SU1599827A1 - Zoom lens - Google Patents

Abstract

This invention relates to an optical instrument and can be used in photography. The purpose of the invention is to improve the image quality and uniformity of the illumination of the frame while reducing the size and weight. Negative 1 and positive 6 components are mounted for movement along the optical axis. Component 1 contains lenses 2, 3, 4, 5, component 6 - lenses 7, 9, 10, 11, 12, 13 and the aperture diaphragm 8 between lenses 7 and 9. 1 Il.

Description

The invention relates to optical instrumentation, namely to lenses with variable focal length, and can be applied in photography, both amateur and professional.

The aim of the invention is to improve image quality and uniformity of illumination of the frame while reducing size and weight.

The drawing shows a schematic optical diagram of a zoom lens.

The lens contains 10 lenses combined into two components. The negative component 1 consists of a positive meniscus 2, negative menisci 3 and 4, and a positive meniscus 5.

The positive component 6 consists of a biconvex lens 7 located in front of the diaphragm. 8, and installed behind the diaphragm are two positive menisci 9 and 10, a negative biconcave lens 11, a positive meniscus 12, and a positive biconvex lens 13.

Aperture diaphragm 8 is located at a distance of 0.75 mm from the last surface of the lens 7.

In the position of the components shown in the drawing, when both components are on ft with maximum distance from each other, the focal length of the lens reaches a minimum value f ^g = 24 mm, while the angular field of view reaches a maximum value of 2 β-84 °.

. When the components approach each other as much as possible, the focal length of the lens reaches the maximum value f '= 48 mm, while the angular field of view reaches the minimum value 2 β = 48 ° 28 ^f .

In the proposed lens, both components are involved in changing the magnification and the positions of both components in the extreme positions are significantly different. This allows you to rationally distribute the forces of the components, weakening the component 6, which favorably affects the dimensions of the system and residual aberrations and helps to improve image quality. In addition, the displacement of the negative component 1 with a change in the focal length (extension at the largest angular field) gives additional parameters for the correction of field aberrations, in particular, dysortia.

The relative aperture of the lens is 1: 3.5 for a small focal length and 1: 4.5 for a large focal length.

The diameter of the aperture diaphragm remains constant.

The design of the first component 1, mounted with the ability to move along the optical axis, allows you to correct field aberrations at large angles of the field of view.

The design of the second component 6 allows you to correct axial aberration at all focal lengths of the lens.

The effective size of the circle of the distance of the transverse spherical aberration in the best plane of the installation at all focal lengths does not exceed 0.015 mm.

The lens has a satisfactory correction of wide inclined beams of both meridional and sagittal sections. For all angles of the field of view, the transverse aberrations do not exceed 0.025 mm. The chromatic difference of magnification for the main rays of the extreme angles of the field of view does not exceed 0.020 mm.

The overall dimensions of the proposed lens: the light diameter of the first lens is 51.3 mm instead of 66.02 mm, the length of the optical unit when folded is 42.0 mm instead of 63.4 mm, and the mass of the optics is 70 g instead of 110 g.

Calculations of the frequency-contrast characteristics show that the resolution of the proposed lens for three focal lengths (f * = 24 mm, 38 mm) is at least 55 l / mm in the center of the field and at the field edge (for ¹ = 19.5 mm) at least 35 l / mm for f ¹ = 24 mm and at least 30 l / mm for f = 38 mm and 48 mm.

Claims (1)

Claim A variable focal length lens containing two components and an aperture diaphragm, the first negative component consisting of two positive and two negative menisci located between them, convex to the object, the second positive component 1599827 'component is mounted for movement along the optical axis and contains a biconvex a lens and two positive meniscus, convex to the object, a negative lens, a positive meniscus, convex to the image, and a double bent lens, characterized in that, in order to improve image quality and uniformity of illumination of the frame while reducing size and mass, the first component is made with the possibility of movement along the optical axis, in the second component the negative lens is biconcrete single, and the aperture diaphragm is set between the positive lens and 10 positive meniscus of the second component.