2021: Jdpaint 5.5
Whether you are working with an automated milling machine like the Yubang YB4030P or standard woodworking, jade, and stone CNC machinery, understanding how to maximize JDPaint 5.5 will dramatically improve your structural design workflows and end-product quality. Technical Specifications & System Requirements
Quick access to drawing tools (Line, Circle, Rectangle) and transformation tools (Scale, Rotate, Mirror). Drawing Area:
: Designers use the "Artistic Surface" tools to define heights, add draft angles, and smooth out jagged transitions in the model.
Over the years, version 5.5 has maintained massive popularity across tool and die shops, woodworking businesses, and jewelry makers. It balances an approachable user interface with highly versatile toolpath calculation algorithms. Core Capabilities of JDPaint 5.5
Used to program CNC routers for intricate cabinet doors, antique reproduction furniture, and 3D architectural millwork. jdpaint 5.5
: Use the drawing tools to create vectors or geometric shapes. This version supports standard drafting features like lines, curves, and circles, which serve as the foundation for more complex carving.
is a highly specialized, powerhouse software widely used in the computer-aided design and manufacturing (CAD/CAM) industry. Originally developed by Beijing Jingdiao, it serves as the backbone for precision CNC engraving, mold making, and intricate industrial carving.
Creating molds for plastic injection or casting with high surface precision.
New users often confuse JDPaint with EnRoute or ArtCAM. The key distinction is that is the design and path generation software. You design your 2D vectors or 3D reliefs here, generate the toolpaths (G-code), and then send that code to the Engraving Machine Control System (typically En3D or JDpaint’s built-in simulator) to cut the part. Whether you are working with an automated milling
Mastering JDPaint 5.5: The Workhorse of Precision CNC Carving
Open JDPaint 5.5. Use the Draw menu to create vectors. Alternatively, go to File > Input > Raster Image and select your rose picture.
| Feature | | ArtCAM (AutoDesk) | Type3 | | :--- | :--- | :--- | :--- | | Primary Focus | CNC Engraving / Relief | Relief Art / Woodworking | Sign Making / Engraving | | Vector Editing | Moderate (2D/3D mix) | Excellent (Strong artistic tools) | Very Good (Typography focus) | | Toolpath Control | Excellent (High precision, 5-axis support) | Good | Moderate | | File Formats | JDP, ENG, BMP | 3D, PRT, STL | T3D, DXF | | Learning Curve | Moderate (Industry specific) | Low (Artist friendly) | Moderate |
If you are starting from 2D vectors to create a solid-like relief: Select your closed vector. menu and select (or "Create Relief by Curve"). In the parameter settings, look for Draft Angle Taper Angle . Enter a positive degree (e.g., 1 raised to the composed with power 3 raised to the composed with power ) to taper the feature inward as it rises. 3. Surface-to-Solid Conversion Over the years, version 5
[Import 2D/3D Data] ➔ [Relief & Mesh Modeling] ➔ [Toolpath Simulation] ➔ [NC Code Export]
If the software refuses to generate a relief or an engraving toolpath, select the entire wireframe layout and execute the Close Vector or Filter Nodes command. CAM engines require fully sealed paths to accurately distinguish the "inside" from the "outside" of a cutting zone.
Bring in a bitmap (BMP/JPG) or a vector (DXF/EPS).
Always use the "Toolpath Simulation" feature to visualize the cut and check for potential collisions or errors before exporting. 4. Exporting to CNC (NC Files) Post-Processing: After generating toolpaths, you must "Export" them. The software typically outputs