Jdpaint 5.19

💡 Always use a stable Windows environment, as this software is designed specifically for Windows-based systems.

Check your post-processor settings. You likely have the "Engraving machine" coordinate system selected. Switch to "NCStudio (Normal)." Or manually swap the axis signs in the .cfg file. jdpaint 5.19

Begin by establishing your working canvas dimensions and resolution. Higher resolution grids yield crisper 3D reliefs but require more processing power. You can draw your vectors natively using JDPaint’s curve tools or import an external DXF file generated in Adobe Illustrator or AutoCAD. Step 2: Generating the 3D Relief 💡 Always use a stable Windows environment, as

Begin by importing a 2D image (BMP, JPG) or vector file (DXF, EPS). You can also use the internal vector pen tools to trace artwork directly within the interface. Step 2: Generate the 3D Relief Switch to "NCStudio (Normal)

settings (often found in the tool parameters) to increase the intensity of the protrusion or indentation. Refining the Feature

: Run the internal simulation to visualize how the tool will carve the material and check for errors. 3. Exporting to CNC File Format : Save or export your design, often as an G-Code Conversion : If your CNC machine requires standard G-code (like many EasyRoute CNC Routers ), you must use an ENG to G-Code Converter Machine Loading : Import the final G-code into a motion control system like to begin the physical carving. Common Use Cases 3D Relief Carving

: Specialized paths for text, logos, and recessed features. Drilling : Standardized hole-making operations.