | 800 | 137 |
Ф3600×4500 | 90 | ≤25 | 0.074-0.4 | 850 | 158 |
Ф3600×6000 | 110 | ≤25 | 0.074-0.4 | 1250 | 175 |
Ф3600×8500 | 131 | ≤25 | 0.074-0.4 | 1800 | 252 |
Ф4000×5000 | 121 | ≤25 | 0.074-0.4 | 1500 | 203 |
Ф4000×6000 | 146 | ≤25 | 0.074-0.4 | 1600 | 218 |
