SU1314296A1 - Binocular magnifier - Google Patents

Abstract

This invention relates to an optical instrument. The aim of the invention is to increase the linear field in the image space, as well as the luminosity aperture. A fiber light guide 5 is located in front of the first com / t component of the magnifying glass at a distance of from 0.09 to 0.11 of the focal length of the magnifying glass, the radius of the surface of the output end of which is from 2.6 to 3.2 of the focal length of the magnifying glass. The second component is glued together from a binary 3 and a negative 4 lenses, the outer surface of the latter being aspherical in the form of a planoid of the fourth order. The design features and selection of the device parameters ensured the possibility of optimal observation of large image fields. The magnifying glass has a linear increase, the transverse aberration in the angular measure does not exceed 5. 1 sludge. I (L.- g / g- X f s. / Y

Description

The invention relates to optical instrument making, in particular to high-aperture loupes, designed for viewing objects with two i eyes at the same time, and can be used to observe fixed and moving objects.

The purpose of the invention is to increase the luminosity and, - In-situ field in the space depicted.

The drawing depicts the principal optical scheme of the biocular bulb,

The biocular loupe contains the following structural elements. Component 1 is a double lens co-lens with a thickness of 0.673 focal length magnifier. Component 2 consists of a two-convex lens 3 glued to a negative lens 4. At the same time, the surface of lens 4, facing the observer, is made aspherical in the form of a fourth-order, the shape of which is determined by the expression

. . Z -4 (x2 + y2)

where X and y are the coordinates of surface points.

A biocular loupe containing two 30 components, the first of which is a two-co-convex lens, and the second contains a negative lens, characterized in that, in order to increase the aperture of the linear field in 35 image space, a fiber optic fiber is installed in front of the first component , the output end of which is made concave with a radius of curvature ranging from 2.6 to 3.2 with a focal length contributed to an increase in the relative distance of the magnifying glass, the second component. hole (up to 1: 1,1), and the follower is made of glued two-convex

lenses and negative lenses, the last surface of which is made aspherical in the form of a fourth-to-fourth planoid, the distance between the fiber and the first component selected in the range from 0.09 to 0.11, and the thickness of a two-convex lens of the first component, the components of the system and the curvature of the image, 50 times the 0.673 focal length of the magnifying glass.

Compiled by V. Arkhipov. Editor A. Renin. Tehred V. Kadar Corrector. Cherni

The magnifying glass is mounted coaxially with the optical fiber 5 located in front of the first component at a distance from 0.09 to 0.11 of the focal length of the entire magnifying glass.

Giving the surface of the lens 4 facing the observer the asphericity of a given shape made it possible to correct the spherical aberration as a whole, which

and aperture system. In addition, this circumstance, combined with the action of component 1 with an appropriate selection of design parameters (first of all, the distance between the magnifying glass and the optical fiber and the radius of the fiber end face), made it possible to reduce the astigamatic order.

VNIIPI USSR State Committee

on cases of electing and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, st. Project, 4

five

thereby ensuring the possibility of optimal observation of large image fields,

The biocular loupe has the following characteristics: a visible magnification G 3.6, a linear magnification, a focal length of 88.9 mm, a relative aperture of 1: 1.1, a linear field in the image space of 292 mm, a distance of the plane of the observer’s eyes from the latter surface 78.4 mm, the position of the surface is pre-, meta with respect to a magnifying glass 9 mm,

The magnifying glass has a high image quality with an observer's pupil size of 4 mm on a base of 52-76 mm: within the floor of the image, the transverse aberration in the angular measure does not exceed 5.

The magnifying glass is designed to view the image of the object built on the input end of the light guide 5 by the preceding optical system and can be used in various observation devices.

Claims (1)

Invention Formula