RU2571975C1 - Hand grenade launcher - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: claimed grenade launcher comprises launching tube-shape container provided with the barrel with inner chamfer at the front end, engine and grenade. The barrel is fitted in said container and locked by the barrel internal chamfer at converging cone made in the ballistic cap. The grenade comprises the base with the end shaped recess with the inner circular groove, fuse, bush with the grenade weight corrector and front cover of elastoplastic material. The grenade is provided with spherical cover changing in the radius into the cylinder. Said cover is fitted in said base unless locking of said circular collar in the base circular groove. The fuse is fitted in the base while the flanged bush is forced against the stop into the end circular cavity made in the base end shaped recess.

EFFECT: higher efficiency and reliability of fire.

3 dwg

Description

The present invention relates to the field of weapons and can be used in the development of portable non-return grenade launchers of single use.

Known hand grenade launcher / patent of Russia No. 92324132 dated 4.12.2006, IPC 7 F41F 3/042 /, containing a launch tube-container with a barrel with a grenade and an engine, a front cover, a trigger with a handle. In this case, the launch tube-container contains a front flange, and the front cover is made in the form of a ballistic cap protruding from the barrel of the ballistic cap mounted on a grenade. Moreover, the ballistic cap protrudes from the front flange.

The disadvantage of this design is that the front flange does not protect the ballistic cap from shock loads when the grenade launcher falls on the front end, because the cap protrudes from the front flange. As a result of this, shock loads act on the cap and are transmitted to the grenade through it. To avoid destruction of the cap and grenade from shock loads, it is necessary to strengthen them, which is associated with an increase in their mass. Moreover, due to the increase in the mass of the cap and grenade, it is necessary to strengthen the launch tube-container, which causes an additional increase in its dimensions and mass. This leads to an increase in the mass of the grenade launcher, as a result of which the operator’s maneuverability (arrow) decreases, and transportability worsens. The performance of the grenade launcher is deteriorating.

Known hand grenade launcher / Russian patent No. 92393410 02/17/2009, IPC 8 F41F 3/042 /, which is the prototype of the present invention and containing a launch tube-container with a front flange and a barrel with a grenade and an engine located in it, while on the front the end face of the barrel has an internal chamfer, a front cover in the form of a ballistic cap with an external cylindrical surface and with an animated part protruding from the barrel, a fuse and a trigger with a handle. At the same time, a support is installed on the grenade, in which an end profiled recess is made with an internal annular groove, a sleeve is coaxially mounted in the recess of the support, and the ballistic cap is made of an elastic plastic material. On the outer cylindrical surface of the ballistic cap, an annular protrusion is made, corresponding to the inner annular groove of the support, and on the inner side the ballistic cap is divided into annular sectors by radial bridges that converge on the outer surface of the cylindrical cup located in the central part of the ballistic cap. The inner surface of the cylindrical cup is parallel to the axis of the grenade and covers part of the outer surface of the sleeve. On another part of the outer surface of the sleeve, a grenade mass correction device is fixed, and a fuse is installed inside the sleeve. The ballistic cap of the grenade can be made of rubber, and the device for correcting the mass of the grenade in the form of a set of rings.

This design of the grenade launcher, with all its advantages, and this is an improvement in operational characteristics and increased accuracy by adjusting the mass of the grenade, has a significant drawback: when exposed to shock loads at an angle to the axis of the grenade launcher along the lively part of the ballistic cap in the region of its outer cylindrical surface (for example, transportation) the ballistic cap is deformed and part of the annular protrusion comes out of the inner annular groove of the recess of the support and moves. After the termination of the load, it is not possible to restore the original shape of the given outer surface of the ballistic cap due to the elastic deformation forces of the elastic plastic material (for example, rubber), because the annular protrusion due to the shift does not return to the inner annular groove of the support and is in contact with the surface of the recess. Because of this, the shape of the given outer surface of the ballistic cap is distorted, and a gap is formed between the support and the ballistic cap, which during the flight of a grenade significantly affect its aerodynamic characteristics. This leads to a deviation of the ballistic trajectory of the grenade from the calculated trajectory, resulting in reduced accuracy. The effectiveness of the grenade launcher is deteriorating. In addition, when a grenade meets for the purpose, the ballistic cap is deformed and works like a shock absorber. Moreover, the sleeve and the fuse installed in it limit the deformation of the ballistic cap and give the head of the grenade in the region of its central part a rigidity that is significantly higher than the rigidity of its peripheral part, provided only by the radial jumpers of the ballistic cap. In addition, the elastic-plastic material of the ballistic cap is not thermostable and its modulus of elasticity decreases with increasing temperature. Together, this leads to a decrease in the rigidity of the head of the grenade and, when its peripheral part interacts with the aim of reducing the overload on the fuse, which is not enough to fire an inertial fuse in the temperature range (from minus 50 ° C to plus 60 ° C) of the operation of the grenade launcher. Fuse failure leads to failure (detonation) of the warhead of the grenade, which reduces the reliability of hitting the target. The effectiveness of the grenade launcher is deteriorating.

The task of the invention is to increase the efficiency of the grenade launcher by improving the accuracy of shooting and the reliability of hitting a target in the operating temperature range.

This problem is solved by the fact that in a hand grenade launcher containing a launch tube-container with a barrel placed in it with an internal chamfer at the front end and with an engine and a grenade, including a support with a profiled end recess with an internal annular groove, a fuse, a bushing with mounted on it grenade mass correction device, front cover made of resiliently plastic material in the form of a ballistic cap with an external cylindrical surface with an annular protrusion and radially divided from the inside with jumpers and with an animating part protruding from the barrel and a trigger with a handle, the new one is that the barrel is installed in the launch tube-container to ensure the barrel is chamfered into a narrowing cone made on a ballistic cap, the grenade is equipped with a sphere-shaped lid along the radius passing into the cylinder, on the outer surface of which there is an annular thickening with an end ring cutout and an annular bead made in it, while the lid is mounted in the support until the count of the main flange in the inner annular groove of the support, the fuse is mounted in the support, and the sleeve is flanged, installed all the way into the end annular cavity made in the end profiled recess of the support, and pushed through the flanging of the cover, and on the cover there is a ballistic cap with an animated part with the inner side is divided into sectors by converging radial bridges at its apex, equidistant to the outer surface of the lid sphere, and its annular protrusion is placed on the annular thickening Ryshkov and interacts with the internal surface of the launch tube container.

Such a constructive solution provides:

1. Improving the effectiveness of the grenade launcher by improving the accuracy of shooting. This is achieved by providing the estimated ballistic trajectory of the grenade by completely restoring the original shape of the specified outer surface of the ballistic cap after the termination of impact on it.

Installing the barrel in the launch tube-container with the compression of the inner facet of the barrel in the tapered cone of the ballistic cap eliminates the possibility of shifting the annular protrusion of the ballistic cap when exposed to shock loading on its lively part, and also ensures the tightness of the grenade in the barrel.

2. Improving the effectiveness of the grenade launcher by increasing the reliability of hitting the target in the operating temperature range. This is achieved by installing a cap on the grenade, which limits the deformation of the ballistic cap and which, together with the ballistic cap, gives rigidity to the head of the grenade, which, when the grenade interacts, creates the overload necessary to fire the fuse over the entire operating temperature range.

In a ballistic cap, the division of the animated part from the inside into sectors with radial bridges converging at its apex provides acceptable deformation of the ballistic cap at any point of contact with the target. The number of radial jumpers and their sizes are determined from the conditions of the ballistic cap of the necessary rigidity.

The implementation of the cover in the form of a sphere, passing along the radius of the cylinder, allows you to place a fuse and a sleeve inside the cover with a grenade mass correction device installed on it.

Installing the cover in the support until the annular collar clicks into the inner annular groove of the support provides fastening of the cover in the support of the grenade, and pressing the sleeve through its flanging with the cover all the way into the end ring cavity of the support provides fastening in the support of the sleeve with the grenade mass correction device installed on it.

The execution on the outer surface of the cylinder of the cap annular thickening allows you to place on it a sealing unit of the grenade launcher from the front end, and the existing end ring cutout reduces the mass of the cap.

Placing the annular protrusion of the ballistic cap on the annular thickening of the lid and the interaction of the annular protrusion of the ballistic cap with the inner surface of the launch tube-container ensures the tightness of the grenade launcher from the front end.

The proposed solution is illustrated by graphic materials, where: in FIG. 1 - manual grenade launcher;

in FIG. 2 - the front of a hand grenade launcher;

in FIG. 3 - the inner side of the lively part of the ballistic cap of the grenade.

The proposed manual grenade launcher comprises a launch tube-container 1 and a trigger with a handle 2. Inside the launch tube-container 1 there is a barrel 3 with an inner chamfer 4 at the front end, a grenade 5 and an engine. A support 6 is installed on the grenade 5, in which there is an end profiled recess 7 with an internal annular groove 8 and an end annular cavity 9. A fuse 10 with an elastic seal 11, as well as a sleeve 12 with a flange 13 and a cover 14 are installed in the support 6. made in the form of a sphere 15, along a radius 16 passing into a cylinder 17, on the outer surface of which there is an annular thickening 18 with an end ring cut-out 19 and an annular bead 20. On the sleeve 12 there is a device for correcting the mass of a grenade 5 in the form of a set of rings 21, and on the cover fourteen - ballistic cap 22 made of elastic plastic material. At the same time, the ballistic cap 22 contains an animating part 23, an outer cylindrical surface 24 with an annular protrusion 25, and a tapering cone 26. On the inside, the animating part 23 of the ballistic cap 22 is divided into sectors 27 by radial bridges 28 converging at its apex and equidistant to the outer surface of the sphere 15 of the lid 14 .

Assembling the front of a hand grenade launcher is as follows.

The grenade mass correction device (set of rings 21) is mounted on the sleeve 12 until it stops in the flange 13 and fixed with a lock washer 29. A ballistic cap 22 is fixed on the cover 14 by placing an annular thickening 18 of the cover 14 in the inner annular recess of the ballistic cap 22. ballistic cap 22, the radial jumpers 28 of the lively part 23 are in contact with the outer surface of the sphere 15 of the cover 14, and its annular protrusion 25 is placed on the annular thickening 18 of the cover 14. Then an explosion is established in the support 6 of the grenade 5 Atelier 10 with an elastic seal 11, a sleeve 12 with a grenade mass correction device, and a cover 14 with a ballistic cap 22. Moreover, the cover 14 is installed until its annular collar 20 clicks into the inner ring groove 8 of the support 6, while pressing the sleeve 12 through its flange 13 to focus in the end annular cavity 9 of the support 6 grenades 5.

The assembled grenade 5 is installed in the barrel 3, ensuring that the inner facet 4 of the barrel 3 is pressed into the tapering cone 26 of the ballistic cap 22. After that, the barrel 3 with the grenade 5 is placed in the launch tube-container 1, while the annular protrusion 25 of the ballistic cap 22 interacts with the inner surface launch tube-container 1.

When launching a grenade, the operator (shooter), holding the trigger handle, sets the grenade launcher on his shoulder, takes aim and launches the grenade, which flies out of the grenade launcher barrel. When a grenade encounters a fuse, it detonates and detonates the warhead, which strikes the target over the entire operating temperature range of the grenade launcher.

Thus, in the proposed technical solution in comparison with the prototype provides an increase in the efficiency of the grenade launcher by improving the accuracy of shooting and the reliability of hitting the target in the operating temperature range.

Claims (1)

A hand grenade launcher containing a launch tube-container with a barrel placed in it with an internal chamfer at the front end and with an engine and grenade, including a support with an end profiled recess with an internal ring groove, a fuse, a sleeve with a grenade mass correction device installed on it, a front cover from an elastic plastic material in the form of a ballistic cap with an outer cylindrical surface with an annular protrusion and separated on the inside by radial bridges and protruding from the barrel an animating part and a trigger with a handle, characterized in that the barrel is installed in the launch tube-container to ensure that the barrel is chamfered into a narrowing cone made on a ballistic cap, the grenade is equipped with a lid made in the form of a sphere radially passing into the cylinder on the outer the surface of which there is an annular thickening with an end annular cutout and an annular bead made in it, while the lid is mounted in a support until the annular bead clicks into the inner annular groove to the fulcrum, the fuse is mounted in the strut, and the sleeve is flanged, installed all the way into the end ring cavity made in the end profiled recess of the strut, and pushed through the flanging of the cap, with a ballistic cap fixed on the cap, in which the animated part is divided into sectors from the inside radial jumpers converging at its apex, equidistant to the outer surface of the lid sphere, and its annular protrusion is placed on the annular thickening of the lid and interacts with the inner surface a launch tube container.

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