RU2539077C1 - Jet spinning projectile cassette-type warhead - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: cassette warhead comprises shell, units of combat elements serially coupled in sets and provided with perforated jackets and cylindrical adapters with textile stabilisers, pyro devices of triggering of actuators and combat element ejection. Combat element sets are laid in said shell parallel with warhead lengthwise axis while their sets lengthwise axes are spaced from shell axis and are parallel therewith. Spacing between axes of two combat elements makes 0.10-0.25 of warhead calibre.

EFFECT: higher efficiency and reliability of warhead.

3 dwg

Description

The invention relates to the field of rocketry, and in particular to a cluster head of rockets of multiple launch rocket systems.

One of the main directions of increasing the combat effectiveness of weapons models is the development of multiple missiles equipped with warheads of a cluster type.

Improvement of cluster warheads is in the direction of finding rational layouts that ensure the laying of combat elements with the largest mass of their warheads, optimal methods of dispersing them over a given area in the target area.

The object of the invention is a cluster head of increased combat effectiveness and reliability.

Known cluster head of a rotating rocket according to the patent of the Russian Federation No. 2186330, class. F42B 12/58, comprising a casing, a frame, an outburst charge, large-sized cylindrical combat elements, the longitudinal axes of which coincide with the axis of the casing. The expelling charge ejects combat elements along the axis of the hull. The design of the warhead allows us to solve the problem of the orderly placement and delivery of warheads to the target area, increasing the reliability of the ejection of warheads by increasing the rigidity of its structure and further independent breeding of warheads. The requirements for the dispersion of combat elements over the target area are provided by their design.

Known cartridge head according to the patent of Russian Federation No. 2291380, class. F42B 12/58, comprising a shell, combat elements docked in series with each other in columns, pyrotechnic charges of removing the stages of protection of fuses of military elements and putting them into a combat position, separation of the cartridge warhead. The pyrotechnic charge is made in the form of a gas generator equipped with a cooler.

The objective of this technical solution was to increase the effectiveness of the cassette head, increase the reliability of its operation.

Common features with the design of the cassette head of a rotating missile proposed by the authors are the presence of shell analogs, combat elements stacked together in series in columns, pyrotechnic devices for cocking the actuating units of the combat elements and ejection of elements from the shell.

Such a technical solution allows for the opening of the shell and the release of combat elements, to increase the reliability of the functioning of the cluster head and efficiency.

Improving the reliability of the functioning of the cartridge head is ensured by the selection of the optimal geometric parameters of the gas generator and the cooler, the ratio of the masses of their charges, the choice of temporal characteristics of the gas generator. However, a strong penetration of one warhead into another up to 0.5 of its length when developing rockets with an increased flight range, and therefore, the speed of movement, is not always justified, both in terms of the reliability of their breeding after ejection from the shell due to increased aerodynamic forces, as well as the required dispersion characteristics and combat effectiveness of the cluster head. In addition, the dispersion of combat elements is provided due to the increased charge mass of the pyrotechnic device (gas generator).

The closest in technical essence and the achieved technical effect associated with an increase in the dispersion area and a more uniform distribution of combat elements over the target area is the design of the cartridge head according to the patent of the Russian Federation No. 2443967 dated November 2, 2010 (published on February 2, 2012) accepted by the authors for the prototype. The cassette head contains a shell with bottoms, a cartridge with warheads in the form of a head and bottom sections, free warheads in blocks connected by a perforated casing, a piston, expelling charge, a safety-actuating mechanism, a gas generator, etc.

This design allows you to increase the area of dispersion of combat elements by means of pyrotechnic devices (knockout charge, safety-actuating mechanism, etc.) to a greater extent in the direction of fire and their more uniform distribution over the target area. The cartridge warhead is designed to deliver to the target area a large number of small-sized combat elements to defeat a certain type of targets with a low degree of protection.

Further improvement of the design of the cluster head in terms of increasing combat effectiveness leads to the need to increase the dispersion area of combat elements also in the lateral direction from the direction of flight of the rocket, increase the combat effectiveness of each element, develop a unified warhead with optimized overall-mass characteristics of combat elements, and minimize weight stabilizer and charge pyrotechnic devices.

Common signs with the proposed cluster head of a rotating missile is the presence in the prototype of the shell, blocks of combat elements, stacked between each other sequentially in pillars and oriented by the warhead to the stabilizer of the next element, perforated casings connecting the pillars into blocks, pyrotechnic devices for cocking the executive units of the combat elements and ejecting blocks from the shell.

Unlike the prototype, in the proposed cluster head of a rotating rocket, the blocks of warheads are stacked in the shell of the cluster head parallel to its longitudinal axis and the longitudinal axis of the pillars of elements are removed at different distances from the axis of the shell and parallel to it, while the distance between the axes of the two warheads in nearby columns of both one unit and the adjacent column of the neighboring unit is 0.10 ... 0.25 caliber cartridge head, each combat element in the bow ene cylindrical nozzle, which includes the subsequent combat stabilizer element, and the stabilizer made of a textile material, wherein the submunitions are oriented in each column of the stabilizer in the front of the cassette shell head.

This 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, are sufficient in all cases.

The objective of the invention is to increase the combat effectiveness of the cluster head of a rotating rocket and operational reliability by increasing the number of warheads and, consequently, the total weight of their warheads by ensuring their tight stacking, minimizing the overall mass parameters of the stabilizers, optimizing the distance between the axes adjacent combat elements, and therefore its caliber, the orientation of the elements with the stabilizer towards the front of the shell, and Conversely, in the direction of the missile’s flight in order to reduce the time for the elements to fly out of the column, to parry the initial angles of attack and to approach the target vertically, which allows reducing the head opening height, reducing wind sensitivity and lateral drift of the elements.

The specified technical result is achieved by the fact that in the cluster head of a rotating rocket containing a shell, blocks of combat elements docked together in series in columns and oriented by the warhead to the stabilizer of the subsequent element, with perforated casings connecting the columns into blocks, pyrotechnic devices for cocking the actuating units combat elements and the ejection of blocks from the shell, according to the invention, the blocks of combat elements are laid in the shell of the cassette head of the pair Along its longitudinal axis and the longitudinal axis of the pillars of elements are removed at different distances from the axis of the shell and parallel to it, while the distance between the axes of two combat elements in adjacent pillars of both one block and the adjacent column of the neighboring block is 0.10 ... 0 , 25 caliber cartridge warhead, each combat element in the bow is equipped with a cylindrical nozzle, which includes the stabilizer of the subsequent combat element, and the stabilizer is made of textile material, while the combat elements Oriented in each column by the stabilizer towards the front of the cassette head shell.

The authors of the invention carried out experimental studies on stands and wind tunnels, aimed at finding technical solutions to increase the combat effectiveness of the cluster head of a rocket and reliability of operation by increasing the total weight of the warheads of elements, minimizing the overall mass parameters of their stabilizers, orientation of warheads , increase the area of dispersion of elements, increase the reliability of their breeding after ejection from the shell, reliability fu ktsionirovaniya cassette head part of a whole.

A new set of structural elements, as well as the presence of connections between the parameters of the claimed cassette head part, allowed, in particular, due to the following:

- stacking units of combat elements parallel to the longitudinal axis of the shell - to ensure maximum density, orderly styling, oriented expansion of combat elements after opening the perforated casing of the block, reduce the time of expansion of elements from the pillar, parry the initial angular perturbations of the combat elements and exit them to the vertical combat position at the target, which allows to increase the reliability of operation and combat effectiveness, reduce the opening height of the cluster head, increase the firing range of the react Nogo projectile;

- orientation of the axes of the pillars of warheads parallel to the axis of the shell and at different distances from the axis of the shell - to ensure uniform distribution of warheads in the direction perpendicular to the flight of the cluster head due to the use of centrifugal forces acting on the elements, increase the probability and reliability of target destruction, increase the spread area elements and the width of the affected area, increase the combat effectiveness of the cluster head;

- the distance between the axes of 2 combat elements in adjacent pillars of both one unit and the adjacent column of the neighboring unit within 0.10 ... 0.25 caliber of the cartridge head - to ensure the greatest probability and effectiveness of the damaging action of the cartridge head due to optimization characteristics of combat effectiveness and the zone of destruction of each combat element and the required zone of destruction of specified areal targets. Performing a distance between the axes of elements of more than 0.25 caliber of the cluster head leads to an increase in the caliber of a combat element and an increase in its individual combat effectiveness, a decrease in their number in the shell, but reduces the likelihood of hitting targets across the entire width of the dispersion zone of elements. Fulfillment of the distance between the axes of the elements less than 0.10 caliber of the cluster head leads to a decrease in the combat effectiveness of each element, a decrease in the caliber and its overall mass characteristics, the probability of reliable and effective destruction of targets by the cluster head is reduced;

- a cylindrical nozzle in the bow of each combat element, which includes the stabilizer of the subsequent element - to increase the reliability of the protection of the stabilizer from textile material from the action of hot gases during the operation of the pyrotechnic devices for cocking the actuating units of the combat element and ejecting blocks of elements, compact stacking of elements in the columns, reduce the collapse of the pillar of elements, pulling the stabilizer of the subsequent element, to increase the effectiveness of the damaging action of the warhead of the element due to the formation of a given direction of impact on the target;

- a stabilizer made of textile material - to ensure the greatest combat effectiveness of the element by increasing the weight of its warhead with the minimum dimensions and weight of the stabilizer, which leads to an increase in the combat effectiveness of the cassette head as a whole;

- orientation of the warheads in each column by the stabilizer towards the front of the cassette of the cartridge head - reduce the time of expansion of the elements from the column due to the resistance force of the stabilizer, which creates an aerodynamic moment relative to the center of mass of the element, parry the initial angular perturbations of the elements during undocking and exit into vertical combat position at the target, which increases the reliability of the operation of the element and the warhead as a whole, reduces the opening height of the warhead, reduces wind sensitivity of the element and its lateral drift, increase the range of the projectile.

The invention is illustrated by drawings, where figure 1 shows a General view of the cartridge head part, figure 2 shows a cross section of the head part, figure 3 shows a longitudinal section of a column of combat elements.

The cassette head of a rotating missile consists of a shell 1, blocks 2 of combat elements 3, columns 4 of combat elements. Combat elements 3 consist of a warhead 5, a stabilizer 6 of textile material (for example, of kapron ribbons). Columns of 4 elements are connected into blocks 2 by means of perforated casings 7. The combat elements are brought into working position by a pyrotechnic device 8, blocks of 2 elements are ejected from the shell 1 by a pyrotechnic device 9. The nose of element 3 is equipped with a cylindrical nozzle 10, which includes a stabilizer 6 of the subsequent element when stacking them in posts 4.

Blocks 2 of combat elements are laid in the shell 1 of the cartridge head parallel to its longitudinal axis and the longitudinal axis of the pillars of 4 elements are removed at different distances from the axis of the shell 1 and parallel to it, while the distance L ₂ between the axes of two combat elements 3 in adjacent columns as one unit 2, and adjacent to the column of the neighboring unit (L ₁ ) is 0.10 ... 0.25 caliber d cluster head part. Combat elements 3 are oriented in each column 4 by a stabilizer towards the front of the shell 1 of the cassette head.

Cassette head of a rotating missile works as follows. At a given point in the flight path of the rocket, the device 8 is triggered and the gas pressure through the perforated casing 7 cockes the actuating units of the combat elements in the working position. After a specified period of time, the device 9 is activated and the blocks of 2 elements are pushed out of the shell 1 of the head part. Blocks are scattered both in the direction of flight of the rotating rocket and in the radial direction due to centrifugal forces acting on them during the rotation of the projectile. Regulation of the angular velocity of rotation of the rocket provides the magnitude of the dispersion of blocks of combat elements. Next, the pillars of 4 elements are released from the perforated casings, the elements diverge from each other from the column due to the aerodynamic forces acting on the stabilizer of each element that creates torque relative to its center of mass, parry the initial angular perturbations and a vertical approach to the target. The nozzles 10 of the previous element pulls the stabilizer of the next element, reducing the collapse of column 4.

Due to the orientation of the warheads in each pillar, the stabilizer towards the front of the shell of the warhead reduces the time to parry the angular perturbations of the elements and goes into a vertical combat position, which increases the reliability of the operation of the element and the warhead as a whole, reduces the opening height of the warhead, and increases the flight range rocket projectile.

Performing the distance between the axes of 2 combat elements in adjacent columns of both one block and the adjacent block of an adjacent block within 0.10 ... 0.25 caliber d of the warhead provides the greatest effectiveness of the damaging action of the cartridge warhead by optimizing the ratio of the characteristics of the warhead the effectiveness of each combat element and the required destruction zone of the set area targets.

Laying blocks of combat elements parallel to the longitudinal axis of the shell ensures orderly styling, oriented expansion of combat elements after opening the perforated casing, reduces the time of parrying the initial angular disturbances. The orientation of the axes of the pillars of warheads parallel to the axis of the shell and at different distances from the shell ensures uniform distribution of warheads in the direction perpendicular to the flight of the rocket, using centrifugal forces, allows you to increase the dispersion area of the elements and the width of the affected area, increase the combat effectiveness of the cluster head .

The specified positive effect is confirmed by flight design tests of rotating rockets of multiple launch rocket systems with a cluster head made in accordance with the invention. The proposed technical solution allowed to increase the combat effectiveness of the cluster head, to provide a given dispersion of combat elements in the target area both in the flight direction and in the lateral direction

Currently, design documentation has been developed for the proposed cluster head of a rotating rocket, flight tests have been conducted, and mass production has been scheduled.

Claims (1)

A cassette head of a rotating missile containing a shell, blocks of combat elements docked in series with each other in columns and oriented by the warhead to the stabilizer of the subsequent element, with perforated casings connecting the pillars into blocks, pyrotechnic devices for cocking the actuating units of the fighting elements and ejecting the blocks from the shell, characterized in that the blocks of combat elements are laid in the shell of the cartridge head part parallel to its longitudinal axis and the longitudinal axis of the pillars nts are removed at different distances from the axis of the shell and parallel to it, while the distance between the axes of two combat elements in adjacent columns of both one unit and the adjacent column of the neighboring unit is 0.10 ... 0.25 caliber cartridge head part, each the warhead in the bow is equipped with a cylindrical nozzle, which includes the stabilizer of the subsequent warhead, and the stabilizer is made of textile material, while the warheads are oriented in each column with the stabilizer in the direction of edney of the cassette shell head.

Images