SU1048446A1 - Lens having variable magnification - Google Patents

Abstract

VARIABLE LENSING LENS, containing four components, the first and the fourth of which are positive fixed, and the second and third are negative, mounted for movement along the optical axis, the second component moving linearly, the first the component contains a bi-glued lens consisting of a negative meniscus and. / two convex lenses, a negative meniscus facing the concavity of the ampoule and glued from a bent and two convex lenses, and two positive meniscus facing the concavity to the image, the second component consists of a negative meniscus - facing the concavity to the image and a symmetrical negative lens, glued together from two double-curved lenses and placed between them a two-convex lenses, the third of a symmetric double folded lens and a positive meniscus with a concave towards the image, and a quarter th - from. six single lenses, the first of which is the veins meniscus, facing the concavity to the object, the second, the third and the pole are two convex lenses, and the fourth and fifth are negative lenses, characterized in that i with the aim of improving the image quality when shooting with of the final distances over the entire (A) interval of the zoom of the image — that is, at the first moment a negative meniscus is introduced in front of the double-glue lens, facing the concavity of the object, and the double-glue lens consists of a two-convex lens and a negative meniscus, The thickness of the injected negative meniscus is not less than 0.1 00 4 4. eix) of the second radius, and the optical power is not about 0, 1 is the optical power of the first three lenses of the first component. O5 tsisrfie 19 iO

Description

The invention relates to optomechanical instrument making and can be used in photographic and film technology, especially at high image quality requirements, namely for multi-filming, filming of graphic materials and lenses with a linear structure. The OX-1-4-1i lens is known. with a given focal length, injected with a Planar lens, consisting of two positive menisci and two negative doublets, between which there is an aperture of the Cl 3 diaphragm. The drawbacks of this lens are the zooming speed due to the need to use a set of lenses with different focal lengths and large dimensions. Also known is a variable magnification lens containing four components, the first and the fourth of which are positive fixed, and the second and third are negative, mounted for movement along the optical axis, the second component moving linearly and progressively, with the first component containing a two-fold lens consisting of nj) the course of the beam from a negative meniscus and a double convex lens, a negative meniscus facing away from the object and glued together. a double-bent lens and two lenses, and two positive meniscus facing concavity to the image, the second KcsvinoHeHT consists of a negative meniscus, facing the image, and a symmetric negative lens glued from two: two-curved lenses and a two-fold lenses between them, a third - from a symmetric double-concave lina and a positive meniscus facing the image, and the fourth of six single lenses, the first of which is a positive meniscus facing towards the object, a third and above that & Input kovtuklye lens, and the fourth and fifth - the negative lens C23. The change in magnification in this lens is accomplished by moving the second and third k (photonic elements, but has a “satisfactory image quality, this in turn refers to distortion, its value reaches 5% npv increase of 0.05 and the magnification range is kept at a level of 3%, which does not allow for the removal of graphic material and material having a lined structure.In addition, the magnitude of the first chromatism reaches 1.1 mm. The purpose of the invention is to improve the quality of the image when shooting from finite distances in the whole range of image scaling. The goal is achieved by the fact that in a variable-magnification lens containing four components, the second and third are negative, can be moved along the optical axis, the second component is linearly displaced, and the third is reciprocating, at the same time, the first component contains a bi-glued lens consisting of a negative meniscus and a double convex lens, a negative meniscus facing the object in concavity and glued together from a two-concave and double lens. convex lenses, and two positive meniscus facing the concavity to the image, the second component consists of a negative meniscus facing the concavity of the image, and a symmetric negative lens glued from two two-bent and two-convex lenses placed between them, the third from a symmetric two-bent lenses and positive meniscus facing the concavity of the image, and the fourth of six single lenses, the first of which is a positive meniscus facing the concavity of the object, the second, the third and the pole two convex lenses, and a fourth and a fifth, negative lenses, in the first component in front of the double-glued lens a negative meniscus is introduced that faces the object in concavity, while the double-glued lens consists of a two-convex lens and a negative meniscus, while the thickness of the negative meniscus inserted is not less than 0.1 of its second radius, and an optical power not more than 0.1 of the optical power of the first three lenses of the first component. The drawing shows the optical layout of the variable-magnification lens, the circuit consists of four components l7 "l. The head component 1 consists of a negative meniscus 5, a positive two-glue lens consisting of a double-folded lens 6 and a negative meniscus 7, a negative two-glue meniscus 8, positive meniscus 9 and 10. The negative mobile component 2 consists of a negative me. nisk 11 and a symmetrical negative three-glue 12, the negative movable component 3 consists of a symmetric two-concave lens 13 and a compulsive me; 1 sis 14. Positive. movable component 4 consists of six separate lenses, of which 15 are a posterior meniscus, 16 and 17 are double convex lenses, 18 and 19 are negative lines, and 20 are two double convex lenses.

The change in magnification takes place during the snow movement of components 2 and 3, with component 2 moving linearly and component 3 is recoverable, which makes it possible to obtain the entire increase in differential.

According to the scheme described before, a lens with the following technical characteristics was developed; limits of change of magnification -0.03 - O, rear aperture O, 157; linear field, 2,2.2.2 mm images, minimum shooting distance of 0.9 m.

An increase in correctional potentials allowed us to reduce the disparity value to 2% and reduce the first chromatism to about 3 mm. Compared to the base lens 350PF7-1M, the proposed system has better image quality and has less distortion, which makes it possible to use a single lens for shooting both multiplication and line objects.

Claims (1)

LENS WITH VARIABLE INCREASED, containing four components, the first and fourth of which are positive fixed, and the second and third are negative, set to move along the optical axis, the second component moving linearly, and the third reciprocating, with the first component containing double-glued a lens consisting of a negative meniscus and. / Biconvex lens, negative meniscus facing concavity to the object and glued from biconcave and biconvex lenses, and two positive meniscus facing concavity to the image, the second component consists of a negative meniscus facing concavity to the image, and a symmetrical negative lens glued from two biconcave and a biconvex lens placed between them, the third of a symmetrical biconcave lens and a positive meniscus facing concavity to the image, and the fourth of. six single lenses, the first of which is a positive meniscus facing concavity to the object, the second, third and sixth are biconvex lenses, and the fourth and fifth are negative lenses, characterized in that, in order to improve image quality when shooting from finite distances at all the interval of zooming, at the first moment in front of the double-glued lens a negative meniscus is introduced, facing the concavity to the object, and the double-glued lens consists of a biconvex lens and a negative meniscus, while the thickness is entered th negative meniscus is not less than 0.1 egyu second radius, and the optical power is not bodee 0.1 dioptric power lenses of the first three of the first component.