RU2357197C1 - Fuel/air explosive payload of jet missile - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: invention concerns ammunition. Payload includes case, shell, fuel composition, fuse and projectile charge. Shell consists of internal and external tubes connected by annular butt bottoms. Internal shell tube has variable diametre increasing in fuse direction, and external surface profile of projectile charge is equidistant to internal shell tube profile. Front butt bottom thickness if proportional to maximum overload affecting payload at the moment of hitting ground, and rear butt bottom thickness is proportional to maximum overload affecting payload by movement through active travel section.

EFFECT: enhanced efficiency of fuse effect due to increased useful storage volume for fuel composition and regular distribution of composition.

1 dwg

Description

The invention relates to the field of military equipment and can be used in the development of rockets with a head part of a volume-detonating type.

In the head part of the volume-detonating type, the shock factor is the shock wave arising from the detonation of the combustible-air mixture formed by dispersing the combustible composition by means of a propellant charge, that is, in fact an explosive effect.

Known ammunition for US patent No. 3974774, F42B 13/46, 1976, adopted as an analogue. It contains a housing filled with a combustible composition, a fuse and a propellant charge from an explosive.

In this munition, the detonator provides detonation of a propellant charge, as a result of which a shock wave is formed in the combustible composition, crushing it and dropping it into a droplet state (“Pulse Dispersion of Liquid Volumes.” Omelchenko AF, Okhitin VI in the journal “Defense” equipment ”No. 3, 1994). The dispersed fuel composition is mixed with air and the resulting volume of the air-fuel mixture detonates, creating a shock wave. A significant drawback of this design is the low degree of fragmentation of the combustible composition and the uneven distribution of droplets of the combustible composition over the volume of the air-fuel mixture, which prevents the obtaining of high and stable high-explosive characteristics. This design allows for a volumetric explosion with small amounts of combustible composition in small-caliber ammunition.

Thus, the objective of this technical solution was to provide a volumetric explosion with small amounts of combustible composition in small-caliber ammunition.

Common signs with the design of the warhead proposed by the authors is the presence of an analogue body, fuse, combustible composition and propellant charge.

More perfect and the closest in technical essence and the achieved technical result is the volume detonating warhead according to the patent of the Russian Federation No. 2293280, F 12/24, adopted by the authors for the prototype. It includes a housing, a fuse, a combustible composition in a balloon-type shell and a propellant charge.

In this design, by placing the combustible composition in the shell with a certain clearance relative to the warhead body and choosing the optimal length and diameter of the propellant charge of a cylindrical shape, an increase in the degree of crushing and droplet size stability of the combustible composition is achieved. Bench tests of this warhead showed a significant increase in the efficiency of high-explosive action with a certain ratio of the mass of the combustible composition and the mass of the propellant charge (at the level of 10 ... 15). Attempts to increase the zone of destruction of the volume detonating warhead by increasing the mass of the propellant charge did not give a positive result. This is due to the fact that when a propellant is triggered, all drops of the combustible composition receive a radial velocity close in magnitude. An increase in this speed does not give a significant increase in the volume occupied by the air-fuel mixture, since, simultaneously with an increase in the maximum radius of expansion of the droplets, the radius of the zone immediately adjacent to the body of the warhead, in which there are no drops of the combustible composition, increases. In this zone, the energy of the shock waves generated during the detonation of the combustible composition is suppressed, and the effectiveness of the lesion is significantly reduced. In addition, with a limited total internal volume of the warhead, an increase in the mass and size of the propellant charge is usually accompanied by a decrease in the volume of the combustible mixture, which can even lead to a decrease in the area of destruction. The shell with a combustible composition in the prototype is made in the form of a cylinder with a constant wall thickness, the value of which is regulated by the maximum loads experienced by the warhead as part of a missile. This design is technologically advanced, but leads to a decrease in the effective internal volume allocated for the combustible composition, and, consequently, to a reduction in the potential effectiveness of the warhead.

Thus, the objective of this technical solution is to increase the degree of fragmentation of the combustible composition and increase the efficiency of the high-explosive action of the volume detonating warhead, regardless of the ratio between the mass of the combustible composition and the mass of the propellant charge.

Common features with the design of the volume-detonating head part proposed by the authors is the presence in the prototype of a shell with a combustible composition, a body, a fuse, and a propellant.

Unlike the prototype, in the proposed volume-detonating warhead, the shell containing the combustible composition is made of inner and outer tubes connected by annular end bottoms, the inner tube of the shell having a diameter that is variable in length and increasing in the direction of the fuse, the thickness of the front and rear end bottoms are selected from ratios: Δ _P = k ₁ n _n ; Δ _З = k ₂ n _a , and the profile of the outer surface of the propellant charge is equidistant to the profile of the inner tube of the shell,

where Δ _P is the thickness of the front (facing the fuse) end bottom;

Δ _З - the thickness of the rear end bottom;

n _a is the maximum overload experienced by the warhead when moving on the active part of the trajectory;

n _n is the maximum overload experienced by the warhead when meeting with the ground;

k ₁ , k ₂ - proportionality coefficients, depending on the mass of the combustible composition and the material of the bottoms.

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

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

The objective of the invention is to increase the efficiency of the high-explosive action of a volume-detonating warhead by increasing the net volume under the combustible composition and its more uniform distribution in the warhead's operating area.

The specified technical result during the implementation of the invention is achieved by the fact that in the known volume detonating warhead of a rocket containing a shell, a combustible composition, a housing, a fuse and a propelling charge, the feature is that the shell is made of inner and outer tubes connected by annular end bottoms, moreover, the inner tube of the shell has a diameter variable in length, increasing in the direction of the fuse, the thickness of the front and rear end bottoms are selected from the ratios: _{N 1} = k _n n; Δ _З = k ₂ n _a , and the profile of the outer surface of the propellant charge is equidistant to the profile of the inner tube of the shell,

where Δ _P is the thickness of the front (facing the fuse) end bottom;

Δ _З - the thickness of the rear end bottom;

n _a is the maximum overload experienced by the warhead when moving on the active part of the trajectory;

n _n is the maximum overload experienced by the warhead when meeting with the ground;

k ₁ , k ₂ - proportionality coefficients, depending on the mass of the combustible composition and the material of the bottoms.

A new set of structural elements, as well as the presence of connections between the nodes of the claimed volume detonating warhead of a rocket allow, in particular, due to:

- execution of the shell of the inner and outer pipes connected by front and rear annular end bottoms, the thicknesses of which are selected from the relations: Δ _P = k ₁ n _n ; Δ _З = k ₂ n _a , to ensure, with a limited internal volume of the warhead, placing the maximum volume of the combustible mixture by performing a vessel under the combustible composition with a variable, minimum allowable wall thickness. The implementation of the rear end bottom with a thickness proportional to the maximum overload on the active section of the trajectory (n _a ), allows to obtain the maximum volume of the vessel while excluding the possibility of destruction in the acceleration section of the rocket, and the thickness of the front bottom, proportional to the maximum overload when meeting the ground (n _n ), - destruction at the time of approach to the goal. The proportionality coefficients (k ₁ , k ₂ ) are selected depending on the mass of the combustible composition and the bottom material;

- execution of the inner tube of the shell with a diameter variable in length, increasing in the direction of the fuse, and the profile of the outer surface of the propellant charge, which is equidistant to the profile of the inner pipe, that is, repeating its profile, allows you to most evenly distribute droplets of the combustible composition in the area limited by the maximum radius of expansion. In this case, when the propellant is triggered, droplets of the combustible composition receive different radial velocities. Drops located in the zone of the largest diameter of the inner tube of the shell and, accordingly, of the largest diameter of the propellant charge receive the highest speed, and the smallest - drops located in the zone of the smallest diameter of the inner tube of the shell and, accordingly, the smallest diameter of the propellant charge. As a result, the volume occupied by the droplets of the combustible composition after spraying them does not look like a cylindrical pipe, as in the prototype, but a truncated cone with a base diameter significantly exceeding its height, which ensures a more uniform distribution of droplets of the combustible composition in the radial direction. Due to the increase in the diameter of the inner tube of the shell in the direction of the fuse, the larger base of the conical volume occupied by the air-fuel composition is located at the surface of the earth, where most of the targets are located, and, in addition, when the mixture is detonated, the direction of propagation of shock waves has a component directed towards the center of the zone. This allows you to effectively hit both targets located at a small distance from the head, and targets located on the periphery from it.

Signs that distinguish the proposed technical solution from the prototype are not identified in other technical solutions in the process of patent research, which allows us to conclude that the invention meets the criterion of "novelty."

Studying the level of technology during the patent search for all types of information available in the countries of the former USSR and foreign countries, it was found that the proposed technical solution clearly does not follow from the prior art, therefore, we can conclude that the criterion of "inventive step" is met.

The invention is illustrated in the drawing, which shows a General view of the proposed design volume detonating warhead of a rocket. It consists of a housing 1, fuse 2, propellant charge 3, a combustible composition 4, placed in a shell consisting of outer 5 and inner 6 pipes and front 7 and rear 8 end ring bottoms. The inner tube of the sheath 6 has a diameter of variable length, increasing from d ₂ in the rear to d ₁ in the area of the fuse. The thickness of the front end bottom 7 is Δ _P = k ₁ n _n , and the rear bottom 8 is Δ _З = k ₂ n _a. The profile of the outer surface of the propellant charge 3 is equidistant to the profile of the inner tube of the shell 6, that is, it repeats it.

The operation of the described device is as follows.

After the launch of the rocket, the inertial load from the combustible composition 4 is proportional to the overload n _a on the rear end bottom 8. When approaching the ground, an inertial load of the opposite sign occurs, proportional to n _n perceived by the front end bottom 7. The proposed ratios for the thicknesses of the bottoms allow you to place the maximum amount of combustible composition in the head part and maintain the performance of the structure in the process of delivering it to the target. When in contact with the ground, fuse 2 fires, causing detonation of the propellant charge 3. Under the influence of detonation products, the shell 1 is destroyed and the fuel composition is thrown, a cloud of the air-fuel mixture in the form of a truncated cone with a uniform distribution of droplets of the fuel composition in it, its detonation and highly effective target hit .

The implementation of the volume-detonating warhead in accordance with the invention allows for 20 ... 30% to increase the efficiency of high-explosive action by increasing the net volume under the combustible composition and its more uniform distribution in the warhead area.

The invention can be used in the development of volume-detonating warheads of rockets of multiple launch rocket systems and aviation weapons.

The specified positive effect is confirmed by testing prototypes of warheads made in accordance with the invention.

Currently, design documentation has been developed, flight tests have been conducted, and mass production is scheduled.

Claims (1)

A volume detonating warhead of a missile containing a body, a shell, a combustible composition, a fuse and a propellant charge, characterized in that the shell is made of inner and outer tubes connected by annular end bottoms, the inner shell tube being made with a diameter varying in length and increasing in direction fuse, and the profile of the outer surface of the propelling charge is equidistant to the profile of the inner tube of the shell, while the thickness of the front end bottom is proportional to the maximum the overload experienced by the warhead when meeting with the ground, and the thickness of the rear end bottom is proportional to the maximum overload experienced by the warhead when moving on an active section of the trajectory.