BG773Y1 - Small-size perforated cartridge - Google Patents

Abstract

The cartridge comprises a cartridge case with a metal charge and grenade of fragmentary or any other type, supplied with a detonator. The perforated cartridge can be fired from automatic or hand sub-barrel, grenade launchers of different caliber. The cartridge case is of one-body type, of high-strength light material. In it, by means of a thick-wall partition with holes, the following are separated on the back: high pressure chamber with metal charged fitted in it, membrane and lead decopperated agent, and in the front, in its thin-wall cylindrical part - a low-pressure chamber with part of the body with the bottom of the grenade fitted in it. The metal charge can be composed of one or several brands of fine-grain black and/or smokeless powder in selected, quantity and ratio, depending on the ballistic of the weapon. As far as the amount of the force for firing the grenade from the launcher, is determined only by the low pressure chamber alone, the fragmentation grenade of the cartridge is made of a composite body with a leading strip, containing cylindrical steel housing with circular grooves machined along its external surface and longitudinal grooves along its internal surface,semi finished fragments, and a bottom of high-strength light material bottom, connected to the housing. This determines the geometry, the overall dimensions and the mass of the fragments spread during the explosion from the crushing of the housing and their useful mass is duly increased, as well as the zone of destruction and energy of their piercing action, and the fragments from the bottom, spread in the rear semi-sphere of the space around the grenade have several times reduced radius of destruction, and accordingly reduced risk in having a close battle operation or in case of any possible premature explosions during the firing. The structure of the perforated cartridge allows that its make, apart from fragmentation grenade to be also made with a grenade of braking action (without filling) and with grenades of other design and filling (smoke, tear gas type, and others), with reduced cartridge mass, the grenades and the weapon with the ammunition belonging to it, as well reduced energy of the recoil during firing.

Description

(54) SMALL-CALIBRED IN LITERARIES

Technical field

The utility model refers to a small-caliber unitary shot intended to be fired by automatic or manual, incl. submersible grenade launchers of different caliber, filled with cartridge loading. The unitary grenade grenade, according to its device and equipment, can be fragmented, smoky, tearful, etc. The fragmentary grenade of a small caliber unitary shot serves to strike a living force, incl. protected by bulletproof vests, body armor, etc., as well as unarmored military equipment of the enemy in field and city conditions.

BACKGROUND OF THE INVENTION

In recent years, armies and special police forces in many countries have been increasingly using weapons of various size and caliber, automatic or manual grenade launchers, for firing distances of up to 2000 meters or more on smoky, smoky weapons. , tear grenades and other grenades of a suitable combat or other purpose. Particularly widespread is the use of single-barreled submarine grenade launchers at the standard assault rifle submachine guns, ordinary and automatic rifles, which dramatically increases and expands the combat capabilities of these weapons.

One of the known modern designs for such ammunition of the cartridge type is described in [1].

According to the description [1], the cartridge contains a projectile held by a sleeve. Threaded in the back thick part of the sleeve, the front sleeve forms a high pressure chamber comprising a throwing charge which is closed at the rear by another threaded sleeve with an ignition device mounted therein.

Outside the front sleeve there is a low pressure chamber, bounded by the walls of the cartridge sleeve and the base of the projectile. At the rear of the projectile, a tracer charge is located in the tube, the tube passing through an opening in the front sleeve in the high pressure chamber, and the projectile and the sleeve are connected to each other along the line of separation at the base of the projectile guide belt. The effort to eject the projectile from the sleeve is formed at the expense of the pressure in the two chambers of the cartridge - for high and low pressure. For this reason, the design of the projectile, in particular its rear, must be dimensioned in relation to the pressure of the projectile charge which develops in the high-pressure chamber and, accordingly, be thicker and heavier. The internal volume of the shell of such a projectile is occupied as much as possible by a burst (burst) charge, which is triggered by a front fuze.

Similarly, a 30 mm cartridge was mounted and operated on an automatic agitator launcher AGS-17 in service with the Bulgarian and other armies as described in [2].

In the cartridge, the projectile is mounted in a large-body steel sleeve of relatively small length, having a thick-walled bottom with a flange and a thin-walled cylindrical part, in which a throwing charge of a brand of gunpowder is placed between the bottom of the projectile and the bottom of the sleeve. At the bottom of the sleeve is mounted a means of igniting the throwing charge. In this cartridge the maximum pressure of gunpowder gases acts directly on the bottom and walls of the projectile and the sleeve, which requires their thickening and weighting to an even greater degree than the construction in [1] at the expense of the cylindrical-reviving part of the projectile.

[3] describes the construction of a 40 mm cartridge whose cartridge case is similarly designed to that of the cartridge as described [1]. The difference is mainly due to the fact that in this cartridge is used as a projectile fragmentation grenade with ready striking elements in the form of metal spheres (ball), which are held around the back of a thin-walled monolithic metal body with the bottom of an additional detail - a shell, and the length of the cylindrical part of the casing encloses semi-finished striking elements arranged around the casing in the form of metal rings. When a grenade explodes from a piezoelectric self-destructing fuze in front of it, numerous but small mass fragments of rings and balls spill over, creating a high-density fragmentation field, but limited to a radius of 10-15 m with a striking effect and oriented mainly in the back hemisphere of the space around the grenade.

Similarly, with other devices, 40mm mode cartridges also operate. M383 and M430 (USA) presented in [4].

As can be seen from their description, they are arranged with a hemispherical chamber in the back thick part of the cartridge sleeve with a M2 gunpowder (according to MIL-P-223 standard). US M2 is one of the brands black smoke gunpowder for military purposes). At the bottom of the sleeve thread is a closing cap, in which a shock-type capsule is placed on the side of the bottom, and a hemisphere is formed on the other side, forming the chamber for the throwing charge. At the same time it is also a high pressure chamber for the burning of gunpowder, which through openings in the partition is connected to a low pressure chamber in front of the sleeve, where a monolithic cylindrical steel housing with a bottom and a rotating belt is placed, the housing being filled only with a brilliant explosive (at M383) or with a cumulative charge (at M430). The front of the case is enclosed by a hemispherical thin ballistic cap - an animated one, below which is an instant-action fuse.

The analysis of known structures allows us to draw several basic conclusions about them, namely:

- The use of full-body steel casings in their design increases the passive mass of the cartridges and aggravates the weapon with wearable ammunition and when firing.

- The use of fragmentary full-body steel grenades with bottoms as well as constituents with bottom parts containing finished striking elements of a certain shape (spherical or otherwise), in addition to aggravation, also leads to an increased area of danger for their personnel from spill-over shatter in the rear hemisphere of the grenade space in close combat or in the event of premature rupture. This necessitates the distance of the firing of their fuze on the enemy's targets above 35-40 tons, which in close combat, especially in urban conditions, reduces the effectiveness of the weapon and impedes the actions of the shooter.

- The fragmentation of the shells of known grenades has been solved in ways that provide effective striking action against unprotected manpower within a radius of 5 to 15 tons, but there is no evidence of the striking effect of unarmored equipment or protected by individual means (bullet-proof vests, armor shields and etc. similar) the enemy's living force.

- Heavy grenade construction leads to increased energy of firing the weapon at the shooter and necessitates either its weighting in order to reduce the recoil velocity, or reduce the initial firing rate of the grenades, thereby reducing the combat properties of the weapon and ammunition.

- The presence of movable elements in the sleeve with the propellant charge and the ability to detach them from the sleeve under the action of gunpowder gases, such as exist in the article according to [1], creates prerequisites for failures and misfires if they remain unanswered in the channel of the weapon after shot.

- The use of threaded joints at the bottom of the sleeve and the use of additional sealing means creates prerequisites for the breakthrough of high-pressure gunpowder gases and their unacceptable impact on the parts of the weapon.

- The used smoke gunpowder as a propellant charge in accordance with the conditions for their ignition and combustion in the known structures create increased smoke and flammability of the shot and, consequently, increased disassociability of the shooter.

The technical nature of the utility model

The task of the utility model is to create a small-caliber unitary shot compatible with the known weapons in size and firing mode, but lightweight with reduced energy of delivery, increased efficiency and a zone of striking fragmentation at reduced risk to its personnel.

It is envisaged that the unitary shot shall consist of a shell with a throwing charge assembled between them and equipped with a fragmentary grenade with a front fuze, the housing of which has an integral structure - a steel cylindrical part with semi-finished striking elements (fragments) of defined geometry, dimensions and dimensions, and a base of high light metal.

The composite design of the housing with the bottom allows to increase the useful mass of the metal of the housing, passing into the fragments, which are moving forward and away, formed by its cylindrical part, and thus the energy and the zone of their striking action. At the same time, shrapnel from the bottom has reduced energy several times and, accordingly, reduced the dangerous rear area for the shooter in the space around the grenade in close combat, especially in urban environments, or in the event of premature ruptures.

The sleeve, in turn, is intended to be made of a lightweight material, such as a high-grade aluminum alloy, with a bullet-shaped charge chamber and a thin-walled cylindrical part for assembly with the shell of the grenade formed in its rear thick-walled part through a hemispherical or oval thick-walled bulkhead.

Behind the sleeve there is a bottom with a flange, in the opening of which is firmly and indistinguishably disposed a sleeve having an intermediate flange, with a centrally located capsule-igniter or other means of ignition of the impact type, and in the front of the sleeve is made with a hemispherical, oval or another recess forming the remainder of the throwing chamber.

As a throwing charge, it is possible to use both standard brands of black smoke gunpowder as well as higher-energy fine-grain smokeless gunpowder (spherical, porous, etc.), which improves energy and reduces the smoke and flammability of shot that unmasks position the shooter. For this purpose, the openings in the high-pressure chamber in which the propellant charge is placed are closed tightly with a thin-walled metal membrane.

For the shelling of the fragmentation grenade, explosive hexogenyl octogen-containing compositions with a relative burst charge density of not less than 0.95 are envisaged, thereby providing detonation velocities greater than 8200 m / s and thus a higher initial speed and greater penetration of flying fragments.

To ensure high reliability and trouble-free operation of the fragmentation grenade, the front fuse is intended to have a combined shock (instantaneous) and inertial action with a self-destructor with a pyrotechnic delay.

To improve the outer ballistics of the grenade, a thin-walled fairing, firmly connected to the grenade body and constructed in such a way as to ensure the proper functioning of the cartridge when loaded into the weapon and when the grenade is fired, is mounted on the fuze.

A cylindrical guide belt of suitable plastic material of mechanical strength is selected to seal the gunpowder at arrows and to give a rotational motion for grenade flight stability after taking off from the muzzle of the weapon in a grenade of the grenade body.

In the case of using a metal guide belt made of copper or copper alloys, a gunpowder is provided in the gunpowder charge.

The small caliber unit shot has the following advantages:

- Lightweight construction of its passive parts, and consequently reduced mass of the weapon with wearable ammunition and when firing.

- Improved usability of the grenade shell metal for the formation of useful impact elements (fragments) with increased energy and a zone of striking action, incl. the defeat of body armor and other special means of life and armor.

- Repeatedly reduced hazardous rear area in the area around the grenade for the melee shooter or in the event of premature bursting of the grenade, allowing safe shooting and effective target shooting at reduced firing distances up to 23.5 times compared to similar the enemy's weapons.

- Improved energy of the shot and reduction of the effect of the unmasking factors - smoke and fire - when firing.

- The complex construction of the shell with the bottom of the grenade allows it to be adapted for other types of equipment and the corresponding action of the grenade - smoky, tear-forming, etc., as well as its implementation of suitable elastic-plastic materials (without equipment) to exert a stopping effect. For example, a grenade can be arranged without bursting charge (such as a blast), wherein the housing with the bottom is made of a suitable elastic-plastic material as a whole with front elements formed to replace the fairing, the fuse and the other elements of the grenade associated with them.

Description of the attached figures

The utility model is illustrated with the attached figures as follows:

Figure 1 - small caliber unit shot with a fragmentation grenade.

Examples of implementation

Figure 1 shows a small-caliber unit shot 1 made up of a cartridge with a propellant charge 2 and a fragmented grenade 3 coupled to it with a front fuse 4 of the type described above.

The main element of the cartridge 1 is actually the entire housing 5, which is arranged, and in its rear thick part, ending with the bottom 6 and flange 7, along its axis is formed chamber for the propellant charge 8, ending with a thick wall 9 with hemispherical or oval. In the barrier 9, gas transfer openings 10 of such a diameter and number are constructed that the gaseous gases emitted during the combustion charge 8 pass into the anterior thin-walled cylindrical portion of the sleeve 5 and their pressure is reduced to a certain level, which guarantees the forcing of the joint with 5 grenade 3 and its launch at the appropriate starting velocity and energy of delivery on the weapon.

To ensure the normal ignition and burning of the propellant charge 8, at the beginning moment, the gas transfer openings 10 are closed by a thin-walled metal membrane 11, which also serves to seal the propellant charge 8. To clean the gun channel in grenades with a copper guide belt to the propellant charge 8 a lead deployer 23 can be added, which increases the life of the weapon.

At the rear of the sleeve 5, a sleeve 12 having an intermediate flange is formed firmly and non-removably, which in its front forms the throwing chamber 8, and at the back, an opening extending along its axis contains a non-removable shock-type capsule 13.

The fragmentation grenade 3 itself is arranged by placing a burst charge with a socket 17, pressed by a high-explosive explosive (B) in a housing with a bottom 14 composed of a cylindrical steel housing 15 and hermetically connected to it a bottom 16 of a high aluminum alloy. and at the front of the thread of the housing 15 is an adapter 18 with a washer 19 in which a fuse 4 is mounted. A thin-walled metal fairing 20 is rigidly mounted on the fuse holder 4 and the housing 15, which is tightly coupled by tapping into the grooves 21 of the housing 15.

Outside a separate groove of the housing 15 is a guide belt 22 of plastic material, to the stop, in which, in the thin-walled part of the sleeve 5 with a certain tension, the grenade 3 is touched, and in this section the sleeve 5 can be rolled into a groove of of the housing 15 behind the guide belt 22.

The housing 15 itself is constructed by means of the circumferential grooves 21 on its outer surface and symmetrically arranged longitudinal grooves on its inner surface that are shaped semi-finished striking elements, providing its programmed fragmentation of fragments of a certain geometry, dimensions, and mass.

Obviously, the practical implementation of the grenade and other types of equipment - with pyrotechnic compositions with smoke, tear and other deterrent action, placed in the housing with the bottom 14, which will accordingly change the action of the grenade.

Industrial applicability

The small caliber unit shot 1 can be fired from both automatic and handguns with cartridge loading, in the same way as its counterparts.

On firing after the shot is fired and the weapon striker ignites the capsule-igniter 13, the same ignites the throwing charge 8, which is a bulk powder of a brand of fine-grained gunpowder.

Upon reaching a pressure in the chamber of the propellant charge 8, sufficient for its stable combustion and above, the membrane 11 breaks into the area of the gas transfer openings 10 of the barrier 9 in the sleeve and the low-pressure gunpowder enters the volume of the thin-walled part of the sleeve 5 and the part of the shell located there with the bottom of the grenade, causing its forcing and movement. Thus, the chamber of the throwing charge 8 is a high-pressure gas generator, which does not act mechanically and through moving parts of the other elements of the shot and the weapon, feeding the extra-charge space in the weapon with low pressure gases during the forcing and movement of the grenade in it. .

At the expense of the cutting of the guide belt 22 in the channels of the barrel of the weapon, the grenade launches at a steady and angular speed, ensuring that the front fuse 4 is brought out and its steady flight of the trajectory to the target.

When hit or in the area, the fuse is fired and the grenade explodes. When the grenade is made to be fragmented, its exploding shell shreds its fragments along the lines of programming the fragments and creates a directional, mainly homogeneous or combined fragmentation field, according to the specified size and mass of the fragments. For example, the combination of 0.6-1.0 g and 1.5 g mass fragments provides damage to a wide range of targets - from unprotected and protected live power to unarmored motorized enemy vehicles within a range of 7 to 30 meters or more according to the purpose.

The small-caliber unitary shot 1 according to the utility model and the variants of the grenade implementation with the appropriate equipment and action can be produced from traditional materials and with technologies and technical means, traditional for the manufacturers in the branch, incl. from the arms industry companies.

Claims

Claims (5)

1. Small caliber shot fired, consisting of a black smoke gunpowder and a flame retardant assembly assembled into one unit at the rear, and a grenade (projectile) composed of a monolithic housing with a bottom and a guide belt, a burst charge and mounted in the front therein a fuse, characterized in that the sleeve with the propellant charge (2) is coupled to a fragmentation grenade (3) containing a composite housing with a bottom (14), a guide belt (22) of plastic material disposed thereon and provided with a front blower fuse (4) that is screwed to an assembled assembly The bottom housing (14) has an adapter (18) and is equipped with an inertial action mechanism and a self-destructor with a pyrotechnic delay, wherein the sleeve with the throwing charge (2) is arranged with the throwing charge (8) arranged in an axis-shaped a chamber in the rear thick-walled part of a whole-body sleeve (5) which is made of high lightweight material and ends with a bottom (6) with a flange (7), and the front thin-walled part of the sleeve (5) is separated from its rear by a thick-walled partition (9) hemispherical, oval or other shape, in which the barrier (9) is filled Our gas transmission openings (10) are of a certain size and number, with the openings (10) being closed and sealed by a thin-walled metal membrane (11) on the side of the charge chamber (8) and flange at the bottom (6) at the bottom. (7) a sleeve with an intermediate flange (12) is tightly and non-removably mounted, which in its front forms the throwing chamber (8), and at the back in the opening passing through it contains a non-removable capsule-igniter or other means of ignition. impact type (13), as part of the metal at the bottom (6) is compressed on the flange of the sleeve (12), and during assembly the grenade (3) is contacted by a certain tension on the back of the housing with the bottom (14) in the thin-walled part of the sleeve (5) to the stop in the guide belt (22), such as the sleeve ( 5) in this region it can be rolled into a groove of the housing with a bottom (14) located behind the guide belt (22). Small-caliber shot fired according to claim 1, characterized in that the throwing charge (8) consists of one or more brands of fine-grained smokeless gunpowder, spherical, plate or other shape, with a porous or porous structure, or arranged as a combination of smoke and smokeless gunpowder in a quantity and proportion selected according to the ballistics of the weapon, and according to the material from which the guide belt (22) of the grenade (3) is made, a lead deminer (23) can be added to the throwing charge (8). Small-sized unit fired shot according to claims 1 and 2, characterized in that the grenade (3) is arranged as a fragmentary shell, in which a housing with a bottom (14) consisting of a cylindrical steel housing (15) and hermetically connected thereto is formed. the bottom (16) is made of high lightweight material, by inserting a bursting charge (17) from a high-explosive explosive material, and the adapter (18) with a washer (19) between it and the forehead of the bursting charge is screwed into the front of the housing thread (15). (17), and a thin fuse is mounted on the fuse (4) and housing (15) mounted on the adapter (18). a female fairing (20) which is rigidly and fixedly connected to the housing (15) by flanging in one or more of the profile grooves (21) on its outer surface and in a separate groove outside the housing (15) a guide belt (22) is provided. ), with a groove for breaking the sleeve (5) formed behind the guide belt (22) on the housing (15), the steel housing (15) being formed as through annular outer grooves (21) and symmetrically arranged longitudinal inner grooves with depth from 0.15 to 0.35 mm of its thickness are profiled semi-finished striking elements. Small-sized unit fired shot according to claims 1,2 and 3, characterized in that in the housing with the bottom (14) of the grenade (3), the charge (17) is made of a pyrotechnic composition with a smoke, tear-forming or gas-forming deterrent effect. Small-caliber unit shot as claimed in claims 1,2 and 3, characterized in that the grenade (3) is arranged as a hull, wherein the housing with the bottom (14) is made of an elastic plastic material as a whole with elements formed in the front.