Do you know why there's a speed difference inside an air flow mill? It's mainly because there's a discrepancy between the impact speed of the hammer inside the machine and the material within it, resulting in a speed difference. If this speed difference is not addressed, it will affect the efficiency of the cutting machine. Therefore, it's crucial to reduce the internal speed difference of the machine. Join the air flow mill editor below to find out more!

1. Adjust the gap between the hammer and sieve appropriately: By utilizing the frictional characteristics of the sieve surface, which vary with the distance between the material and the sieve, adjusting the gap between the hammers and the sieve increases the speed difference between the hammers and adds material, thereby enhancing the ratio. However, during the feed production process, the sieve holes and raw materials differ, and the hammer-sieve gap requires frequent adjustments; inside the air jet mill, the particle composition of the interior cavity changes as work begins and continues. In the mill components, the hammers are prone to wear. After the front end of the hammer blades wears down, the increase in hammer-sieve gap leads to reduced output and difficulty in sustaining operation. Naturally, to test the output of a specific type of air jet mill, determine the appropriate hammer-sieve gap and suction for certain materials and sieve holes. Regardless of the lifespan of the sieve and hammer, they can shorten its service life. In a certain period, high破碎 efficiency data was achieved. However, in the production of feed crushing, the various specific measurement data that arise based on the operator's work experience and the technical content of the air jet mill itself are two different matters. Personnel with rich operating experience and their labor also require high usage costs. After the hammer blades wear down, the hammer-sieve gap increases, friction decreases, and the crushing efficiency declines.