RU2088882C1 - Small arms with twinned sighting device - Google Patents

Abstract

FIELD: small arms, in particular, laser sighting devices. SUBSTANCE: laser sighting device 3 is installed on arms body 2 between fore sight 4 and sight leaf 5. The objective lens casing of laser sighting device 3 is linked with its body for adjustment displacements by means of a ring with a spherical external surface. EFFECT: improved design. 4 cl, 9 dwg

Description

 The invention relates to laser sighting devices, in particular to small arms, using laser guidance systems, and can be used in training personnel shooting in all military branches.

 Known small arms systems with dual sighting devices, comprising a barrel in the body, a front sight (front sight), an aiming bar (rear sight), an aiming laser device including an optical-mechanical device (lens with lenses) that converts the laser beam to the dimensions necessary for visibility shooter and which focuses on the target in a light spot with a diameter of, for example, 15-20 cm, a laser emitter with an electronic unit and a power source located in the tube, a laser beam guidance system polar radiation tube and secured to the housing of the laser sighting device to a laser beam projected onto a target-projectile bullet point hit discharged from the weapon to a particular target zone and fastening elements and locking tubes and the housing body of the arms.

 In this small arms guidance system is installed in the central part of the weapon, between the end of the barrel and the bed, in order to minimize the effect of the inclined component of the recoil force on the laser, which ultimately has a significant impact on the results of the shot.

 Attempts to solve this problem are based on the principle of shifting the aiming device relative to the weapon at the time of the shot using any mechanism that absorbs recoil energy, while the guidance system is mounted on the weapon, located along it so that the laser is above the weapon, parallel to the barrel, without lateral displacement , and the laser should be slightly offset relative to the horizontal position. The guidance system freely slides relative to mounting devices mounted on the weapon and dissipates impact energy due to friction between the mounting device and the guidance system. The guidance system is mounted on the barrel using ring holders.

Ring holders have the ability to slide along the barrel, and on the barrel they are fixed using springs and allow the weapon to move relative to the guidance system and return to its original position after the shot (recoil). Thanks to the spring, the arms move backwards, and the recoil energy is absorbed by transferring the impact force from the weapon through the ring to the pin supported by the spring [1]
The disadvantage of this system is that the laser sighting device mounted on the weapon overlaps the line of sight of the mechanical sight (front sight). In addition, the laser beam guidance system relative to the axis of the weapon barrel horizontally or vertically to the right or left, up or down uses calibration flywheels, which require dimensions and degrade the overall dimensions of the weapon as vertical dimensions increase if the flywheels are located below or go beyond the arms dimensions, that is, when the flywheels are positioned below, the dimensions of the aiming laser device grow upward and overlap the aiming line (front sight), and when the flywheels are positioned on the side, the widths increase, all this leads to to the deterioration of the operational characteristics of small arms, i.e. reduced its effectiveness in combat use.

The closest in technical essence is a small arms with dual sighting device, containing a barrel in the body, a front sight (front sight) bar (rear sight), laser sighting device, including an optical-mechanical device (lens with lenses), a laser emitter with an electronic unit and a source power located in the tube, the laser beam guidance system, bonded to the tube and the body of the sighting laser device, the fastening and locking elements of the tube and body on the weapon body [ 2]
The disadvantages of this weapon include:
firstly, this solution leads to the fact that when the laser sighting device fails, it does not allow it to be removed from the weapon, since the front sight and the aiming bar are mounted on the tube of the laser sight;
secondly, considerable time is required to unscrew and screw fasteners using a torque wrench and then lock it when removing and rearranging the rear sight, and this reduces the usability of the weapon and its combat effectiveness decreases.

 The aim of the invention is to improve the usability of small arms with a double sighting device and increase the effectiveness of its combat use.

This goal is achieved by the fact that the proposed small arms with a double sighting device, containing a barrel in the body, a front sight, an aiming bar, an aiming laser device including a lens with lenses, a laser emitter with an electronic unit and a power source located in the tube, a laser guidance system beam, in it an aiming laser device is mounted on the body of the weapon between the front target and the aiming bar, while the lens case is connected with the body of the aiming laser device wa by further inputted ring with a spherical outer surface and the guidance system of the laser beam is in the form of two flywheels mounted in radial protrusions formed on the body of the lens at an angle of 90 ^o to each other for rotation and engagement with the corresponding screws, the other ends of which are hinged in similar radial protrusions made on the body of the sighting laser device, and on the body of the sighting laser device is opposite to one of the above rad Alial protrusions made a radial threaded hole for the locking screw, while on the outer surface of the ring along the axis of the aiming laser device, a mating conical groove is made, forming the inner surface of which is coplanar to the spherical outer surface of the ring, and on the body of the aiming laser device opposite one of the said radial protrusions is made additional radial protrusion for locking said ring, and in the protrusion and part of the housing, perpendicular to the native axis of the latter, a slot is made, and at the end of the protrusion, parallel to the longitudinal axis of the housing, a threaded hole is made for the locking screw, while a window for the passage of the laser beam is made in the front sight.

 The described design of a small arms with a dual aiming device differs from the known ones in that by combining the aiming point of a mechanical sight the front sight aims a spot of the laser beam through the front sight of the front sight, and the location of the beam guidance system in the direction of fire increases the usability of the small arms with a dual sight device and increases the efficiency of its use in case of failure of one of them.

 In FIG. 1 shows a general view of a small arms with a dual sighting device; figure 2 is a view of figure 1; figure 3 is a view of B in figure 1; figure 4-shows a laser device; in Fig.5 cross-section GG in Fig.4; in Fig.6 section DD in Fig.5; Fig.7-section GG (version of locking the spherical ring); in FIG. 8-section DD (option locking the spherical ring) in Fig.6; in FIG. 9-view B; figure 4-shows the mounting of the sighting laser device on the body of the weapon.

 A small arms with a double sighting device consists of a barrel 1 in the housing 2, on which the sighting laser device 3 is mounted and fixed on the housing 2 between the front sight (front sight) 4 and the aiming bar (whole) 5.

 Small arms with dual sighting device work as follows.

 The laser sighting device 3 is mounted on the arms casing 3 with the front sight 4 and the rear sight 6 raised and the casing 16 is fixed; for this, it is necessary to insert rivets 30 of the casing 16 into the holes made in the arms casing and then screwing it in with a screw 21, securing the casing 16 to the arms casing 2. Then, the weapon is pointed at the aiming point (target) through the front sight 4 and the rear sight 6, the button 15 is used to power 13 the electronic unit 12 of the laser emitter 11 and the radiation is directed towards the aiming point of the front sight through the perforation 6 into them, and the laser beam is adjusted relative to the aiming point at the target is carried out by rotating the handwheels 19.

 On the left or right horizon, the front sight 4 and the rear sight 5 are box-shaped with perforations 6 in the central part and cheeks 7 that cover the housing 2 and are mounted on it by the axis 8 with the possibility of their rotation in the stowed position with the emphasis of their end on the housing 2.

 The sighting laser device 3 consists of an optical-mechanical device (a lens with lenses in the housing) 9, which is installed in the lens housing 10 with a laser emitter 11, an electronic unit 12, a power supply 13, contacts 14, buttons 15, which are located in the sighting laser housing the device 16, and the mechanism for guiding the spot of the laser beam at the aiming point of the mechanical sight of the gun-rear sight is made in the form of a ring 17, which is installed and secured with a diameter screw "a" on the lens body 10, and the outer diameter is set the case of the laser sighting device 16, the contact surface of the ring 17 and the body of the laser sighting device 16 is made spherical, and in order to insert and deploy the spherical ring 17 in the body of the laser sighting device 16, a groove "b" is made with a size equal to the width of the ring 17 (Fig. 5 )

The lens housing 10 and the housing of the laser sighting device have two diametrical protrusions 18, each located at 90 ^o relative to each other, and in the protrusions 18 of the lens housing 10 holes are made parallel to the common axis, in which the handwheels 19 accurate aiming with internal thread kinematically connected to screw 20.

 The screw 20 on the lateral surface on both sides has conical flats 21 and a hole with which the axis 22 is connected to the housing of the sighting laser device 16 perpendicular to the groove.

 The ring 17 on the outer spherical surface has a conical-spherical groove R, which is located coaxially with the common axis of the laser sighting device, and a stopper 23 with a conical end is installed in the housing 16 opposite the groove.

 An embodiment of locking the ring 17.

 In the housing 16, the protrusion 25 (FIG. 6) is made opposite to one of their protrusions 18 (FIG. 6) with a slot 26 made perpendicular to the common axis, in which a hole 27 and a thread 28 are made for the stopper 29, which is parallel to the common axis (FIGS. 6, 7).

 The casing of the sighting laser device 16 on the weapon casing 2 is fastened with fasteners: rivet 30 and screw 31, which are in contact with the holes “b” made on the weapon casing, contact surfaces, rivet, screw, the holes are made conical.

 The lens 9 with the housing 10 is moved by rotating the ring 17 with the precision flywheel 19, and vertically up or down the lens 8 with the housing 10 is moved by rotating the ring 17 along the groove R with the precision flywheel 19 and thereby align the axis of the laser radiation start through the perforation 6 of the front sight with the axis the barrel, then the lens 9 with the housing 10 and the ring 17 are locked with the screw "a" (Fig. 5, section G-G of Fig. 4) and the cone of the surfaces of the groove and the end of the screw.

 The proposed technical solution allows to increase the usability of weapons in combat situations with different illumination of the target, to improve the overall dimensions of small arms due to the front sight, body, to eliminate the risk of erroneous hit of the shooter when using weapons, to reduce the time of sight since you can always check the general aiming point, and the location of the alignment flywheels in the direction of fire, to improve the usability of small arms with a dual sighting device with an increase in the effectiveness of its combat use, and this allows a quick-detachable connection to mount the body of the sighting laser device and introduce its fasteners into the holes, the conicity of the holes and fasteners made in the weapon body allows the once calibrated sighting laser device with avit and shoot sighting laser device without adjustment of the laser beam.

 Sources of information.

1. Reviews on electronic technology Series P "Laser technology and optoelectronics". Issue 7 (1147) Artamonov V.V. Isaev A.A. Lazareva T.N. Tretyakova T.I. Frolov V.V. Laser firing simulators, simulators and sights abroad, p.22 ^o C24, Fig. 14.

 2. Pat. USA 4313272, CL F 41 G 1/34 Published February 2, 1982 Method and device for pointing small arms using a laser beam.

 3. Murakhovsky V.I. Fedoseev S.L. Weapons of infantry. Arsenal Press Publishing Company The publication was implemented with the assistance of the Rainbow Trade House (Ukraine) M. 1992 p. 352-353.

Claims (4)

1. Small arms with a double sighting device, comprising a barrel in the body, a front sight, an aiming bar, an aiming laser device including a lens with lenses, a laser emitter with an electronic unit and a power source located in the tube, a laser beam guidance system, characterized in that the aiming laser device is mounted on the body of the weapon between the front sight and the aiming bar, while the lens body is connected to the body of the sighting laser device through an additional driven ring with a spherical outer surface, and the laser beam guidance system is made in the form of two flywheels mounted in radial protrusions made on the lens body at an angle of 90 ^{o to} each other with the possibility of rotation and interaction with the corresponding screws, the other ends of which are pivotally fixed in similar radial protrusions made on the body of the sighting laser device.  2. The weapon according to claim 1, characterized in that a radial threaded hole for a locking screw is made on the body of the sighting laser device opposite one of the said radial protrusions, and a conical groove is formed on the outer surface of the ring along the axis of the sighting laser device, forming an inner surface which is coplanar to the spherical outer surface of the ring.  3. The weapon according to claim 1, characterized in that an additional radial protrusion is made on the housing of the sighting laser device opposite one of the said radial protrusions to stop said ring, while a slot is made in the protrusion and part of the housing perpendicular to the longitudinal axis of the latter, and the end face of the protrusion parallel to the longitudinal axis of the housing, a threaded hole for the locking screw.  4. Weapons according to any one of claims 1 to 3, characterized in that a window for the passage of the laser beam is made in the front sight.

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