RU2156486C1 - Small-sized sight - Google Patents

Abstract

FIELD: sighting devices. SUBSTANCE: the sight has an objective lens, erecting system, reticule and an eyepiece. The objective lens is made in the form of a single collecting lens. The eyepiece consists of three similar collecting lenses located at a minimum distance from one another. The objective and eyepiece lenses have a similar focal power. The reticule may be applied onto an additionally introduced plane-parallel plate. The erecting system may consist at least of one prism. EFFECT: simplified manufacturing methods and reduced cost. 3 cl, 3 dwg

Description

 The invention relates to optical instrumentation, in particular to the sights used in conducting targeted shooting from firearms, pneumatic and other special weapons.

 Famous sight, which is built according to the scheme: lens, lens wraparound system, mesh and eyepiece [1]. This sighting scheme requires that the optical axis of the observer’s eye be on the optical axis of the lens, and therefore, the barrel of the weapon, which is not always convenient when aiming. In addition, this sight has, as a rule, a large longitudinal length.

 The closest in technical essence to the proposed one is a small-sized sight [2], built according to the optical scheme: lens, mirror-wrap system, consisting of four flat mirrors, a grid and an eyepiece. This optical scheme allows you to refract the optical axis of aiming, moving the axis of the observer's eye to a more convenient position for work. In addition, this sight has, as a rule, a shorter length, which is more preferable when it is installed on short-barreled weapons. In the above diagram, the lens is made in the form of a two-lens bonded component (Fig. 2), and the eyepiece has a three-lens construction, the grid is made on the flat side of a plane-convex collective (field) lens located in front of the last mirror of the wrapping system (Fig. 3). Thus, for the manufacture of power optics (lens, field lens and eyepiece), the sight requires six lenses that are different in technical characteristics, which causes complex preparation of production and significant costs for their manufacture.

 The objective of the invention is to create a small sight, simple in manufacturing technology and, as a result, lower cost, provided that its functional requirements for operation are met.

 The technical result consists in achieving at the stage of manufacturing power optics of a small-sized sight identical in technical characteristics (radius of curvature and thickness) of positive lenses made of the same material from which the lens and eyepiece are assembled. Thus, the range of optical parts of the lens and eyepiece is minimized.

 The essence of the invention lies in the fact that in a small sight containing along the rays of the lens, the wrapping system, the grid and the eyepiece, the lens is made in the form of a single positive lens, and the eyepiece consists of three identical positive lenses located at a minimum distance from each other, In this case, the lens of the lens and eyepiece have the same optical power. The mesh can be applied to an additionally inserted plane-parallel plate. A wrapping system may consist of at least one prism.

Moreover, as shown by studies conducted on the proposed optical design of the sight, the most optimal is the choice of the optical power of the lens from the condition:
0.008 ≤ φ _p ≤ 0.012,
and the dispersion of the lens material from the condition:
50.0 ≤ ν _D ,
where φ _p is the optical power of positive lenses;
ν _D is the dispersion of the lens material.

 In FIG. 1 and 2 show an optical diagram of a small-sized sight with a mirror wrapping system; in FIG. 3 shows the optical scheme of a small-sized sight with a prism reversing system.

 The optical scheme of the proposed small sight (Fig. 1 - 3) consists of a lens 1, made in the form of a single positive lens, wrapping system 2, which can consist of either four flat mirrors 3 (Fig. 1 - 2) located at an angle α each to a friend, or from at least one prism 4 (Fig. 3), a grid 5, which can be applied to a plane-parallel plate 6, and an eyepiece 7, consisting of three identical positive lenses 8 located as close as possible to each other. The arrows in the figures indicate the direction of the rays in the optical circuit of the sight. The observer's eye is located in the exit pupil of the sight 9. Size B corresponds to a constant diopter adjustment of the eyepiece 7 relative to the grid 5 equal to either (0.75 ± 0.25 diopters), or 0.0 diopters. Size L corresponds to the maximum longitudinal size of the proposed sight according to its optical design.

 In accordance with the proposed solution, the option of a small sight was calculated. The sight has design parameters indicated in the table.

In this example, the nominal visible magnification of the telescopic system Г = 2.9 ^х , the rear focal length of the lens f '= 89.97 mm and its relative aperture D _sp / f' = 1: 7.5, the angular field in the space of objects 2ω = 10.0 ^° . The entrance pupil with a diameter of D _sp = 12 mm is located on the first surface of the lens. The exit pupil with a diameter D ' _sp = 4.1 mm is removed at a distance S' _p = 35.2 mm from the last surface of the eyepiece. The longitudinal size of the sight (Fig. 1) in this case is L = 74.0 mm. The resolution limit of the telescopic system is not more than 20 '' in the center of the angular field 2ω = 2 ^° . The transmittance of the optics of the sight is τ = 30.0 ... 60.0% depending on the applied mirror and antireflection coatings, as well as the attenuation coefficient of the glass used.

 As shown by the practice of working with a prototype sight, made according to these design parameters, these technical characteristics fully satisfy its functional purpose.

 The small-sized sight works as follows: the luminous flux passes through the lens 1 and after the wrapping system 2 is focused in the plane of the grid 5, which can be applied to the plane-parallel plate 6. This intermediate image together with the grid 5 is observed through the eyepiece 7 with the eye located in the exit pupil of the sight 9. To ensure image sharpness when working with the eye, diopter movement is provided for the entire eyepiece 7 by ± 5 diopters.

Sources of information:
1. US patent N 3612646, NKI 350/54, 1971

 2. Application of France N 2572811, MKI G 02 B 23/02, 1986

Claims (3)

 1. Small sight, containing along the rays of the lens, a wrapping system, a grid and an eyepiece, characterized in that the lens is made in the form of a single positive lens, and the eyepiece consists of three identical positive lenses located at a minimum distance from each other, while the lens the lens and eyepiece have the same optical power.  2. The sight according to claim 1, characterized in that the grid is deposited on an additionally inserted plane-parallel plate.  3. The sight according to claim 1, characterized in that the wrapping system consists of at least one prism.

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