A specialist in the world of bending thanks to automatic robotic systems
Based on its many years of experience of automated bending with the ASTRO series, AMADA has developed the bending cell EG-6013 AR. Equipped with an extremely flexible automatic robotic system and innovative sensor systems in the backgauge it helps coping with small and complex parts easily and quickly.
High-precision servo electric press brakes demonstrate their productivity benefits particularly well when they are used in combination with a bending cell that possesses an equally efficient automation system. The AMADA EG-6013 AR follows this well-established principle. It comprises a fully electric press brake with a press force of 600 kN in conjunction with a 6-axis robot that moves along a ground travel path parallel to the machine and a high-capacity automatic tool changer and gripper changer. Together, these system components provide two particularly crucial advantages, namely outstanding precision and long unattended production runs in automatic mode.
More than just loading and unloading
The automatic robotic system used in the EG-6013 AR is particularly versatile.Loading can be performed from different positions. This means that there is considerable capacity for raw materials. At the same time, several alternative unloading options are also available. The completed workpieces are stacked by the robot or, if this is not possible, placed in boxes or on a synchronized conveyor belt. But the robot does much more than just load and unload: It changes both the bending tools and its grippers itself and performs workpiece handling throughout the entire bending process across all the tool stations. For example, the mechanical grippers can also be guided around the tools in the press’s working area in order to ensure optimum assistance during operation tracking.
Innovative BI-S sensor systems
The backgauge of the AMADA EG-6013 AR is equipped with tactile sensors. These are innovative in their ability to detect the position of the workpiece in both the X and Y directions prior to bending and initiate corrective measures if departures from tolerances are identified. This system makes a further contribution to ensuring the maximum precision that is typically demanded for the small, complex parts that are manufactured in bending cells of this size.