SU1113768A1 - Afocal wide-angle extension piece - Google Patents

Abstract

Afocal wide panel comprising negative meniscus, vtuklostyu facing the subject, biconcave and biconvex lens, characterized in that, in order to increase the diameter of the entrance pupil, reducing the size and improving the quality tion aberration-compensation, in front of her biconcave lens enter additional a negative meniscus convexity facing the object, and a double-bent lens is made of a glued double-bent lens and a positive meniscus with a difference in the coefficients of dispersion of materials n at least 20, at ztom additional negative optical power of the meniscus is 0.4-0.5 optical power of the first negative meniscus. Iw 2 v

Description

The invention relates to a cinema and photographic and can be used when shooting and projecting films. A known afocal tip mounted in front of the lens serves to change its focal length. It consists of negative and positive components, each of which is made in the form of a glued lens lj. However, this nozzle has a low field of view angle. The closest to the technical essence of the present invention is an afocal wide-angle nozzle, containing a negative meniscus, convexity facing the object, two-bent and two-lens lenses 2 ... A disadvantage of the known nozzle is the impossibility of its use with a large entrance pupil at an angle of view of 80 ° due to deterioration of image quality (at a field angle of view of 80 °, the diameter of the entrance pupil of the nozzle is 3.2 mm). In addition, the nozzle has a large size. nozzle length 71.2 mm, its light diameter is 112 mm. . . The purpose of the invention is to increase the diameter of the entrance pupil, to reduce the barity rate and to improve the quality of the correction of aberrations. The goal is achieved by the fact that in an afocal wide-angle nasal containing a negative meniscus, a two-bent and two-convex lenses facing the object, an additional negative meniscus is introduced in front of the two-bent lens, and a double-curved lens is applied to the glued a double-curved lens and a positive meniscus with a difference of the coefficients of the dispersions of materials of at least 20, while the optical power of the additional negative meniscus is 0.4-0.5 optical silt of the first negative meniscus. 682 The drawing shows an optical scheme of an afocal wide angle attachment. The attachment contains two components: negative 1 and positive 2. Negative component 1 consists of two negative menisci 3 and 4 convex to the object, and a double-glued negative lens consisting of a double-bent lens 5 and a positive meniscus 6. Positive component 2 - Dov kovupkla lens. According to this scheme, an afocal wide-angle attachment with an increase of 0.72, having an entrance pupil of 8.2 mm, and an angular field of view of 84® is calculated. The nozzle provides high image quality. Its length is 54 mm, light diameter is 90.4 mm. The proposed attachment can be used with any lens having an entrance pupil size of up to 11 mm and a field angle of view of up to 65. For example, a lens with an F 12 mm, a relative aperture of 1: 1.1 for shooting 16 mm films, a P 22 mm lens, 1: 2 relative aperture for 35 mm films, P 45 mm lens, 1: 4 relative aperture for 70 mm films. Structurally, hpoCTo solved the problem of obtaining a wide-angle aperture system, which is of great convenience for operators. The use of the invention allows to increase the duration of the light shooting day, thereby increasing the productivity of operators. In addition, use; The high-aperture nozzle allows shooting in low-light conditions without the use of additional lighting devices, which facilitates and simplifies the work of the film crew. This is of particular importance when shooting documentaries, when it is impossible to use lighting equipment.

Claims (1)

AFOCAL WIDE-ANGULAR NOZZLE containing a negative meniscus convex to the subject, a biconcave and biconvex lens, characterized in that, in order to increase the diameter of the entrance pupil, reduce the size and improve the quality of the correction of aberrations, an additional negative biconcave lens is inserted into it convex facing the subject, and the biconcave lens is made of glued from a biconcave lens and a positive meniscus with a difference in the dispersion coefficients of materials of not less than 20, while the optical power of the additional negative meniscus is 0.4-0.5 of the optical power of the first negative meniscus. ''