SU862102A1 - Catadioptric lens of telescope - Google Patents

Description

The invention relates to lenses, and more specifically, to mirror lenses for telescopes.

Known telescope lenses [ij, containing a corrective element in the form of a meniscus, facing concavity ⁵ to the object, separated by a gap from the meniscus primary mirror. A secondary mirror is provided, the reflective surface of which is located in the center of the second surface of the correction meniscus and receives light from the primary mirror. Between the primary and secondary mirrors is the lens part of the lens, represented by a double-glued lens.

The disadvantage of the system is the increased length along the optical axis.

Also known is the mirror-lens telescope lens And with a broken jo ray, consisting of positive and negative lenses and two mirror lenses, the reflecting surfaces of which work as spherical concave mirrors, two prisms and a focusing lens are located behind it.

The disadvantage of this system is its increased length.

The closest technical solution to the proposed one is a mirror lens [3J, containing primary concave and secondary mirrors.

The disadvantage of the prototype is the increased length of the system.

The aim of the present invention is to reduce the length of the system.

This goal is achieved by the fact that, in the well-known mirror-lens telescope lens containing primary and secondary mirrors and an aberration compensator, the mirrors are applied to the convex surfaces of the parabolic centered lenses, and the aberration compensator is made in the form of a single negative meniscus with a concavity facing the image, and biconvex lens.

The drawing shows a schematic optical diagram of a mirror-lens lens.

The telescope lens contains a primary concave 1, secondary concave 2 mirrors sequentially located during the beam, an aberration compensator, which is made in the form of a single negative meniscus 3, facing a concavity to the image, and a biconvex lens 4.

The length of the lens of the present invention is 0.2 to 0.25 of its focal length.

Claims (3)

The invention relates to lenses, and more specifically, to a mirror-lens object for visual coarse. Lens lenses of telescopes 1.1 containing a correction element in the form of a meniscus with a concavity facing the object, separated by a gap from the meniscus primary mirror. A secondary mirror o is provided, the reflecting surface of which is located in the center of the second surface of the corrective meniscus and receives light from the primary mirror. Between the primary and secondary mirrors there is a lens part of the lens, represented by a double lens. The disadvantage of the system is an increased length along the optical axis. Also known is the mirror-lens lens of the telescope 2 with broken rays, consisting of positive and negative lenses and two mirror lenses, the reflective surfaces of which work as spherical concave mirrors, behind which are two prisms and a focusing link. The disadvantage of this system is its increased length. The closest technical solution to the proposed is a mirror. Lens lens 3j containing primary concave and secondary mirrors. The disadvantage of the prototype is the increased system length. The purpose of the present invention is to reduce the length of the system. This goal is achieved by the fact that, in the well-known mirrored objective lens of the telescope containing primary and secondary mirrors and the compensator for aberrations, the mirrors are applied to the convex surfaces of parabolic centered lenses, and the compensator for aberrations is made in the form of a single negative meniscus facing concavity to the image, and two a co-convex lens. The drawing shows the principal optical scheme of a mirror optical lens. The objective of the telescope contains successively located in the course of the beam primary concave 1, secondary concave 2 mirrors, a compensator for aberrations, which is made in the form of a single negative menis 3, turned with a concavity to the image, and two | pinhole 4. The length of the lens of the present invention is 0.2-0.25 from its focal length. Formula fig (eteni catadioptric obekgiv zrigel hydrochloric tubes containing poregychnoe concave and secondary mirrors and aberration compensator, characterized heme that in order to reduce the length while maintaining the quality of the aberration correcting mirror applied to the convex surface of parabolic centered lenses and compensator aberrations made in the form of a single octagonal meniscus, facing concavity to the image, and a two-convex lens.Sources of information taken in the attention during examination 1.Elis Yeev SV Surveying instruments and devices, M., Nedra, 1973 p. 226 2. Deemlich F, Geodetic Instrumentation, M., Nedra, 1970 p. 72-73, 236-237. 3.Demlich F. Geodetic Instrumentation, M., Nedra, 1970 | with. 234-235. 72. (prototype). , rJ j / g. /