- 08
- Dec
Medium frequency induction heating furnace for bar materials
Medium frequency induction heating furnace for bar materials
The main components of the power supply system of the bar medium frequency induction heating furnace adopt high-precision components, and the electrical control adopts imported PLC programs and touch screens for full-line functional control. It has the characteristics of high automation, good quality of processed products, stable and reliable performance, and convenient operation and maintenance. The key start can realize the smooth completion of each process, reduce the labor intensity of the workers, and has a high cost performance.
Main parameters and characteristics of bar type intermediate frequency induction heating furnace:
●Power supply system: IGBT200KW-IGBT2000KW.
●Raw materials: carbon steel, low-carbon alloy steel, stainless steel, spring steel, bearing steel, 0.5-6 tons per hour.
●Inductor design: variable turn pitch, temperature gradient design, higher efficiency.
●Elastically adjustable pressure roller: the round steel bars of different diameters can be fed at a uniform speed. The roller table and the pressure roller between the furnace bodies are made of 304 non-magnetic stainless steel and water-cooled.
●Infrared temperature measurement: An infrared temperature measurement device is installed at the discharge end to make the temperature of the steel bar consistent before entering the rolling mill.
▲ Energy conversion: heating to 930℃~1050℃, power consumption 280~320℃.
●Provide remote operation console with touch screen or industrial computer system according to user needs.
●Specially customized man-machine interface, highly user-friendly operation instructions.
●Steel rod heating furnace has all-digital, high-depth adjustable parameters, allowing you to control the bar-type intermediate frequency induction heating furnace handily.
●Strict grade management system, perfect one-key restore system.
●Provide corresponding language switching according to different countries and regions.