Abstract
The visual dimension measurement method based on non-splicing single lens has the contradiction between accuracy and range of measurement, which cannot be considered simultaneously. In this paper, a multi-camera cooperative measurement method without mechanical motion is proposed for the dimension measurement of thin slice workpiece. After the calibration of the multi-camera imaging system is achieved through a simple and efficient scheme, the high-precision dimension measurement with a large field of view can be completed through a single exposure. First, the images of the edges of the workpiece are compressed and combined by splitting and merging light through the multi-prism system, and the results are distributed to multiple cameras by changing the light path. Then, the mapping relationship between the global measurement coordinates and the image coordinates of each camera is established based on the globally unique M-array coding, and the image distortion is corrected by the coding unit composed of black and white blocks. Finally, the edge is located accurately by edge point detection at the sub-pixel level and curve fitting. The results of measuring a test workpiece with the dimension of 24 mm × 12 mm × 2 mm through a single exposure show that the repeated measurement accuracy can reach 0.2 µm and the absolute accuracy can reach 0.5 µm. Compared with other methods, our method can achieve the large-field measurement through only one exposure and without the mechanical movement of cameras. The measurement precision is higher and the speed is faster.
Highlights
In modern production, there is a strong need for large field-of-view and high precision dimension measurement
The existing manual contact measurement method can meet the requirements of measurement range and precision at the same time, but the measurement efficiency is low and there are uncertainties caused by operators, environment, measuring equipment and other factors
This paper proposes a visual dimension measurement method based on multi-prism splitting and merging light which can achieve the multi-camera cooperative measurement through a simple and efficient scheme without mechanical movement
Summary
There is a strong need for large field-of-view and high precision dimension measurement. To solve the problems of traditional contact manual measurement, some modern instruments such as coordinate measuring instruments, laser scanning measurements, optical microscope observation and measurement, using image processing technology to realize contour scanning, are improved and applied to the dimension measurement of the workpiece. These modern measuring instruments have obvious advantages, such as high precision and high stability, and their measurement accuracy can reach 1 μm or even 0.5 μm [1]. More efficient measurement methods need to be considered to achieve fast and high-precision measurement
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