RU2047203C1 - High-speed binocular system - Google Patents

Abstract

FIELD: observation devices. SUBSTANCE: high-speed binocular system has magnifying glass 1 manufactured in the form of positive meniscus 2 facing object with concavity, thick positive meniscus 3 presenting cemented negative 4 and positive 5 lenses facing object with convexities and biconvex lens 6 and right-angle prism 7 with reflecting faces, optically mating lenses 9 of telescopic checkers 8, flat mirrors 11 with eye-pieces 12. Each eye-piece 12 is fabricated in the form of first negative meniscus 13 facing object with convexity and cemented with biconvex positive lens 14, positive meniscus 15 facing object with convexity and second negative meniscus 16 facing object with convexity. EFFECT: enhanced operational characteristics. 3 dwg

Description

 The invention relates to optical systems and can be used in monitoring devices.

Known fast binocular system, which contains five lenses and a prism, with which you can view objects simultaneously with two eyes (ed. St. USSR N 851319, class G 02 B 25/00),
The disadvantages of this system are the low increase and high weight.

 Closest to the invention is a fast binocular system (Slyusarev G.G. Calculation of optical systems, L.Mashinostroenie, 1975, p. 398). The system is made in the form of ordinary prism binoculars and contains a magnifier and a rectangular prism sequentially located on the same optical axis, the reflecting faces of which are optically coupled to the corresponding telescopic nozzles, each of which consists of a lens optically coupled through the corresponding reflective face of a rectangular prism, a team and a flat mirror with a multicomponent eyepiece.

 In this system, the increase is improved due to the correction of spherical chromatic aberration and coma in the working area. However, this system has a small field of view angle and a small exit pupil size with significant weight.

 The objective of the invention is to increase the angle of the field of view and the size of the exit pupil while reducing the weight of the system.

 For this, in a fast binocular system containing a magnifying glass and a rectangular prism sequentially located on the same optical axis, the reflecting faces of which are optically coupled to the corresponding telescopic nozzles, each of which consists of a lens optically coupled through the corresponding reflecting face of a rectangular prism, a team and a flat mirror with multicomponent eyepiece, the magnifier is made in the form of a positive meniscus, facing concavity to the subject, a thick positive meniscus, lens in the form of glued negative and positive lenses, all surfaces of which are convex to the object, and a biconvex lens, while the telescopic lenses are made in the form of single positive lenses, and each multicomponent eyepiece is made in the form of the first negative meniscus, convex to the object and glued with a biconvex lens, a positive meniscus convex to the object, and a second negative meniscus facing concavity to the object.

 The choice of the design of the individual components and their relative position ensures without increasing image quality an increase in the angle of view and the size of the exit pupil.

 Significant weight reduction in the system is ensured by reducing the mass of glass used.

 Figure 1 presents the optical system of the fast binocular system; figure 2 and 3 graphs of its aberrations.

 The fast binocular system contains a magnifier 1 sequentially mounted on the optical axis, made in the form of a positive meniscus 2 facing concavity to the object, a thick positive meniscus 3 representing glued negative 4 and 5 positive lenses, all surfaces of which are convex to the object, and a biconvex lens 6 , and a rectangular prism 7, on the outer faces of which a reflective coating is applied and which are optically coupled to respective telescopic nozzles 8, each of which x consists of a lens 9 made in the form of a single positive lens and optically conjugated through the corresponding face of a rectangular prism 7, a team 10 and a flat mirror 11 with a multicomponent eyepiece 12, which is the first negative meniscus 13, convex to the object and glued with a biconvex lens 14 , a positive meniscus 15, convex to the subject, and a second negative meniscus 16, concave to the subject.

 The system operates as follows.

 The light emitted by an object in a fast binocular system, passing through a magnifying glass 1 and lenses 9 of telescopic nozzles 8, is divided by a rectangular prism into two equivalent beams, which, passing through groups of 10 telescopic nozzles 8, are reflected from flat mirrors 11 and through eyepieces 12 of telescopic nozzles 8 fall into the eyes of the observer.

 The diameter of the exit pupils of the system is 13 mm, which eliminates the need for fitting the system on the basis of the eyes, as a result of which there is no need to use an additional mechanism. In this regard, the design is simplified and, consequently, the weight of the system is reduced. In addition, reducing the weight of the system compared to the prototype is achieved by reducing the mass of glass used, as a result of which the weight of the system compared to the prototype is reduced by 4-5 times.

 From the graphs of aberrations in figure 2, 3 shows that in the system compared with the prototype the field of view is increased by 3 times, and the size of the exit pupil by 2 times with high image quality by reducing the aberrations of the axial and field beams calculated taking into account the displacement rays as they pass through the system.

The fast binocular system has the following optical characteristics: Magnification 10.0 ^x Linear field 18 mm Removal of exit pupils 35 mm Diameters of exit pupils 13 mm.

Claims (1)

 A LIGHT BINOCULAR SYSTEM, comprising a magnifier and a rectangular prism sequentially located on the same optical axis, the reflective faces of which are optically coupled to the corresponding telescopic nozzles, each of which consists of a lens optically coupled through the corresponding reflective face of the rectangular prism, a team and a flat mirror with a multi-component eyepiece, characterized in that the magnifier is made in the form of a positive meniscus, facing concavity to the subject, a thick positive a suit made in the form of glued negative and positive lenses, all surfaces of which are convex to the object, and a biconvex lens, while the lenses of the telescopic nozzles are made in the form of single positive lenses, and each multicomponent eyepiece is made in the form of a first negative meniscus convex to the object and glued with a biconvex lens, a positive meniscus convex to the object, and a second negative meniscus facing concavity to the object.

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