RU2704696C1 - Shot for a grenade launcher - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to shot design for automatic grenade launcher, grenade of which has conical part of bellows for reduction of front drag. Shot comprises a head fuse of the grenade, the body of which is equipped with driving belts and a spherical convex bottom inside the shank tapering back, geometrically closed with a detachable sleeve equipped with a power bushing, in the bottom flange of the propellant charge of the propellant charge. Power bushing bearing propellant charge is rigidly connected with shank in conjugation with its profile. Bushing is placed inside the sleeve and is spaced apart with a guaranteed gap commuting with the propellant charge confined by the combustible membrane and the shaped cover adjoining the spherical bottom of the body.

EFFECT: technical result consists in improvement of functional reliability of a more technically effective design of a shot for a grenade launcher with improvement of parameters of assignment for grouping aiming at increased range.

1 cl, 1 dwg

Description

The invention relates to a unitary small-caliber artillery ammunition, and more specifically, to the design of a shot for an automatic grenade launcher, the grenade of which has a conical earmuff to reduce drag.

The prior art is characterized by an artillery cartridge for an automatic grenade launcher according to patent RU 2295695 C2, F42B 5/02, F42B 1044, 2007, containing a projectile, on the tapering back of which a shaft with a central igniter capsule is secured by rolling in the cartridge grooves extractor flange.

The peculiarity of this cartridge is that the hollow shank of the shell of the shell, filled with a propelling charge, is adjacent to the bottom of the sleeve, while there is a damping gap between the shank of the shell and the shell, which is filled with powder gases when fired to equalize pressure, preventing wall spacing and jamming in the barrel sleeve .

The shell of the shell is equipped with explosive filling, which adjoins the head fuse, and is equipped with a leading belt, and corrugations are made in its thick-walled bottom to facilitate fragmentation into fragments.

The bottom undercut of the projectile, free from the burned propelling equipment on the flight path, and the narrowing of the rear of the shank provide aerodynamic drag reduction and longitudinal stabilization, which helps to increase the range of targeted shooting.

The disadvantage of the described artillery cartridge is its low firing range due to the propellant’s limited size of the bottom cavity of the shank and the unsatisfactory fragmentation effect when crushing the massive body bottom into large fragments that fly apart in a narrow sector, which worsens the purpose of the projectile.

The noted shortcomings are eliminated in the artillery small-caliber cartridge according to the patent RU 2611272 C2, F42B 5/02, 2017, which, according to the technical nature and the number of matching features, is the closest analogue to the proposed shot for a grenade launcher.

A well-known shot for a grenade launcher contains a head fuse adjacent to the explosive filling of the case, equipped with a leading belt and a hollow tail tapering behind the bottom, where a propellant charge is placed in a detachable sleeve carrying a central igniter capsule, which is doweled in the cartridge grooves.

A feature of the well-known shot is the execution of a composite sleeve: from a central cup carrying a propelling charge and rigidly connected from the side of its flange by a bandage - a power sleeve having a bell, rolled up on an open end, the shank of which is located between the parts of the sleeve.

The thin-walled convex bottom of the body has a spherical shape, which facilitates crushing into fragments with a wider angle of expansion in the sector of 25-30 °.

The implementation of the composite sleeve has allowed to increase the volume of the propellant propellant charge, which is located in the Central glass, protruding beyond the size of the shank.

At the same time, the strength of fastening the sleeve on the shank of the housing between its central glass and the socket of the power sleeve, rigidly mounted on the flange part of the sleeve, has increased.

The different configuration of the adjacent shank and the power sleeve forms interconnected gaps, which, when the grenade is functioning, are filled with gaseous products of combustion of the propellant powder charge, the equal pressure of which on both sides of the sleeve prevents its collapse on the shank, which would make it more difficult to shoot when shooting, significantly increasing the extracting force to separate the grenade from the sleeve.

A continuation of the noted advantages of the well-known shot for the grenade launcher is an inherent disadvantage, which is manifested in possible cases of destruction of the breech of the grenade due to unauthorized transfer of propellant gases into the gap between the external power sleeve mounted on the sleeve and the shank of the grenade, which reduces the functional reliability and safety of firing from grenade launcher.

In addition, the design of the known shot limits the possibility of lengthening the tail that is tapering posteriorly in order to significantly affect the longitudinal stabilization of the grenade in flight and to reduce the drag from the formation of a significant discharge by the cavity of the shank, which worsens the grenade destination performance.

The technical problem to which the present invention is directed is to improve the design of the shot for a grenade launcher and the technology for its manufacture to increase the range and accuracy of fire.

The required technical result is achieved by the fact that in a known shot for a grenade launcher containing a grenade head fuse, the body of which is equipped with leading belts and a spherical convex bottom inside the tail, tapering rearward, geometrically closed with a detachable sleeve equipped with a power sleeve, carrying an igniter capsule in the bottom flange propellant charge, according to the invention, the power sleeve carrying the propellant is rigidly connected with the shank in conjunction with its profile, while the sleeve is placed inside the sleeve and is separated with a guaranteed gap commuting with a propelling charge limited by a burning membrane and a profile cover adjacent to the spherical bottom of the housing.

Distinctive features of the proposed technical solution provided an increase in the functional reliability of a more technologically advanced shot design for a grenade launcher, while improving the targets for accuracy of aimed shooting at an increased range.

The rigid connection of the power sleeve with the shank in conjunction with its profile forms an extended tapering backward hollow part of the grenade body, which ensures its aerodynamic stabilization in flight due to the smooth flow around incoming air flows and reduction of backward discharge, which ensures accuracy of fire at an increased range.

Placing a propellant charge inside the power sleeve with which a curved cover and a burning membrane are pressed at the ends allows separate rigging of the case and sleeve, forming an autonomous assembly unit mounted by screwing the shank inward until it stops against the end, while the concave propellant cover mates with a convex bottom of the body. This simplifies the technology and forms a guaranteed gap between the power sleeve and the sleeve covering it, the dule rolled into the cartridge shank grooves.

The presence of this gap, which communicates with the internal volume of the power sleeve, eliminates its bloating (deformation of the wall to jam in the sleeve), since it is entirely under the general pressure of the gaseous products of combustion of the propellant charge.

The quasimonolithic shaft, elongated due to the integral connection of the power sleeve, tapering posteriorly at an optimum angle of inclination of 8 ° (typical for subsonic flight speeds of not more than 0.75 M, is an angle of 7-10 °), provides longitudinal stabilization of the grenade along the trajectory. This provides a noticeable decrease in drag coefficient due to a decrease in back pressure, with a subcritical diameter of the outlet of the sleeve, which excludes unauthorized increase in pressure of the gaseous products of combustion of the propellant charge.

The extension of the shank provided a 17% reduction, compared with the prototype, of the relative area of the output end face of the hull part from the midship of the grenade, which stabilized the grenade longitudinally in flight, ensuring a normal contact between the head fuse and the obstacle.

Therefore, each essential feature is necessary, and their combination is sufficient to achieve the novelty of quality that is not inherent in the signs of disunity, that is, the technical problem posed in the invention is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

Comparison of the proposed technical solution with the closest prior art analogues did not reveal an identical match of the totality of the essential features of the invention.

The proposed differences of the shot for the grenade launcher, which do not directly follow from the statement of the technical problem, are not obvious to the specialist in artillery small-caliber ammunition.

The manufacture of a shot according to the invention is possible at the current production in series.

From the foregoing, we can conclude that the invention meets the conditions of patentability.

The essence of the proposed invention is illustrated by a drawing, which has a purely illustrative purpose and does not limit the scope of claims of the totality of the features of the formula, which shows a shot for a grenade launcher.

A shot for a grenade launcher is a small-caliber (40 mm) unitary loading artillery ammunition for firing from a grenade launcher, which includes the grenade 1 itself with a head contact fuse 2, mounted in the sleeve detachable during firing, the dulse of which is rolled in the cartridge groove of the shank 4, forming a monolith official circulation unity - shot.

The case 5 of the grenade 1, filled with explosive equipment 6, has a convex spherical shape of the bottom 7 and is equipped with two ring flutes 8, which act as a master device that interacts with the combat faces of the spiral cut in the barrel of a weapon, forming a kinematic engagement for twisting the grenade around the longitudinal axis, what stabilizes its oriented position on the flight path.

Constructive calculation and practice of exploitation of grenades with a convex spherical bottom showed a significant increase in fragmentation in the rear hemisphere of the grenade, as well as hardening of the body, suitable for firing on an enhanced propelling charge.

The propelling charge 9 is placed in the central aerodynamic sleeve 12 and closed at the ends by a pressed figured cover 10 adjacent to the bottom profile 7, and from the side of the open bottom of the sleeve 12 - a burning membrane 11, which is pressed by the ring 13 pressed into the groove of the sleeve 12, by means of distributed punching ( six pieces), fixing their relative position.

The carrier sleeve 12, when screwed into the threaded hole of the shank 4, is equidistant (δ) with a gap of 14 relative to the inner profile of the sleeve 3, which ensures the tightness of the propellant charge 9 in the official circulation of the munition and when stored as an autonomous assembly unit.

In the flange 15 of the sleeve 3, an igniter capsule 16 is attached adjacent to the propellant charge 9 through the membrane 11, with which the open exit of the gap 14 is combined, which ensures the distribution of gaseous products of its combustion on both sides of the sleeve 12, which does not deform.

The proposed shot functions as follows.

When initiating the igniter capsule 16, a fire force is formed, which burns through the membrane 11 and ignites the propellant charge 9 in the sleeve 12.

When burning a powder charge 9, a large number of gaseous products are generated, as a result of which a sharp increase in pressure occurs inside the sleeve 12, under the influence of which the grenade 1 is removed from the barrel of the sleeve 3 held by the flange 15 in the breech of the grenade launcher.

The grenade 1 receives linear acceleration and rotation around the longitudinal axis due to the insertion of the grooves 8 into the spiral grooves of the weapon barrel, gyroscopically stabilizing on autonomous flight to the target.

On the flight path of the grenade 1 with a narrowed rearward of the aerodynamic sleeve 12, mounted on the shank 4, by that time free from equipment 9, the boundary layers of the incoming air flow are disrupted and a back-pressure is formed, which noticeably reduces the aerodynamic drag of the grenade 1 when flying over a long range. In this case, due to the displacement of the center of mass forward from the center of pressure of the munition, the longitudinal stability of the grenade 1 in flight is ensured and, therefore, the aiming accuracy of shooting.

When a grenade 1 meets an obstacle, a head fuse 2 is triggered, which initiates the detonation of explosive equipment 6 of the housing 5, as a result of which it is crushed, including a thin-walled spherical bottom 7, into damaging elements. When direct and reflected shock waves interact in a hollow aerodynamic bushing 12 and a liner 4, they are crushed into fragments, increasing the main damaging effect of a grenade 1, which is confirmed by tests of prototype ammunition.

Claims (1)

A shot for a grenade launcher containing a grenade head fuse, the case of which is equipped with driving belts and a spherical convex bottom inside the tail, tapering rearward, geometrically closed with a detachable sleeve equipped with a power sleeve, in the bottom flange carrying a propellant igniter capsule, characterized in that the power sleeve carrying a propelling charge is rigidly connected with the shank in conjunction with its profile, while the sleeve is placed inside the sleeve and spaced with a guaranteed clearance commuting I am with a propellant charge limited by a burning membrane and a profile cover adjacent to the spherical bottom of the body.

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