EA016372B1 - Optical sight - Google Patents

Abstract

The invention refers to optical instrument making and is designed for application on small arms, in particular, for aiming from-behind obstacles. The optical sight has been offered, which contains thin-wall cylindrical body, where collimating lens and first protective window are located on the optical axis, as well as block of mirrors, fastened in the face end of the body with the possibility of rotation by 360° relatively to the optical axis, including a stationary mirror and a rotary mirror placed with the possibility of fixation in two discrete positions, point source of light located on the side inner surface of the body and optically connected with the collimating lens, units of elevation and azimuth adjustment, block of power supply, including electronic control PCB, battery and multi-position switch, located on the outer surface of the body. Novelty of the offer is that the block of mirrors is located on the inner cylindrical surface of the body in front of the first protective window, at the same time the stationary mirror is located parallel to the face end of the body and displaced relatively to the optical axis by the value which exceeds the length of radius of the body's cylinder, and the rotary mirror is fastened on the hinge in the console way and is equipped with the lever that ensures fixation of the rotary mirror parallel to the optical axis or with the angle of/π to it. At the same time the sight is equipped with the second protective window located after the stationary mirror so that normal to it forms the angle of 45° with the optical axis of the sight. In order to ensure hermiticity of the design of the sight the block of mirrors is connected with the body of the sight via stair-step bush tightly installed into the cylindrical part of the external surface of block of mirrors and focused on it via threaded ring, and the outer side surface of the bush has smaller diameter and is connected with the inner surface of the body via threaded connection. In order to improve hermeticity of the sight between the block of mirror and the bush a rubber tightening ring is set into the groove located on the cylindrical part of the surface of block of mirrors. The offered technical solution ensures firm location of all the optical elements of the sight which ensures their mechanical durability to shocks during shots (including burst fire), at the same time hermeticity of the design of the sight is provided which enables precise shooting in wide temperature range and in any air condition (presence of moisture, smoke and dust). The sight can be used in standard mode as well as for shooting from-behind closed positions.

Description

The invention relates to optical instrumentation and is intended for use in small arms, in particular for firing from cover.

Known sighting device for firing from cover [1], including a collimator sight mounted on an arm, on which a mirror is also mounted in a hinge with the possibility of rotation in two axes. By turning the mirror, you can change the course of the rays passing through the scope so that they fall into the eye of the shooter who is in the shelter. The disadvantages of the known device are the long aiming time due to the need to adjust the position of the mirror, insufficient mechanical rigidity of the structure, a strong influence on the ability to aim the environment (dust, smoke, moisture).

Also known is an aiming device for firing from a shelter of the firm Ό8ΤΘ (Australia) [2], including a periscope assembly mounted on a conventional sight, the ocular part of which can be rotated 360 ° relative to the aiming axis. The disadvantage of this device is the inability to aim direct fire.

The closest in technical essence to the claimed optical sight is an aiming device [3], including a collimating lens and a protective window installed in the housing, on the inner surface of which a point light source is mounted. A power supply unit with an electronic control board, a power source and a multi-position switch, horizontal and vertical alignment nodes are installed on the outer surface of the case. On the back of the sight housing there is a block of mirrors with the possibility of rotation around the optical axis, containing a fixed and movable mirror mounted with the possibility of fixing in two extreme positions using a spring. The disadvantages of the known sighting device are the low mechanical stiffness of the spring-loaded fixation, which makes it difficult to fire bursts of automatic weapons, as well as the dependence of its performance on the state of the environment.

The objective of the claimed technical solution is to create a universal optical sight for firing in the normal mode and from the shelter, which has high mechanical strength and provides targeted shooting in a wide temperature range, in conditions of high humidity and dust.

An optical sight is proposed that includes a thin-walled cylindrical body, inside which a collimating lens and a first protective window are mounted on the optical axis, as well as a mirror unit mounted in the end part of the housing with the possibility of 360 ° rotation relative to the optical axis, including a fixed mirror and a movable mirror mounted with the possibility of fixation in two discrete positions, a point light source mounted on the side inner surface of the housing and optically coupled to a collimating lens ohm nodes alignment both vertically and horizontally, the power supply comprising an electronic control board, a power supply and selector switch arranged on the outer surface of the housing. The novelty of the proposal is that the mirror unit is mounted on the inner cylindrical surface of the housing in front of the first protective window, while the fixed mirror is mounted parallel to the end of the housing and offset relative to the optical axis by an amount exceeding the length of the radius of the housing cylinder, and the movable mirror is mounted on a hinge cantilever is provided with a lever, ensuring fixation of the movable mirror parallel to the optical axis or at an angle _^3/8 π thereto, wherein the sight is provided with a second protective window disposed after n a movable mirror such that the normal thereto makes an angle of 45 ° with the optical axis of the sight.

To ensure the tightness of the construction of the sight, the mirror unit is connected to the sight housing using a stepped sleeve tightly mounted on the cylindrical part of the external surface of the mirror unit and fixed on it with a threaded ring, and the outer side surface of the smaller diameter sleeve is connected to the inner surface of the case using a threaded connection .

To improve the tightness of the sight between the mirror block and the sleeve, a rubber sealing ring is installed in a groove made on the cylindrical part of the surface of the mirror block.

The invention is illustrated by drawings. In the drawings, shown in FIG. 1 - a general view of the sight in two projections (a - side view; b - section AA); in FIG. 2 - general view of the mirror unit; in FIG. 3 - illustration of firing from cover at two positions of the shooter relative to the weapon (a - to the left, b - to the right of the weapon).

The sight consists of a housing 1, on the outside of which there is a vertical alignment node 2, a horizontal alignment node 3, a power supply 4 containing an electronic control board 5, a power supply 6, a multi-position switch 7. Inside the housing, a point light source 8 is located on its side surface , for example, an LED, and on the optical axis of the sight, a collimating lens 9 is mounted sequentially optically coupled to a point light source 8, a mirror unit 10 and a first protective window 11. A collimating lens can be made, For example, in the form of gluing from two lenses (not shown), on the inner surface of which an optical selective coating is applied, reflecting the radiation of the LED and transmitting radiation of other wavelengths coming from the observed scene. The block of mirrors 10 is fixed at the end of the housing 1 with the possibility of rotation through 360 ° relative to the optical axis of the sight and contains a fixed mirror 12 and a movable mirror 13. The mirror 12 is mounted parallel to the end of the housing 1 and offset relative to the optical axis by

- 1 016372 rank exceeding the length of the radius of the cylinder of the body so as not to overlap the field of view of the sight. The movable mirror 13 is mounted cantilever on the inner side surface of the mirror block with a hinge 14 and is equipped with a lever 15 (Fig. 16), which allows the mirror 13 to be installed in two discrete positions (Fig. 2): parallel to the optical axis (position I) and at an angle 3/8 π to the optical axis (67.5 °) (position II). To seal the sight, it is equipped with a second protective window 16 mounted in the block of mirrors 10 so that normal to it is an angle of 45 ° with the optical axis.

In a preferred embodiment, the mirror unit 10 is connected to the sight housing 1 by means of a stepped sleeve 17 tightly mounted on the cylindrical part of the external surface of the mirror unit and fixed on it with a threaded ring 18, and the outer side surface of a smaller diameter of the sleeve connected to the rear inner surface of the housing using a threaded connection 19. To ensure the tightness of the connection of the sleeve 17 and the block of mirrors 10 in the groove made on the outer cylindrical part of the block of mirrors 10, a cut another sealing ring 19. Thus, 360 ° rotation of the mirror unit 10 in the entire sleeve 17 relative to the housing 1 is ensured by 360 °. The clearance-free connection and smoothness of the rotation of the mirror unit 10 is ensured technologically by high-quality machining of the mating cylindrical surfaces of the sleeve 17 and the mirror unit 10.

The sight works as follows. When the switch 7 is turned to the on position, voltage is supplied from the power supply unit 4 to the LED 8, the radiation of which is generated by the collimating lens 9 into a parallel beam of light, observed by the shooter as an infinitely distant point (aiming point). At the same time, changing the position of the switch 7, you can optimize the brightness of the point to see it on the background of the scene of any brightness. Using the alignment nodes 2 and 3, the position of the luminous point is combined with the axis of the barrel, which ensures that the bullet hits the target, which the aiming point is pointed at. When the mirror 13 is parallel to the optical axis (position I), the shooter guides through the window 11, i.e. uses the scope in a regular way. When moving the mirror with the lever 15 to position II, it covers the field of view through the window 11, but allows you to see the target and aim through the window 16. In this case, turning the block of mirrors 10 entirely in the range of 360 ° relative to the axis of the sight, you can aim and shooting at the position of the arrow to the left or right, above or below the weapon and is not located on the same axis with it, which makes it possible to fire from a closed position (Fig. 3).

The proposed technical solution provides a rigid placement of all optical elements of the sight, which guarantees their mechanical resistance to overload during shots (including bursts), while ensuring the integrity of the sight structure, which allows targeted shooting in a wide temperature range and in any atmosphere (moisture, smoke, dust). The sight can be used both in normal mode and for firing from closed positions.

Sources of information used:

1. US patent No. 7,140,142 B2, 18, publ. November 28, 2006

2. Magazine Agtaya! P1sgpa (1op1. No. 4, 2008, p. 10.

3. US patent No. 6,643,969 B1, IPC B416 1/00, publ. November 11, 2003 (prototype).

Claims (3)

1. An optical sight comprising a thin-walled cylindrical body, inside which a collimating lens and a first protective window are mounted on the optical axis, as well as a block of mirrors mounted in the end part of the housing with the possibility of 360 ° rotation relative to the optical axis, including a fixed mirror and a movable mirror, mounted with the possibility of fixing in two discrete positions, a point light source mounted on the side inner surface of the housing and optically coupled with a collimating lens, nodes vertical and horizontal alignments, a power supply unit including an electronic control board, a power source and a multi-position switch located on the outer surface of the housing, characterized in that the mirror unit is mounted on the inner cylindrical surface of the housing in front of the first protective window, while the fixed mirror is installed parallel to the end housing and is offset relative to the optical axis by an amount exceeding the length of the radius of the cylinder of the housing, and the movable mirror is mounted on a hinge cantilever and equipped with chagom providing fixation of the movable mirror parallel to the optical axis or at an angle ^3/8 π thereto, wherein the sight is provided with a second protective window disposed after the fixed mirrors so that the normal thereto makes an angle of 45 ° with the optical axis of the sight. 2. The sight according to claim 1, characterized in that the mirror unit is connected to the sight housing using a stepped sleeve tightly mounted on the cylindrical part of the external surface of the mirror unit and fixed on it with a threaded ring, and the outer side surface of the smaller diameter sleeve is connected to the inner surface of the housing using a threaded connection. 3. The sight according to claim 2, characterized in that between the mirror block and the sleeve is installed a rubber rubber ring in a groove made on the cylindrical part of the surface of the grain block