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Product details
Equipment working principle
The material is uniformly fed into the crushing chamber by the feeding system, and is strongly impacted by the high-speed rotating crushing device. At the same time, it is subjected to various comprehensive forces such as friction, shear, and collision with the sieve impact hammer, causing the material to be crushed. The crushed material passes through the size of the sieve to achieve coarse and fine separation, and qualified products enter the collection system for collection. The coarse powder is further crushed in the crushing chamber.
Equipment advantages
Compact structure, small footprint, wide adaptability, and high cost-effectiveness.
By replacing different crushing devices, the crushing force can be optimized to achieve the highest efficiency.
Easy to operate, easy to disassemble and clean.
Application Fields
Widely used in industries such as chemical, inorganic salts, pharmaceuticals, food, pigments, dyes, pesticides, battery materials, minerals, refractory materials, etc.
Equipment parameters
|
Model specifications project |
150 |
250 |
400 |
500 |
600 |
700 |
|
Pin style P |
Grinding disc diameter (mm) |
160 |
260 |
360 |
520 |
630 |
730 |
Maximum speed (r/min) |
12000 |
7500 |
5550 |
3850 |
3200 |
2800 |
|
Power (kw) |
4 |
7.5 |
15~22 |
37 |
45~55 |
55~75 |
|
Grinding fineness (mesh) |
20~325 |
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Yield (Kg/h) |
20~200 |
35~500 |
50~1000 |
75~1500 |
100~2000 |
200~3000 |
|
Note: The yield is closely related to the particle size, specific gravity, moisture content, flowability, and other indicators of the raw materials. The above is for selection reference only.
Process Flow Diagram
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