RU2172918C1 - Disposable rocket launcher, method for matching of rocket launcher mechanical sight with the axis of plastic barrel of its container and apliance for matching of rocket launcher mechanical sight - Google Patents

Abstract

FIELD: military equipment, applicable in manufacture of rocket launchers, mainly disposable ones, whose containers are provided with plastic barrels and mechanical sights. SUBSTANCE: the rocket launcher has a container with a plastic barrel, whose ends are provided with metal extension pieces. The mechanical sight in the form of a fore sight and a sight frame with diopter holes is positioned on binding screw clamps fastened on the plastic barrel. The rigid bases of the fore sight and sight frame are made with surfaces of their engagement with the plastic barrel at least 1/6 of the circumference length of the latter. Matching of the rocket launcher mechanical sight with the axis of the plastic barrel of its container is started from the fact that first the shape of the bore of the plastic barrel is corrected by tight connection of the metal extension pieces or flanges to its ends. Then the binding screw clamps are installed with arrangement of the sight frame perpendicularly to the surface of the fore sight base. The clamps are bound by a force, whose vector parallel transferred to the barrel axis is positioned in the sectors of engagement of the fore sight bases and sight frame with the plastic barrel. After that the container with the muzzle side is fitted on a mandrel with a bore-sighting gauge oriented to the aligning target, and in the appliance the barrel is pressed to the mandrel in the plane of firing, and then the sight line is matched with the barrel axis. The appliance has an aligning target, device for attachment of the container, and a mandrel with the bore-sighting gauge. The device has a rigid base with a post, attached to which is the mandrel with the bore-sighting gauge. The device has a rigid base with a post, attached to which is the mandrel with the bore-sighting gauge oriented to the aligning target. Fastened in the plane of firing on the post is the clamp of the rocket launcher container. EFFECT: enhance accuracy of firing of the disposable rocket launcher. 4 cl, 4 dwg

Description

 The invention relates to defense technology and can be used in the design and manufacture of grenade launchers, mainly for single use, the containers of which are equipped with plastic barrels and mechanical sights. Disposable grenade launchers (hereinafter GOP) containing containers with plastic barrels and mechanical sights, due to their simplicity and small size and mass, are widely used in the armies of all countries as melee weapons that can equip any infantryman and thereby achieve fire superiority over the enemy.

 However, the requirements for accuracy of firing from these weapons are quite high, which is ensured, among other things, by the degree of coordination of the mechanical sight with the axis of the plastic barrel and by keeping this degree of coordination unchanged during the operation of the GOF (during storage, transportation, impacts, during the shot, etc. ), in known grenade launchers are not performed due to varying degrees of accounting or non-consideration of their features, which are as follows.

 Plastic trunks, unlike metal, have a wider tolerance for the manufacture of their channel and random ovality in the free state, associated with the nature of the material from which they are made, and with manufacturing technology, which consists in spiral-wound winding of a bundle of reinforcing threads or woven of them tape, impregnated with a binder, on a metal mandrel and subsequent drying at elevated temperature. It is obvious that various thermal expansions of the mandrel and plastic barrel materials, fluctuations in the width of the bundle of filaments or ribbons from them, their angle of inclination with respect to the mandrel, tensile forces and non-simultaneous heating throughout the volume will lead to stresses in the barrel, which, after being removed from the mandrel will be expressed in a change in the shape of its channel. Because the outer surface of the plastic trunks is usually processed by cutting, setting them on an expandable mandrel, the error in the shape of their channels is not corrected, but rather manifests itself even more due to thinning of the wall thickness.

In addition, plastic trunks poorly withstand external compressive loads when the threads reinforcing them practically do not work, and therefore, even insignificant asymmetrical loads cause them to deform over time and lose their shape and, consequently, the shape of the channel, including in locations flies and aiming strip of a mechanical sight. Obviously, the neglect of these circumstances can cause a big mistake in matching the mechanical sight and axis of the plastic barrel during the manufacture of the container for GOP or lead to a significant mismatch during storage. These shortcomings are exacerbated by the design and technological features of containers for GOP, which are in the presence or use of:
- a short thin-walled (1.5 - 2 mm) plastic barrel of significant caliber (up to 150 mm), which, under the influence of internal pressure, when fired, corrects its shape and thereby mismatch its axis even more with a mechanical sight;
- a short line of sight (distance from the front sight to the aiming bar), which is caused by the need to remove the rear end of the container to a distance safe for the shooter and is accompanied by high sensitivity of firing accuracy from the degree of matching of the mechanical sight with the axis of the barrel;
- a long aiming bar, caused by the need to shoot at considerable ranges at a relatively low speed of the ammunition fired from the GOP and increasing the sensitivity of firing accuracy to the roll of the weapon when aiming;
- close placement of the aiming bar from the eye of the shooter, which does not allow the use of the aiming bar to identify and eliminate the roll of weapons and requires the use of sights in the mechanical sight in the form of a series of diopter holes corresponding to different firing ranges. In this case, the roll of the weapon can be detected only on the horizontal surface of the rigid base for placing the front sight, which requires its installation strictly perpendicular to the aiming strip even in the process of manufacturing the container for the GOF;
- a large number of rigid bases necessary for placement and installation of elements of the sight and firing mechanism, handles to hold the GOP while aiming and firing, carrying handles, shoulder strap and protrusions for connecting, for example, two GOP in the pack, asymmetrically distributed and firmly fastened with the outer surface of the plastic barrel with glue or flexible tie rods, including in the same section as the front sight and the aiming strip, which bend the shape of its barrel bore in the most important from the point of eniya exact sections of the shooting;
- a method for matching a mechanical sight with the axis of a plastic barrel and devices for its implementation that do not take into account the features of the GOP and its plastic barrel
Known methods for matching mechanical and optical sights relative to the axis of the barrel of the weapon and the devices used in this case are based on bringing the weapon to normal combat (1) - an analogue and on its cold sighting (2) - a prototype and are associated with the manufacturing process of the barrel and hard bases for the front sight and the aiming plate of a mechanical sight only through technological tolerances for the manufacture of surfaces that interact with each other during installation and coordination of the sight with the axis of the barrel and therefore not all circumstances are taken into account as set out above.

 In analogue (1), an experienced well-trained shooter, with his hands or having previously fixed the weapon in a special device, eliminates the roll of the weapon along the aiming bar relative to any vertical object or alignment target, directs the weapon through the appropriate target range to the target mark (point) on it and produces several shots. Then it measures the magnitude and direction of deviation of the mid-point of the aiming on it and carries out adequate movements of the sight front relative to its rigid base on the weapon.

 After that, it produces a second group of shots to confirm the correctness or incorrectness of the movement of the front sight, i.e. coordination of the sight relative to the axis of the barrel of the weapon. By making several groups of shots in this way, the shooter achieves a combination of aiming and hit points with the necessary convergence, i.e. aligns the sight with the axis of the barrel of the weapon.

 This method is good because in its application the coordination of the sight and the axis of the barrel of the weapon takes into account the wear of the latter or technological tolerances for the manufacture of its channel, taking into account the deviations of the muzzle velocity of the ammunition caused by them and the trajectory of its flight from the calculated ones. However, for GOP it is not applicable due to the almost complete wear of the channel of its barrel after the first shot.

 There is a method of matching a mechanical sight with the axis of the barrel (2), based on the use of a cold sighting device with a mandrel in the size of the barrel bore and a diopter of a special alignment target, instead of shooting, taking into account its distance from the front sight of a mechanical sight of a weapon, marks, for example, squares installing the axis of the barrel on the device in one of them and for installing lines of sight through a mechanical sight in others, offset relative to the first according to the ballistics of the weapon, and shifting the plane of sight Without a mechanical sight relative to the axis of the barrel of the weapon in the horizontal plane.

According to this method, the coordination of the sight and the axis of the barrel channel is carried out in the following order:
- GOP is fixed in the device with ensuring the vertical position of the aiming strip of its mechanical sight along the alignment target;
- fix on the muzzle of the trunk according to the risks on it two dark threads forming a crosshair;
- set the mandrel with a diopter into the breech of the plastic barrel and point the barrel with a crosshair to the center of the corresponding mark of the reconciled target, moving the weapon with the help of the device in horizontal and vertical planes;
- stop the device with the weapon fixed in it in this position;
- then by sighting through the corresponding viziers and the top of the front sight and moving the latter, the top of the front is projected into the fields of the corresponding marks of the reconciled target and the front sight is controlled in this position.

The disadvantages of this method and the device for its implementation in relation to GOP are as follows:
- the base of the front sight within the technological tolerances for the manufacture of elements of a mechanical sight will always have a deviation from the perpendicular position relative to the aiming bar and this is not corrected when the sight is aligned with the axis of the barrel, therefore, it will be accompanied by a roll of the weapon when aiming and miss on the target when firing;
- large tolerances for the manufacture of the channel of the plastic barrel will lead to skewing of the mandrel in it and create large errors when matching the mechanical sight with the axis of the barrel;
- the use of an elastic stop in the mandrel, pressing it to one side of the barrel to exclude its skew, is impossible, because it will distort the shape of the barrel and cause the sight to mismatch with the axis of the plastic barrel immediately after removing the mandrel from it, the same will happen when setting the mandrel without elastic stop in the channel of the plastic trunk, which deviates from roundness.

 It should be noted that this device is used only directly in military units. Instead of a crosshair formed by threads, in weapons workshops and in factories manufacturing weapons, a mandrel with a cold shooting tube (TXP) is used for the mandrel with a diopter, for example TXP-7-195 for a 7.62 mm caliber weapon (BS 3.812.022 TO), which is installed in the muzzle of the barrel. In this case, pointing the axis of the barrel into the corresponding mark of the reconciled target is made by combining with it a crosshair reproduced in the field of view of the optical channel of the thermal processing characteristics.

 It can be seen from the foregoing that the known method and both devices that implement it do not provide exact coordination of the mechanical sight with the axis of the plastic barrel and this will be aggravated by the previously noted disadvantages of the well-known GOP containing a container with a plastic barrel.

In the known design of the GOP (3), which is an analogue of the present invention, to maintain its length in the initial position, the barrel is made telescopic, the outer part of which is represented by a plastic pipe on which the firing mechanism and the mechanical sight are fixed, and the inner part by the metal pipe in which it is placed jet grenade. The rigid body of the firing mechanism is made in the form of a narrow plate in contact with the outer surface of the plastic pipe in a sector not exceeding 15 ^o , and fastened to it in the muzzle and breech parts using flexible coupling clamps with cuts. In this case, the housing is installed in sections of the clamps, the ends of which are bent outward and tightened by screws, passed through the holes in them and screwed into the housing. Obviously, a large number of parts forming a contour covering a plastic pipe, as well as technological tolerances for the manufacture of their sizes and shapes in contact with the pipe surfaces, will lead, with the same screw tightening forces, to different degrees of deformation of the plastic pipe and in different places around its circumference . As already noted above, such a random deformation in size and direction of the pipe will reduce the accuracy of matching its axis with a mechanical sight when reconciling the latter and cause additional mismatch between them during the shot. The mechanical sight in the analogue is represented by two pivotally mounted on the body of the firing mechanism and spring-loaded long plates that recline into a fighting position when the barrel of the grenade launcher is extended before firing. The plate, placed in the breech of the plastic pipe, has a mechanical sight sight in the form of a diopter hole. The plate, located in the muzzle of the plastic pipe, has several flies corresponding to different firing ranges, and can be used to detect and eliminate the roll of the weapon when aiming. However, its long length and low stiffness will lead to its deformation in the event of accidental impacts during the movement of the shooter with a grenade launcher to change the firing position and, therefore, impair the accuracy of shooting due to the inability to eliminate the roll of the weapon when aiming and the mismatch of the sight with the axis of the barrel. In addition, the presence of two articulated joints and two long plates in one mechanical sight will always reduce its degree of coordination with the axis of the barrel and increase its vulnerability to accidental impacts.

 In the container of another well-known GOP (4), which is the prototype of the present invention, the barrel is represented by a single plastic pipe on which rigid bases for the front sight and sighting bar with diopter holes are fixed.

In the prototype, some of the disadvantages of the analogue were eliminated through the use of a fixed front sight with a fence and a reduction in the number of parts involved in the formation of the contour covering the plastic barrel, and ensuring their more stable relative position. However, there is a possibility of violating the transverse shape of the plastic barrel channel for two main reasons:
- the weakest sections of the plastic barrel - its ends are not supported by anything during the container assembly and operation of the GOP;
- the length of the contact surfaces of the rigid bases with the surface of the barrel and their location on a flexible coupling collar relative to the clamping unit of the clamp are not regulated.

 The proposed technical solution allows the first drawback to be eliminated with metal flanges - barrel extensions by screwing or screwing them onto the ends of the plastic barrel by gluing (in), which, by their rigidity and high accuracy of shape, will correct the shape of the channel of the plastic barrel and prevent it from being deformed during operation.

The second drawback is proposed to be corrected by techniques widely used in the practice of designing belt brakes and keys. This practice shows that uniform compression of a cylindrical shaft (pipe), and therefore of a plastic barrel with a tape or a flexible clamp, is possible if:
- axis clamps, tightening the ends of the tape or coupling flexible clamp, for example screws, are as close as possible to the outer surface of the bodies covered by tapes and coupling clamps, which is provided in the prototype;
- the contact of the rigid parts attracted by ribbons or coupling clamps to the surface of the plastic barrel of the barrel occurs in a sector of at least 1/6 of the barrel circumference;
- the connector in the tape or in the coupling clamp is located so that the force vector created by the clamps (screws) when it is parallel transferred to the axis of the barrel is always located in the sector area, on the surface of which the rigid part (the base of the front sight and the level of the mechanical sight) comes into contact with the plastic the trunk. The last two conditions in the prototype are absent.

 The technical problem to which the invention is directed is to increase the accuracy of a disposable grenade launcher.

The stated technical problem is solved due to the proposed group of inventions, interconnected by a single inventive concept, namely due to the fact that
1. In a disposable grenade launcher containing a container with a plastic barrel and a mechanical sight in the form of an aiming bar with diopter holes and front sight, placed in rigid bases mounted on a plastic barrel, according to the invention, the plastic barrel is equipped with metal extensions or flanges rigidly fastened to its ends, the rigid bases of the aiming plate and front sight are fixed on the plastic barrel with clamps, at the ends of which loops with cylindrical erasers installed in them with screws tightened through the smooth holes of some rods and screwed into the threaded holes of others, while the rigid bases of the aiming strip and front sight are made with surfaces in contact with the plastic barrel in a sector of at least 1/6 of the circumference of the plastic barrel, and cuts in the tie rods the clamps and the screws tightening them are placed so that the axes of the latter, when they are parallel transferred to the axis of the plastic barrel, are located in the area of the contact sector of the rigid bases of the aiming plate and front sight with the plastic barrel scrap.

 In addition, metal extensions or flanges are rigidly fixed to the ends of the plastic barrel by means of thread or glue.

 2. In the method of matching the mechanical sight of a grenade launcher with the axis of the plastic barrel of its container, including putting the muzzle side of the container on the fixture mandrel with the cold shooting tube, rigidly fixed relative to the alignment target, installing the aiming bar along the alignment target vertically, pressing the barrel from the outside of the mandrel into the shooting plane , alignment of the line of sight with the corresponding mark on the alignment target, according to the invention before putting the container on the mandrel to the ends of the plastic barrel ol rigidly attach metal extensions or flanges to correct the shape of the channel of the plastic barrel onto which the reticle is fixed in a rigid base perpendicular to the horizontal, visible through the reticle sighting surface, the surface of the rigid base of the front sight, while the rigid base of the aiming strip and front sight are fixed with removable clamps , the ends of which are pulled together by a force, the vector of which, parallel to the axis of the plastic barrel, is located in the contact sectors of the rigid REPRESENTATIONS Spot strips and patches from the outer surface of the plastic barrel.

 3. A device for matching the mechanical sight of a grenade launcher with the axis of the plastic barrel of its container, comprising a reconciliation target, a device for securing the container, and a mandrel with a cold shooting tube, according to the invention, is provided with a rigid base with a stand to which the mandrel with the cold shooting tube is rigidly attached oriented in the alignment target, the mounting device is a screw or cam clamp of a plastic barrel to the mandrel, located on the top of the rack above the frame Coy in the shooting plane.

 The essence of the invention is illustrated by drawings, where in FIG. 1 shows a sectional view of a disposable grenade launcher, in FIG. 2 is a section along AA in FIG. 1 (location of the front sight), in FIG. 3 is a section along BB in FIG. 1 (location of the aiming strip), in FIG. 4 - a device for matching the mechanical sight of a grenade launcher with the axis of the plastic barrel of its container.

 A disposable grenade launcher contains a container with a plastic barrel 1 and a mechanical sight in the form of a front sight 2 and an aiming strip 3 with diopter holes 4. The front sight and an aiming strap are placed in rigid bases 5 and 6, respectively, fastened with coupling clamps 7 and 8, the ends of which are provided with loops 9 and installed in them by cylindrical rods 10 and tightened by screws 11, passed through the smooth holes of some rods and screwed into the threaded holes of others. The plastic barrel is equipped with a metal extension 12 from the side of the breech end and a metal flange 13 from the muzzle end. The rigid base 5 of the front sight and the rigid base 6 of the aiming strip are in contact with the plastic barrel 1 in sector B, the circumference of which is not less than 1/6 of the circumference of the plastic barrel. At the same time, the tightening screws 11 are placed so that their axes 14, when they are parallel transferred to the axis 15 of the plastic barrel, are located in the area of sector B of the contact of the rigid bases of the front sight and the aiming bar with the plastic barrel. The transferred axles 14 are shown in FIG. 2 and 3. The rigid base 5 of the front sight 2 has a horizontal surface Г visible through the diopter holes 4 of the aiming plate 3 and perpendicular to the aiming plate 3.

 The device for matching the mechanical sight of the grenade launcher with the axis of the plastic barrel of its container (Fig. 4) contains a reconciliation target 16, a device for fastening the container in the form of a base 17 with a stand 18, to which a mandrel 19 with TXP 20 is attached. Above the mandrel on the stand 18 in a vertical the firing plane placed screw clamp 21 of the plastic barrel 1 to the mandrel.

 The features of the method for matching the mechanical sight of a disposable grenade launcher with the axis of the plastic barrel of its container and the design features of the device and the disposable grenade launcher used with this are quite obvious from the above description of their device and consists in the following.

 1. The outer surface of the plastic barrel 1 (Fig. 1) and the threads at its ends for attaching to it a metal extension 12 and flange 13 are made on an expandable mandrel, which allows to achieve high accuracy of their geometry and dimensions, and most importantly a high degree of alignment with respect to the corrected shape barrel bore. After removing the plastic barrel from the expanding mandrel, it, under the influence of internal stresses, acquires an ovality obtained by winding and polymerizing it, which, when the flange and extension cord is screwed onto it, decreases to the size of the gap in the threaded pairs: pipe 1 - flange 13 and pipe 1 - extension 12 minus the thickness of the adhesive layer between them, i.e. up to several tenths of a millimeter.

 In this case, the stresses arising in the wall of the plastic barrel, gradually fading, are transmitted from its threaded sections under the flange and extension to its free surfaces and partially correct the shape of the barrel bore under them.

Obviously, the same effect and even more can be achieved if:
- when placing the flange and extension cord on a plastic barrel and subsequent drying of their adhesive joint with the first placed on an expandable mandrel, which requires the presence and maintenance of a large number of fairly complex expandable mandrels, which is not always economically feasible;
- the connection of the plastic barrel with a flange and an extension on the glue is carried out by their landing in each other with an interference fit on cylindrical or oncoming conical surfaces. The choice of the type of such a connection is mainly determined by their required strength in the axial direction, eliminating their destruction during operation and during firing.

 2. Simple calculations and practice of firing from the GOP show that the ovality of the barrel within a few tenths of a millimeter with an aim line of 300 mm at a firing range of 300 m causes the point of departure from the aiming point to deviate by an amount equal to the same number of tens of millimeters, which already enough for accurate shooting. Therefore, the same or less ovality of the barrel channel must be obtained at the places of installation of the coupling flexible clamps 7 and 8 with rigid bases 5 and 6 for installing the front sight 2 and sighting bar 3.

A flexible coupling clamp corrects the shape of the bore under it without crushing it (reducing the diameter) under the following basic conditions:
- if the coupling clamp compresses the plastic barrel to any rigid object (the base of the front sight and the aiming strip), the shape of the contact surface of which with the outer surface of the barrel determines the law of deformation of the plastic barrel already under the action of small efforts to tighten the ends of the clamp;
- if the vector of the force pulling together the ends of the flexible coupling collar transferred to the axis of the plastic barrel is located in the area of sector B of the plastic barrel’s contact with the surface of the rigid object mating to it, to which the plastic barrel is pressed, because in this case, uniform compression of the plastic barrel by a flexible coupling collar with their smallest movement (slipping) relative to each other is ensured;
- if the vector of the force tightening the ends of the flexible coupling collar is as close as possible to the surface of the plastic barrel and when it is applied to the tightening ends of the clamp, they do not deform towards the plastic barrel.

 The last condition is provided when the ends of the flexible coupling clamp are pulled together by a screw 11 (see Figs. 2 and 3), passed through a smooth hole in one cylindrical rod 10 and screwed into the threaded hole of the other. In this case, the rods 10 are installed in loops 9 made at the ends of the clamps 7 and 8, for example, by folding them outward and connecting them to the main body of the clamp by welding or rivets. In this case, when the screw 11 is screwed in, the rods 10 come closer to each other, turning in the loops 9 of the coupling clamps 7 and 8, and do not squeeze the ends of the clamps to the plastic barrel 1.

 Obviously, the greatest effect in correcting the transverse shape of the channel of the plastic barrel, taking into account the foregoing, will be achieved if the rigid bases 5 and 6 (Fig. 2 and 3) are in contact with the outer surface of the plastic barrel 1 at half the circumference of its outer surface, and the force vector 14, tightening the ends of the flexible coupling clamps 7 and 8, transferred to the axis of the channel of the plastic barrel 1, will be located on the axis of the symmetrical sectors B, limiting the area of contact of the bases with the plastic barrel. These ideal conditions are not always achieved due to the need to fasten several rigid bases to a plastic barrel with one flexible tensioning collar, for example, for an aiming plate and firing device, etc. However, satisfactory results are achieved even with the length of the contact surfaces of rigid bases with a plastic barrel 1/6 of the circumference of the latter and the location of the force vector, tightening the ends of the flexible collar, transferred to the axis of the plastic trunk in the area of the sector, limiting the area of their measure.

 3. The flexible coupling clamps 7 and 8 are mounted on a plastic barrel 1 (Figs. 1–3) in a special device where they ensure mutual strict perpendicularity of the aiming strip 3 and the sight through its diopter holes 4 when aiming the horizontal surface Г of the hard base 5 of the front sight 2. This allows the position of the surface G relative to the target when aiming to detect and eliminate the roll of weapons.

 4. Setting the container with the muzzle of the plastic barrel 1 on the mandrel 19 (Fig. 4) with the TX 20, rigidly fastened to the stand 18 of the device for matching the mechanical sight with the axis of the plastic barrel and rigidly oriented to the corresponding mark of the alignment target 16, and tightening the plastic barrel 1 to the mandrel 19 screw clamp 21 in the vertical plane (in the plane of fire) ensure the identity of the placement of the axes of the plastic trunks of all installed on the mandrel 19 containers GOP relative to the corresponding mark you target 16 and exclude the mutual skew of the mandrel and the barrel within significant gaps between them. In this device, the presence of gaps between the plastic barrel and the mandrel is expressed only in their parallel displacement relative to each other, i.e. occurs within a few tenths of a millimeter and practically does not affect the accuracy of matching a mechanical sight with the axis of a plastic barrel.

 Thus, the proposed technical solution by a group of inventions connected by a single inventive concept, provides improved accuracy from a single-use grenade launcher.

Sources of information
1. The book "Manual on small business. 7.62 mm machine gun Degtyarev (RPD)", pp. 82 - 89. Military Publishing House, Ministry of Defense of the USSR, Moscow, 1969 - analogue.

 2. The book "Manual on a small business. Manual anti-tank grenade launcher (RPG - 7 and RPG - 7D)", p. 89 - 94. Military Publishing House, Ministry of Defense of the USSR, Moscow, 1972 - prototype.

 3. US patent N 3182553, CL. 89 - 1.7, MKI F 41 d 3/04 dated May 11, 1965 - the analogue.

 4. French patent N 2402853 A1, F 41 F 3/00, 04/06/1979.

Claims (4)

 1. A disposable grenade launcher containing a container with a plastic barrel and a mechanical sight in the form of an aiming bar with diopter holes and front sight, placed in rigid bases fixed on a plastic barrel, characterized in that the plastic barrel is equipped with metal extensions or flanges rigidly fastened to its ends the rigid bases of the aiming strip and front sight are fixed on the plastic barrel with tie clamps, at the ends of which loops with cylindrical rods installed in them are formed screws tightened through the smooth holes of some rods and screwed into the threaded holes of others, while the hard bases of the aiming strip and front sight are made with surfaces in contact with the plastic barrel in a sector of at least 1/6 of the circumference of the plastic barrel, and cuts in the tie rods the clamps and the screws tightening them are placed so that the axes of the latter, when they are parallel transferred to the axis of the plastic barrel, are located in the area of the contact sector of the rigid bases of the aiming plate and front sight with the plastic barrel m  2. Grenade launcher according to claim 1, characterized in that the metal extension cords or flanges are rigidly fixed to the ends of the plastic barrel by means of thread or glue.  3. A method of matching the mechanical sight of a grenade launcher with the axis of the plastic barrel of its container, including putting the muzzle side of the container on the fixture mandrel with the cold shooting tube, rigidly fixed relative to the alignment target, installing the aiming bar along the alignment target vertically, pressing the barrel from the outside of the mandrel into the shooting plane, alignment of the line of sight with the corresponding mark on the alignment target, characterized in that before putting the container on the mandrel to the ends of the plastic barrel metal extension cords or flanges are rigidly attached to correct the shape of the channel of the plastic barrel, onto which an aiming strip is mounted, fixed in a rigid base perpendicular to the horizontal aiming strip visible through the sight, the surface of the front sight base, while the rigid bases of the aiming strip and front sight are secured with removable clamps, the ends which are pulled together by a force, the vector of which, parallel to the axis of the plastic barrel, is located in the hard contact sectors minutes sighting strips and patches from the outer surface of the plastic barrel.  4. A device for matching the mechanical sight of a grenade launcher with the axis of the plastic barrel of its container, containing a reconciliation target, a device for securing the container and a mandrel with a cold sighting tube, characterized in that it is provided with a rigid base with a stand to which the mandrel with the cold sighting tube is rigidly attached rigidly oriented to the alignment target, the mounting device is a screw or cam clamp of a plastic barrel to a mandrel located on top of a rack above Rawka in the shooting plane.

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