RU2018166C1 - Galilean optical system - Google Patents

Abstract

FIELD: optical instrumentation engineering. SUBSTANCE: lens binoculars has lens composed of positive two-element lens manufactured from biconvex 1 and biconcave 2 lenses, of positive meniscus 3 facing plane of objects with convex and of eye-piece including individual negative lenses. Second one of them is biconcave lens 5, first one 4 may be fabricated in the form of meniscus plane of objects with convex or in the form of biconcave lens. EFFECT: improved optical efficiency. 3 cl, 10 dwg

Description

 The invention relates to optical instrumentation, and more particularly to binoculars and monoculars with the Galilean optical system.

A well-known optical scheme of GBF binoculars 2.5 ^x x 25, consisting of a two-lens bonded lens and an eyepiece made of plane-concave and biconcave lenses [1].

 The disadvantage of this binoculars is the large size and small angle of field of view for this increase.

The closest constructive solution is the optical design of the Galilean BGF binoculars 4 ^x x 36. The optical system of the binoculars includes a lens and an eyepiece. The lens consists of a double-glued positive lens and a positive meniscus convex to the subject. The eyepiece is made of two-lens gluing with negative optical power, i.e. φ _scl <1 and a single ophthalmic lens with approximately the same optical power [2].

The disadvantage of this is a small angle of the binocular field of view = 2 and 7 ^of large dimensions L = 58.8 mm _bin with 36 mm diameter light lens.

 The objective of the invention is the creation of a Galilean optical system with reduced dimensions and an increased field of view angle.

> 1 > 1, а отрицательная линза объектива выполнена двояковогнутой. Первый компонент окуляра в зависимости от требуемых характеристик системы может быть выполнен в виде мениска, выпуклостью обращенного к плоскости предметов, или двояковогнутой линзы.The essence of the invention lies in the fact that the Galilean optical system includes a lens consisting of a positive double-glued lens made of biconvex and negative lenses, and a positive meniscus, convex to the plane of objects, and an eyepiece consisting of two negative components, the second of which is a biconcave lens and, in contrast to the prototype, the first component of the eyepiece is made in the form of a single negative lens, the ratio of the optical power of the lenses of the eyepiece

>1> 1, and the negative lens of the lens is biconcave. The first component of the eyepiece, depending on the required characteristics of the system, can be made in the form of a meniscus, a bulge facing the plane of objects, or a biconcave lens.

Figure 1 shows the optical scheme with a magnification of 3 ^x ; figure 2 is the same, with an increase of 4 ^x ; figure 3-6 - aberration characteristics of the 3 ^x system; 7-10 - the same, 4 ^x system.

= 3,8 = =3,8.The optical system with a triple magnification includes a lens consisting of a positive two-glued lens made of biconvex 1 and biconcave 2 lenses, and a positive meniscus 3, convex to the plane of objects. The eyepiece is made of two components: a negative meniscus 4, convex facing the plane of objects, and a biconcave lens 5. The ratio of the optical forces of the components of the eyepiece

= 3.8 = = 3.8.

= 1,1=1,1. Далее приведены характеристики систем для трехкратного и четырехкратного увеличения, Г = 3^х: угол поля зрения 13^о46^,,; световой диаметр объектива 32,5 мм; длина оптической системы 37,422 мм; фокусное расстояние объектива 37,9 мм; фокусное расстояние окуляра -12,37 мм; Г = 4^х: угол поля зрения 8^о34^,; световой диаметр объектива 32,5 мм; длина оптической системы 43,928 мм; фокусное расстояние объектива 37,9 мм; фокусное расстояние окуляра -9,39 мм.In an optical system with fourfold magnification, the first component of the eyepiece is made in the form of a biconcave lens

= 1.1 = 1.1. The following are the characteristics of the systems for triple and quadruple magnification, G = 3 ^x : field of view angle of 13 ^o 46 ^,, ; lens light diameter 32.5 mm; the length of the optical system is 37.422 mm; focal length of the lens 37.9 mm; eyepiece focal length -12.37 mm; T = 4 ^x: field of view 8 ^{of 34;} lens light diameter 32.5 mm; optical system length 43.928 mm; focal length of the lens 37.9 mm; eyepiece focal length -9.39 mm.

Claims (3)

1. GALILEA OPTICAL SYSTEM, containing a lens, the first component of which is a double-glued lens, consisting of a biconvex and negative lenses, and the second is a positive meniscus, convex to the object, and an eyepiece, consisting of two negative components, the second of which is a biconcave lens, characterized in that the first component of the eyepiece is made in the form of a single lens, the negative lens of the objective is biconcave, and the ratio of the optical forces φ ₁ and φ ₂ of the eyepiece lenses is determined by the condition φ ₂ / φ ₁ .  2. The system according to claim 1, characterized in that the first component of the eyepiece is made in the form of a meniscus, convex to the subject.  3. The system according to claim 1, characterized in that the first component of the eyepiece is made in the form of a biconcave lens.

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