Bilateral Displacement Differential Confocal Ultra-Large Curvature Radius Measurement Method
A differential confocal and radius measurement technology, which is applied to measuring devices, instruments, and optical devices, can solve the problems of low precision of focusing, long measurement optical path, and difficult precision length measurement, etc., and achieves the elimination of common mode noise and high Accuracy measurement, effect of improving measurement accuracy
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Embodiment 1
[0049] When the spherical element 6 to be tested is a concave lens with a diameter of D=150mm, the measurement of the super large radius of curvature of the bilateral misalignment differential confocal is shown in the attached Figure 5 As shown, the measurement steps of the bilateral dislocation differential confocal ultra-large radius of curvature measurement method are:
[0050] a) Start the measurement software of the main control computer 23, turn on the laser 28, and the light emitted by the laser 28 passes through the microscope objective lens 29 and the pinhole 30 to form a point light source 1. The light emitted by the point light source 1 passes through the beam splitter 2 , the collimating lens and the parallel flat crystal 4 and then irradiates on the spherical element 6 to be tested.
[0051] b) if figure 1 , adjust the measured spherical element 6 so that it has the same optical axis as the parallel flat crystal 4 and the collimator lens 3, so that the parallel ...
Embodiment 2
[0061]When the spherical element 6 to be tested is a concave lens with a diameter of D=150mm, the measurement of the super large radius of curvature of the bilateral misalignment differential confocal is shown in the attached Figure 6 As shown, the measurement steps of the bilateral dislocation differential confocal ultra-large radius of curvature measurement method are:
[0062] a) Start the measurement software of the main control computer 23, turn on the laser 28, and the light emitted by the laser 28 passes through the microscope objective lens 29 and the pinhole 30 to form a point light source 1. The light emitted by the point light source (1) passes through the beam splitter 2, the collimator lens 3 and the parallel flat crystal 4, and then irradiates on the spherical element 6 to be tested.
[0063] b) Adjust the measured spherical element 6 so that it has the same optical axis as the parallel flat crystal 4 and the collimator lens 3, so that the parallel light beam em...
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