SU857910A1 - Telescopic system - Google Patents

Description

(54) TELESCOPIC SYSTEM

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The invention relates to optical instrumentation, and more specifically to telescopic systems that can be used in devices for transmitting viewing angles and in devices designed to control internal surfaces.

Telescopic systems are known for transmitting the viewing angles with a magnification of 1.5, a field of view of 30, an entrance pupil diameter of 6.8 mm, a diaphragm of a field of view of 30 mm and an exit pupil of 30 mm. In this design, the wrapper system is located by the lens and the oculum. The inverting system and the ocular, considered in the reverse direction of the rays, represent a system with negative, focal distance and, in their action, are equivalent to a negative lens in the Galilean system, the front focus of the group of lenses of the inverting system and the ocular are aligned with the rear focus of the lens. The optical system of the telescope is equivalent in terms of wrapping the Galile system having a direct image ij. Telescopic systems used in endoscopes consisting of an objective part with a necessary field of view, a telescopic system of necessary length, a prism part and an ocular device, are also known It is better to obtain a field of view from 4 to 32 at 1.5–12 magnifications 2.

These telescopic systems have an insufficient exit pupil and a field of view angle and do not provide the required image quality.

Claims (3)

The closest to the proposed invention is a device that contains a lens, an eyeglass and a system wrapped around them, made in the form of two bulging lenses, the flat surface of one of which is facing the lens, and the second is known to the eyelets. Insufficient image quality. The purpose of the invention is to improve the image quality. The goal is achieved by the fact that the reversing system is equipped with additional flat convex lines, the flat surfaces of which are expanded to the compensator, filled in the form of two symmetrical relatively aperture diaphragm of blocks of double-bent and flat-convex glued lenses, and the surface of the flat-fused lens is glued to the lens. a cocked lens as well. the difference between the refractive indices and the dispersions of the elements of this lens exceeds 0.05 and 16.0, respectively. The drawing shows the principle optical layout of the telescopic system. The optical design consists of 16 lenses combined into 12 components. The telescopic system is represented by a symmetric scheme, the aperture diaphragm 13 is located in the middle. Components 1 and 2 are made in the form of flat-tilted lenses convex to the aperture diaphragm. Components 3 and 4 are also made in the form of flat-convex lenses, turned in direction to the spaces of the object and depicted in the form of flat-convex lenses, turned in direction to the spaces of the object and depicted in the form of flat-convex lenses, turned in direction to the spaces of the object and depicted in the form of flat-convex lenses, turned away from the space and to the objects and images corresponding to the spaces and images and images corresponding to the convex lenses, and corresponding to the objects and images and images and images and images corresponding to the convex lenses. . Components 5 and 6 are made in the form of flat lens, facing the aperture diaphragm, and components 7 and 8 are made in the form of flat lens, facing the convexities of the prediction and image spaces, respectively. Components 1.3; 5.7; 6.8 and 4.2 are Kepler telescopic systems. Components 9 and 10 are biconcave negative lenses with chromatographic radii (not indicated) of the glue. The introduction of these lenses made it possible to correct the spherical aberration of oblique beams and chromatism. Components 1I and J 2 are flat-convex glued lenses convex to the aperture diaphragm 13. The components are made of crown and flint glass, respectively, with a difference of refractive indices and dispersion greater than 0.05 and 16.0, respectively. Components 9,12; P and 10 together represent the Galile telescopic systems. Changing the magnification of telescopic systems Galile allows to improve the astigmatism of the system and the spherical aberration of higher orders in an oblique beam of rays. The invention The telescopic system comprising an objective lens, an ocular and an intertwining system arranged between them, made in the form of two flat-convex lenses, the flat surface of the first of which is facing the lens, and the second - to the ocular, which is image quality, the wrapping system is equipped with additional flat-tinted lenses, the flat surfaces of which face the compensator, made in the form of two blocks of twisted symmetric with respect to the aperture diaphragm and plano lens bonded, glued surface of said plano-convex lens is concave to the biconcave lens, and the difference in refractive index and dispersion of the lens elements exceeds 0.05 and 16.0 respectively. Sources of information taken into account in the examination 1. Optics in military affairs. Edited by S.I. Vavilova and prof. Sevast new. M., 1948, p. 60-68. 2. Bychkov O. Control of internal surfaces. M., Energie, 1975 s. 86-90. 3. USSR author's certificate “63422, cl. G 02 B 23/00, 1977 (prototype).