Bystronic generally recommends upgrading to BySoft 7 for features like SolidWorks integration, 10% more accurate time calculations, and better "skeleton" (scrap) material management.
: The system allows for easy customization of cutting processes, enabling manufacturers to quickly adapt to changing product designs and specifications.
Manages micro-joints (tabs) to prevent small parts from tipping into the scrap slatted frame during high-speed cutting. 3. Precision Bending Allowance (ByBend)
The suite is divided into specific modules designed for different stages of the production cycle: Bystronic Laser Bybase Bysoft 6 7 3 17l carwar
The input 3 17l likely refers to a specific build or internal version number.
The "Computer-Aided Manufacturing" engine. This module creates the "nesting" (arranging parts on a sheet to minimize waste) and generates the NC code that the laser machine reads to execute the cut. 🛠️ Key Features of Version 6.7.3.17l
: Ideal for rectangular parts, arraying them tightly across the sheet. Bystronic generally recommends upgrading to BySoft 7 for
Bysoft 6 consists of two primary interconnected modules that bridge the gap between digital design and physical manufacturing:
Allows for manual "touch-ups" to a cutting plan directly on the machine or workstation.
This serves as the Central Nervous System of your fabrication environment. It stores material parameters, cutting gas preferences, laser focal positions, sheet sizes, and custom customer records. This module creates the "nesting" (arranging parts on
This is the direct programmer interface. It calculates beam lead-ins/lead-outs, establishes specific cutting sequences (to mitigate heat distortion), and processes 2D contours (such as standard DXF or DWG files) into NC machine code.
: Storing and retrieving part geometries and material parameters via ByBase. Current Status
"Communication Timeout" between Bysoft and Bybase. This usually requires checking the RS-232 or Ethernet settings (Baud rate: 9600, Parity: Even, Data bits: 7).