RU22562U1 - OPTICAL SYSTEM - Google Patents

Abstract

1. An optical system comprising a visual observation device with a hood in front of the lens, made in the form of a figure extended along the optical axis with many elements absorbing harmful radiation, characterized in that the hood is made in the form of a set of figures with geometric axes parallel to the optical axis of the lens, each set figure is configured to transmit useful radiation within the angle of the field of view of the visual observation device. 2. The optical system according to claim 1 is characterized in that the hood is made in the form of hollow hexagons connected to each other along flat faces.

Description

The device relates to optical instrumentation, in particular, to devices for optical observation, guidance and aiming and can be used in the development of sights for firing in day and night conditions.

There are many devices for protecting optical devices from scattered harmful radiation ("Handbook of the designer of optical-mechanical devices. L.," Mechanical Engineering, 1980, pp. 352-356). For example, in fig. 7-17 (p. 353) depicts a simple cylindrical hood with an absorbent inner coating. Such a lens hood was used in a combined telescope (PCT, application No. 92/03754, class G 02 B 23/12, publication B.I. 1992 No. 6). On page 355 (the “Directory”), an optical system with a hood in front of the lens is shown, made in the form of an annular reflex surface. Such a lens hood was used in the scope (UK, application No. 2154018, CL F 41 G 1/32, publication B.I. 1986, No. 11). All of these well-known blends do not completely eliminate the effects of harmful radiation on image quality.

Known perforated training glasses (GOST R-51044-97), which serve as a lens hood with many round holes that form narrow parallel nriose beams of light. Each hole in the lens hood is optically paired with a small portion of the retina. The distance between the holes of the hood and their number are selected so as to form an image on the entire retina. Each hole forms a group of only useful parallel rays of different directions, and the rotation of the eye makes it possible to more contrastly observe all areas of the object of observation. As a result of the significant distances between the holes in an opaque base, a lot of light is lost, i.e. retinal illumination decreases.

Closest to the claimed technical solution is an optical system with reflective slots (US patent No. 4542963, CL G 02 B 23/00, publication B.I. 1986, No. 6). The system is made in the form of a cylinder in front of the lens, on the inner surface of which a large number of shields are installed, reflecting harmful radiation. To reduce the effect of scattered on image quality, an additional bell is installed in front of the hood, which increases the size of the protective device, and reflective shields can cause secondary scattered radiation, which protects the image contrast.

The aim of the invention is to increase the contrast of the imagination and to reduce the dimensions of the lens hood. This goal is achieved by the fact that in an optical system containing a visual observation device with a hood in front of the lens, made in the form of a set of hollow figures with an internal absorbing coating and geometric axes parallel to the optical axis of the lens and each figure of the set, for example, is made in the form of a hollow a hexagon with an absorbing inner coating and connected to adjacent figures along flat faces. The size of the hexagon and the length of the set are made taking into account the transmission of radiation within the angle of the field of view of the visual observation device.

This solution is new, unknown in the practice of manufacturing protective devices against harmful radiation in optical devices, and the combination of distinctive features does not follow from the prior art for the same purpose. The significance of the distinguishing features lies in the fact that despite the prominence of the individual nodes discussed above, when introduced in this connection, the proposed optical system exhibits new properties that can minimize the effect of harmful radiation on the image formation of the optical system located behind the proposed blend, as well as in comparison with the prototype to reduce the dimensions of the optical system. The invention is industrially applicable due to the simplicity of design and the popularity of technological processes for manufacturing nodes of the optical system. This solution involves the use of components from modern materials, serially mastered by the domestic industry.

In FIG. 1 shows a schematic diagram of an optical system from harmful radiation; in FIG. 2 - input end of the hood; in FIG. 3 is a longitudinal section through a set of shapes of the hood.

An optical system with an angle P of the field of view contains an optical device 1 (Fig. 1) for observation (guidance, aiming) with a lens 2, an eyepiece 3 and other optical elements 4. In front of the lens 2 is a lens hood 5 with a set of longitudinal figures 6, optical axis 7, which are parallel to the optical axis 8 of the device I. The portion of the input end 9 of the hood 5 is shown in figure 2 in the form of the same geometric shapes, for example, regular hexagons 10 located in one plane perpendicular to the optical axis 8 of the device 1. Depending on the number and the longitudinal figures 6 in the hood 5 and the depth of field of view of the optical device 1 determine the length 11 (figure 3) of the longitudinal figures 6 (the length of the hood), allowing only useful radiation 12 to pass through and absorb harmful radiation 13 on the inner surfaces 14 having black deep matte coatings used in optical devices (see. "Designer Handbook of Optical-Mechanical Devices. L.," Engineering, 1980, pp. 578-579). Thus, each longitudinal

"Engineering, 1980, pp. 578-579). Thus, each longitudinal figure 6 with a hood 5 on the lens 2 transmits only the useful radiation within the angle P and the optical device 1 forms a more contrast image.

The applicant made an optical gap with a field of view angle with a hood in front of the lens with a useful diameter of the first lens D1-60 mm. The lens hood is placed in a cylindrical case with an internal diameter of mm and is filled with 30 mm long hexagons with a black matte finish on the inner planes.

Tests of the sight showed a high efficiency of protecting the sight from harmful radiation. The result is a clearer and sharper image of the observed target objects.

Claims (2)

1. An optical system comprising a visual observation device with a hood in front of the lens, made in the form of a figure extended along the optical axis with many elements absorbing harmful radiation, characterized in that the hood is made in the form of a set of figures with geometric axes parallel to the optical axis of the lens, each set figure is configured to transmit useful radiation within the angle of the field of view of the visual observation device. 2. The optical system according to claim 1 is characterized in that the hood is made in the form of hollow hexagons connected to each other along flat faces.