How does the Turbo Ultrafine Classifier achieve efficient classification through high-speed impellers?

1. Design of high-speed impellers
One of the core components of the Turbo Ultrafine Classifier is the high-speed backward multi-blade impeller. The impeller generates strong centrifugal force through high-speed rotation, which allows particles of different sizes to be separated under the action of centrifugal force. Compared with traditional classification equipment, the impeller design of the Turbo Ultrafine Classifier is more sophisticated and can effectively separate fine particles from larger particles.

The backward design of the impeller allows the airflow to flow along a specific path, reducing the interference of the airflow on the particles, thereby improving the classification efficiency. As the material enters the classification area through the feed vortex, the high-speed rotation of the impeller disperses the material and throws the fine particles to the periphery, while the larger particles move inward due to the centrifugal force and are eventually sent to the downstream of the equipment for processing.

2. The role of the feed vortex
The feed vortex part of the Turbo Ultrafine Classifier is designed with dispersion guide blades, which not only help the material to be evenly distributed, but also guide the direction of the airflow to combine it with the rotation direction of the impeller. This design not only improves the efficiency of material entry, but also ensures the stability and uniformity of the airflow. The effective design of the feed vortex enables the material to be in the best state when entering the classification area, thereby improving the effect of subsequent classification.

3. Dynamic airflow sealing
In the Turbo Ultrafine Classifier, the dynamic airflow is used to seal the classification wheel and the outlet. This design greatly reduces the risk of fine particles escaping. The presence of dynamic airflow enables fine particles to be effectively captured after classification, avoiding particle loss due to airflow leakage.

4. Optimization of secondary sorting
The lower part of the Turbo Ultrafine Classifier is equipped with a secondary sorter and a secondary air inlet device. This design can further process the preliminarily classified materials to make the particle size distribution more uniform. The working mechanism of the secondary sorter is similar to that of the main impeller. By adjusting the air intake and airflow velocity, the particles can be finely classified. This process not only improves the classification accuracy, but also ensures the quality of the final product, meeting high-standard industrial needs.

5. Advantages of high-pressure negative pressure suction system
Turbo Ultrafine Classifier is also equipped with a high-pressure negative pressure suction system, which provides a stable negative pressure environment during the classification process. This design helps to control the airflow, ensure the efficient flow of particles during the classification process, and prevent fine particles from escaping with the airflow. The existence of the negative pressure suction system not only improves the overall efficiency of the equipment, but also reduces pollution to the environment, which meets the requirements of modern industry for environmental protection.