In the processing of fungal products, achieving a precise and efficient separation of materials into fine powder and granules is critical for both product quality and downstream processing. The Airflow vibrating sieve, a modern innovation in fine particle screening technology, has proven to be an ideal solution for this task. Through advanced design and unique mechanical features, it enables high-throughput, dust-free, and highly accurate material separation.
In our recent application case, fungal materials were fed into an airflow vibrating sieve for classification. The results were remarkable: the equipment successfully separated the material into two distinct fractions—fine powder and granules—with excellent precision. The separation process was clean, efficient, and fast, meeting strict industry requirements for purity and consistency. The client observed the screening process on-site and was highly satisfied with the outcome, especially impressed by the clarity of separation and the overall performance of the machine.
One of the key advantages of the airflow vibrating sieve lies in its automatic mesh cleaning system, which utilizes cyclonic airflow to continuously flush the sieve screen. This feature minimizes the risk of screen blockage and ensures continuous operation without manual intervention. As a result, even sticky or fine fungal powders that tend to clog traditional sieves can be processed smoothly.
Additionally, the machine excels in handling pseudo-agglomerated materials—substances that appear to form lumps or clusters but are not truly bonded. The airflow and vibration forces generated within the sieve provide a secondary dispersing effect, breaking apart soft agglomerates and allowing accurate classification of the material into its true particle sizes. This is especially valuable in the processing of fungal products, where natural clumping often occurs due to moisture content or product texture.
Beyond its functional benefits, the airflow vibrating sieve offers a number of operational advantages:
Fully enclosed structure to prevent dust leakage and ensure clean working conditions
Quick disassembly design for easy cleaning and maintenance
High screening efficiency, capable of processing large volumes in a short time
Suitable for heat-sensitive or easily degradable materials, as it generates minimal heat during operation
