Dynamic Separator
· 【Material Granularity】:≤0.5mm 【Production Capacity】10-60t/h
Application Fields
Cement powder grinding, new materials, dry mortar, ceramics, rubber, electricity, oil extraction, aerospace, etc.
Applicable Materials
Cement, coal powder, calcium-based powder, silicon micro powder, titanium dioxide, silica powder, iron ore, quartz stone, construction waste, gold mine, etc.
Product Overview
Highlight Advantages
MXThe Series Coal Mill Dynamic Sifter is a new generation of high-performance sifter developed by our company, which integrates coarse powder separation and horizontal vortex sifting based on the introduction, digestion, and absorption of foreign wind-swept coal mill dedicated dynamic sifters.
High yield and wide range of working conditions
Utilizing superior structure, the powder selection airflow and output can be freely adjusted over a wide range without affecting selection efficiency, resulting in a system output increase of over 10%-15%.
2. Low equipment resistance, high efficiency, and energy-saving.
Uniform flow field optimized design, higher powder selection efficiency, lower equipment resistance, and significant energy-saving effects.
3. Easy to operate, fine adjustment is convenient.
The main motor of the sifter can be remotely controlled and its speed can be freely adjusted to meet different fineness requirements.
4. Low wear and low maintenance costs.
Equipped with a new type of eddy current dispersion device, the airflow inside the rotor rises without rotating, reducing the momentum torque and the driving force on the rotor, saving power consumption, lowering wear intensity, and all prone-to-wear parts are treated with wear-resistant materials and technology.
Operating Principle
Air discharged from the coal mill, carrying material, enters the classifier through the lower air duct. After being straightened by the inner cone, it decelerates and rises along the annular channel between the outer cones. The coarse powder slides into the coarse powder collection cylinder along the outer cone wall due to gravity, achieving gravity separation. The air carrying the material particles, after gravity separation, forms a stable horizontal vortex separation zone between the guide vanes and the rotor under the action of the guide vanes' guidance and the rotor's rotation. The dust particles in the vortex are simultaneously subjected to the effects of gravity, wind force, and rotational centrifugal force. Fine and light particles are吸入 into the rotor interior with the air flow, passing through the exhaust duct and entering the subsequent dust collector as finished fine powder. The heavier coarse particles fall, are collected into the coarse powder collection cylinder by the inner cone, and returned to the mill for further grinding. Changing the rotor speed can effectively adjust the fineness of the finished product.
