Advantages of three-dimensional regenerative forging furnace :
、三维立体蓄热，在炉墙、炉顶、炉底均使用不同材质耐火保温材料，3D防护，避免热量散失，极大限度减少能耗。 1. Three-dimensional three-dimensional heat storage. Fireproof insulation materials of different materials are used in the furnace wall, furnace roof and furnace bottom. 3D protection prevents heat loss and greatly reduces energy consumption.
、多喷口设计，可根据客户实际需要设置喷口数量、尺寸以及布置方式，加热均匀，维护简便。 2. Multi-nozzle design, the number, size and arrangement of nozzles can be set according to the actual needs of customers, uniform heating and easy maintenance.
、空燃比配备合理，使燃烧达到最佳状态，空气过剩系数小，氧化皮少。 3. The air-fuel ratio is reasonably equipped to achieve the best combustion condition, with a small excess air coefficient and less oxide scale.
、炉温控制精度高，温控精度±10℃，同区炉温均匀性±15℃，采用PLC控制方式，能自动实现多种加热工艺。 4. The furnace temperature control accuracy is high, the temperature control accuracy is ± 10 ° C, the uniformity of the furnace temperature in the same area is ± 15 ° C, and the PLC control method is used to automatically realize a variety of heating processes.
、炉体结构由外而内分别由钢板、保温层、蓄热区、加热区构成，强度渐进，功能分区，利于维修保养。 5. The structure of the furnace body is composed of steel plates, thermal insulation layers, heat storage areas, and heating areas from the outside to the inside. The strength is progressive, and the functions are zoned to facilitate maintenance.
、采用变频技术，自动控制风机送风量与引风量，总功率小，节能降耗明显。 6 , using frequency conversion technology, automatic control of fan air flow and induced air volume, the total power is small, energy saving and consumption is obvious.
、设备在出厂前即可完成主体部分，整体吊装到位，节省时间，更可保证施工质量。 7. The main part of the equipment can be completed before leaving the factory, and the whole can be hoisted in place to save time and ensure construction quality.
、在启动、运行，停止过程中多方位安全防护，保证使能耗用安全。 8. Multi-directional safety protection during start-up, operation and stop to ensure the safety of energy consumption.
、智能化半强制燃烧，大大降低耗气量，用于锻造炉，吨料耗气量可控制在35-60方。 9 , intelligent semi-compulsory combustion, greatly reducing the gas consumption, used in forging furnaces, gas consumption per ton of material can be controlled at 35-60 square.