Project Introduction
1、 This device adopts far-infrared radiation heating method to generate heat from inside to outside of the product, achieving the purpose of drying. The product is heated evenly both inside and outside, and the drying efficiency is more than three times higher than that of the hot air circulation method, saving more than 30% energy. In addition, auxiliary air stirring is used to make the drying more uniform. Suitable for drying and hardening ink and coating printing, drying various electronic components, coils, transformers, drying and heating treatment of water-based and foaming inks, drying and baking of food, textiles, die-casting small parts and other industries.
2、 The insulation layer and lifting door reduce the internal temperature affected by external factors, and the pneumatic lifting reduces the labor intensity of manual labor;
3、 After the workpiece placement box enters the heating zone, the thermal circulation fan is turned on to circulate the heat inside the solidification zone box, ensuring a balanced internal temperature;
4、 The observation window facilitates the observation of the condition inside the sealed chamber. After solidification, the product enters the cooling zone through the lifting door, and the exhaust device starts working to cool the solidified product. The device has a wide range of applicable products, simple operation, and high production efficiency.