SU206863A1 - - Google Patents

Description

DEVICE FOR MEASURING TILT IMAGE

This invention relates to reference instruments used in the optomechanical industry.

The known devices for measuring the tilt of the image, consisting of a telescope mounted for rotation around the optical axis, a level and a device for reporting the rotation angle of the telescope, require a considerable amount of time for combining the image with the indices for which the tilt of the image is estimated and do not provide high accuracy.

In the proposed device, these drawbacks are eliminated by a special arrangement with respect to each other and the optical axis of the device, which are inserted into the optical scheme of the pipe of a prism block with two reflecting faces and two mirrors, which ensure the application of the nominal method.

A schematic diagram of the device is shown in FIG. one; in fig. 2 shows a lens positioning system in the telescope.

The optical circuit of the telescope consists of lens 1, a prism 2 with reflective edges 3 and 4, mirrors 5, 6, and an ocular 7. The prism 2 is installed so that its reflecting edges 3 to 4 are inclined at an equal angle to the optical axis of the pipe and form an edge 8, perpendicular to the optical axis and coinciding with the image plane of the lens /.

Mirrors 5 and 6 are mounted in parallel to the image of the rib 8 formed by reflective edges 3 4 of the prism 2 and form angles with these edges equal to half of one of the same angles formed by the optical axis and the lines passing through the center of the exit pupil of the lens and the intersections with mirrors 5 and 6 are normals to the edge 8 of the prism 2, passing through the optical axis and the components with reflecting faces are angles equal to the angle of inclination of the reflecting faces to the optical axis. Angle between mirrors 5, 6 to reflecting

Provides sovgrani 3, 4, equal to

The placement of two exit pupils of the telescope. The lens / tubes using mirrors 5, 5 and reflecting faces 3, 4 of the prism 2 builds images of two parts of the object in planes passing through edge 8. Images are observed through the eye piece 7, with edge 8 serving as the boundary between the field of view. In the field of view of the pipe on either side of the interface (images of rib 8), images of two parts of schtrih, the slope of which is measured, are observed at some distance from each other. Due to the fact that in the field of view on different sides of the interface, parts are observed

(the middle part of the stroke does not fall in the field of view); when the stroke is inclined, in addition to the image tilt in the field of view, a mutual displacement of the images of the parts of the stroke is observed. By the magnitude of the intermixing of images of parts of the stroke, the slope of the images is estimated. The use of the nonionic method of combining provides high accuracy of measurements. For reading the angle of rotation of the tube around the optical axis, with the image alignment, which is used to determine the tilt of the image, known reading devices can be used, for example, a micrometer screw turning the telescope through a lever.

The described system for positioning a block of a prism 2 and two mirrors 5, 6 in the telescope can be used to determine the difference in the inclination of images in binocular systems. In this case (see Fig. 2), a plane-parallel beamer plate 9 installed at an angle of 45 ° to the optical axis and a plane mirror 10 parallel to it are installed in front of the lens / telescope. Due to the simultaneous evaluation of the image tilt as well as the fact that the image can be located in any part of the field of view, the measurement process is significantly accelerated. Dilution of images observed through various branches of the binocular system can be carried out with the help of a wedge 11, which is rotatable around the optical axis (see Fig. 1).

P) the invention

1. A device for measuring the tilt of an image containing a new one around

the optical axis, the telescope, the optical scheme of which includes a mirror-prism block of a prism and two mirrors, a level and a reading device for determining the angle of rotation of the telescope around the optical axis, characterized in that, in order to increase the accuracy, the reflecting faces of the prism are inclined at the same angle to the optical axis and form an edge, perpendicular to the optical axis and coinciding with

the telescope lens imaging plane, and two mirrors mounted parallel to the edge image are angled with the reflecting edges of the prism but equal to half the size of one of the same

angles formed by the optical axis and the straight lines passing through the center of the exit pupil of the lens and the point of intersection with the normal mirrors to the edge of the prism passing through the optical axis and making up

reflecting faces of a prism are angles equal to the angle of inclination of reflecting faces to the optical axis.

2. The device of claim 1, characterized in that, in order to use it to measure the differences of tilt images in binocular systems, in front of the objective of the telescope there is a wedge pivoted around the optical axis, the plane-parallel beam-splitting plate at a 45 ° angle to the optical axis lens and parallel to it a flat mirror.

Fi & .2