Accuracy
2.5+L/200Repeatability
2.5umVideo Magnification
18~195XField of View
8.1~1.3mmWorking Distance
82mmResolution
0.1umAccuracy
2.5+L/200Repeatability
2.5umVideo Magnification
18~195XField of View
8.1~1.3mmWorking Distance
82mmResolution
0.1umAccuracy
2.5+L/200Repeatability
2.5umVideo Magnification
18~195XField of View
8.1~1.3mmWorking Distance
82mmResolution
0.1umAccuracy
2.5+L/200Repeatability
2.5umVideo Magnification
18~195XField of View
8.1~1.3mmWorking Distance
82mmResolution
0.1umAccuracy
2.5+L/200Repeatability
2.5umVideo Magnification
18~195XField of View
8.1~1.3mmWorking Distance
90mmResolution
0.5umAccuracy
2.5+L/200Repeatability
2.5umVideo Magnification
18~195XField of View
8.1~1.3mmWorking Distance
90mmResolution
0.5umAccuracy
2.5+L/200Repeatability
2.5umVideo Magnification
18~195XField of View
8.1~1.3mmWorking Distance
90mmResolution
0.5umAccuracy
3+L/200Repeatability
3umVideo Magnification
18~195XField of View
8.1~1.3mmWorking Distance
90mmResolution
0.5umAccuracy
2.5+L/100Repeatability
2.5umVideo Magnification
18~195XField of View
8.1~1.3mmWorking Distance
90mmResolution
0.5umAccuracy
2.5+L/100Repeatability
2.5umVideo Magnification
18~195XField of View
8.1~1.3mmWorking Distance
90mmResolution
0.5umAccuracy
2.5+L/100Repeatability
2.5umVideo Magnification
18~195XField of View
8.1~1.3mmWorking Distance
90mmResolution
0.5umAccuracy
2.5+L/100Repeatability
2.5umVideo Magnification
18~195XField of View
8.1~1.3mmWorking Distance
90mmResolution
0.5umAccuracy
2.5+L/200Repeatability
2.5umVideo Magnification
18~195XField of View
8.1~1.3mmWorking Distance
82mmResolution
0.1umAccuracy
2.5+L/200Repeatability
2.5umVideo Magnification
25.2~158.4XField of View
8.1~1.3mmWorking Distance
90mmResolution
0.1umAccuracy
Repeatability
Video Magnification
Field of View
Working Distance
Resolution
Accuracy
Repeatability
Video Magnification
Field of View
Working Distance
Resolution
Accuracy
Repeatability
Video Magnification
Field of View
Working Distance
Resolution
Accuracy
Repeatability
Video Magnification
Field of View
Working Distance
Resolution
LATEST NEWS
TIME:12-25 2020
The automatic image measuring instrument is an artificial intelligence modern optical non-contact measuring instrument developed on the basis of a digital image measuring instrument (also known as a CNC image instrument). It inherits the excellent motion accuracy and motion control performance of digital instruments, and incorporates the design flexibility of machine vision software, and belongs to today's most cutting-edge optical size inspection equipment.
The automatic image measuring instrument can easily and quickly perform 3D coordinate scanning measurement and SPC result classification, meeting the increasingly prominent requirements of modern manufacturing for size detection: higher speed, more convenient, and more accurate measurement needs to solve another problem in the development of manufacturing Bottleneck technology. Fully automatic image measuring instrument is an advanced stage of image measurement technology, with highly intelligent and automatic characteristics. Its excellent software and hardware performance makes coordinate size measurement convenient and comfortable. It has an automatic learning function based on machine vision and process control. Relying on the high-speed and precise micron-level positioning of digital instruments, it can focus and select the path of the measurement process. Self-learning and memorizing the operation process of point, function switching, manual correction, light matching, etc. The fully automatic image measuring instrument can easily learn all the actual operation process of the operator, combined with its automatic focus and area search, target locking, edge extraction, and fuzzy calculation of the selected point to realize artificial intelligence, which can automatically correct the difference and position of the workpiece The deviation caused by the difference enables precise point selection and high precision repeatability. Thereby, the operator is relieved from the fatigue of precise visual alignment, frequent selection of points, repeated positioning, function switching and other monotonous operations and increasingly heavy tasks to be tested, which can improve the batch test efficiency of workpieces by hundreds of times and meet the requirements of industrial sampling and inspection. Need for mass testing.
There are three methods of manual measurement, CNC scanning measurement, and automatic learning measurement, and the modules of the three methods can be superimposed for composite measurement.
It can scan and generate a bird's-eye view image map to realize the full-screen target traction of where to go. The graph generated by the measurement result is synchronized with the image map. You can click the graph to automatically return and zoom in on the full screen. It can correct the angiographic imaging error of any measured size through the actual measurement of the standard part and calibrate it, thereby improving the batch measurement accuracy of key data.
It has a friendly man-machine interface, supports multiple selection and learning correction. The excellent performance of the automatic image measuring instrument makes it suitable for various precision electronics, wafer technology, cutting tools, plastics, springs, stamping parts, connectors, molds, military, two-dimensional copying, drawing, engineering development, metal plastics, PCB boards , Conductive rubber, powder metallurgy, screws, watch parts, mobile phones, pharmaceutical industry, optical fiber devices, automotive engineering, aerospace, universities, research institutes and other fields have a wide range of applications.
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