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The intelligent flexible bending center is most suitable for bending 0.35-3mm thick stainless steel, aluminum, cold-rolled plates and other metal plates, sheet metal parts with more than two sides that need to be bent, the standard bending height is 170mm, and the bending height of 300mm is supported. The bending width does not exceed 2500mm, the maximum size does not exceed 3200mm×1500mm, the minimum size of the four-side forming is 80mm×120mm, and the minimum inner size of the two sides is 80mm. The more complex the structure, the more times and sides that need to be bent, the more obvious the advantages of the intelligent flexible bending center.

For small batches and multiple varieties of products, the intelligent flexible bending center has two solutions. For bending centers with manual tool change, Ate has launched an automatic online compensation function. When proofing, the length, height and angle can be adjusted online. The adjusted parameters are automatically saved and recorded, and only one or two samples are needed to set it up. In addition, an automatic tool change solution has been launched to automatically change the tool according to the shape of the workpiece. A full set of 3D software simulation is provided. After the workpiece is designed, it is imported into the system, and after system simulation inspection, actual measurement is carried out directly after confirmation. This tool change mode is not an imitation of foreign counterparts, but an independent way of Ate Intelligent based on concurrent linkage core technology. The comprehensive tool change efficiency is the highest in the industry, and the running speed, smoothness of processing, and processing buffer control of the workpiece are also first-class. It can accurately control the angle and extend the life of the mold. The real-time detection of plate thickness has also reached the international first-class level.

The self-driven integrated robotic arm and bending center independently developed by Aite are controlled by the same system. When the workpiece is replaced, the robotic arm movement is automatically generated without the need for secondary programming, truly achieving seamless connection between different workpieces.