| Customization: | Available |
|---|---|
| Certificate: | ISO9001, ISO14000, Ce |
| Design: | We Offer |
Suppliers with verified business licenses
Audited Supplier Audited by an independent third-party inspection agency
1. CTB Series half upstream wet drum permanent magnetic separating is usually used for separating fine-grained iron magnetite from non-magnetic materials. Its composite magnetic system consists of high performance rare earth permanent magnet (main magnetic source) and ferrite permanent magnet.
2. With a high magnetic field intensity, magnetic separating can make a continuous row of ore feed and discharge. It also has enough working clearance and high processing capacity.
3.Series CTB half upstream wet drum permanent magnetic separating is widely applied in the separation of various kinds of iron ores and gold ore. 4. In order to increase the grade or capacity, several sets of iron ore equipment can be installed in series connection or parallel connection. All our iron ore equioment comply with JB/T7895-2002 standard.
|
Model |
Shell Diameter (mm) |
Shell Length (mm) |
Magnetic Strength |
Revolving Speed (r/min) |
Feeding Size(mm) |
Capacity (t/h) |
Power (kw) |
|
CTB6012 |
600 |
1200 |
MT>100 |
<35 |
2-0 |
10-20 |
1.5 |
|
CTB6018 |
600 |
1800 |
MT>100 |
<35 |
2-0 |
15-30 |
2.2 |
|
CTB7518 |
750 |
1800 |
MT>120 |
<35 |
2-0 |
20-45 |
2.2 |
|
CTB9018 |
900 |
1800 |
MT>130 |
<35 |
3-0 |
40-60 |
3 |
|
CTB9021 |
900 |
2100 |
MT>130 |
<35 |
3-0 |
45-60 |
3 |
|
CTB9024 |
900 |
2400 |
MT>130 |
<28 |
3-0 |
45-70 |
4 |
|
CTB1018 |
1050 |
1800 |
MT>135 |
<20 |
3-0 |
50-75 |
5.5 |
|
CTB1021 |
1050 |
2100 |
MT>135 |
<20 |
3-0 |
50-100 |
5.5 |
|
CTB1024 |
1050 |
2400 |
MT>135 |
<20 |
3-0 |
60-120 |
5.5 |
|
CTB1218 |
1200 |
1800 |
MT>135 |
<18 |
3-0 |
80-140 |
5.5 |
|
CTB1224 |
1200 |
2400 |
MT>135 |
<18 |
3-0 |
85-180 |
7.5 |
|
CTB1230 |
1200 |
3000 |
MT>135 |
<18 |
3-0 |
100-180 |
7.5 |
|
CTB1530 |
1500 |
3000 |
MT>135 |
<14 |
3-0 |
170-280 |
11 |
Magnetic separator - Work Principle
The materials are uniformly fed to the belt. When materials go through the permanent magnetic drum, the non-magnetic and low-magnetic particles will leave the belt surface because of the centrifugal force and gravitation. Meanwhile, strong-magnetic particles are absorbed to the belt by magnetic force and then fall into the magnetic trough when the belt leaving the magnetic pulley.
Machine Stucture:
){kind=link}