(Molino minero) Molino de desbordamiento
Descripción:
This overflow ball mill is typically designed to grinding ores and other materials with different hardness, and it is widely used in different fields, such as ore dressing, building material field, chemical industry, and that. Because of its slurry discharging method, it is named as overflow ball mill.
When compared with grid ball mill, it can grind materials finer fully even though its grinding time is usually longer. So it can make finer particle products. Hence this overflow ball mill is mainly used for the secondary grinding.
This overflow ball mill is typically designed to grinding ores and other materials with different hardness, and it is widely used in different fields, such as ore dressing, building material field, chemical industry, and that. Because of its slurry discharging method, it is named as overflow ball mill.
When compared with grid ball mill, it can grind materials finer fully even though its grinding time is usually longer. So it can make finer particle products. Hence this overflow ball mill is mainly used for the secondary grinding.
Introducción
Este molino de bolas de desbordamiento está diseñado típicamente para moler minerales y otros materiales con diferente dureza, y es ampliamente utilizado en diferentes campos, como el tratamiento de minerales, el campo de materiales de construcción, la industria química, etc. Debido a su método de descarga de lodos, se denomina molino de bolas de desbordamiento.En comparación con el molino de bolas de rejilla, puede moler materiales más finos por completo a pesar de que su tiempo de molienda suele ser más largo. Por lo tanto, puede fabricar productos de partículas más finas. Por lo tanto, este molino de bolas de desbordamiento se utiliza principalmente para la molienda secundaria.
Técnico
Especificación (diámetro * longitud) | Velocidad de rotación (r/min) | Tamaño de alimentación (mm) | Capacidad (t/h) | Carga de medios de molienda (t) | Motor principal | Reductor principal | Peso (t) | |||
Modelo | Potencia (kw) | Velocidad (r.p.m) | Modelo | Relación de velocidad | ||||||
Φ2.2×4.4 | 22.4 | ≤25 | 8-9 | 18 | YRKK4501-6 | 250 | 986 | ZD60-11 | 6.3 | 36.7 |
Φ2.2×5.8 | 22.4 | ≤25 | 5.5-7 | 23.5-25 | Y4005-8 | 280 | 750 | ZD70-10 | 5.6 | 45 |
Φ2.4×4.75 | 21.2 | ≤25 | 9-11 | 22-24 | YR4501-8 | 315 | 740 | ZD60-8 | 4.5 | 49 |
Φ2.4×(6+1.5) | 20.2 | ≤25 | 14-16 | 31 | JR158-8 | 380 | 740 | ZD70 | 5 | 77.3 |
Φ2.4×(4.5+2) | 20.2 | ≤25 | 11-13 | 20.8 | YRKK500-8 | 280 | 740 | JDX45 | 4.5 | 68 |
Φ2.6×(5.25+2.25) | 19.7 | ≤25 | 12-14 | 28 | YRKK500-8 | 400 | 740 | ZDY450 | 4.5 | 87.4 |
Φ2.8×(5+3) | 18.7 | ≤25 | 16-18 | 32 | Y5001-8 | 500 | 740 | JDX560 | 4.5 | 102 |
Φ2.9×4.7 | 19.1 | ≤25 | 14-19 | 34.4 | YR560-8 | 500 | 743 | MBY560 | 5.6 | 79 |
Φ2.5×3.9 | 21 | ≤25 | 14 | 21 | JR138-8 | 280 | 740 | ZD70-9 | 5 | 49.5 |
Φ3×(6.5+2.5) | 18.3 | ≤25 | 17-19 | 43 | YRKK560-8 | 630 | 740 | MBY560 | 5 | 120 |
Φ3.2×(6.5+2) | 16.9 | ≤25 | 20 | 48 | YRKK560-8 | 710 | 740 | MBY560 | 5 | 118 |
Φ3.2×(6.5+2.5) | 16.9 | ≤25 | 20 | 50 | YRKK560-8 | 710 | 740 | JDX630 | 5 | 140 |
Φ3.4×(6+3) | 17.47 | ≤25 | 20-24 | 54 | YRKK630-6 | 700 | 988 | MBY710 | 7.1 | 135 |
Φ3.5×7 | 17 | ≤20 | 22-25 | 70 | YRKK630-6 | 100 | 970 | JH630 | 9 | 170 |
Φ3.5×8 | 17.2 | ≤25 | 55-60 | 80 | YRKK710-8 | 1000 | 740 | MBY800 | 6.3 | 182 |
Φ3.5×(8+3) | 16.8 | ≤25 | 27 | 58 | YRKKK630-8 | 1000 | 740 | JDX800 | 6.3 | 178 |
Φ3.5×(6.5+3.5) | 16.8 | ≤25 | 30 | 62 | YRKK710-8 | 1250 | 740 | JDX900 | 6.3 | 182 |
Φ3.6×(6+3) | 17 | ≤25 | 30-32 | 60 | YRKK710-8 | 1000 | 740 | MBY800 | 6.3 | 183 |
Φ3.8×(7.75+3.5) | 16.7 | ≤25 | 85 | 85 | YRKK710-8 | 1400 | 740 | JDX90 | 5.6 | 215 |
Consulta rápida
Consulta rápida