Magnetic Separator
Magnetic separator is suitable for removing the iron powders containing in the powdery particles. Magnetic drum separator is suitable for the wet magnetic separation of such materi...
Magnetic separator is suitable for removing the iron powders containing in the powdery particles. Magnetic drum separator is suitable for the wet magnetic separation of such materials whose granularity is below 3mm as magnetite, magnetic pyrite, calcined ore and ilmenite for recycling resources and in lumbering, mine, kiln industry, chemistry and food, as well as for removing the iron containing in the materials such as coal, non-metallic ore and building materials, and it is the one of the machines with the widest application and highest universality in the mining industry.
1. Magnetic separator is mainly used for the coarse separation of the lean iron ore which is coarsely crushed or medium crushed, for removing the waste iron such as surrounding rock, improving the ore grade and reducing the working load of the next procedure.
2. Magnetic separator is suitable for separating the raw ores that are not sufficiently reduced in the hematite restoration close-circuit calcining work and returning such ores to be calcined again.
3. Magnetic separator is suitable for removing the iron mixed in the petuntse in the ceramics industry to improve the quality of the ceramic product.
4. Magnetic separator is suitable for removing the iron burning coal mine, cast moulding sand, refractory and other industries.
Ore pulp is evenly fed into the chute from the ore feeding box. At the entrance of the separation area, there is a special arc-shaped bump to make different ore particles evenly distribute in the separation area along the whole feeding width and fully suspend, so that the flow direction is the same with the magnetic force direction to facilitate the drum to fully absorb the magnetic minerals. Under the magnetic force, the minerals with strong magnetism will be absorbed onto the surface of the drum and brought out of the magnetic area with the rotation of the drum, and under gravity and rotating throwing force, such minerals will flow into the concentrate chute, and the non-magnetic minerals will be discharged from the overflow mouth. The overflow weir has a certain height to make sure that the drum has a certain immersion depth inside the ore pulp, and this is determined by the structure of the magnetic separator, and it does not need manual control on the overflow like downstream chute. The tailings will be discharged from the overflow mouth only after going through a long area of sweeping concentration in the opposite direction of the rotation of the drum.
| Model | Shell diameter (mm) |
Shell lenght (mm) |
Shell rotation speed(r/min) |
Feeding size (mm) |
Processing capacoty (t/h) |
Power(kw) |
| CTB6012 | 600 | 1200 | <35 | 2-0 | 10-20 | 1.5 |
| CTB6018 | 600 | 1800 | <35 | 2-0 | 15-30 | 2.2 |
| CTB7518 | 750 | 1800 | <35 | 2-0 | 20-45 | 2.2 |
| CTB9018 | 900 | 1800 | <35 | 3-0 | 40-60 | 3 |
| CTB9021 | 900 | 2100 | <35 | 3-0 | 45-60 | 3 |
| CTB9024 | 900 | 2400 | <28 | 3-0 | 45-70 | 4 |
| CTB1018 | 1050 | 1800 | <20 | 3-0 | 50-75 | 5.5 |
| CTB1021 | 1050 | 2100 | <20 | 3-0 | 50-100 | 5.5 |
| CTB1024 | 1050 | 2400 | <20 | 3-0 | 60-120 | 5.5 |
| CTB1218 | 1200 | 1800 | <18 | 3-0 | 80-140 | 5.5 |
| CTB1224 | 1200 | 2400 | <18 | 3-0 | 85-180 | 7.5 |
| CTB1230 | 1200 | 3000 | <18 | 3-0 | 100-180 | 7.5 |
| CTB1530 | 1500 | 3000 | <14 | 3-0 | 170-280 | 11 |
