ByBend evaluates the geometry of the part and cross-references your shop's physical tool inventory. It automatically selects the optimal top punch, bottom V-die, and die holders required to execute the bends without causing mechanical interference. Bend Sequencing and Backgauge Positioning
Bystronic BySoft 7 is a premier CAD/CAM software suite designed specifically for sheet metal processing. It streamlines the journey from a 3D digital model to a finished, high-precision physical part. This comprehensive user manual and guide explores the essential modules, core functionalities, and operational best practices needed to maximize your cutting and bending efficiency. 1. Introduction to the BySoft 7 Ecosystem
For specialized layouts, operators can manually drag, drop, rotate, and mirror parts directly on the sheet. Use the Collision Check tool to ensure part geometries do not overlap or breach the skeleton border boundaries. Defining Nesting Constraints bysoft 7 user manual
BySoft 7 acts as the operational brain of your production floor. To maintain peak software efficiency, backup your technology tables, tooling databases, and sheet archives weekly. Regularly sync database configurations between offline programming offices and the physical machine controls to prevent parameter mismatches during manufacturing.
Open the Part Property window. Change the parameter from "Fixed" to "90 Degree" or "Free". ByBend evaluates the geometry of the part and
Once a 3D part is finalized, it must be flattened into a 2D profile (unfolded view) and assigned machine-specific cutting paths. The Unfolding Process
Select the (e.g., Mild Steel, Stainless Steel, Aluminum) and Thickness . It streamlines the journey from a 3D digital
The official manual is structured to guide users from basic navigation to advanced automation. Key chapters include:
ByPart applies specific cutting technologies to your 2D geometry based on the target machine (fiber laser, CO2 laser, or waterjet):
The software automatically positions the pierce point away from the part's finished edge. You can select loop, line, or arc lead-ins depending on material thickness.
Set constraints like (e.g., 0°, 90°, 180°, or Free Rotation) to account for material grain direction.