CROMA GLASS is an advanced non-contact optical white light scanning CMM that utilizes the classic CROMA bridge mechanism, groundbreaking integration of advanced non-contact optical white light scanning and imaging technology, and the use of unique optical and image processing technology, which can be specifically used for high-precision scanning and geometric data acquisition.
Introduction to product features and functions:
• Adopting CWS white light probe system;
• Adopting non-contact point sampling method, the entire measurement process does not generate contact and will not cause contact deformation;
• Equipped with three-dimensional spatial dimension measurement function, it can accurately measure spatial dimension data (contour, etc.);
• It has continuous scanning function and high efficiency. High speed scanning - up to 1000 points/second;
Professional graphic measurement report
Support the measurement of contour graph reports and output the maximum and minimum values of curves, while automatically saving PDF and Excel Various forms of reports such as text.
• Using the CWS white light probe system
• Adopting non-contact point sampling method, the entire measurement process does not generate contact and does not cause contact deformation
• Equipped with three-dimensional spatial dimension measurement function, it can accurately measure spatial dimension data (contour, etc.)
• It has continuous scanning function and high efficiency. High speed scanning - up to 1000 points/second
Characteristics and advantages of Glass:
| Traditional Three Coordinate | Simple Optical Probe | Glass-CWS |
Sensor | Contact Sensor | White Light Sensor | Image+White Light Sensor |
Coordinate construction method and measurement principle | Using a cylindrical needle to measure the four sides in a tetrahedral partition, replacing the measuring plane with a spherical row | In tetrahedral division, optical probes are used to measure a large number of corners, collect quadrilateral vertices and fit them into a line to measure the rotation angle again | Use image acquisition in tetrahedral division, and use optical probes to measure the plane on all four sides |
Time and measurement characteristics | 1 minute and 15 seconds require replacement of the measuring needle type. The use of a 2-point fitting method with four straight lines may have some instability | 1 minute and 50 seconds require a large number of corners, and the outermost point of the four sided straight line may deviate | Use the fastest and most accurate measurement method software to fit each position in 40 seconds, without consuming time |
Measurement process
Clamping method
Characteristics of Glass Special Fixtures 1. The bottom of the glass is supported by a fixture plane and placed naturally without any external force. 2. Three pins are used for positioning around. 3. The entire clamping adopts one side three pin positioning, which limits a total of five degrees of freedom, meeting the measurement accuracy of repeated positioning and making clamping more convenient. | |
The coordinate system adopts
1. The positioning method of coarse and fine coordinates 2. Coarse coordinates: Using a fast 321 minute central coordinate system 3. Precision coordinates: Concave plane alignment (measured by white light), four outer edges centered (measured by image) 4. Advantages: Accurate coordinate system positioning, good measurement repeatability, and high efficiency |
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Diversified testing reports
While outputting traditional text reports, it is also possible to output various graphical reports, analysis reports, etc. Provide support for product data collection, SPC statistics, and process improvement;
Text report: Digitized display of measurement results with a large amount of data. Convenient for data statistics and qualified backup of a large number of products;
Graphical report: All measurement data points to corresponding positions, intuitive and convenient, suitable for overall product analysis, customer delivery reports, etc;
Analysis report: A detailed analysis report on the condition of each measured part, which is intuitive and clear. Suitable for product analysis, special location display, etc.