SU408186A1 - - Google Patents

Description

DEVICE

one

This invention relates to optical devices for determining photogrammetric distortion in a visual manner.

Devices are known for measuring the tangential component of distortion during alignment of the lens, comprising aa1, its measuring grid located in the focal plane of the lens under investigation, and the telescope.

The proposed device differs from the known ones in that in front of the telescope two prisms are installed symmetrically with respect to the beam axis, with two reflecting faces, the angle between which is about 0.25 of the viewing angle.

This made it possible to increase the accuracy of control.

The calculated lens distortion is a function of the field angle and for a centered optical system it has circular symmetry and is directed along the vector radius. However, in real lenses, distortion is usually asymmetrical in nature, and the image of the point of mismat is not only along the radius vector, but also in the direction perpendicular to it (the tangential component of distortion).

The causes of asymmetric and tangential distortion are defects in the manufacture of lenses, namely the non-centering of individual components of the lens and the surfaces of the lenses, the deviation of the surfaces

lenses from the sphere and the uneven index of refraction of the material.

The surfaces of the lenses are controlled by reference glass and the uniformity of the refractive index is regulated by the manufacturer of the optical glass.

Thus, the cause of non-centered and tangential distortion is the poor centering of the lens optical system.

The proposed device allows express control of the tangential component of distortion during lens adjustment.

Pa figs. 1 shows the ontic scheme of the device proposed; in fig. 2 - a type of a floor of sight.

In the focal plane of the test lens 1, the measuring grid 2 is fixed, having a number of radius vectors passing through its center. In front of the lens, two identical prisms 3 with two reflections are set symmetrically with respect to the optical axis, the angles of which depend on the angle of sight (3, for which the tangential component of distortion is determined. The prisms direct the rays emanating from the lens at an angle of | 3, parallel to the optical axis of the telescope 4. In the field of view of the telescope, three segments are simultaneously observed FOR EXPRESS CONTROL OF TANGENTIAL COMPONENT DISTRIBUTION

lines (for an axial point and for two points located on the periphery of the field of view at angles of ± p).

If prisms 3 are made equally accurate and there is no tangential component of distortion, then all three line segments merge into one. For convenience of observing and measuring in the focal plane of the telescope objective, a biprism 5 is set and the picture shown in FIG. 2. When measuring the tangential component of distortion by rotating the lens in the objective holder around the optical axis, the EO images for rtp angles and the distance from this image to the image for the central part are judged on the distortion value. In order to eliminate errors in the manufacture of the prism, measurements were made twice, turning the lens around the optical pox through 180 °. Freedom

the distances between the peripheral and axial points in the two positions of the lens, divided by the magnification of the system, the test lens — the lens of the telescope for the angles rtp, gives twice the tangential component of distortion.

Subject invention

A device for express control of the tangential component of distortion during lens alignment, containing a measuring grid located in the focal plane of the lens under investigation, and a telescope, two of which are installed to improve the accuracy of the measurement, in front of the telescope lens symmetrically relative to the beam axis prisms with two reflective faces, the angle between which is about 0.25 of the field angle.