In the context of the ongoing evolution of industrial manufacturing towards high efficiency and intelligence, high-performance resistance furnaces for heat treatment have become essential equipment for improving the capacity and quality of businesses. Our independently developed RTS series double-bogie, double-door resistance furnace achieves comprehensive improvements in efficiency, energy savings, and stability through structural innovations and intelligent control upgrades. It is widely applied in heat treatment processes such as heating, annealing, tempering, and normalizing of steel components and castings.
The RTS series features two bogies located on opposite sides of the furnace body, allowing for alternating entry and exit. This design dramatically increases equipment utilization, especially for high-volume production and scenarios with demanding cycle times, helping companies improve overall performance and delivery efficiency.
This series of industrial resistance furnaces utilises five-sided heating to ensure more uniform temperature distribution and faster heating rates. This guarantees temperature consistency and process stability for parts during the heat treatment cycle.
Refractory fibre material has low heat capacity and excellent thermal insulation properties, allowing the furnace chamber to reach operating temperature within one hour. This is particularly suitable for resistance annealing furnace applications that require rapid heating. The design not only reduces energy consumption but also shortens preheating time, further increasing productivity.
The metal hearth plate features a high-density structural design to enhance load-bearing capacity and durability. This reduces the frequency of replacement of high-wear components, lowers maintenance costs, and extends service life.
With high efficiency, low energy consumption, and intelligent control as its key advantages, the RTS series provides companies with stable and reliable industrial heat treatment solutions. We are committed to continuously optimizing product structures and control technologies to help manufacturing companies achieve high-quality development and smart upgrades.
