Double Steel Belt Flaking Machine
A high-efficiency solution featuring double-sided synchronous cooling. Perfectly designed for processing high-viscosity and high-melting-point molten materials into uniform, smooth flakes.
Equipment Overview & Working Principle
Synchronous Two-Way Cooling
The double steel belt flaking machine feeds molten materials from the upstream into the distribution device through heat traced pipelines, and evenly distributes the materials between two upper and lower synchronous running steel belts. The materials form a uniform thin layer under the clamping of the upper and lower steel belts. Both upper and lower steel belts are equipped with cooling devices. By virtue of the heat transfer performance of the steel belts, the materials are uniformly cooled from both sides during the moving process and rapidly solidified. The solidified flake material is peeled off the steel belt by the discharge device at the end of the equipment and enters the subsequent processing process.
Main Advantages
Higher Solidification Efficiency
Materials contact the upper and lower steel belts at the same time to realize double-sided synchronous cooling with fast solidification speed, especially suitable for high-viscosity and high-melting-point materials, greatly improving production efficiency.
Excellent Forming Effect
Materials are formed under the clamping of steel belts. The flake products have uniform thickness and smooth surface, no additional shaping process is required, and the product consistency is higher.
Wide Application & Adaptability
It can handle special materials that are easy to oxidize and stick. Two-way cooling effectively reduces the contact time between materials and air, preventing material discoloration and oxidation, making product quality more stable.
Stable Operation & Continuity
Double steel belts adopt independent variable frequency speed regulation, running smoothly without jamming, supporting long-time continuous operation, convenient maintenance and short downtime.
Quality Output Samples
