SU708279A1 - Variable focal length objective lens - Google Patents

Description

The invention relates to lenses, in particular to lenses with variable focal length, and can be used when shooting films on color and black and white film. 5

Known lenses with variable focal length of large magnification [1].

The disadvantages of these lenses are the design complexity (four components are moved along the optical axis to obtain a 30 ^x change in the focal length), as well as a low level of chromatic aberration correction in the range of large focal lengths (secondary spectrum for the spectral range G ¹ - C at fog = 600 mm exceeds 4 mm).

The closest technical essence to the invention is an objective-20 lens containing a main lens made of two groups of lenses, the first of which consists of two single positive and one negative lens, and the second one has a double-bonded 25 and single positive lens , and the five-component afocal nozzle of variable magnification located in front of it, in which the first component is a positive fixed 30th, the second negative movable made in the form of a double-glued negative meniscus, with a concavity image, and two biconcave lenses, the third - positive stationary made of single and double-glued biconvex lenses and positive double-glued meniscus, concavity facing the image, the fourth - negative movable consists of two biconcave and one biconvex lens, and the fifth - positive stationary made in the form of a single biconvex lens [2].

Changing the magnification of the afocal nozzle is carried out by moving along the optical axis of the second and fourth components, and aiming at the final shooting distance by moving the second component.

The disadvantage of this lens is the impossibility of increasing the brevity (more than 20 *) due to a sharp increase in size and image quality deterioration in the range of large focal lengths, especially at short shooting distances.

The aim of the invention is to expand the range of the difference in focal lengths while reducing high image quality over the entire range of the focal length for all shooting distances.

This is achieved by the fact that the proposed lens with a variable focal length, the first component of the afocal lens of variable magnification consists of two parts, the first of which is made in the form of placed between biconcave lenses, θ three biconvex lenses from optical materials with a dispersion coefficient of at least 70 , and the second part is made in the form of two positive menisci, concavity facing the image, and is set with the possibility of movement along the optical axis, while the ratio of the optical power of the first the first component to the second component of the optical power of the absolute value is not more than 0.2. 20

The indicated solution made it possible to expand the focal length difference up to 40 * · with a high image quality of the lens over the entire range of the focal length for the spectral interval G '- C (for example, particularly difficult to correct aberration - the secondary spectrum takes values of 0.2-0.4 mm).

The drawing shows an optical. .

This is a zoom lens design. The lens consists of five components 1–5, forming an afocal lens 6 of variable 35 magnification, and the main object of the 7th type “Planar”. Component 1 - positive fixed consists of two parts 8, 9, of which part 8 is made in the form of 40 placed between biconcave lenses 10, 11, three biconvex lenses 12, 13, 14 of optical materials with a dispersion coefficient of at least 70, part 9 is made in the form of two positive .. menisci 15, 16, facing concavity to the image, and installed with the possibility of movement along the optical axis. The component 2, negative movable, is made in the form of a double-glued negative meniscus 17, facing a concavity to the image, and two biconcave lenses 18, 19. Component 3, positive stationary, is made of a single 20 and two-glued 21 biconcave'-55 puffy lenses and a positive double-glued lens meniscus 22, facing concavity to the image. Component 4, the negative movable, consists of two biconcave 23, 24 and biconvex 25 lenses. · Component 5, the positive stationary, made in the form of a single biconvex lens. Lens 7 consists of two groups. lenses 26, 27, of which group 26/65 is made of single two positive 28, 29 and negative 30 lenses, and group 27 contains double-glued 31 and single positive 32 lenses. The change in the increase in the afocal nozzle is carried out by moving the components 2 c 4 along the optical axis; aiming at the final shooting distance - by moving the second part 9 of component 1.

According to the proposed scheme, a lens was developed with a variable focal length of large magnification 40 ^x from 15 to 600 mm, a relative aperture. 1: 2.7 when changing the focal length from 15 to 150 mm and a relative aperture of 1: 5.6 when changing the focal length from 150 to 600 mm for shooting on 16 mm film.

Claims (2)

1. US Patent 3,912,373, cl. 350-184, 1975. 2. Japanese Patent No. 50-26931, cl. 104 A 412.6 (prototype).