● The forging stroke can be digitally controlled, the energy output is stable, and the forgings have high repetitive accuracy;
● The forging process is suitable for open and closed precision die forging, which meets the requirements of pre-forging, straightening, hot and cold finishing and precision pressing;
● The fuselage is divided into integral casting fuselage, welded fuselage and split welded fuselage. It adopts prestressed tie rod pre-tightening. The frame can be designed with large-size openings to achieve a larger mold area and automated expansion of matching space, which can be "tailored" for users;
● The slider guide stroke is long, the anti-deflection ability under eccentric load is strong, and the guide rail adopts a diagonal design, which is not affected by thermal effects;
● Hydraulic slider ejector, workbench plate ejector system, upper and lower ejector system units can be customized;
● The steel guide rail is adjustable, surface hardened and wear-resistant; (
● The screw is made of forged high-alloy steel and is quenched and tempered. It has high fatigue resistance and is stable and reliable;
● The flywheel adopts mechanical overload protection to realize the automatic overload protection system, which is stable and reliable;
● Use frequency conversion technology to drive the motor to reduce the impact on the power grid;
● Equipped with an energy feedback system to achieve brake power generation function and improve the efficiency of electricity use;
● Safely maintain the braking system to ensure that the slider stops at any point;
● Circulating lubrication system to ensure stable operation of the equipment;
● Slider locking safety device
● Can achieve multi-cavity forging, one machine for multiple uses;
● Install an impact force measurement system to detect the impact force generated during the forging process of the main machine in real time to protect the safe production of the equipment;
● Install a slider stroke and speed measurement system
● Shock-absorbing foundation to reduce vibration during work and reduce the impact on the surrounding environment;
● Intelligent digital control to ensure that all parameters of the equipment are stable and reliable in real time;
● Intelligent human-computer dialogue system, real-time communication;