SU420870A1 - DEVICE FOR MEASURING THE DISPLACEMENT OF THE FOCUSING ELEMENT OF THE VISING PIPE - Google Patents

Description

one

The invention relates to instrumentation technology and can be used, in particular, to control deviations from straightness. It can be used in the study of the directness of focusing; their devices of telescopes, in the manufacture of large-sized products in mechanical engineering, shipbuilding and other industries.

A device for measuring the displacement of the focusing element of the sighting tube, containing a point light source, a make and a mirror, is known. However, by simulating different sighting distances, the incorrect movement of the grain: stool reduces the accuracy of measurement, and, in addition, the known device only allows to examine pipes that have measuring devices.

The proposed device differs from the known one in that it is equipped with a series of axiconomas, in the focal plane of which a point source of light is installed, two plane-parallel plates with measuring drums providing tilting of the plates in two mutually perpendicular planes, and a quadrangular pyramidal prism, as well as removable slit diaphragm installed in the plane of the exit pupil of the measured sighting tube.

The drawing shows a schematic diagram of the proposed device.

It contains a point source of light 1 placed in the focal plane of the axicon 2, two measuring drums 3 and 4, plane-parallel plates 5 and 6 in the horizontal and vertical planes, a quadrangular pyramidal prism 7 and a removable slit aperture 8. Evenly distributed along the optical The axial image of the point source of light, obtained by aksikop 2, is observed with the help of the pipe 9 under study in the focal plane 10 of the eyepiece 11, regardless of the position of the moving element 12 of the telephoto lens 13.

To increase the image contrast on the ocular part of the telescope, a slit diaphragm 8 is installed, the plane of which coincides with the plane of the exit pupil, and the width of the slit is approximately equal to half the diameter of the exit pupil. With the help of a quadrangular pyramidal prism 7, the image of a point light source 1 is divided into four parts and shifted in different directions relative to each other in two mutually perpendicular directions so that they partially overlap each other, forming a grid of sight at the intersection points. When the magnification of the telescope changes due to refocusing, the distance between the points

the intersection of adjacent images of the point source of light will change, and the sharpness of the image will remain. When the focusing element is correctly moved, the sighting grid coincides with the ocular grid, while it is incorrectly shifted relative to it. The displacement is measured using an optical micrometer consisting of measuring drums 3 and 4 and plane-parallel plates 5 and 6. The division value of the reading drums is 0.01 mm. The proposed device provides a continuous measurement of the magnitude of the displacement of the focusing element, makes it possible to investigate pipes that do not have measuring devices, and increases the accuracy of measurements by eliminating errors associated with the movement of individual parts in simulating different viewing distances.

P | redmet invention

A device for measuring the displacement of the focusing element of the sighting tube, which contains a point source of light, characterized in that, in order to improve the accuracy and ensure the measurement of the displacement of the focusing element of any telescopes, it is equipped with an axicon installed in series, in the focal plane of which a point light source is installed, two plane-parallel plates with measuring drums providing tilting of the plates in two mutually perpendicular planes, and a quadrangular pyramid prism, as well as a removable slit diaphragm installed in the plane of the exit pupil of the measured sighting tube.