High Speed Corrugation Tubular Heaters
The high-speed corrugation tabular heater is an advanced heating element specifically engineered to meet the demands of high-speed corrugation processes in the production of corrugated cardboard.
Kalka high-speed corrugation tabular heater is a specialized heating solution tailored to meet the rigorous demands of high-speed corrugation operations, providing reliability, efficiency, and performance excellence in modern manufacturing environments.
Standard features
- Rapid Heating: Engineered for quick heating response to match the fast-paced requirements of high-speed corrugation lines, minimising production downtime.
- Uniform Heat Distribution: Provides consistent and even heat distribution along the length of the heater, ensuring uniform corrugation of cardboard sheets for high-quality output.
- High-Temperature Capacity: Capable of reaching and maintaining high temperatures to meet the thermal demands of corrugation processes, enhancing efficiency and productivity.
- Advanced Thermal Control: Equipped with advanced temperature control mechanisms for precise regulation of heating levels, allowing operators to optimise corrugation parameters for different cardboard grades and production requirements.
- Safety Features: Incorporates safety features such as thermal insulation and overheat protection to ensure safe operation and prevent accidents in high-speed manufacturing environments.
- Compatibility: Designed for seamless integration into existing high-speed corrugation machinery, offering easy installation and compatibility with various production setups.
FAQ
Got a Question?
- In this we use high nickle imported tube (Incoloy 800,USA/Japan make)
- All machine Size Heaters are available and can be cutomized as Requirement
- Each Heater Consists 9/12 numbers of Heating Rods
- These High speed heaters are Designed and manufacture to attain high speed on corrugation machine like 40 meter per minute
- These Tubes have high Nickle in thire chemical Temperature and have higher durablity