RU2040024C1 - Fast lens - Google Patents

Abstract

FIELD: optical instrument engineering. SUBSTANCE: fast lens has the first positive lens, the second negative meniscus, which is turned with its concavities to the image. Thickness of the meniscus is equal to 0,22 focal length of the lens with 10% precision. Lens also has aperture diaphragm, the first negative meniscus, the second positive meniscus and biconvex lens which is glued of positive and negative lenses. EFFECT: improved reliability of operation; improved precision. 6 dwg

Description

 The invention relates to optical systems and can be used in night vision devices.

 Known fast lens containing six components, two of which are glued [1] The disadvantages of this lens are the complexity of its design and a small rear segment.

 Known aperture lens [2] taken as a prototype, containing successively located two positive menisci, a negative meniscus, an aperture diaphragm, a negative meniscus and two positive components, the latter made of two bonded positive and negative lenses.

 This lens contains one less lens, however, the presence of large curvatures of the two menisci located in front of the aperture diaphragm determines the known technological difficulties in its manufacture. In addition, the known lens has a small rear segment, which does not exceed 0.5 of the focal length. The latter circumstance causes difficulties in the placement and use of the lens in the device.

 The aim of the invention is to increase the rear segment while maintaining a large aperture and high quality correction of aberrations.

 The goal is achieved by the fact that in a fast lens containing the first positive meniscus, convex to the object, the aperture diaphragm, the negative meniscus, turned concavity to the object, the second positive meniscus, turned concavity to the object, and a positive biconvex lens, glued from the positive and negative lenses , additionally introduced between the first positive meniscus and the aperture diaphragm, the second negative meniscus, facing concavity to the image, while its thickness with accuracy up to 10% is equal to 0.22 of the focal length of the lens.

 In FIG. 1 shows a general optical scheme of a fast lens and its structural elements.

 The lens contains a first positive meniscus 1, convex to the object, a second negative meniscus 2, facing concavity to the image; the first negative meniscus 3, facing concavity to the subject, the second positive meniscus 4, facing concavity to the subject, positive docto-convex bonded lens 5, positive lens 6, negative lens 7, plane-parallel plate 8.

 Figure 2-6 presents graphs of aberrations of the fast lens.

 A fast lens contains five components. The first component 1 is made in the form of a positive meniscus, convex to the subject. The second component 2 is made in the form of a negative meniscus, facing concavity to the image, while its thickness with an accuracy of 10 is equal to 0.22 of the focal length of the lens. The aperture diaphragm is located between the second component 2 and the third 3, made in the form of a negative meniscus, facing a concavity to the object. The fourth component 4 is made in the form of a positive meniscus facing concavity to the subject. The fifth component 5 is made in the form of a biconvex lens glued from a positive 6 and a negative 7 lenses. The image is formed by the lens on the rear surface of the plane-parallel plate 8.

This aperture lens posterior segment value is 0.78 when the focal length relative aperture of 1: 1.2, an angle of field of view 40 ^of high quality and aberration correction (sm.fig.2-6), while in the prototype value the posterior segment is 0.5 of the focal length.

 These parameters in the lens are achieved due to the fact that in the known lens between the first positive meniscus and the aperture diaphragm there is a negative meniscus facing concavities to the image, the thickness of which is accurate to 10% equal to 0.22 of the focal length of the lens, which allows you to move the rear main the plane to the right by 0.28 of the focal length, thereby increasing the rear segment. The introduction of a large thickness into the specified meniscus made it possible to increase its radius of curvature, which ensures high quality optical images.

Claims (1)

 LIGHT LENS, containing the first positive meniscus convex to the object, the second component, the aperture diaphragm, the negative meniscus facing the concavity of the object, the second positive meniscus facing the concavity of the object, and a positive biconvex lens glued from a positive and negative lens that, in order to increase the posterior segment, the second component is made in the form of a negative meniscus facing concavity to the image, while its thickness is 0.22 s accuracy Strongly to 10% of the focal distance of the lens.

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