【Product Introduction】:An overflow ball mill with rolling bearings, high efficiency and energy saving.
【Applicable Materials】:Commonly used for grinding finer ores
【Production Capacity】:Up to 160t/h
【Product Application】:Energy-saving overflow ball mill adopts groove-type circular lining plate that is instrumental in increasing contact areas of iron balls and ores, which enhances grinding action and ore lifting capacity and decreases energy consumption.
01 The transmission of straight type ball mill uses large double row spherical roller bearings replacing sliding bearings, which largely reduces the friction and easy to activate. It saves 20-30% energy
02 Corrugated liner is used, which increases the contact surface of balls and ores. It strengthens the grinding effect. It also has lift capacity to the ores, reducing the energy consumption.
03 Large discharging throat and large production capacity.
04 The whole rake is applied for small type ball mill with diameter under 2.1m, which is suitable for civil construction and equipment installation.
05 Spray lubrication device, ensuring the reliable lubrication of large and small gears.
The main component is a cylinder with diameter and length at a reasonable proportion. Driven by the transmission device, the cylinder rotates with the materials fed from the cylinder inlet and crushed by the falling impacts and autogenous grinding of the steel balls and ores in the cylinder. Due to the continuously feeding materials, the pressure pushes materials to the outlet and the grinded materials are discharged from the cylinder outlet. Qualified materials flow from the cylinder outlet. In wet grinding, the materials are taken out by the water flow. There are backpitch impellers in the hollow shaft, which can make the balls and coarse ores in the overflow return to the mill. With a simple structure, higher operation rate, and rolling bearing, the energy conservation is significant.
Model | Cylinder Diameter (mm) | Cylinder Length (mm) | Motor Model | Motor Power (kW) | Length (mm) | Width (mm) | Height (mm) | Capacity (t/h) | Effective Volume (m3) | Max. Ball Load (t) | Weight (kg) |
MQYg 0912 | 900 | 1200 | Y1800L-6 | 15 | 3666 | 1835 | 1400 | 0.25〜1.2 | 0.7 | 1 | 4265 |
MQYg 0918 | 900 | 1800 | Y225M-8 | 22 | 4401 | 2535 | 2070 | 0.25〜1.6 | 0.9 | 1.66 | 5235 |
MQYg 1212 | 1200 | 1200 | Y225S-8 | 18.5 | 3512 | 2076 | 1620 | 0.17 〜4.1 | 1.14 | 1.9 | 9610 |
MQYg 1224 | 1200 | 2400 | Y280M-8 | 45 | 5745 | 2352 | 1778 | 0.26〜6.15 | 2.4 | 4.6 | 12219 |
MQYg 1240 | 1200 | 4000 | JR117-8 | 80 | 7990 | 2412 | 1728 | 0.34 〜8.3 | 3.7 | 8 | 15940 |
MQYg 1515 | 1500 | 1500 | Y280M-8 | 45 | 5740 | 3075 | 2280 | 1.4 〜4.5 | 2.2 | 4.2 | 17125 |
MQYg 1530 | 1500 | 3000 | JR117-8 | 80 | 7253 | 3070 | 2280 | 2.8 〜9 | 5 | 10 | 21129 |
MQYg 1536 | 1500 | 3600 | JR126-8 | 110 | 8595 | 3185 | 2280 | 2.8 〜10 | 5.4 | 10 | 23933 |
MQYg 1545 | 1500 | 4500 | JR127-8 | 130 | 9680 | 3254 | 2370 | 3.5〜12.5 | 7 | 12 | 27500 |
MQYg 1557 | 1500 | 5700 | JR127-8 | 130 | 10880 | 3254 | 2370 | 4.5 〜16 | 8.9 | 15 | 29359 |
MQYg 1836 | 1800 | 3620 | JR136-8 | 180 | 8865 | 3683 | 2785 | 4.5 〜29 | 8.2 | 13.8 | 34970 |
MQYg 1845 | 1800 | 4520 | JR137-8 | 210 | 9750 | 3683 | 2785 | 5〜33 | 10.2 | 19 | 37480 |
MQYg 1857 | 1830 | 5720 | JR137-8 | 210 | 11009 | 3683 | 2785 | 6〜40 | 12.5 | 22 | 42096 |
MQYg 1863 | 1800 | 6320 | JR138-8 | 320 | 11690 | 3781 | 2775 | 6〜45 | 14.2 | 25 | 45520.5 |
MQYg 1870 | 1800 | 7020 | JR138-8 | 245 | 12599 | 3783 | 2735 | 7〜47 | 15 | 31.5 | 45136 |
MQYg 1875 | 1800 | 7520 | JR138-8 | 245 | 12850 | 3783 | 2775 | 7.5 〜54 | 17 | 30 | 49450 |
MQYg 2122 | 2100 | 2200 | JR128-8 | 155 | 7235 | 4120 | 3083 | 5〜29 | 6.6 | 20 | 35963 |
MQYg 2130 | 2100 | 3000 | JR136-8 | 180 | 8220 | 4220 | 3083 | 6.5 〜36 | 9 | 27 | 40157 |
MQYg 2136 | 2100 | 3600 | JR137-8 | 210 | 8958 | 4320 | 3025 | 7.5 〜42 | 10.8 | 23.5 | 44132.5 |
MQYg 2145 | 2100 | 4500 | JR138-8 | 245 | 10350 | 4268 | 3121 | 10 〜45 | 13.5 | 23.6 | 42772 |
MQYg 2430 | 2400 | 3000 | JR138-8 | 280 | 9023.5 | 4836.4 | 3490 | 7.2 〜92 | 11.5 | 22.5 | 57455.5 |
MQYg 2436 | 2400 | 3600 | JR137-6 | 280 | 9623.5 | 4836.4 | 3490 | 8 〜110 | 13.8 | 25.5 | 60861.5 |
MQYg 2442 | 2400 | 4200 | JR138-8 | 320 | 10204.5 | 4836.4 | 3440 | 8 〜130 | 16.5 | 31.5 | 63829.5 |
MQYg 2445 | 2400 | 4500 | JR1510-8 | 380 | 11132.5 | 5091.4 | 4065 | 8.5 〜140 | 17.5 | 31 | 75923 |
MQYg 2460 | 2400 | 6000 | JR1510-8 | 450 | 12623.5 | 5201.4 | 4060 | 9 〜180 | 23 | 40 | 83869 |
MQYg 2727 | 2700 | 2700 | JR137-6 | 280 | 8901 | 4786.4 | 3620 | 7 〜110 | 13.8 | 29 | 66201 |
MQYg 2730 | 2700 | 3000 | JR137-6 | 280 | 9201 | 4786.4 | 3620 | 8 〜115 | 15.3 | 32 | 72415 |
MQYg 2732 | 2700 | 3200 | JR1410-8 | 320 | 10729 | 5000 | 3620 | 8〜120 | 15.7 | 32 | 83110 |
MQYg 2736 | 2700 | 3600 | JR158-8 | 380 | 10764 | 5150 | 3620 | 12〜145 | 17.7 | 37 | 90441 |
MQYg 2740 | 2700 | 4000 | JR1510-8 | 380 | 10870 | 5050 | 3620 | 12.5 〜152 | 19 | 40 | 93537 |
MQYg 2745 | 2700 | 4500 | JR1510-8 | 380 | 11664 | 5150 | 3620 | 12.5 〜163 | 20.5 | 40 | 96196 |
MQYg 2747 | 2700 | 4700 | JR1510-8 | 450 | 11864 | 5150 | 3620 | 13〜170 | 23 | 45 | 97605 |
MQYg 3231 | 3200 | 3100 | TDMK630-36 | 630 | 12550 | 6750 | 5150 | 14〜180 | 21.4 | 45 | 112430 |
MQYg 3245 | 3200 | 4500 | TDMK630-36 | 630 | 13950 | 7200 | 5152.5 | 95〜110 | 32.8 | 65 | 141629 |
MQYg 3660 | 3600 | 6000 | TDMK1250-40 | 1250 | 19780 | 7700 | 5496 | 120〜200 | 55 | 102 | 193483 |
The Energy Saving Ball Mill is a high-efficiency and energy-saving grid-type ball mill that uses rolling bearings.
The wet rod mill is a grinding equipment that uses steel rods as grinding media.
Wet grid type ball mill is a traditional ball mill that relies on the discharge grid to discharge ore forcibly.
A ball mill with simple structure and auto-flowing pulp discharge.
An overflow ball mill with rolling bearings, high efficiency and energy saving.
A wet autogenous grinding mill that materials as grinding media