RU2745097C1 - Optical sight with a discrete magnification change - Google Patents

Abstract

FIELD: shooting, hunting, sports optical sight.SUBSTANCE: invention can be used as a shooting, hunting, sports optical sight. The optical sight includes a lens, a reticle, an inversion system and an eyepiece. The inversion system is made of two components. One of these components moves along the optical axis to two extreme positions when changing the magnification. The other component is fixed. The following ratios are observed:"OFMCIS=-(2,0÷20,0)×OFSCIS, δAMCIS=(0,5÷5,0)×FFLMCIS" where "OFMCIS” and “OFSCIS” are optical forces of the moving and stationary components of the inversion system; “AMCIS” denotes the amount of movement of the moving component of the inversion system along the optical axis; “FFLMCIS” is the focal length of the moving component of the inversion system.EFFECT: invention increases the range of multiplicity change and decrease in weight while maintaining quality characteristics.1 cl, 1 dwg, 1 tbl

Description

The proposed invention relates to the field of optical instrumentation and can be used as a shooting, hunting, sports optical sight, providing the ability to observe objects using interchangeable magnification and, accordingly, interchangeable field of view in various operating conditions.

Known optical sight with a discrete change in magnification (RF patent No. 2547044, publ. 04/10/2015), containing a lens, a reticle, movable perpendicular to the optical axis to change the direction of the sighting axis of the sight, a reversing system and an eyepiece, in which the reversing system is made of four components, the first and third of which are removed from the path of the rays when changing the magnification. The sight version has interchangeable magnifications of 6 and 1.5 krat, the length is 192 mm, the mass of optical parts is 200 g, the diameter of the entrance pupil of the sight is 42 mm, the diameter of the exit pupil is 7 mm and 10 mm, respectively, at the indicated magnifications.

The disadvantage of this optical sight with a discrete change in magnification is a small range of magnification change, equal to 4 (the magnification varies from 1.5 to 6 times), the high laboriousness of the manufacture of optics, associated with a significant number of lens parts (the total number of lenses in the optical scheme of the sight is 19), a large mass of optical parts (200 g), the complexity of the execution of mechanical assemblies due to the fact that the wrapping system is made of a four-component, and the change in magnification is carried out by input-output from the path of the rays of the first and third components of the wrapping system, which can reduce the efficiency and reliability scope work.

Known optical sight with a discrete change in magnification (RF patent No. 2700019, publ. 06/05/2019), containing a lens, a reticle moved perpendicular to the optical axis to change the direction of the sighting axis of the sight, a reversing system and an eyepiece, the reversing system is made of one component and moves along optical axis in two extreme positions when changing the magnification. A variant of the sight has interchangeable magnifications of 6 and 1.5 krat, a length of 279.2 mm, a mass of optical parts 195 g, the diameter of the entrance pupil of the sight is 36 mm, the diameter of the exit pupil is 6 mm and 10 mm, respectively, at the indicated magnifications.

The disadvantage of this optical sight with a discrete change in magnification is a small range of magnification change, equal to 4 (the magnification varies from 1.5 to 6 times), the high laboriousness of the manufacture of optics, associated with a significant number of lens parts (the total number of lenses in the optical scheme of the sight is 15), a large mass of optical parts (195 g), a large length along the optical axis of the sight (279.2 mm), which causes inconvenience when using the sight.

The closest in technical essence is an optical sight with a discrete change in magnification (RF patent No. 2700020, publ. 09/12/2019), containing a lens, a reticle movable perpendicular to the optical axis to change the direction of the sighting axis of the sight, a reversing system and an eyepiece, a reversing system made of one component and moves along the optical axis to two extreme positions when changing the magnification. A variant of the sight has interchangeable magnifications of 6 and 1.5 krat, a length of 230 mm, a mass of optical parts of 136 g, an entrance pupil diameter of the sight is 36 mm, an exit pupil diameter of 6 mm and 10 mm, respectively, at the indicated magnifications.

The disadvantage of this optical sight with a discrete change in magnification is a small range of magnification change, equal to 4 (magnification varies from 1.5 to 6 times) and a large mass of optical parts (136 g), which causes inconvenience when using the sight.

The objective of the present invention is to create an optical sight with a discrete change in magnification, providing an increased range of magnification change equal to 6 (with a change in magnification from 1.5 to 9 times), and a reduced mass of optical parts while maintaining quality characteristics.

The technical result due to the task is achieved by the fact that in an optical sight with a discrete change in magnification, containing a lens, a reticle moved perpendicular to the optical axis to change the direction of the sighting axis of the sight, a reversing system and an eyepiece, unlike the known one, the reversing system is made of two components, one of which, when changing the magnification, moves along the optical axis to two extreme positions, and the other is fixed, while the following relations are fulfilled:

OS _NKOS = - (2.0 ÷ 20.0) × OS _NKOS ,

δ _TCV = (0.5 ÷ 5.0) × F _TCV ,

where OS _PKOS is the optical power of the moving component of the reversing system of the sight;

OS _NKOS - optical power of the fixed component of the reversing system of the sight;

δ _PCOS - the amount of movement of the moving component of the turning system along the optical axis;

F _PKOS is the focal length of the moving component of the turning system.

Such an optical system provides an increased range of magnification, equal to 6 (with a change in magnification from 1.5 to 9 times), and a reduced mass of optical parts while maintaining quality characteristics.

Optical diagram of a sight with discrete magnification change is shown in figure 1.

The optical sight with discrete magnification contains objective I, consisting of lenses 1, 2, 3 and 4, reticle II, consisting of plane-parallel plates 5 and 6, the first component of the reversing system III, consisting of lenses 7, 8, 9 and 10, the second component of the turning system IV, consisting of lenses 11, 12 and 13, eyepiece V, consisting of lenses 14, 15 and 16. The observer's eye is placed in the exit pupil 17.

The design parameters of a variant of the optical sight with a discrete change in magnification are shown in Table 1.

The calculation of the total diameters of the lenses (taking into account the light diameters) was carried out for the exit pupil diameters equal to 6 mm and 4 mm at magnifications of 1.5 times and 9 times, respectively.

The parameters of this version of the optical sight with a discrete change in magnification:

- magnification, times: 1.5 and 9.0;

- angular field of view,…, °: 16.0 and 2.7;

- resolution, ... ": 40.0 and 6.7;

- diameter of the entrance pupil, mm: 36.0;

- exit pupil diameter, mm: 6.0 and 4.0;

- removal of the exit pupil, mm: 50.0;

- length along the optical axis, mm: 232.7;

- weight of optical parts, g: 107.7;

- the amount of movement of the moving component of the reversing system along the optical axis δ _PKOS , mm 32.0;

- focal length of the movable component of the turning system F _PKOS 5 mm 15.665;

- focal length of the fixed component of the turning system F _NKOS 3 mm 119.347.

The principle of operation of an optical sight with a discrete change in magnification is as follows.

The radiation coming from the objects with the help of the lens "I" is formed into the first real, inverted image of objects in the gluing plane of the plane-parallel plates 5 and 6, forming a grid "II", on the inner side of one of the plates, it is possible to apply sighting marks. This design of the grid increases its resistance to powerful recoil, excludes shedding, erasure or contamination of the pattern of scales and aiming marks. Further, components III and IV, which make up the turning system, create a second real, direct image of objects, which is viewed by the eyepiece V. To change the magnification of the sight, the first component III of the turning system moves along the optical axis from one extreme position to another, the second component of the turning system IV remains stationary , while the position of the plane of the second actual image remains unchanged, and the magnitude of this image changes according to the displacement of component III of the wrapping system, which is provided by the following relations:

OS _NKOS = - (2.0 ÷ 20.0) × OS _NKOS ,

δ _TCV = (0.5 ÷ 5.0) × F _TCV ,

where OS _PKOS is the optical power of the moving component of the reversing system of the sight;

OS _NKOS ^_ optical power of the fixed component of the reversing system of the sight;

δ _PCOS - the amount of movement of the moving component of the turning system along the optical axis;

F _PKOS is the focal length of the moving component of the turning system.

The fulfillment of these ratios provides an increase in the range of variation, magnification and a quick change in magnification due to the longitudinal movement of the movable component of the "III" reversing system along the optical axis while maintaining the quality characteristics of the sight. Further, the eyepiece "V" forms images of objects and reticle sighting marks "II" at infinity. At the same time, the movable component of the reversing system "III" in each of the two extreme positions in combination with the fixed component of the reversing system "IV" provides an almost unchanged position of the exit pupil 17 behind the eyepiece "V" of the sight when changing the magnification. To correct the ametropia of the observer's eye and form an image of objects and sighting reticle "II" at a convenient distance for the eye, the eyepiece "V" moves along the optical axis by the amount of diopter shift. To change the direction of the sighting axis of the sight in the space of objects in order to align the sight on the weapon and (or) enter corrections, the "II" reticle and components III and IV of the reversing system can be moved perpendicular to the optical axis of the sight.

In the optical scheme of the sight, the image quality on the optical axis (in the center of the field of view) and in the field of view meets the criteria applied to field observation devices. The calculation of the image quality was carried out for the recommended diameters of the exit pupil, adopted for daytime observation devices and equal to 5 mm and 4 mm at magnifications of 1.5 times and 9 times, respectively (page 135 of the textbook: Turygin IA Applied optics. Geometric optics and methods calculation of optical circuits. Publishing house "Mashinostroenie", 1965).

In accordance with the calculation based on the rms sizes of the aberration scattering spots for the center of the field of view, the residual aberrations are equal to 1.2 'and 2.8', taking into account chromatism at magnifications of 1.5 krat and 9 times, respectively. In this case, the permissible values for the center of the field of view (for axial beams) are 2 ... 3 '.

For the edge and zone of the field of view, the residual aberrations are equal to 10.7 'and 6.4', taking into account chromatism at magnifications of 1.5 krat and 9 times, respectively. In this case, the permissible values for off-axis beams are 10 ... 12 ', and in the entire visible range up to 20'.

Thus, the calculated values of aberrations do not exceed the permissible values both for axial beams (in the center of the field of view) and for oblique (off-axis) beams (at the edge and in the zone of the field of view), and the scope resolution limit at a maximum magnification of 9 times is provided at level not worse than 6.7 ''. The thermal stability of the optical system is ensured in the operating temperature range from -50 to + 50 ° C without deteriorating the resolution, while the material of the body and the gaps between the lenses can be an aluminum alloy, and the system does not have any compensation movements of the components, except for the diopter movement of the eyepiece.

The proposed optical sight with a discrete change in magnification provides an increased range of magnification, equal to 6 (with a change in magnification from 1.5 to 9 times), and a reduced weight of optical parts (from 136 g to 107.7 g) while maintaining quality characteristics.

Claims (7)

Optical sight with a discrete change in magnification, containing a lens, a reticle moved perpendicular to the optical axis to change the direction of the sighting axis of the sight, a reversing system and an eyepiece, characterized in that the reversing system is made of two components, one of which, when changing magnification, moves along the optical axis in two extreme positions, and the other is fixed, while the following relations are fulfilled: OS _NKOS = - (2.0 ÷ 20.0) × OS _NKOS , δ _PCOC = (0.5 ÷ 5.0) × F _PCOC , where OS _PKOS is the optical power of the moving component of the reversing system of the sight; OS _NKOS - optical power of the fixed component of the reversing system of the sight; δ _PCOS - the amount of movement of the moving component of the turning system along the optical axis; F _PKOS is the focal length of the moving component of the turning system.

Images