Compact structure: The primary heat transfer component of the blade boring machine is the shovel shaped blades, which are densely packed and arranged at regular distances on a fixed rotating shaft, resulting in relatively high heat transfer per unit volume. For this reason, the structure of this device is very compact and occupies a small area.

High heat transfer efficiency: Because the raw materials are well mixed and stirred continuously, the relatively rotating shovel shaped blades and inclined blade surfaces, as well as the heating and cooling of the machine body, ensure that all surfaces in contact with the product can evenly transfer heat energy.

Self cleaning function: Because the movement of the blades is relative rotation, they have a continuous self-cleaning effect on the adjacent inner and outer surfaces. Products that are bonded to each other and piled up on the blades can be removed and reintroduced into the production process.

Easy control: The boring process and dwell time of the blade boring machine can be easily checked, controlled, and adjusted. They can all be individually set and adjusted based on the physical function of the product being dried, including the number of shafts or blades, speed, temperature of the heat transfer medium, and drying time.

The amount of dust and odor generated is relatively small: because the gas flow rate used in the drying process of the blade dryer is very small, the amount of dust and odor that can be generated is also very small. Therefore, the vacuum cleaner used in conjunction with it may also have a small deodorizer or may not require any use.

Suitable for drying products with high humidity: because of the use of the drying element of the blade drying machine and continuous mixing and stirring, it can dry materials with high viscosity and high humidity. Its structural design avoids product accumulation in dead corners and overheating or deterioration caused by product accumulation.