SU122624A1 - Four-component eyepiece - Google Patents

Description

To correct the chromatic difference in magnification of the telescope in many cases, it is necessary that the chromatic difference in magnification of the ocular is small enough and its magnitude varies linearly depending on the magnitude of the image in the first focal plane of the ocular. Until now, the holes in the oculi failed to simultaneously fulfill both requirements.

In existing oculi, the progress of the chromatic difference magnification curve at small values of this aberration differs significantly from the linear one; this circumstance does not allow achieving a good correction of the chromatic difference in the magnification of the telescope, leads to deterioration of the image and causes the field of vision of the instrument to be limited. Very often, the use of existing oculars does not allow a chromatic difference of magnifications of less than 5 to be obtained in the telescope, which cannot be considered satisfactory.

The proposed ocular p shown in the drawing solves the problem of correcting the chromatic difference of magnifications. It consists of 8 lenses glued together so that they form four components: a negative lens glued together from two lenses / and //; lens / -from krone, lens // - from flint; positive lens /// from the crown; positive component, glued from three lenses V, VE VI; IV and crown, lens V-of flint; positive component, glued from two lenses VI and VIH; Lens Vfl-from flint, lens krone.

The I-in lens group is stationary, and the IV-VIII lens group is movable to focus. Between the lenses // and /// there can be a plane-parallel plate P, on the first surface of which, coinciding with the diaphragm of the field of view D, a grid is applied.

Obtaining a linear variation of the chromatic difference of magnifications depending on the size of the image in the first focal plane of the ocular, provided that the chromatic difference of magnifications is small, in the proposed design of the ocular is as follows. The components of the ocular, located behind the diaphragm of the field of view, in the marginal parts of the field of view, thanks to the presence of two lenses V and VII of flint, have a positive value of chromatic

differences, magnifications; its near values near the center of the field of view. The positive value of the chromatic difference of the increases in the marginal parts of the x-ray view of the eyepiece leads to a significant deviation of the course of this aberration from the linear; restoration of the linear course of the chromatic difference of magnifications at small values of this aberration. For the entire ocular, the first component of the ocular is realized, the lens glue surface / and which, facing convexity to the aperture of the visual field, has a large curvature and separates two media, the first from who rym m: scarlet dispersion (crowns), the second with a large (flint), with; provided that both media have similar refractive index values for: main wavelength.

Correcting the chromatic difference of magnifications in the proposed oculars is most effective if the difference in refractive indices, glass lenses / and // does not exceed 0.05, the difference in coefficients dx and less than 10 and the radius of the surface of gluing these lenses lies in the range of 0 , 4 to 1.0 diam, and an image in the first focal plane of the ocular. .

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Claims (3)

1. A four-component eye piece made of a negative collective, glued together from two lenses, a positive lens, a positive component glued together from three lenses, and a positive component glued together from Two lenses, characterized in that in order to reduce the magnitude of the chromatic difference of magnifications and provide linear or almost linear dependence of the course of this aberration on the magnitude of the image in the first focal plane of the ocular, the gluing surface of the negative collective lenses, made one and the crown, and the other from flea nta, is convex to the aperture of the field of view, and the radius of this surface lies in the range from 0.4 to 1.0 of the image diameter in the first focal plane of the eyepiece, to the fact that the difference in refractive indices of these lenses does not exceed 0.05, and the difference coefficients of their dispersions of at least 10. 2. The shape of the implementation of the ocular according to claim 1, characterized in that the chromatic difference of magnifications in the marginal parts of the field of view for the part of the eyeglass that is located behind the diaphragm of the field of view is made positive. 3. The form of the implementation of the ocular p. 1 and 2, characterized in that, in the first air gap, there is a plane-parallel plate with a grid applied on it. if t / f f Z /