II. Core Technology of Grain Storage Air Conditioning:

Corrosion-resistant design

The evaporator is coated with surge nano or full aluminum material, with the surface dipped in special thermal conductivity and anti-corrosion materials. The temperature sensor is treated by immersion in anti-corrosion paint, effectively addressing the issue of internal unit corrosion and extending the lifespan of the air conditioner.

2. Dust-proof design

Evaporator fin design: Spacing is 1.2MM-1.5MM, effectively preventing dust clogging issues.

Evaporator Bottom Design: High water level catch tray and a wider diameter drain pipe. After a period of use, simply clean the dust attached to the evaporator with a spray bottle to ensure stable performance.

In actual operation: Start the fan to blow air, removing dust adhered to the evaporator surface, then activate the compressor for refrigeration, effectively reducing mud buildup on the evaporator and addressing the issue of decreased heat exchange efficiency.

3. Design to prevent grain moisture loss

Pressure regulating valves are installed on the refrigerant piping to adjust the evaporation pressure, control the evaporation temperature, ensuring the temperature difference between the evaporation and storage is always above the condensation critical point, thereby preventing or minimizing condensation during air conditioning operation, achieving the effect of preserving moisture and quality in grain piles.

4. High airflow design

The design wind path is nearly 30 meters, ensuring energy-efficient operation while maintaining balanced temperatures within the storage.