SU821914A1 - Method of monitoring plane actual position - Google Patents

Description

(54) METHOD OF CONTROL OF VALID POSITION

PLANE

A camera 8 is observed on the screen 9 of the video monitor 10, a light mark 11 is observed through the center of which a base line 12 is placed, which must lie in the same plane with the sight line 3 and the direction of the initial position of the projection line 6.

The reference plane is conventionally taken to be the plane passing through the center of the light mark 11 when the projection line is in the initial position perpendicular to the base line 12

Having installed the checked device into the cup 13 of the holder 2, the reference plane 5 is perpendicular to the sighting line using the reflecting surface 14 of the optical assembly of the instrument, which consists of a penta prism 15 (Fig. 2) of the wedge 16, the back surface of which is covered with a mirror layer parallel to the front face of the pentaprism, and the projected mark 17. Reconciliation is performed on the track of the reflected beam 18 on screen 19. When turning the holder, the trace of the reflected light beam on the screen should describe the concentric circle relative to the sighting line .

The support plane of the holder can be adjusted perpendicular to the sighting line in other ways, for example, using an additional mirror by the autocollimation method (before installing the device).

After that, the instrument will be set up on the sighting line - the reflected light beam is visually combined with the sighting line. Then, the device is turned around its own axis 20 at a certain angle and, in order to determine the magnitude of the error, reverse it around the axis 4 of the cage to return it until a light sign appears on the screen of the video control device, aligning the center of the light sign with the baseline. If the line of sight is set by a parallel light beam, then when the optical node of the device rotates about the axis, parallel to the line of sight, the projection line does not change. position (Fig. 3).

The deviation enp of the projection line of the device at a distance h corresponds to the increased value Gnp of the movement of the light sign on the baseline.

Г Chrgde R is the magnification factor depending on the distance of the lens to the transmitting camera and the magnification scale of the television path. Such successive rotations of the device through given angles around its own axis and its reverse rotations around the axis of the yoke determine the maximum error of the device.

The invention makes it possible to increase the accuracy of monitoring the actual position of the plane formed by the zero of the line of the projection of the penta. prism with a wedge, to make a more accurate adjustment of the device.

Claims (1)

1. Kissam F. Optical devices M.-L., Mechanical Engineering, p. 138 (prototype). IS 13 FIG. 2 I position v Z position