Real-time monitoring and feedback ensure accurate regulation of hydraulic pressure and motion paths, supporting stable and precise bending operations.

Two independent servo-driven pumps with separately controlled output adjust hydraulic flow and pressure according to load conditions, enabling precise power distribution, faster response, reduced energy consumption, and improved control accuracy.

Servo-driven turret with hydraulic clamping enables accurate and repeatable tool indexing, reducing idle time and improving machining efficiency.

Optimized casting processes and controlled microstructure improve material density, tensile strength, and deformation resistance, ensuring high strength and structural stability. Topology-optimized aluminum die-cast construction reduces weight by 45%, lowers energy consumption, and minimizes aerodynamic and friction losses, resulting in an overall power reduction of 15%.

Multiple workstations can be flexibly configured according to processing requirements, enabling parallel execution of different operations, reducing station changeover time, and improving overall production efficiency and process flexibility.

Water mist is introduced into the airflow to bind airborne dust particles and cause them to settle, effectively capturing fine dust, reducing air pollution, and maintaining a clean working environment.

Springback is calculated based on material properties, bending angle, and tooling geometry, with automatic compensation to ensure accurate final bending angles and dimensional consistency.

The elastic and damping properties of specialized rubber absorb and dissipate impact energy generated during contact between moving and impact components, reducing vibration and noise, minimizing mechanical fatigue, and improving machine stability and service life.

Sensors and the control system continuously monitor belt deviation and automatically adjust the drive mechanism to correct belt position, ensuring stable tracking and consistent machining quality.

Automatically calculates and compensates for dimensional variations to ensure accuracy in complex and high-tolerance machining.

Sensors, focus control, warp compensation, and automatic feedback correction continuously monitor cutting conditions and automatically adjust the process to correct deviations, ensuring high precision and stable cutting performance.

Real-time graphical display of bending sequences and workpiece geometry supports accurate setup and reliable bending operations.