RU200120U1 - OPTICAL DEVICE FOR CONTROL OF THE SIGHTING LINE OF THE SIGHT WITH THE AXIS OF THE GUN BARREL - Google Patents

Abstract

The utility model relates to the field of optical instrumentation, devices for monitoring the position of the line of sight of products with the axis of the bore of armored vehicles. The purpose of this utility model is to create an integrated optical device for operational control of the parallelism of the line of sight of the sight with the axis of the barrel of the gun, increasing the quality of guidance and accuracy of fire. To solve this problem, a sight, including an optically coupled lens and an observation system with an aiming mark and consisting of a sighting, rangefinder and information channels, or rather an optical unit based on a BkR-180 ° prism and wedges, which ensures the stability of the alignment mechanism for aligning parallelism of the sighting and information channels, for optical coupling of the sighting mark of the observation system with a control mark on the gun barrel, a focusing plano-convex lens is introduced, which together with the BkR-180 ° prism represents gluing with an axial path of beams perpendicular to pr crushing face of the prism, which is the input and output face for matching the parallelism of the sighting and information channels, while the face of the prism, parallel to it, is polished and a focusing lens is glued to it with a flat surface, while the optical unit is installed with the possibility of outputting light rays from the path. As a result of the proposed solution, a technical result is obtained: an optical device has been created for operational monitoring of the sight line of sight with the axis of the gun barrel bore, allowing the use of a mechanism for aligning the sighting and information channels with the introduction of a focusing plano-convex lens. 3 ill.

Description

Description

The utility model relates to the field of optical instrumentation, to devices for monitoring the position of the line of sight of products with the axis of the bore of armored vehicles. This useful model can be used in fire control systems for objects of combat vehicles and artillery systems.

Known sight-guidance device with emitting channels and a method of aligning the parallelism of the optical axes, presented in the patent RU No. 2191971, IPC F41G 7/00 from 27.11.2000 year. The sight includes information and sighting channels and a reflective collimator of the aiming mark. The sight is additionally equipped with thermal imaging and television channels, each of which contains a lens and an electronic observation system with an aiming mark. The alignment of the parallelism of the optical axes of the sight-guidance device consists in the fact that the alignment radiation of the information channel is combined with the alignment mark of the sighting channel. Additionally, a television channel is used as a sighting channel. Due to heating and fluctuations in air temperature, there is a misalignment of the axes of the sighting and information channels relative to the axis of the gun barrel. The disadvantage of this sight is the lack of a built-in system for operational control of the parallelism of the optical axes of the sight channels and the axis of the armored vehicle weapon.

In the sight for the tank, described in the patent RU No. 50686, IPC G02B 23/00 dated June 22, 2005, a built-in system of operational control of the parallelism of the sighting axis of the sight and the axis of the tank gun was introduced. The sight consists of a lens and an observation system with a reticle. For optical pairing of the sighting mark of the observation system with a control mark on the tank gun, an optical unit located in front of the lens is introduced into the sight. The optical unit consists of two optically coupled flat mirrors and a lens (the first mirror is located on the sighting axis of the sight at an angle to it) and is installed with the ability to output the light rays entering the sight lens from the path. The introduction into the sight for a tank of an optical unit for optical coupling of the sighting mark of the observation system with a control mark on the tank gun provides the possibility of operational control of the parallelism of the sighting axis of the sight for the tank and the axis of its gun, and therefore taking into account the observed errors during practical shooting, which leads to an increase in the accuracy of shooting ... During operation - when controlling the parallelism of the sighting axis of the sight and the axis of the gun in the field, due to the lack of rigidity of the optical unit of two mirrors, the system of mirrors is misaligned, and as a consequence, the lack of stability and durability of work, which is a disadvantage of this alignment system.

Known optical unit for optical coupling of the sighting mark of the observation system with a control mark on the tank gun, presented in the patent RU No. 120786, IPC G02B 27/10 dated 04.19.2012. The optical unit includes an optically coupled optical axis direction change device and a focusing lens. A tetrahedral optical prism is used as a device for changing the direction of the optical axis. A prism made in such a way that the input and output faces are refractive and form an angle of 7 ° 32 ', and the reflecting faces form an angle of 3 ° 46', while the prism is installed so that its entrance face is perpendicular to the optical axis of the focusing lens and can be rotated around this axis. In this utility model, the requirement to ensure the rigidity of the structure is fulfilled, the result of which is the stability and durability of the optical unit during the operational control of the parallelism of the sighting axis of the sight and the barrel of the tank gun in the field. The disadvantage of the prism-based optical alignment unit is the non-standard prism, non-standard prism angles, and hence the complexity of manufacturing.

As a prototype, a device for aligning the gun and measuring its muzzle angle, presented in patent RU No. 116997, IPC G01B 5/24 and F41G 1/393 dated 12.10.2011, was selected. This device is a device for monitoring and setting the axis of the barrel bore relative to a given position of the optical axis of the sighting channel of the sight, as well as measuring the muzzle angle of the barrel, and is used to prepare guns, mainly tank guns, for firing.

The device contains a telescopic system with a lens, an eyepiece with diopter adjustment, a reticle located in the focal plane of the eyepiece and equipped with a focusing mechanism, a shank with a through channel made along its axis, an adjustment unit, and a field of view divider. The adjustment unit is designed as a device built into the telescopic system. The device shank is designed for basing the device in the cannon bore. The field-of-view divider can be made in the form of a beam-splitting cube consisting of three rectangular prisms.

The use of such a device allows you to align the gun with a sight and measure the muzzle angle in one installation of the device, which allows you to reduce the time for shooting the gun to normal combat without firing, to align the gun at any distance of the alignment shield installation. But this device must be included in the product kit, i.e. in the spare parts and accessories, so it does not allow real-time control of the parallelism of the sighting axis of the sight and the axis of the tank gun.

The purpose of this utility model is to create an integrated optical device for operational control of the parallelism of the sight line of sight with the axis of the cannon bore, which improves the guidance quality and firing accuracy.

The technical result is the creation of an integrated optical device for operational control of the parallelism of the sight line of sight with the axis of the gun barrel.

To solve this problem, into a sight, which includes an optically coupled lens and an observation system with an aiming mark, and consisting of a sighting, rangefinder and information channels, or rather, an optical unit based on a BkR-180 ° prism and wedges located in front of the lens and which ensures stability a alignment mechanism for matching the parallelism of the sighting and information channels, and a focusing plano-convex lens is introduced into it for optical coupling of the sighting mark of the observation system with a control mark on the gun barrel, which, together with the BkR-180 ° prism, is glued with an axial path of rays perpendicular to the refractive face of the prism, which is the input and output face to match the parallelism of the sighting and information channels, while the face of the prism parallel to it is polished and a focusing lens is glued to it with a flat surface, while the optical unit is installed with the ability to output light rays from the path.

As a working element to ensure the parallelism of the sighting and information channels, an alignment mechanism is used, which is an optical block based on a BkR-180 ° prism, which ensures the parallelism of the incoming and outgoing beams. The alignment optical unit consists of a BkR-180 ° prism and two wedges and a bracket. The electronic alignment mark is introduced by the reducer into the field of view of the sighting channel when the "Control" mode of the device operation is switched on. If the alignment mark is aligned with the crosshair of the aiming mark, the optical axes of the sighting channel and the information channel are considered to be aligned. The unit of the electronic alignment sign forms a red alignment sign in the form of a crosshair aligned with the center of the information field (the axis of zero commands) in the visible region of the spectrum. The alignment mechanism provides the introduction of the information channel alignment mark in the field of view of the sighting channel to check the alignment of the center of the information field of the controlled projectile with the sighting mark of the sighting channel.

For this, it is introduced by the gearbox to a different position. The alignment is carried out as follows: the alignment optical unit is rotated, with the central part of the prism surface towards the sighting channel, through the focusing lens. Thus, the index at the end of the gun barrel is projected into the sighting channel. The central aiming mark of the sighting channel is introduced into the field of view of the barrel index tolerance groove. Align the central aiming mark with the index cut line symmetrically relative to the edges of the index tolerance groove, the aiming mark strokes - with the index upper cut. The line of sight is considered correctly adjusted if the central aiming mark is located in the center of the index tolerance groove, and the strokes coincide with the upper cut of the index.

The introduction of a focusing plano-convex lens into the optical unit to match the parallelism of the sighting and information channels of the sight for optical conjugation of the sighting mark of the observation system with a control mark on the gun barrel, located in front of the lens and installed with the possibility of withdrawing the beams entering the sight lens from the course, provides the possibility of operational control parallelism of the line of sight of the sight with the axis of the gun barrel, which leads to taking into account the observed errors during shooting, and therefore to an increase in the accuracy of shooting.

The proposed utility model is illustrated by the following graphic materials:

FIG. 1 - Calibration optical block;

FIG. 2 - Optical alignment scheme.

FIG. 3 - Alignment of the line of sight and the axis of the gun barrel.

FIG. 2 shows two product channels - sighting and information. The first position (1st position) of the alignment optical unit in FIG. 1 is the inoperative state of the alignment optical unit. To check the parallelism of the sighting and information channels, the alignment optical unit is introduced into the third position (3rd position), to control the parallelism of the sight line of sight with the axis of the gun barrel, the alignment optical unit is introduced into the second position (2nd position).

The device for monitoring the parallelism of the line of sight of the sight with the axis of the bore of the gun is a calibration optical unit (Fig. 1). The basis is a BkR-180 ° prism - pos. 1 and wedges pos. 3 (1) and pos. 3 (2), as well as a bracket (not shown in FIG. 1). The alignment mark of the information channel in the direction I-I (Fig. 1) is introduced into the field of view of the sighting channel to align the center of the information field of the controlled projectile with the sighting mark of the sighting channel. Alignment occurs by rotating the wedges pos. 3 (1) and pos. 3 (2).

To control the line of sight with the axis of the cannon bore, the sight uses direction II-II (Fig. 1). The index at the end of the gun barrel is projected into the sighting channel through the focusing plano-convex lens pos. 2 and prism BkR-180 ° pos. 1 (Fig. 1). The central reticle of the sighting channel in FIG. 3 is introduced into the field of view of the tolerance groove of the gun index. Align the central aiming mark with the index cut line symmetrically relative to the edges of the index tolerance groove, the striking mark strokes - with the index upper cut.

As a result of the proposed solution, a technical result is obtained: an optical device has been created for operational monitoring of the sight line of sight with the axis of the cannon barrel bore, which allows the use of a mechanism for aligning the sighting and information channels with the introduction of a focusing plano-convex lens.

Claims (1)

An optical device for monitoring the line of sight of a sight, including an associated lens and an observation system with an aiming mark, with the axis of the cannon bore, characterized in that it is an optical unit based on a BkR-180 ° prism and wedges, located in front of the lens, which ensures the stability of the alignment mechanism for matching the parallelism of the sighting and information channels, and into it for optical coupling of the sighting mark of the observation system with a control mark on the gun barrel, a focusing plano-convex lens is introduced, which together with the BkR-180 ° prism represents gluing with the axial path of the rays perpendicular to the refractive face of the prism , which is the input and output face to match the parallelism of the sighting and information channels, while the face of the prism, parallel to it, is polished and a focusing lens is glued to it with a flat surface, while the optical unit is installed with the ability to output from the path of the rays Sveta.

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