RU2104574C1 - Mirror lens for monocular glass - Google Patents

Abstract

FIELD: optical instruments which are designed for angular measurements and project erect image. SUBSTANCE: device has three members which are located in series along beam. First member is designed as negative meniscus which concavity is directed to object, second member is designed as near-afocal meniscus which concavity is directed to image. Central region of its second surface serves as secondary mirror. Third member is designed as concave primary mirror with external reflection. EFFECT: increased functional capabilities. 2 dwg

Description

 The invention relates to mirror-lens telescope lenses and can be used in visual goniometers and binoculars.

 Known mirror lens [1], containing sequentially along the beam located optical components, primary and secondary concave mirrors and creating a direct image of the object.

 Known mirror lens [2], containing the aberration compensator, made in the form of a close to afocal meniscus facing concavity to the image, a primary concave mirror with an external reflective surface and a secondary mirror made on the central part of the concave surface of the meniscus.

 The proposed device in comparison with analogues provides a larger angular field of the lens while increasing the manufacturability of manufacturing its optical components.

 This effect is achieved due to the fact that in front of the optical component that performs the functions of the secondary mirror, there is a negative meniscus, facing concavity to the object, behind which is located close to the afocal meniscus, facing concavity to the image, the central part of the second along the surface of which serves as a secondary mirror and the primary mirror is made with external reflection, while the surfaces close to the afocal meniscus are performed in a predetermined ratio.

 In FIG. 1 shows an optical diagram of a mirror lens; in FIG. 2 - design parameters of a mirror-lens lens.

 The telescope mirror-lens lens consists of three optical components located in series along the beam, the first of which is the negative meniscus 1, facing the concavity to the subject, the second is close to the afocal meniscus 2, facing the concavity to the image, the central part of the second surface of the beam at the same time serves as a secondary mirror, the third - concave mirror 3.

Optical characteristics of a mirror lens:
Focal length, mm - 125
Relative aperture - 1: 4.6
Angular field in the space of objects, ang. Hail. - 5.0
Spherical aberration, mm - 0.004
Chromatic aberration for the center of the field, mm - 0,035
Chromatic aberration of increase, mm - 0.007
Meridic curvature for field edge, mm - 0.82
Sagittal curvature for the edge of the field, mm - 2.07
Distortion of the field edge,% - 0.74
The ray from the image passes through the negative meniscus 1, and close to the afocal meniscus 2.

Then the beam hits the concave mirror 3, from which, reflecting, it enters the mirror surface of the meniscus 2 and, reflecting it into the central window in the concave mirror 3. Moreover, to obtain the claimed effect, the surfaces of the meniscus 3 must correspond to the ratio
0.95 ≤r ₃ / r ₄ ≥ 1.45.

The proposed mirror-lens lens, the design parameters of which are shown in figure 2, provides an increase in the angular field to 2ω = 5 ^° . = 5%.

Claims (1)

Mirror-lens telescope lens containing an aberration compensator made in the form of a close to afocal meniscus facing concavity to the image, a primary concave mirror with an external reflective surface and a secondary mirror made on the central part of the concave surface of the meniscus, characterized in that in the aberration compensator introduced a negative meniscus, facing concavity to the subject and located in front of a close to afocal meniscus, the radii of curvature of which r ₃ and r ₄ satisfy the ratio Yu

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