RU2522178C1 - Jet projectile warhead - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: warhead cylindrical case is connected with solid-propellant engine via adapter. Adapter is equipped with shell and load-bearing tension cup and has front end secured to mounting bush. Axial thin-wall shell is mounted at transverse membrane whereat ignition-explosive charge is fitted axially relative to head fuse to rest on plate damper. Chamber between the case and axial thin-wall shell is filled with detonating thermal mix of metal powder with combustible fluid. Threaded cap supporting head fuse is arranged at mounting bush rigidly secured by disc reflector inclined to warhead lengthwise axis. Said cap features identical calibre with cylindrical case. Cap central pipe abuts on replaceable ignition-explosive charge. Adjustable weight compensator is fitted on central pipe under threaded cap and composed by a set of rings.

EFFECT: higher efficiency.

1 dwg

Description

The invention relates to ammunition, in particular to rockets with a high-explosive fragmentation warhead, used to disperse equipment that is distributed in the atmosphere by detonating it.

The level of this technical field is characterized by a missile according to the patent of the Russian Federation No. 2156953, F42B 12/20, publ. 09/27/2000, which contains a solid propellant engine and an elongated warhead with a fuse connected to each other by a bearing shell (adapter), an axial detonator equipped with a transverse diaphragm-shaped shock wave reflector is installed in its body filled with a detonation mixture, while the casing is closed by a screw screwed into the technological bottom hole and is filled with a viscous fluid composition forming a detonation mixture.

The disadvantages of the described projectile are as follows.

The filling of the housing with a functional mixture with a guaranteed free technological volume for its thermal expansion at operating temperatures up to 60 ° C is not visually controlled.

As a result of thermal deformation of the threaded connections of the case with the screwed-on cover and the bearing shell, the ammunition is sealed, which leads to leakage of the filling and causes failures, as a result of which the operation of shells is unsafe as a whole for the multiple launch rocket system.

Cantilever mounting of the ignition-explosive charge detonator under conditions of transverse dynamic loading of shells during transportation in the launcher is unsatisfactory in reliability.

The high-explosive effect of the ammunition is reduced due to the almost instantaneous detonation of the thermal filling mixture when the shell is crushed by the energy of the propellant charge from the center.

Ignition of the generated aerosol in the cloud of the warhead’s body dispersed during the blasting of the warhead is caused by hot gaseous products of the propellant charge, which are rapidly cooled in air; therefore, volume detonation is characterized by incomplete combustion of the thermal mixture at the periphery, which reduces the efficiency of the thermobaric projectile damage.

The closest in technical essence and the technical result achieved is a multiple launch rocket shell according to the patent of the Russian Federation No. 2286531, F42B 12/52, publ. October 27, 2006, adopted by the authors as a prototype, the cylindrical body of the warhead of which is connected to a solid-fuel engine through an adapter equipped with a shell carrying a fueling skirt, and is fixed with a front end to the mounting sleeve, and an axial thin-walled shell is mounted on the transverse diaphragm, where the axial ignition-explosive charge, based on a plate shock absorber, to the main fuse, while the volume between the body and the axial thin-walled shell is filled with a detonative term a mixture of metal powder with a combustible liquid.

A disadvantage of the known missile is the limited mass filling of the housing with a thermal mixture due to its narrowing in the ogival head to the mounting sleeve and the narrow target orientation of the ignition-explosive charge, which is technologically rigidly connected with its axial shell, which does not allow the use of different thermal filling mixtures for the achievement of a given various damaging effects of ammunition.

Common signs with the warhead of the rocket proposed by the authors are the presence of a cylindrical body in the warhead, which is connected to the solid-fuel engine by means of an adapter equipped with a shell carrying a refueling skirt and fixed with a front end on the mounting sleeve, and an axial thin-walled shell is mounted on the transverse diaphragm, where located axial to the main fuse ignition-explosive charge, supported by a plate shock absorber, while the volume between the body and the axial thin the wall shell is filled with a detonation-friendly thermal mixture of metal powder with a combustible liquid.

Unlike the prototype, in the warhead of the rocket proposed by the authors on the mounting sleeve, which is tilted to the axial thin-walled shell by means of a disk reflector tilted to the longitudinal axis of the warhead, a threaded cap carrying the head fuse is made, made of the same caliber with a cylindrical body, the central pipe of which is adjacent to a replaceable ignition-explosive charge, and on the central pipe under the threaded cap an adjustable mass compensator is placed, made selected from a set of rings.

It is this that allows us to conclude that there is a causal relationship between the totality of the essential features of the claimed technical solution and the achieved technical result.

These signs, distinctive from the prototype, and to which the requested amount of legal protection applies in all cases are sufficient.

The technical problem to which the present invention is directed is to increase the power of the warhead of a rocket equipped with a replaceable ignition-explosive charge, respectively, with the type of thermal mixture of its filling and thereby ensuring the universality of the design of the projectile.

The specified technical result during the implementation of the invention is achieved by the fact that in a known warhead of a rocket, the cylindrical body of which is connected to a solid-fuel engine by means of an adapter equipped with a shell carrying a refueling skirt, and is fixed with a front end on the mounting sleeve, and an axial thin-walled shell is mounted on the transverse diaphragm , where the axial ignition-explosive charge is located at the head fuse, resting on a plate shock absorber, while the volume between catfish and an axial thin-walled shell is filled with a detonation-friendly thermal mixture of metal powder with a combustible liquid, the peculiarity is that on the mounting sleeve, which, by means of a disk reflector tilted to the longitudinal axis of the warhead, is rigidly connected to the axial thin-walled shell, a threaded cap carrying the head fuse is fixed the same caliber with a cylindrical body, the central pipe of which is adjacent to a replaceable ignition-explosive charge, and at a price tral pipe placed under the screw cap compensator adjustment masses formed from a set of rings.

Distinctive features of the proposed technical solution ensured the universality of a functionally reliable ammunition when using structurally different ignition-explosive charges as a replaceable component that initiates thermobaric or incendiary filling of the warhead of an uncontrolled missile, the mass of which is noticeably increased, compared to analogues.

A new set of structural elements, as well as the presence of connections between them, allows, in particular, due to:

- mounting sleeve, rigidly connected by means of a disk reflector tilted to the longitudinal axis of the warhead with an axial thin-walled shell, to increase the volume of the warhead, thereby increasing the mass of the detonation-resistant thermal mixture, and, consequently, the power of the ammunition;

- perform disk reflector, tilted to the longitudinal axis of the warhead, and used to shield the incident shock wave when the equipment is triggered, as well as to return the reflected shock wave in the direction of the body, to ensure its crushing into numerous damaging elements;

- fastening the threaded cover on the mounting sleeve, made of the same caliber with a cylindrical body, to form an animated warhead of the missile in the form of a truncated ellipsoid, which removes the shock wave of the incoming air flow from the body, thereby reducing its heating from friction, which prevents premature ignition thermal mixture filling. At a relatively high flight speed of the ammunition at a small firing range, noticeable aerodynamic drag from this form of the warhead does not occur;

- performing quick-detachable fastening of the threaded cap, it is technologically simple to ensure the mass balancing of the projectile by selecting the number of rings installed inside the cavity of the cap on its central branch pipe;

- performing the central pipe in the threaded cover, to ensure the installation of a head fuse in it, and under the threaded cover of an adjustable mass compensator, consisting of a set of rings, at the same time, due to the longitudinal supply of the screwed cap to the mounting sleeve, stop the pipe in a coaxial ignition-bursting charge ( different internal structure and functioning) and its clamping to the bottom shock absorber for gapless fixing of the latter in a universal thin-walled shell.

The essence of the invention lies in the fact that in the known warhead of a rocket projectile, the cylindrical body of which is connected to a solid-fuel engine by means of an adapter equipped with a shell carrying a refueling skirt, and is fixed with a front end on the mounting sleeve, and an axial thin-walled shell is mounted on the transverse diaphragm, where the axial igniter-explosive charge, based on a plate shock absorber, the volume between the body and the axial thin-walled shell fuses flax with a detonation-capable thermal mixture of metal powder with a combustible liquid, in contrast to the prototype, according to the invention, on a mounting sleeve, which is rigidly connected to an axial thin-walled shell tilted to the longitudinal axis of the warhead of the disk reflector, a threaded cap carrying the head fuse made of the same caliber is fixed with a cylindrical body, the central pipe of which adjoins a replaceable ignition-explosive charge, and on the central pipe under the thread the th lid placed an adjustable mass compensator made of a set of rings.

The essence of the invention is illustrated in the drawing, which shows the warhead of a missile.

A missile contains a warhead 1, rigidly bonded to a solid-fuel engine 2 with adapter 3, and equipped with a head fuse 4, a cylindrical body 5, an mounting sleeve 6, a shielding disk 7, an axial thin-walled shell 8, a transverse diaphragm 9, a detonative thermal mixture of 10 metal powder with flammable liquid, refueling skirt 11, bearing shell 12, cover 13, ignition-explosive charge 14, plate shock absorber 15, central pipe 16, threaded cover 17, stopper 18, regulator Rui mass compensator 19 formed from a set of rings.

The filling of the warhead with a detonation-resistant thermal mixture 10 is visually controlled by its level inside the refueling skirt 11, while the outside of which is guaranteed to form a free volume that acts as an expansion chamber (not shown conditionally).

Ignition-explosive charge 14 (which is a separate component unit assembly) in a thin-walled shell 8 is fixed by the central pipe 16 of the threaded cover 17, screwed onto the mounting sleeve 6, and fixed by a stopper 18.

On the Central pipe 16 under the threaded cover 17 is an adjustable mass compensator 19, made of a set of rings.

Warhead missile operates as follows.

When the projectile meets the ground or with an obstacle, a head fuse 4 is triggered, which initiates an ignition-bursting charge 14, the detonation pulse of which ignites its pyrotechnic composition, and also destroys the thin-walled shell 8. In this case, the thermal mixture compacted on the cylindrical body 5 is elastically compressed 10 , solid particles of a metal powder which do not stick together, because a film of a combustible liquid is adhered firmly to their surface.

In the detonation-sensitive thermal mixture 10, a shock pulse is formed, and then with a noticeable delay, a detonation front is formed, as a result of which plastic loading of the cylindrical body 5 occurs.

The shock front propagates longitudinally along the thermal mixture 10, reflected from the disk reflector 7 with a direction to the cylindrical body 5, and through the windows of the transverse diaphragm 9 to the bottom of the warhead, where it is reflected from the bearing shell 12.

In the plate shock absorber 15, the shock front is elastically damped, which prevents premature destruction of the transverse diaphragm 9.

Reflected shock pulses transmitted counter-along the cylindrical body 5 enhance the deformation effect of embrittlement of the material and its crushing into fragments.

The shock front causes the seal of the thermal mixture 10 on the cylindrical body 5, which ensures the accumulation of elastic deformation energy in it.

On the inner surface of the cylindrical body 5, a layer of compacted thermal mixture 10 is formed, which, when the cylindrical body 5 is crushed by the explosion energy of the explosive-explosive charge 14, is dynamically distributed into the atmosphere.

Under the influence of the expanding detonation products of the ignition-explosive charge 14, the thermal mixture 10 is uniformly sprayed, which is mixed with atmospheric air.

The red-hot fragments of the fragmented pyrotechnic composition of the ignition-explosive charge 14 distributed in the combustible thermal mixture 10 fly apart, together forming numerous foci of initiation of the fuel-air mixture. In this case, detonation of the formed aerosol cloud occurs.

The implementation of the warhead of a rocket in accordance with the invention provides increased power of the warhead of a rocket equipped with a replaceable ignition-explosive charge, respectively, with the type of thermal mixture of its filling and, thus, the universality of the design of the shell.

Claims (1)

The warhead of a rocket projectile, the cylindrical body of which is connected to the solid-fuel engine by means of an adapter equipped with a shell carrying a refueling skirt, and is fixed with a front end to the mounting sleeve, and an axial thin-walled shell is mounted on the transverse diaphragm, where the axial head fuse is equipped with an ignition-bursting charge on a plate shock absorber, while the volume between the body and the axial thin-walled shell is filled with a detonation-friendly thermal metal mixture powder with a combustible liquid, characterized in that on the mounting sleeve, which, by means of a disk reflector tilted to the longitudinal axis of the warhead, is rigidly connected to the axial thin-walled shell, a threaded cap carrying the head fuse is made, made of the same caliber with a cylindrical body, the central pipe of which is adjacent to interchangeable ignition-explosive charge, and on the Central pipe under the threaded cap is placed an adjustable mass compensator made of a set of rings.