RU2722336C1 - High-explosive fragmentation part of missile's head - Google Patents

Abstract

FIELD: missiles.SUBSTANCE: invention relates to the field of rocket equipment and can be used in the development of rockets with high-explosive head parts. Proposed device comprises fuse, cylindrical case with ogival and bottom. Damaging elements with explosive charge and detonator are arranged in the body. Head part is equipped with an electronic radio fuse and striking elements formed by means of polymers in the form of cylindrical and ogival splint bushings. These sleeves have coarse and fine fraction of ready fragments. They are arranged on inner surface of thin-walled cylindrical housing and thick-walled casing accordingly. Detonator is connected to detonating fuse by means of receiving explosive charge and central power tube with transfer detonation cord. Detonator is arranged in geometric center of explosive charge. Detonator is equipped with an antiknock gate. This gate consists of a head two-stage bushing and a thrust damper. Two-stage bushing is fixed to the neck to come alive and to the central power tube. Said tube allows transmission of detonation pulse from fuse to central detonator. Insertion damper is made of an inert material. It is arranged between external surface of two-stage bushing and inner surface of ogival splint bushing equipped with support ring from polymer material.EFFECT: technical result is higher reliability of device due to optimization of explosion of combat compartment.1 cl, 1 dwg

Description

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

The use of OFGCH allows for the detonation of the warhead on the Earth’s surface 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 the patent No. 2166172 dated 04/27/2001, the design of a high-explosive fragmentation warhead PC is known, comprising a fuse, a body, an explosive charge and a single-fraction 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, given the single-fraction nature of the finished fragments, hitting the target with the head part of such a projectile is not the most effective.

Common signs with the design of the high-explosive fragmentation projectile proposed by the authors is the presence of an analogue fuse, a body with a bursting charge and ready-made fragments.

The closest in technical essence and the achieved technical result is the design of a high-explosive fragmentation warhead according to the patent of the Russian Federation No. 2185593 dated 10.11.2000, containing a cylindrical body, a steel shell and blocks of polymer materials with ready-made striking elements located between them. This design of a high-explosive fragmentation warhead allows it to hit enemy manpower and equipment with acceptable efficiency.

The reasons that impede the achievement of the technical result indicated below when using the well-known high-explosive fragmentation warhead adopted by the authors for the prototype include the fact that blocks of polymer materials with ready-made striking elements are placed only in the cylindrical part, which leads to a significant decrease in the effectiveness of the fragmentation effect of the munition . The specified design is also not optimized enough for hitting targets of various types, that is, for some purposes the mass of ready-to-use striking elements is small, and for hitting other targets it is excessive.

Thus, the objective of this technical solution was to ensure the defeat of manpower and equipment without optimizing the mass of finished striking elements for hitting targets of various types.

Common features with the design of the high-explosive fragmentation projectile proposed by the authors are the presence of a cylindrical-shaped shell with a bursting charge and blocks (bushings) with ready-made striking elements as part of an analogue.

The practice of designing and developing MLRS ammunition shows that in order to achieve maximum effectiveness with the head of each shell, it is necessary to ensure an approach angle to the ground that is 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. This approach, associated with the need to develop separation systems and stabilization of the warhead warhead compartment, is expensive and in practice not always acceptable.

One of the rational options for increasing the effectiveness of the work of non-separable ammunition is the development of OFGCH based on the principle of above-ground detonation of the fighting compartment. Therefore, the proposed constructive solution differs from the prototype in that the head part is equipped with a non-contact electronic radio fuse and damaging elements formed in the form of a cylindrical and animated fragmentation bushings having a large and small fraction. finished fragments placed on the inner surface of a thin-walled cylindrical body and thick-walled came to life, respectively.

In this case, the detonator associated with the fuse by means of a receiving burst charge and a central power tube with a transfer detonation cord is placed in the geometrical center of the burst charge, equipped with a powerful anti-knock gate consisting of a two-stage head sleeve and a persistent insert damper. At the same time, the two-stage sleeve is fastened with the neck and came to life by the central power tube providing the detonation pulse from the fuse to the central detonator, an inert damper made of inert material is placed between the outer surface of the durable two-stage sleeve and the inner surface of the animating fragmentation sleeve provided with a support ring of polymer material .

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 due to the implementation of undermining the warhead at a height that is rational for the munition under development.

The specified technical result is achieved due to the fact that in the design of the OFGCH containing a fuse, a cylindrical body with a bottom and a spacer, in which the striking elements with a bursting charge and a detonator are placed, a new set of structural units and elements is introduced, their mutual position and connections are changed.

In particular, the supply of warheads with an electronic radio fuse of type A3-NV-48 allows, due to the selection of a rational height for undermining the warhead compartment of the warhead, to obtain the maximum possible areas of destruction. At the same time, the presence of damaging elements formed by means of polymers in the form of cylindrical and animated fragmentation bushes having a large and small fraction of finished fragments placed on the inner surface of a thin-walled cylindrical body and thick-walled came to life, provides effective destruction of manpower and lightly armored enemy vehicles.

Placing the detonator associated with the fuse via the receiving burst charge and the central power tube with the transfer detonation cord in the geometrical center of the burst charge ensures the most uniform distribution of the detonation wave over the entire volume of the burst charge and, thereby, contributes to more efficient operation of the warhead in terms of increasing reliability triggering and completeness of detonation of a bursting charge, which determine the speed of movement of flying fragments.

The supply of the head with a powerful anti-knock gate, consisting of a two-stage head sleeve and a persistent plug-in damper, eliminates the possibility of premature abnormal operation of the front of the bursting charge, which is closest to the receiving bursting charge.

The fastening of the two-stage sleeve with the neck came to life with the central power tube, which ensures the transfer of the ignition pulse from the fuse to the central detonator, can significantly increase the strength of the nose of the structure and localize high levels of loads on the structural elements of the receiving part of the warhead and, thereby, eliminate structural damage at the moment fuse and central detonator.

Placing between the outer surface of the solid two-stage sleeve and the inner surface of the animating fragmentation sleeve, equipped with a support ring of polymer material, a plug-in damper made of inert material, allows you to seal the zone of the receiving explosive charge and reduce shock loads on the main explosive charge, i.e. increase the reliability of the operation of the warhead in the affected area.

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

The essence of the alleged invention is illustrated in the drawing, where in FIG. 1 shows a general view of OFGCH.

The proposed design OFGCH projectile contains an electronic fuse 1, a cylindrical body 14 with a spacer 7 and a bottom 18, which placed the damaging elements 12 with a bursting charge 15 and a detonator 13.

The head part is equipped with striking elements formed by means of polymers in the form of a cylindrical 17 and vibrant 8 fragmentation bushings having a coarse 16 and a fine 10 fraction of finished fragments placed on the inner surface of a thin-walled cylindrical body and thick-walled revived, respectively.

The detonator 13, connected to the fuse via the receiving bursting charge 4 and the central power tube 9 with the detonation transmission cord 11, is placed in the geometric center of the bursting charge, equipped with a powerful anti-knock gate, consisting of a two-stage head sleeve 3 and a persistent insert damper 6.

A two-stage sleeve bonded with a neck came to life 2 and a central power tube, providing a detonation pulse from the fuse to the central detonator.

An insert damper made of an inert material is placed between the outer surface of the two-stage sleeve and the inner surface of the animated fragmentation sleeve provided with a support ring of polymer material.

The operation of the OFCH begins with the supply of a detonation pulse 1 at the required height to a detonating explosive charge 4, which, in turn, via a detonation cord 11. located in the central power tube 9, transmits an actuating pulse to the detonator 13, providing for the detonation of the main explosive charge 15 head part.

In the process of triggering the warhead warhead compartment due to the implementation in the design of the distinguishing features specified in the claims, the most favorable conditions for the operation of the munition are provided. So, by choosing the rational height for undermining the warhead’s warhead compartment, it is possible to obtain the maximum possible areas of destruction. At the same time, the presence of damaging elements having a large and small fraction of finished fragments placed on the inner surface of a thin-walled cylindrical body and thick-walled came to life, provides effective destruction of manpower and lightly armored enemy vehicles.

Placing the detonator in the geometric center of the explosive charge contributes to a more efficient operation of the warhead in terms of increasing the reliability of operation and the completeness of detonation of the explosive charge, which determine the speed of movement of flying fragments.

The supply of the head with a powerful anti-knock lock eliminates the possibility of premature, abnormal operation of the front of the bursting charge, which is closest to the zone of operation of the receiving bursting charge.

The fastening of the two-stage sleeve with the neck came to life and with the central power tube can significantly increase the strength of the bow of the structure and localize high levels of loads on the structural elements of the receiving part of the warhead.

The presence of a plug-in damper allows you to seal the zone of operation of the receiving explosive charge and reduce shock loads on the main explosive charge.

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)

A high-explosive fragmentation warhead containing a fuse, a cylindrical body with a spacer and a bottom, in which striking elements with a bursting charge and a detonator are placed, characterized in that the warhead is equipped with an electronic radio fuse and striking elements formed by means of polymers in the form of a cylindrical and animated fragmentation bushings having a large and small fraction of finished fragments placed on the inner surface of a thin-walled cylindrical body and thick-walled came to life, respectively, while the detonator connected to the fuse by means of a receiving burst charge and a central power tube with a transfer detonation cord is placed in the geometric center of the burst charge provided antiknock valve, consisting of a head two-stage sleeve and a persistent insert damper, while the two-stage sleeve is fastened with a neck and came to life with a central power tube, which allows the transmission of detonation of the pulse from the fuse to the central detonator, and a plug-in damper made of an inert material is placed between the outer surface of the two-stage sleeve and the inner surface of the animating fragmentation sleeve provided with a support ring of polymer material.

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