DE19917144B4 - Combination action system - Google Patents

Abstract

Combination active system with an optional hollow charge, penetrator or splitter mode of operation, which is placed in a flying carrier system in the vicinity of the target, with ignition logic, ignition sensors, and safety and ejection device being housed in the carrier system and the operating mode being determined before the ejection of the active system.

Description

The invention relates to a combination active system with an optional trigger Hollow charge, penetrator or splinter mode, all in one flying carrier system near the target is spent.

In use as active systems for guided missiles or for others Carrier devices such as The majority of drones, torpedoes or dispensers are today special, just for him Optimized active systems for the main application. Under active system here the combination of the warhead with its ignition system Roger that. For example, in anti-tank defense, in the a high penetration rate compared to armored steel (possibly with additional reactive armor) is required, the known shaped charge systems (short: HL systems) used. An ignition system with sensors and one Ignition logic to evaluate the sensor signals determines the optimal ignition distance.

For a greater control distance, i.e. when the active system flies past the target, z. B. in use as search fuse ammunition rather projectile-forming charges (in short: P-charge systems) with lower Breakthrough performance than shaped charges, but one effect from a greater distance, used. Also intermediate forms between HL systems and P-charge systems are known (e.g. "Hemispheres").

In addition to these axially directed Charge types use radially acting fragment charges. In the fight against destinations these are usually pressure / splinter charges. To combat spatially distributed semi-hard targets (e.g. radar positions, trucks, etc.) are next to the pure fragmentation also combinations with the HL or P-charge systems used as so-called multi-purpose warheads. Doing so fighting the hard armor from the hollow or projectile-forming charge guaranteed and fighting at the same time surrounding semi-hard targets due to the additionally applied splinter coat completed. Both modes of action are used in this type of multipurpose systems ignited together and at the same time. The effect occurs at the same time. The application of only one of the neither type of action (splinter or shaped charge) is intended.

For the fight another target class, the hard concrete targets such as bunkers, aircraft shelters, Runways etc. as well as from other destinations where the main effect the explosive charge only after penetrating a first hard one Layer should be achieved, e.g. in ships, attack helicopters or fighting all of the above objectives "in Coverage ", i.e. behind Walls or inside buildings the penetrator active systems are suitable. These are explosives filled and metal body excellent through high penetration performance are ignited only after the first hard layer has penetrated or penetrated, and then develop their pressure or splinter effect. Their ignition takes place only inside the target by measuring and evaluating the shock signals at the Target impact and during the penetration phase through a penetrator detonator.

From the DE 38 00 975 A1 has become known an armored projectile in which a shaped charge is arranged. After striking a first hard layer, the detonator initiates the detonation of the shaped charge oriented in the direction of flight. There is no indication of other possible effects.

The FR 24 72 168 describes a warhead stored in the expulsion unit of a carrier projectile, which contains a proximity fuse. Furthermore, the carrier floor may also contain a radially active fragment charge. The burn-off products of the expulsion charge are used as a releasing or ignition criterion. However, there is no provision for a change in the way the warhead works, depending on the target.

In the DE 30 04 047 C2 describes armor-piercing projectile which has a shaped charge part which can be detached during the approach. The discharge charge is ignited by a proximity fuse, which is arranged between the detachable part and the main part of the projectile.

Furthermore, from the DE 26 29 280 C1 a warhead with an upstream shaped charge has become known, which contains an ejectable small-caliber secondary bullet. It is triggered by an integrated impact detonator.

Finally describes the DE 32 15 845 C1 a detonator for an armor-piercing projectile, which is mounted in the tip of the projectile and triggers the hollow charge of the projectile at the optimal distance.

The last three publications mentioned describe advantageous individual features of floors or Storey parts, a suggestion for designing a combination active system is however not given.

We are increasingly using new missile programs more than just fighting only one of the target classes mentioned above. The corresponding ones Active systems are supposed to work against a mixture of different goals at the same time be effective. They should cover a wide range of possible applications. In contrast, the variety of types should be low for logistical and cost reasons. This requirement is with the well-known specially optimized active systems not to be met.

It is therefore an object of the invention to design an active system that has the disadvantages of the known systems avoids and that regarding the effect and the time of ignition can be adjusted to suit the target.

This object is achieved by the Features of claim 1 solved. Developments of the invention are in the subclaims specified.

The particular advantages of the invention lie in the fact that the combination active system is universal for all three required operating modes is designed at the same time. The peculiarity the application is due to the different use of different ignition system components accomplished. In the first case, the ignition is carried out by a distance igniter in the optimal distance, in the second case by an intelligent penetrator ignition system and in the third case either by an additional own Ground clearance or Proximity detonator or by a commanded ignition signal from the parent On-board computer of the carrier device, the z. B. from the laser altimeter a guided missile is won.

Based on the drawing, an embodiment the invention closer explained.

1 shows the principle of a combination active system,

2 shows the passive detonation wave steering to optimize the shaped charge performance,

3 shows the ignition location adjustment to optimize the shaped charge performance,

4 shows the division of the overall warhead into different compartments with their own ignition,

5 shows the adaptation of the shaped charge lining to optimize the shaped charge performance,

6 shows the form of the lining generally as a shaped charge, EFP charge or intermediate form thereof,

7 shows the adjustment of the penetrator tip to optimize the shaped charge performance,

8th shows the pre-shaped charge for opening the penetrator tip,

9 shows the detachable penetrator tip when used as a shaped charge,

10 shows the cavity filled with an incompressible medium to increase the strength of the penetrator,

11 shows an embossed penetrator sleeve to optimize splinter formation,

12 shows internal, pre-shaped splinters that can be optimized in shape and size

13 shows an additive splinter jacket made of preformed splinters, which can optionally be blasted off.

The basic structure of the combination active system according to the invention is shown in 1 shown. A warhead designed as a penetrator 1 with optimized tip and length / diameter ratio (L / D) is not complete due to the explosive charge 2 filled in, but contains an additional cavity at its tip 3 , which is suitable for ensuring the formation of a shaped charge spike. This is what this cavity is for 3 against the explosive charge behind it 2 with a shaped charge lining 4 separated. The shockproof version of this lining and its support on the penetrator sleeve 5 and the explosives containment are designed to match the warhead.

The warhead securing device 6 contains the ignition level for the explosive charge 2 and as the first pyrotechnic elements in the ignition chain, the detonator and, if applicable, transformer or amplifier charges.

The penetrator according to the invention can increase its kinetic energy by expelling it from the expulsion unit 20 be accelerated further. This is the propellant charge 25 ignited. The safety device serves to secure this propellant charge 21 the expulsion unit 20 ,

The ignition logic enables the switchable control of the combination control system to be adapted to the target 26 executed. The system also includes a distance sensor 22 , an intelligent penetrator ignition device 24 and optionally an additional ground clearance or proximity fuse 23 , The function of this sensor can also be used by other carrier device components such as. B. a laser altimeter. The signal line serves this purpose 28 ("commanded ignition"). The operating mode preselection signal serves as a further input signal for the ignition logic 27 , It defines one of the selectable operating modes (shaped charge, penetrator or fragment charge), for example defined by the protection of the ammunition, and transfers this information to the ignition logic 26 , This then controls the required ignition sensors in accordance with the sequence described further below and sends the corresponding ignition signals to the penetrator ignition device 24 or the safety device 21 and the ignition levels contained therein.

The combination warhead, which is carried to the target by a guided missile, for example, is triggered as follows:
In the hollow charge mode when fighting armored targets is at a suitable distance ("Stand off") by the distance detonator 22 the warhead detonated. A shaped charge spike forms, which is still the tip of the penetrator 1 and components in the guided missile, such as the seeker head, must penetrate. Then he can act freely on the target and his high Deliver breakthrough performance in armored steel.

In the penetrator mode when fighting hard layer targets, the warhead is not ignited at a suitable distance, but the propellant charge 25 the drive unit initiated. This accelerates the penetrator and hits the target with great force. After penetration (penetration) of at least the first hard layer, the (possibly intelligent) penetrator ignition device determines 24 the appropriate ignition timing and ignites the explosive charge 2 of the warhead. As a side effect, this can still have a forward shaped charge effect which, due to possible shock-related deformations of the lining, can be restricted compared to a non-penetrating, pure shaped charge warhead. The main effect in this case is due to the pressure and splinter effects of the penetrator shell 5 reached.

In the splinter mode to combat semi-hard, not directly combatable Goals are also spaced at a suitable distance e.g. from the ground, which one is specified by the ground clearance or proximity fuse or by transmitted to the on-board computer of the guided missile the propellant charge is ignited. By emitting the Warhead from the guided missile with following delayed ignition the load in front of the guided missile it is ensured that the splinters are not affected by guided missile components in the area are weakened can. The ignition of the warhead can optionally also without prior ejection of the warhead respectively.

Besides this in 1 The basic principle shown are in 2 to 13 Possible configurations of this concept are shown that facilitate implementation or, depending on the target requirement, enable the optimization of shaped charge or penetrator performance. They are to be seen as exemplary in that other combinations of the various constructive measures than the ones just shown result in a sensible warhead design.

In 2 is the possibility of passive detonation wave guidance 7 shown for the formation of an optimal shaped charge spike. Such measures can be important because, on the one hand, for the warhead designed as a penetrator 1 a large length / diameter ratio (L / D) of approx. 4 ... 8 is favorable, on the other hand an L / D of approx. 1 is the optimum for the pure shaped charge. Passive detonation wave guidance 7 can compensate for these conflicting demands within certain limits. If this passive measure is not sufficient, the choice of one or more detonation sites closer to the lining, for example with an additional detonator, can be used 8th , for the “hollow charge” mode, the power of which is increased in the sense of “active detonation wave guidance”; please refer 3 ,

4 shows another measure to improve HL performance. The warhead is in different compartments 9 and 10 divided, which are ignited differently depending on the operating mode.

In 5 is shown as an example that the shaped charge lining 4 optimized for the special application in the combination warhead compared to a pure, non-penetrating shaped charge with regard to position, material, wall thickness, opening angle etc. It also takes into account the special L / D situation in the combination warhead as well as the greater amount of cargo being blocked by the penetrator shell 5 ,

In principle, a high penetration rate against armored steel can be achieved not only by a shaped charge, but in a weakened form also by EFP charges or by intermediate forms between the two types of charge. In 6 the lining is exemplary 11 an EFP charge.

A main obstacle to the formation of a stable shaped charge spike is the penetrator tip itself. On the one hand, suitable measures must be taken to facilitate penetration through the HL spike, on the other hand the mechanical stability of the tip must be guaranteed to achieve the penetration performance. 7 shows a suitable design for solving this problem, the pentrator tip, which has an internal cavity 12 has in the top.

If the measure according to 7 Not sufficient to keep the shaped charge spike from being impaired by the penetrator tip sufficiently small can be taken by a further measure, such as the ignition of a pre-shaped charge 13 , an opening is blasted into the tip of the penetrator shortly before the target is reached. This charge also clears other components of the guided missile located in front of the penetrator, such as the seeker head electronics, and ensures the formation of an undisturbed HL spike. In 8th this possibility is shown.

In 9 a development of the invention is shown with a detachable penetrator tip, the separating means 14 in principle be effective before approaching the target in order to achieve an unimpeded shaped charge effect with the warhead.

10 represents a way to increase the stability of the penetrator by the cavity 3 before the shaped charge lining with an incompressible medium 15 is filled out. In the "penetrator" operating mode, this material gives the penetrator increased strength, in the "hollow charge" operating mode it can be released or removed by detaching the penetrator tip. With a suitable design, this medium may also have a secondary effect such as fire or the like. cause.

A pretreated penetrator sleeve can be used to increase the splintering effect 16 be used, which is pre-embossed or otherwise pretreated in such a way that the natural splinters of the casing have predefined geometries. This is in 11 shown. Here, too, it is possible to adjust the optimum in terms of penetrator performance (smooth casing) or splinter performance (embossed casing).

12 shows that in the warhead according to the invention also internal, pre-shaped fragments 17 can be used to optimize the splintering effect. The split rows, deliberately interrupted, are intended to symbolize that "patterns" between preformed and natural shell splinters can also be used to optimize the effect in the target.

In 13 is an external splinter jacket 18 shown, which increases the splintering effect at the distance ignition, but also before the detonation of the charge by a separating agent 19 can be separated if this should be necessary to avoid collateral damage.

It should be emphasized that all other combinations of the measures described above as the subscribed possible (e.g. detachable penetrator tip with external splinter jacket or similar)

Claims (12)

Combination active system with an optional hollow charge, Penetrator or splitter mode operating in a flying vehicle system in target nearby is spent, with ignition logic, Zündsensoren, as well as backup and ejector in the carrier system are housed and the operating mode before the ejection of the active system is set. Combination active system according to claim 1, characterized in that the operating mode of the combination active system is optionally manual can be preset. Combination active system according to claim 1 or 2, characterized in that in the explosive charge ( 2 ) of the warhead ( 1 ) passive detonation wave guidance ( 7 ) is integrated. Combination active system according to claim 3, characterized in that in the explosive charge ( 2 ), at a distance from the safety device ( 6 ) and closer than this to the shaped charge lining ( 4 ) positioned, an additional detonator ( 8th ) is integrated for detonation wave guidance. Combination active system according to one of claims 1 or 2, characterized in that the explosive charge ( 2 ) in two compartments arranged one behind the other ( 10 ), each with a separate ignition. Combination active system according to one of claims 1 to 5, characterized in that the warhead ( 1 ) one of an explosive charge ( 2 ) with a shaped charge lining ( 4 ) separate cavity ( 3 ) having. Combination active system according to one of claims 1 to 6, characterized in that the penetrator tip has an internal cavity ( 12 ) having. Combination active system according to one of claims 1 to 7, characterized in that the warhead has a pre-shaped charge ( 13 ) having. Combination active system according to one of claims 1 to 8, characterized in that the penetrator ( 1 ) Release agent ( 14 ) with which the penetrator tip can be separated during the approach. Combination active system according to one of claims 6 to 9, characterized in that the cavity ( 3 ) with an incompressible medium ( 15 ) is filled, which is released when the warhead is used as a shaped charge before approaching the target or is removed with the penetrator tip. Combination active system according to claim 10, characterized characterized that the released incompressible medium secondary effects such as Fire starts. Combination active system according to one of claims 1 to 11, characterized in that the warhead has an outer fragment jacket ( 18 ) which, with the aid of a separating agent ( 19 ) can be removed before reaching the goal.