SU1254406A1 - Catadioptric lens of telescope - Google Patents

Abstract

The invention relates to an optical instrument making and improves the image quality and reliability of the design. For this, the primary mirror is made in the form of reflections of a mirror coating 7 applied to the convex surface of the convexoplane lens 1 of the aberration compensator, and the secondary mirror - in the form of a reflecting mirror coating 8 on the convex surface of the plane-convex lens 6. Arranged against each other the primary and secondary mirrors provide image wrapping and have a positive curvature of the floor, which favors the correction of the negative curvature of the floor of the ocular. A plane-parallel plate 2 of the aberration compensator can be glued together from two lenses made of a material with the same refractive indices for the main wavelength and a difference in the mean dispersion coefficients of at least 20. 1C. f-ly, 2 ill. Q 1 (L

Description

The invention relates to optical instrument making, namely to mirror-lens lenses of telescopes, and can be applied in visual angle gadgets and binoculars.

The aim of the invention is to improve the image quality and reliability of the design.

FIG. Figure 1 shows the optical scheme of a lens / mirror lens; FIG. 2 is a diagram of the telescope using the proposed lens / mirror lens.

The optical scheme of the mirror-lens objective of the telescope (Fig. 1) consists of four components: a convex lens 1, a convexity facing the object, a plane-parallel plate 2 glued to lens 1, having an equal diameter with it and installed in the center of the plate 3 glued from two lenses: flat-bend 4 and convex 5; the plate 3 is glued to the flat convex lens 6, convex to the image. The optical surfaces of the lenses 1 and 6 are coated with reflective mirror coatings 7 and 8.

A parallel beam of rays passes through the plate 3, the lens 6 and falls on the primary mirror 8, reflected from it, passes again sequentially through the lens 6, the plate 3, the plate 2, the lens 1 and goes to the secondary mirror 7, while in the plate 2 actual intermediate image of an infinitely distant object.

Further, the beam, reflected from the mirror 7, passes successively the plates 2 and 3, and in the back focal plane of the lens a real direct image of the object is obtained.

In the center of the flat-convex lens 6 a conical hole is made along the aperture beam. The blackened conical surface provides a blend function that protects the image from stray light.

The whole lens, made in the form of a monoblock, ensures reliability in operation and makes the entire system unshareable.

The interposition of two mirrors is a Gregory mirror system that provides image wrapping, therefore

The lens creates a real right image. This system has a positive field curvature, which is beneficial for correcting

negative curvature of the floor of the oculra. The lens has the following characteristics: focal length 159.9 mm; relative opening 1: 4; angle of view 5 °. Longitudinal

the spherical aberration for the fundamental wavelength (line 2) does not exceed 0.29 mm; relative distortion of 0.4%; astigmatism not more than 0.95 mm; for the edge of the field of vision in the meridian

lu cross section 0.09 mm.

When a mirror-lens lens is installed in the telescope (Fig. 2), a system is formed with an increase in G 10, an exit pupil diameter

4 mm, removing the exit pupil of 13.4 mm and a length of 110.6 mm. At the same time, in the visual tube the chromatism of the position does not exceed 0.3 diter, the increase chromatism is no more than 4, astigmatism

1.5 diter, distortion 10.8%, aberration of the wide meridional beam in the center of the field of view is less than 10, at the edge of the field of view the angular value of the spot scatter is 1940.

Claims (2)

1. Mirror-lens lens of a telescope containing concave primary and secondary mirrors and an aberration compensator located between them, glued together from two plane-parallel plates and a plane-lens, reversed the object, the plate, bordering the lens, has an equal diameter and is installed in the center of the second plate from the side facing the secondary mirror, which is also so that, in order to improve image quality and increase the reliability of the design, the secondary mirror is made in the form of a reflective coating applied to a convex the surface of the above-mentioned plane-convex lens, and the primary mirror, in the form of a plane-convex lens glued together with a compensator of aberrations with a central hole, on the convex surface of which a reflective coating is applied. 2. Lens POP.1, characterized in that it is adjacent to l12544064 the primary mirror of the plane-parallel-main wavelength and the difference in the kona plate are glued together from two lenses, the effects of the average dispersion are not melted from materials with the same 20, while the gluing surface with convexity is turned to the object. F 4i h h h h 0 h h h h Yu.Vg Editor M. Tsitkina Compiled by V. Arhshtov Tehred M. Khodanych Order 4715/49 Circulation 501 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab ,, D.4 / 5 Production and printing company, Uzhgorod, Projecto st., 4 / 5, FIG. 2 Proofreader A. Obruchar