SU1651264A1 - Device for testing photographic camera rangefinder - Google Patents

Abstract

The invention relates to an optical instrument making and allows to expand the operational capabilities, improve the accuracy and performance of the device for monitoring camera range finders. The monitoring device is equipped with a diaphragm 9 located behind the eyepiece 8, mounted to move the optical axis 8 perpendicular to the optical axis, as well as an additional lens 10 mounted to move along the optical axis, and a recorder 11, the sensitive area of which is located in the focal plane lens 10. When monitoring the rangefinder on the screen of the television system 12, two images 17 and 18 are observed, displaced relative to each other. As the diaphragm 9 is moved, cyclic changes in the distance between the mirror strokes of the images are observed. The magnitude of the parallax of the images is characterized by the magnitude of the beats of the moving image on the screen 12 relative to the stationary, observed when the lens 10 moves along the scale of 13, 1 or more.

Description

The invention relates to optical instrumentation, specifically to equipment for monitoring and aligning cameras

The aim of the invention is the expansion of operational capabilities, increasing accuracy and productivity.

The drawing shows a schematic diagram of a device.

A device for controlling the range finder of the camera includes a collimator with a lens 1, a grid 2 with strokes installed in the focal plane of the lens 1, and a illuminator 3, a controlled range finder containing its own lenses 4 and 5, a beam splitter mirror 6, a rotary mirror 7 and an eyepiece 8, and aperture 9, an additional lens 10 and an image recorder made in the form of a television camera 11 and a television system 12. The grid 2 is made in the form of a transparent crosshair on an opaque background. The sensitive area of the camera 11 is located in the focal plane of the lens 10. The latter is mounted to move along a scale 13 parallel to its optical axis. The diaphragm 9 can be moved in the direction perpendicular to the optical axis of the eyepiece 8 of the controlled range finder, for example, by means of a motor drive including an electric motor 14, a reduction gear 15 and a flywheel 16 with an eccentrically fixed finger, which ensures forward movement of the diaphragm 9 when the flywheel rotates.

The device operates as follows.

The rays of light from the grid 2 pass through the lens 1 and enter the controlled range finder, Part of the rays of light passes through the lens 4, the beam splitter plate 6 and the eyepiece 8. Another part of the rays of light is reflected from the swivel mirror 7, the lens 5 passes through, is reflected from the beam splitter mirror 6 and passes through the eyepiece 8. Both of the rays of light pass through the opening of the diaphragm 9, fall into the lens 10 and form a crosshair image of the grid 2 on the sensitive area of the camera 11.

On the screen of the television system 12, two images 17 and 18 are observed, which in the general case will be shifted

relative to each other in the vertical and horizontal planes, and will also have a mutual slope. When you turn on the drive of the diaphragm 9, a cyclic change in the distance between the vertical strokes of both images and between each image and control still strokes 19 on the screen of the television system 12 will be observed. By moving 10 the lens 10 along the scale 13, one of the images can be fixed, for example 17. Then the value the beats of the second image on the screen of the television system 12 will characterize the parallax value of the images observed through the eyepiece 8 of the range finder. This parallax must be eliminated, which can be achieved by moving the lens 4 or 5 along its optical axis. The tilt of the images 17 and 18 observed on the screen of the television system 12 is eliminated by tilting the mirrors 6 and 7. The combination of the vertical strokes of the images 17 and 18 can be achieved by adjusting the rotation of the mirror 7, and the combination of the horizontal strokes of these images by moving the lens 4 or 5 in a vertical plane . The position of the lens 10 relative to the scale 13 after the end of alignment of the range finder characterizes the amount of divergence of the rays behind the eyepiece 8.

Claims (1)

Claim A device for monitoring a range finder of a camera containing a collimator located in front of a controlled range finder with an eyepiece and a lens, in the focal plane of which there is a grid with strokes, characterized in that, in order to expand operational capabilities, increase accuracy and performance, it is equipped with a diaphragm mounted on the optical axis of the eyepiece of the range finder with the ability to move in the direction perpendicular to the optical axis with an additional lens located behind the diaphragm agmoy movably along the optical axis of the eyepiece, and an image recorder sensitive pad which is placed in the focal plane of an additional lens.