What is the difference between the airflow pulverizer processing and other equipment?

　　The airflow grinding energy is low, the output is large: the unique pulverized cavity design, using the collaboration of the multi-work field, greatly improves the pulverization efficiency, the production demonstrates that the equipment has the lowest energy consumption, the largest production, and Compared with traditional gas flow, energy saving is 30%, and the yield is increased by more than 2 times.

　　Today, let's talk about the processing method of the air current crusher. After the airflow pulverizer is filtered, the pulverizing cavity is sprayed through the Raval nozzle, and the material is repeatedly collided, friction, shear and pulverized, and pulverized material in the intersection of the multi-shaped high-pressure airflow. Next, the rising airflow is moved to the hierarchical region, and the crude material is separated under the powerful centrifugal force generated by the high-speed rotation, the fine particles that meet the particle size requirements are collected by the grading wheel into the cyclone and the dust collector, and the crude particles drops to the pulverization. The district continues to smash. Ultrafine pulverizer is low, and all of the lifescas is used in high quality wear-resistant materials at home and abroad. It has long service life. A small amount of easy wear parts are made of special hard resistance, small size, light weight, easy to replace the accessories. The ultrafine pulverizer is composed of silo, mechanical pulverizer, air blower, cyclone, vibrating screen, liquid nitrogen tank, etc., the deep-cooling pulverizer system is refined by liquid nitrogen as a cold source, and it is crushing at low temperatures by cooling. After the crushing state, enter the mechanical pulverizing cavity through the impeller high speed rotation, the material and the blade, the tooth disc, the material and the material are enrolled under the integrated effect of collision, shear, friction, etc., to achieve a crushing effect.

　　The difference between the airflow pulverizer and other crushers is that it is affected by the impact of the particle itself, the impact of the gas stream on the material and the impact of the material and other components under high speed. Crushing with shear. air flow. .

　　The airflow pulverizer is a huge kinetic energy using the material under high speed airflow. It results in a severe friction between the high-speed collisions and the particles in the grinding chamber. At the same time, the high-speed airflow has a shear effect on the material to achieve the purpose of crushing materials. It can processes raw materials into very fine powder. The technology is almost universal in all fine processing industries such as chemical, plastics, mining, metal materials, and has a special position in many specific powder fields.

　　Since the 1930s airflow pulverizer, after the efforts of many researchers, their structures are constantly updated, and the types are increasing. Tablet or disc.Crusher, circulating airflow pulverizer, fluidized bed airflow pulverizer, target airflow pulverizer, etc.

　　The airflow pulverizer is high, the energy consumption is high, and the processing cost is high. In the face of serious energy-saving problems, the airflow pulverizer solves energy-saving problems and will greatly expand the application range of airflow pulverizer. Considering the current energy-saving environmental protection requirements, energy saving will be one of the main directions of the improvement of the gas flow pulverizer. ALPA is located in the Advanced Manufacturing Industry Park, Anqiu City, Weifang City, Shandong Province, has more than 50,000 square meters of machinery production bases and modern management system, since its establishment, in mind "pink technology The future of advanced materials, adhering to the values ​​of "compliance, and mixed parties", formulating "not seeking all, but seeking" talents, and cooperating with multiple colleges and universities to sign the "Production Research" development plan.