SU917160A1 - Telescope reflective lens - Google Patents

Description

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LENSELY CASE OF THE VISUAL PIPE

The invention relates to an optical instrument, namely to a-a-vertical lens (m lenses of telescopes, and can be used in visual goniometers, in particular theodolites.

Known optical systems lenses telescopes - catadioptri-. A black lens containing a meniscus-shaped correction element facing the object with a concavity, a primary mirror separated from the meniscus by a gap, the reflective area of which is located in the center of the convex surface of the corrective meniscus and receives light from the primary mirror. Between the mirrors is the lens part of the lens, represented by a dual-lens 1.

The disadvantages of the system are the need to introduce a lens component that serves to focus, as well as a large amount of displacement along the optical axis of the focusing lens.

element, which leads to a low accuracy of sighting due to guiding errors.

Also known is the mirror-lens lens of the Cassegrain system, which contains a mirror, correction group and a focusing lens. The mirror group consists of a concave primary and a convex secondary mirror. The corrective group is made in the form of a convex-concave afocal meniscus located in front of the primary mirror, and the reflective surface of the secondary mirror is located in the center of the second meniscus surface. Between the mirrors there is a focusing lens 2.

The disadvantages of the system are the need to introduce additional

20 of the lens component that serves to focus, as well as the large amount of displacement along the optical axis of the focusing element, which leads to a low accuracy of sight due to guideline errors. The closest to the present invention is a telescope mirror-lens objective lens containing concave primary and secondary mirrors and an aberration compensator 3. The disadvantages of the system are the need to introduce a lens component that serves for focusing, as well as a large amount of displacement along the optical axis of the focusing element, which leads to low accuracy of sighting due to errors in guides, moreover, the construction of parabolic mirrors is non-technological. The purpose of the invention is to improve the quality of image of the lens. The goal is achieved by

that in the mirror-lens objective of the telescope containing concave primary and secondary mirrors and the aberration compensator, the mirrors are made in the form of Manlen mirrors, and the aberration compensator is made in the form of a unit glued together from two plane-parallel plates, and the diameter of each plate is equal to the diameter of the conjugate it mirrors ..

The drawing shows an ogigic lens scheme.

The lens of the telescope contains two Manjen mirrors 1 and 2, the correction unit 3 placed between them. Glued together from two plane-parallel plates 4 and 5. The plate facing the mirror 2 has an equal diameter and is installed in the center

image quality, mirrors are made in the form of Manjen mirrors, and the compensator. aberrations are made in the form of a block glued together from two plane-parallel plates, and the diameter of each plate is equal to the diameter of the mirror associated with it.

Sources of information taken into account in the examination

1. Eliseev V. S. Geodetic instruments and devices. M., Nedra, 1973, p. 226.

2.Demlich F. Geodetic Instrumentation, M., Nedra, 1970, p. 72.

3. USSR author's certificate on application. № 2844253/10,

Claims (1)

cl. G 02 B 17/08, 1979 (prototype). plate 5, which allows, while ensuring higher accuracy of focusing due to the displacement along the optical axis of one of the mirrors, preserve high image quality. The proposed lens design provides for the correction of axial beam aberrations using a correction unit 3, located between mirrors 1 and 2, and an off-axis positive meniscus 6 and 7. Formula of the invention A specular lens objective telescope containing a concave primary and secondary mirrors and an equalizer of aberrations, tl and h a.yu u and so that, in order to increase