SU1420581A1 - Teleconverter for increasing focal distance of photographic lenses - Google Patents

Abstract

The invention relates to an optical instrument making and allows improving the image quality when working with a main photographic lens. The first component of the device is made of a negative meniscus 1 facing the concavity to the image, and a double convex lens 2. Next are the negative double coined lens 3 of the second component and the negative meniscus 4 of the third component. Performing meniscus 1 and lens 3 from a material with a refractive index of at least 1.7 helps to reduce the positive curvature of the floor of the entire system. Using the teleconverter provides an increase in the shooting scale of the camera. 1 il. i (f. C

Description

The invention relates to optical instrumentation, in particular to photographic lenses, and can be used in small format cameras for shooting close-ups.

The purpose of the invention is improving image quality when working with the main photo lens.

The drawing shows a schematic diagram of the proposed teleconverter.

The teleconverter contains a negative meniscus 1, a positive biconvex lens 2, a negative biconcave lens 3, and a negative meniscus 4 located along the beam. The implementation of the first component glued allows you to increase the optical power of a positive lens. Due to the fact that a positive lens has a negative aberration of the field curvature, it can be used to compensate for: al-pp, '> the field curvature of the entire system. When the first component is executed, an additional correction parameter appears glued, which allows you to adjust the remaining aberrations. The implementation of the first and third lenses from a material with a high refractive index can reduce the positive field curvature of the entire system. The implementation of the first negative convex-concave lens allows introducing the lowest possible spherical aberration into the system. The implementation of the second biconvex lens introduces negative spherical aberration into the system, which corrects the spherical aberration of the entire system.

The principle of operation of the proposed device is to increase the focal length of the main lens and, as a result, the scale of shooting with a camera using a tele-converter increases. The implementation of the proposed teleconverter allows you to get a photographic resolution on the KN-1 film in the center of the field (y '-.- P) 44 l / mm and along the edges of the foam (' / '19 mm) l / mm, practically does not reduce the resolution of the main lens . As the main lens, “Geolios-44” is used with the following resolution values: 40 lines / mm in the center of the field, 19 lines / mm at the edge of the view. When working with this lens, the teleconverter is characterized by the following aberration values: longitudinal spherical aberration no more than 0.162 mm; the chromatic difference of spherical aberrations is not more than 0.423 mm; Asmigmanism 1.179 mm; average image curvature 0.108 mm; Chromatism increased ¹ ratio 0.038 mm. The proposed teleconverter can also be used in conjunction with the Helios-44 M, Industar-50, Industar-61, Jupiter-9, and Jupiter-11 photo lens.

Claims (1)

Claim Tele-converter for increasing the focal length of photo lenses containing three components, the first of which contains a negative and positive lenses, the second a single biconcave lens, the third a single negative meniscus convex to the image, characterized in that, in order to improve image quality during operation with the main photographic lens, the first component is made of single meniscus facing concavity to the image, and a biconvex lens, while the negative meniscus of the first nta and a biconcave lens are made of material with a refractive index of at least 1.7. Compiled by V. Arkhipov Editor S. Lisina Order 4328/53 Tehred I. Veres Corrector A. Tyasco Circulation 533 Subscription VNIIIPI of the USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushskaya nab., D. 4/5 Production and printing company, Uzhhorod, street: Project, 4