You apply tolerances to each inspection element. Gom Inspect 2019 will instantly flag out-of-tolerance results (usually in red) and calculate pass/fail statistics.
The software excels at aligning an actual scan (mesh) to a nominal CAD model. The "Local Best Fit" and "RPS (Reference Point System)" alignment algorithms in 2019 are remarkably robust. Users can generate a 3D color map instantly, showing deviations between -1mm to +1mm (customizable) across the entire surface.
If you have just installed GOM Inspect 2019, here is the standard professional workflow:
Step 1: Import Data
Step 2: Pre-Alignment (3-2-1 or Pre-alignment via Features)
Step 3: Fine Alignment (Best Fit)
Step 4: Create Inspection Elements
Step 5: Evaluate GD&T
Step 6: Generate Report
GOM Inspect 2019 was a bridge between legacy hardware and modern ecosystems. Gom Inspect 2019
A major piece of "interesting content" regarding this software is the business model. GOM (now part of Zeiss) offers the GOM Inspect Suite (which replaced the old GOM Inspect) for free.
You need two types of data: the Nominal (CAD model) and the Actual (3D Scan).
If you are looking for a robust, non-subscription-based 3D inspection tool with a proven track record, Gom Inspect 2019 is an excellent choice. New users should note that while the software is no longer being updated (end-of-life announced around 2021), it remains fully functional on modern Windows 10/11 systems.
For those performing basic to intermediate quality inspections, the free version may suffice. However, for production environments requiring project saving and team collaboration, the professional license is justified.
To download Gom Inspect 2019, visit the official Zeiss/GOM archives (note: you may need to register as a guest). Be sure to verify if your specific scanner hardware supports the 2019 driver set.
Final verdict: A classic workhorse of metrology software—powerful enough for the lab, simple enough for the workshop.
Keywords used: Gom Inspect 2019, 3D inspection software, GD&T, mesh comparison, ATOS, Zeiss Inspect, 3D metrology, quality control software, first article inspection.
A professional metrology report generated with GOM Inspect generally includes the following sections:
Project Overview: Title, part name, operator name, and date. You apply tolerances to each inspection element
3D Surface Comparison: A "heat map" showing deviations between the actual scan and the nominal CAD model.
Inspection Sections: 2D cross-sections of the part showing local deviations.
GD&T Analysis: Geometric Dimensioning and Tolerancing checks like cylindricity, circularity, or surface profile.
Measurement Tables: A detailed list showing Nominal, Actual, Tolerance, and Deviation values for every checked dimension.
Conclusion/Summary: A pass/fail summary based on defined tolerances. How to Generate the Report
Select Measurements: In the Explorer (left-hand sidebar), select the elements or measurements you want to include in the report. Create Report Page:
Right-click the selected elements and choose Create Report Page. Alternatively, go to the Report menu in the main toolbar.
Choose a Template: Select from standard landscape or portrait templates. You can also customize headers with your company logo.
Arrange Snapshots: Use the 3D View to capture specific angles. Each "Snapshot" you take can be added as a separate page or image in the report. Step 2: Pre-Alignment (3-2-1 or Pre-alignment via Features)
Export to PDF: Click the Export as PDF button in the report editor. You can define the file name and save location here. Key Features for Quality Reporting
Best-Fit Alignment: Ensure your data is aligned using the "Best-Fit" method (typical error ~0.05 mm) to get accurate deviation maps.
Color Scales: Customize the color bar in your surface comparison to highlight critical out-of-tolerance areas.
Automatic Updates: If you replace the mesh data with a new scan, the report pages will automatically update with the new measurements. Cylindricity
GOM Inspect 2019: Bridging the Gap in Industrial Metrology GOM Inspect 2019 represents a pivotal release in the evolution of 3D metrology software, serving as a comprehensive tool for processing 3D data from fringe light scanners, laser scanners, and other measuring systems. Developed by GOM (now a part of
), the software provides an integrated environment for 3D inspection, mesh processing, and reporting, establishing itself as an industry standard for quality control and product development. Core Capabilities and Workflow
The software functions as a digital coordinate measuring machine (CMM), allowing users to verify geometric dimensions and tolerances. A typical workflow in GOM Inspect 2019 involves several critical stages:
Here’s a well-structured, professional review for GOM Inspect 2019 (now part of Zeiss). You can use it as-is or tailor it to your specific use case (e.g., automotive, aerospace, quality lab, education).
To run GOM Inspect 2019 smoothly, your workstation should meet these specs (circa 2019 standards, but very light by 2025 standards):
| Component | Minimum | Recommended | | :--- | :--- | :--- | | OS | Windows 7 (64-bit) | Windows 10 Pro (64-bit) | | CPU | Intel Core i5 (4th Gen) | Intel Xeon / i7 (6+ Cores) | | RAM | 8 GB | 16 GB (32 GB for large meshes over 10M triangles) | | GPU | Dedicated OpenGL 3.2 (NVIDIA Quadro K2200) | NVIDIA GeForce RTX 2060 / Quadro P2000 | | Disk Space | 5 GB (plus swap space) | SSD with 50 GB free for temp files | | Display | 1920x1080 | 1920x1200 (Dual monitors recommended) |
Note: GOM Inspect 2019 is heavily dependent on OpenGL. AMD consumer cards sometimes glitch; NVIDIA is the safe bet.