SU190606A1 - OPTICAL VISING SYSTEM - Google Patents

Description

The known optical sight system according to ed. St. N ° 165913, containing a lens and an ocular part consisting of two glued together ginotenuse faces of a rectangular prism, one of which is truncated by a plane so that the face is parallel to the gluing plane, and the other is truncated by a roof, the edge of which lies a section of the prism and parallel to the glued face glued to the optical axis of the lens parallel to the optical axis, on which a beam-splitting layer is applied, completely blocking the beam of rays passing through the system, and a specular coating whose boundary lies in the focal plane of the lens and divides the field of view of the system into two preferably equal parts.

The proposed optical sight system is characterized in that, in order to eliminate parallax while simultaneously obtaining equal illumination of two parts of the field of view, it is equipped with an additional lens projecting the image of the grid into a plane passing through the edge of the mirror coating of the prism system.

The drawing shows a schematic diagram of the described sighting system.

The grid / is illuminated by the light source 2 and is projected by the lens 3 into a plane passing through the edge 4 of the mirror coating 5 of the prism system 6 of the nonial sighting. The edge of the mirror coating lies in

the focal plane of the lens 7. The autocollimation image of the grid is observed through the eye 8. The edge of the mirror coating divides the field of view of the autocollimator into two parts. Due to the presence of a roof in one of the prisms that are included in the prism system of the nionial sighting, the image in one of the parts of the field of view is rotated around the axis, along the boundary of the interface, by 180 °. This makes it possible to estimate the offset of the autocollimating image of the grid by the nonial alignment of its two parts located on different sides of the interface of the field of view.

The grid is a series of equally spaced strokes parallel to each other. Estimation of the division share can be made using an optical compensator (e.g., a lens compensator), which is inserted between the lens 7 and the prism system 6.

The rays forming the image of any point of the autocollimating image of the grid pass through the prism system of noniial sight twice. When designing an autocollimator of a parallel beam of rays onto a mirror, the rays that stream through one of the prisms of the prism-based nonionic sighting system, reflected from the mirror, form an autocollimation image, a passage through the other prism. This eliminates the occurrence of parallax and provides

equal illumination in both parts of the field of view.

Subject invention

Optical sight system according to aut. St. No. 165913, characterized in that, for the purpose

eliminating parallax while simultaneously obtaining equal illumination of the two parts of the field of view, it is equipped with an additional lens projecting the image of the grid into a plane passing through the edge of the mirror coating of the prism system.

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