RU2722193C1 - Separated fragmentation-demolition head part of projectile - Google Patents

Abstract

FIELD: rocket equipment.SUBSTANCE: invention relates to the field of rocket equipment and can be used in development of jet projectiles with separated head parts of fragmentation-demolition action. Proposed device comprises case with fairing, combat compartment with explosive charge and ready fragments, as well as separation, stabilization and detonation systems, gas-dynamically interconnected by means of central gas duct equipped with head chamber to accommodate command initiation device. Combat compartment has block of ready fragmentation sleeves as means of destruction. They are arranged on cylindrical part of housing. At the same time the combat compartment is equipped with the anticipatory device made in the form of a hollow conical skirt, which thrusts interacting with the bottom of the compartment and with the head chamber made in the form of a cup. Bottom part of the cup is rigidly attached to the central gas line. Front part of the cartridge is attached to the fairing. Detonation system is made in the form of two cascades. They include the main and duplicating detonating circuits closing in detonators of the front and rear belts of the detonation, equipped with receiving detonator blocks located in front disk of the gas line. Main detonating chains thermodynamically connected to each other by means of detonation cords laid in longitudinal slots on the outer diameter of the gas duct are additionally equipped with transverse and reverse detonation cords. They are arranged on outer diameter of gas duct and have on each detonation section total length equal to half of length of main detonation cord, providing possibility of transfer of initiating pulse from receiving detonator grain to bottom detonator. In the longitudinal groove at the place of passage of the main detonation cord through the area of the front detonator arrangement, there is a radial recess filled with an inert compound. In the front part of the hollow skirt a strong crosswise bridge is installed, covering a zone of effective power action on the front belt of detonation at operation of receiving detonation blocks.EFFECT: high reliability of the device owing to high reliability of outputting the igniting and detonation pulse and protecting the device units from abnormal operation.1 cl, 2 dwg

Description

The invention relates to the field of rocketry and can be used in the development of rockets (PC) with detachable warheads of high-explosive fragmentation (OGFCH).

The use of OOFGCH allows for the undermining of the warhead on the surface of the earth and, due to the formation of a fragmentation field and high-explosive shock wave, to ensure the defeat of manpower, unarmored and lightly armored vehicles.

According to patent No. 2166172 dated 04/27/2001, the design of a high-explosive fragmentation warhead PC is known, which contains a fuse, a body, an explosive charge and a block of finished fragments. The objective of this technical solution was to increase the efficiency of the use of high-explosive fragmentation warheads in manpower and unarmored vehicles by increasing the speed and optimizing the direction of expansion of the finished fragments. However, the use of non-separable high-explosive fragmentation projectiles does not provide a rational distribution of the fragmentation field, since when the projectile approaches the target at angles other than vertical, the target is hit only by sectors of the side fragments, and most of them fly up or down into the underlying surface. Therefore, hitting the target with the head part of such a projectile is ineffective.

Common signs with the design of the high-explosive fragmentation warhead of the multiple launch rocket proposed by the authors is the presence of an analogue shell with a bursting charge and ready-made fragments.

To achieve maximum effectiveness of the defeat by the head of each projectile, it is necessary to ensure an approach angle to the ground close to or equal to 90 °. In this case, the most effective fragmentation field is formed, uniformly distributed relative to the surface of the earth. Achieving ground approach angles close to 90 ° is possible by equipping the head with separation and stabilization systems.

Known patent No. 2176375, which describes a detachable head containing a cylindrical body with a pointed nose, a contact fuse, an explosive and a parachute system. The objective of this technical solution was to create a detachable warhead projectile with increased combat efficiency by obtaining the minimum dimensions and mass of the parachute system while ensuring the necessary stability and reliable retardation of the initial angular perturbations of the warhead during separation from the missile part (RF).

Common signs with the proposed detachable high-explosive fragmentation head are the presence in the analog of a cylindrical body, explosive explosive charge, as well as separation and stabilization systems (parachute systems).

Detachable head operates as follows. At a given point in the flight path of the rocket, the separation system is activated and the warhead is separated from the missile. After separation, the head part due to disturbances obtained during separation, performs an unstabilized flight. Then, a parachute system is introduced into the oncoming air stream and its dome opens. The open dome increases the value of the stabilizing moment relative to the center of gravity of the warhead, which begins to make damped oscillations and stabilizes, providing flight, braking and a vertical approach to the ground.

The specified design, in principle, allows for the delivery of the payload to the target area with the required parameters for the approach of the warhead to the soil, provided it is reliable and trouble-free. However, given the other purpose of the invention (associated primarily with the search for a rational design of the explosive charge detonation system, type and size of finished fragmentation blocks), as well as the absence of these solutions in the materials under consideration, the use of known materials in the proposed constructive version does not seem possible.

The closest in technical essence and the achieved practical result is a separable missile, known according to the Russian patent RU (С11) No. 2522537 dated 03/13/2013. The separable missile contains a rocket engine with a bottom and a detachable warhead adopted by the authors as a prototype. The warhead has a housing with a bottom, explosive charge (BB) and striking elements, a parachute compartment with a charge of the compartment, a piston and a boost unit. In this case, the head part is equipped with a central gas duct, gasdynamically connecting the volume of the accumulating cup of the housing with a piston working volume containing the charge of the compartment.

The objective of this technical solution is to develop a rational design of ammunition with a remote contact fuse, providing:

- improving the reliability of the issuance of the ignition pulse and the separation of the warhead from the rocket at a given point in the trajectory while reducing power and thermal loads on the shared structural elements;

- improving the reliability of the issuance of a detonation pulse and the effectiveness of the ammunition at the target when meeting an obstacle;

- protection of DKV mechanisms and components from abnormal operation under conditions of power loading during the operation of the igniter firecracker, charge of the compartment, detonator and when meeting an obstacle.

Functionally, the work of the considered design solution, selected as a prototype and having a separation and stabilization system, to some extent coincides with the work of the design of the OFGCH proposed by the authors, which suggests the presence of igniter and detonation pulse transmission systems from the initiating device to the executive unit in the known structural solution . However, as in the previous case, the lack of constructive design of these units in the application materials does not allow for a concrete analysis of their positive and negative practical qualities.

The common features with the design of the OOFGCH proposed by the authors are the presence of a body with a cowl, a warhead with a bursting charge and ready-made fragments, as well as separation, stabilization and detonation systems, gas-dynamically interconnected by means of a central gas duct equipped with a head chamber for accommodating a command initiating device.

The proposed constructive solution differs from the prototype in that it:

the combat compartment, which has as a means of destruction a block of finished fragmentation bushings located on the cylindrical part of the body, is equipped with a pre-emptive device made in the form of a hollow conical skirt stubbornly interacting with the bottom of the compartment and with a head chamber made in the form of a glass, the bottom of which is rigidly fastened with a central gas duct, and the front with a fairing;

the detonation system is made in the form of two stages, including the main and duplicating detonator circuits, which are closed in the detonators of the front and rear detonation belts and are equipped with receiving detonator checkers placed in the front disk of the gas duct;

the main detonator chains thermodynamically interconnected by means of detonation cords laid in longitudinal grooves on the outer diameter of the gas duct are additionally equipped with transverse and reverse detonation cords also located on the outer diameter of the gas duct and having on each detonation section a total length equal to half the length of the main detonation cord transmitting the initiating pulse from the receiving detonator block to the bottom detonator;

in the longitudinal groove, at the place where the main detonation cord passes through the front detonator placement zone, a radial recess filled with an inert composition is made, and a strong transverse jumper is installed in the front part of the hollow skirt, overlapping the zone of effective force impact on the front detonation belt when the detonating receiving checkers are triggered.

These distinctive features, to which the requested amount of legal protection applies, are substantial and sufficient to achieve a new technical result.

The objective of the invention is to develop a rational, reliably functioning design of a detonating high-explosive fragmentation warhead, which provides a significant increase in the effectiveness of the target by implementing a number of progressive practical measures, namely:

- separation and stabilization of the warhead at a given point on the trajectory;

- undermining the combat compartment at the maximum height for the developed ammunition above the surface of the Earth;

- development of a compact system of multipoint initiation of a central explosive charge, which provides increased reliability of operation and completeness of detonation of an explosive charge.

The specified technical result is achieved due to the fact that in the design of the OOFGCH containing a body with a cowl, a combat compartment with a bursting charge and ready-made fragments, as well as separation, stabilization and detonation systems, gasdynamically interconnected by means of a central gas duct equipped with a head chamber to accommodate the command initiating device, introduced a new set of structural units and elements, changed their mutual position and connection.

In particular, the supply of the combat compartment with a pre-emptive device made in the form of a hollow conical skirt, stubbornly interacting with the bottom of the compartment and with the head chamber made in the form of a glass, the bottom of which is rigidly fixed to the central gas duct, and the front with the cowling, allows you to create a solid structure, playing the role of a “preemptive rod”, including the process of detonating the ammunition at the maximum height for the developed ammunition above the Earth’s surface (exceeding the length of the fairing) and providing, in turn, a significant increase in the effectiveness of the finished fragments when not only openly located, but also covered targets the enemy.

The implementation of the detonation system in the form of two stages, including the main and duplicating detonator circuits, closed in the detonators of the front and rear detonation belts and equipped with receiving detonator checkers placed in the front disk of the gas duct, increases the reliability of operation and completeness of detonation of the explosive charge, increases the speed of the striking elements and, ultimately, increases the efficiency of the combat compartment of the warhead.

Supply of the main detonator chains thermodynamically interconnected by means of detonation cords laid in longitudinal grooves on the outer diameter of the gas duct, with additional transverse and reverse detonation cords, also located on the outer diameter of the gas duct and having on each detonation section a total length equal to half the length of the main detonation cord , (transmitting the initiating pulse from the receiving detonator to the bottom detonator), allows you to develop a more compact and rational design of the warhead, ensuring the simultaneous multipoint initiation of the central bursting charge and, thereby, to obtain the maximum completeness of detonation, increase the speed of expansion of finished fragments of bushings placed along the entire length of the cylindrical part of the body, to optimize the angles of their expansion and the declination of the fragmentation field, to obtain a high density of fragments.

The execution in the groove, at the place of passage of the main detonation cord through the placement zone of the front detonator of the radial recess, filled with an inert composition, as well as the installation in the front of the hollow skirt of a strong transverse jumper that overlaps the zone of effective force on the front detonation belt when the receiving detonating checkers are triggered, excludes the premature actuation of the front detonator and, thus, the abnormal operation of the detonation circuit of the combat compartment.

At the same time, using as a means of destruction a block of ready-made fragmentation bushings located on the cylindrical part of the warhead hull allows changing the purpose of the warhead by replacing the bushings (equipped with different fractions of the finished fragments) and thereby more effectively hit selected targets — manpower or enemy equipment .

Thus, the listed design features of the OOFGCH allow us to develop a reliably functioning design of the warhead, which provides a significant increase in the efficiency of fragmentation in manpower, unarmored and lightly armored vehicles.

The essence of the alleged invention is illustrated by drawings, where in FIG. 1 shows a general view of the OOFG, and FIG. 2 is a diagram of the laying of detonator circuits of the warhead warhead compartment.

Separating high-explosive fragmentation warhead shell, contains a housing 15 with a cowl 2, a combat compartment 9 with a bursting charge 11 and finished fragments, as well as a separation system 17, stabilization 16 and detonation 14, gasdynamically interconnected via a central gas duct 10 provided with a head chamber 1 to host a command initiating device.

The combat compartment, having as a means of destruction a block of ready-made fragmentation bushings 12 located on the cylindrical part of the body, is equipped with a pre-emptive device made in the form of a hollow conical skirt 5, stubbornly interacting with the bottom 6 of the compartment and with the head chamber made in the form of a glass, the bottom part which is rigidly bonded to the central gas duct, and the front with a fairing.

The detonation system is made in the form of two stages, including the main A and duplicating B detonator circuits, closed in the detonators 7, 13 of the front and rear detonation belts, and equipped with receiving detonator checkers 3, located in the front disk of the gas duct.

The main detonator chains thermodynamically interconnected by means of detonation cords laid in longitudinal grooves on the outer diameter of the gas duct are additionally equipped with transverse and reverse detonation cords, also located on the outer diameter of the gas duct and having on each detonation section a total length equal to half the length of the main detonation cord transmitting the initiating pulse from the receiving detonator block to the bottom detonator.

At the same time, in the longitudinal groove, at the place of passage of the main detonation cord through the front detonator placement zone, a radial recess 8 filled with an inert composition was made, and a strong transverse jumper 4 was installed in the front of the hollow skirt, overlapping the zone of effective force on the front detonation belt when receiving detonating checkers.

The functioning of the OOFGCH begins with the supply of an initiating pulse from the command device to the separation system 17 through the central gas duct 10. After the separation system is activated, the gas separator is separated, the stabilization system 16 is activated and the fighting compartment is further moved in the required angular position.

When the warhead meets the Earth’s surface, the command device sends an initiating pulse to the receiving detonator blocks 3, which, in turn, transmit executive pulses along the main detonation cords to the bottom detonators 13 located on the rear detonation belt.

In the process of transmitting a detonation pulse from the receiving detonator blocks to the bottom detonators, transverse and reverse detonation cords are activated, which ensure the use of the front detonators 7 located in the front detonation belt.

Moreover, due to the fact that the transverse and reverse detonation cords in each detonation section have a total length equal to half the length of the main detonation cord, the transmission of initiating pulses from the receiving detonator blocks to the detonators of the front and rear detonation belts is performed simultaneously. This increases the reliability of the multipoint initiation of the central bursting charge and, thus, allows:

- get the maximum completeness of detonation of a bursting charge;

- increase the density and expansion speed of the finished fragments of the bushings located along the entire length of the cylindrical part of the housing;

- to optimize the angles of expansion of the fragments and the declination of the fragmentation field.

Thus, the design of the detachable high-explosive fragmentation warhead in accordance with the invention allows to create a rationally reliable functioning warhead construction that is many times more effective than existing standard models.

The invention can be used in the development of shells with detachable warheads of high-explosive fragmentation, and primarily for multiple launch rocket systems.

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

Currently, design documentation has been developed, successful tests of high-explosive fragmentation munitions carried out in accordance with the invention have been carried out.

Claims (1)

Separating high-explosive fragmentation warhead containing a body with a cowl, a warhead with a bursting charge and ready-made fragments, as well as separation, stabilization and detonation systems, gasdynamically interconnected by means of a central gas duct equipped with a head chamber for accommodating a command initiating device, characterized in that the combat compartment, which has as a means of destruction a block of ready-made fragmentation bushings placed on the cylindrical part of the hull, is equipped with a pre-emptive device made in the form of a hollow conical skirt stubbornly interacting with the bottom of the compartment and with a head chamber made in the form of a glass, the bottom of which rigidly bonded to the central gas duct, and the front one with a cowl, while the detonation system is made in the form of two stages, including the main and duplicating detonator circuits, which are closed in the detonators of the front and rear detonation belts, equipped with receiving detonator checkers placed in the front gas duct disk, and the main detonator chains thermodynamically interconnected by means of detonation cords laid in longitudinal grooves on the outer diameter of the gas duct, are additionally equipped with transverse and reverse detonation cords, also located on the outer diameter of the gas duct and having a total length equal to each detonation section half the length of the main detonation cord, which provides the possibility of transmitting an initiating pulse from the receiving detonator block to the bottom detonator, in a longitudinal groove, at the place where the main detonation cord passes through the front detonator placement zone, a radial recess filled with an inert composition is made, and the front part of the hollow skirt is installed strong transverse jumper covering the zone of effective force impact on the front detonation belt when detonating receiving checkers are triggered.

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