SU146966A1 - Stereoscopic range finder - Google Patents

Description

The well-known stereoscopic range finders, intended for use as an independent device or as an integral part of a device for surveying inaccessible and dangerous objects in mining, contain a binocular telescope with prism focusing, a collimator, a lens compensator and a readout device.

In the described stereoscopic range finder, two prisms of double reflection glued together in one block are used to simplify the design and improve the measurement accuracy. The prisms are used to simultaneously focus the telescopes and the collimator.

The drawing shows a diagram of a stereoscopic rangefinder.

The stereoscopic rangefinder is built on a non-adaptable, wired circuit and includes four main nodes: a binocular telescope, a collimator, a lens compensator and a readout device. The binocular telescope with a two-fold magnification is equipped with two lenses /, a focusing prism 2, two rhombus-prisms 3 and two oculators 4.

The collimator device is made in the form of a circular diaphragm (mark) 5, evacuated with the aid of an electric bulb 6 and a condenser 7, a focusing prism 8 and lenses 9 and 10. A break of the optical axis of the collimator is carried out by prisms //, 12, and 13.

The lens compensator includes a movable lens 14, the lower surface of which is applied to the distance measuring pzhalas, and a fixed negative lens / 5. The reading device contains two lenses 16 and 17 and prisms 18, 19 and 20. The prism 19 and the lens 17 are turned on only when reading.

The account from the observed object enters the device in the left branch through a wedge 2 /, which serves simultaneously as zapditnym glass and means 146966-2BOM for height adjustment, in a prism 22, and in the right branch through parallel protective glass 23 and compensator 14 and J5 prism 24. Both double reflection prisms 22 and 24 on the edges with which they are glued to prism 25 have a light-separating coating and form the base of a range finder. The part of the light reflected from the light-separating layer of prisms 22 and 24 enters the lenses / and through the focusing prism 2, the rhombus prism 3 and the ocular ry 4 enters the eye of the observer. The focusing is carried out by moving the prism 2 by changing the length of the beam path. The distance is measured by means of a compensator, by moving a positive lens 14 of which the parallax angle changes, and a light mark 5, visible in the field of view of a binocular telescope, as if hanging in space. It seems to the observer that the luminous mark is moving and can be combined with the point of the object to which the distance is measured. The counting is done in the ocular after switching on the lens 17 and the prism 19. The light mark is the image of the diaphragm 5 placed in the focal plane of the lenses 9 and 10. Parallel light beams coming out of the collimator lens, through the light separating coating of the base prisms 22, pour in with the light from the object into the telescope lenses. The change in the stroke length of the light mark when moving the double reflection prism 2 for refocusing is compensated for by moving the double reflection prism 8 fixed on the prism 2.

According to the findings of the Survey Research Institute, the proposed stereoscopic range finder is a lightweight and compact instrument that can be useful for surveying surveys.

Subject invention

A stereoscopic range finder designed to be used as a standalone instrument or device embedded in a device for surveying inaccessible and dangerous objects in mining, containing a binocular telescope, focused by moving prisms, a collimator, a lens compensator and a reading device, characterized in that, with the color of simplifying the design and improving the accuracy of measurements, it uses two double reflection prisms, glued together in one block, with the help of which zvodits simultaneous Focusing the telescope and the collimator.