DE3808110C1 - Shaped charge for use against armoured targets - enables adjustment of charge triggering position to obtain projecitle (impact) or hollow charge-type shell - Google Patents

Abstract

A shaped charge for use in a projectile or shell has a charge container (2) with a cone-shaped nose with a cone angle of greater than 90 degrees.(120-150 degrees). If the charge is triggered at the cone top region (3), then the charge behaves like a projectile or impact shell. If it is triggered around the circular base of the charge (6) then the detonation wave is guided up through the charge container, and the charge behaves like a spike forming hollow charge. The charge can be triggered at both cone top (3) and base (6) with a chosen time delay to have mixed characteristics of the two types of shell. The shaped charge can be used with a spherically shaped explosive-filled casing around a hollow space loaded up to the charge container (2). This arrangement is triggered from the target side. An alternative arrangement has an inert body mounted within the charge, in which case the shell behaves more like a projectile. USE/ADVANTAGE - The shaped charge is intended for use against armoured targets that have active armour of various characteristics. The triggering of the charge can be varied according to the type of armour encounted.

Description

The invention relates to a shaped load with an occupancy with an angle greater than 90 ° and an initiation of the explosive device in the area of the top of the occupancy.

Such charges are known. Due to the relatively large occupancy angle they form a projectile, which acts like a balancing projectile, d. H. it creates a relatively large hole cross section and is also in long distance still effective. Shaped loads can rota be built symmetrically, with their preference in Rich development of the axis of rotation (so-called projectile-forming or P charges) or symmetrical with a preferred effect in the sym level of measurement (so-called cutting charges). Opposite a shaped charge with a Cone opening angle of the lining or covering between 30 and 90 °, that by forming a spike of comparatively small mass and high Long-term impact on the target and thus a high one Penetration is the penetration of cargo with a large occupancy angle, however, is low.

The object of the invention is to provide a shaped charge, the choice acts wisely to form a spike or as a balancing projectile.

This is inventively shaped with the one specified in claim 1 Charge reached. In the claims 2 to 8 are advantageous Ausgestal lines of the charge according to the invention. The claim 9 are advantageous applications of the charge according to the invention in one Warhead with multiple shaped charges again.

With the shaped charge according to the invention is therefore both in the range the top of the assignment as in the area of the basis of the assignment an INI tation provided. That is, with a rotationally symmetrical erfin charge according to the invention, i.e. a P charge, is an initiation both in  or concentric to the axis of rotation in the area of the occupancy peak as well as provided in a ring around the occupancy base, while one flat symmetrical charge according to the invention, that is to say a cutting charge, initiation symmetrically in the area of the apex or Firstes of the roof-shaped occupancy and the further initiation in the area based on the occupancy.

According to the invention, this is based solely on the type of ignition guidance achieved that the mode of action immediately before the ignition of the Charge of the structure and the distance of the target can be adjusted. The Charge according to the invention is therefore particularly for modern armor suitable, often against a special mechanism of action sets are. Protective devices, e.g. B. reactive armor against spike-forming shaped charges known, which on the other hand against Wuchtge shots are not particularly effective. With such a protective device device can thus charge according to the invention on balancing projectile effect be put.

The invention is based on the accompanying drawing he purifies. Each shows schematically:

Fig. 1 shows a longitudinal section through a detonating shaped charge of a known type to illustrate the spine formation;

2 shows a longitudinal section through a detonating shaped charge according to an embodiment of the invention.

FIGS. 3 and 4 are respectively a longitudinal section through further embodiments of the charge according to the invention;

Fig. 5 shows a cross section through a warhead with multiple molded charges according to yet another embodiment of the inven tion.

According to Fig. 1 comprises a hollow charge an explosive device 1 and a supply Bele or lining 2, the α half cone angle or exit angle of 30 ° has. The shaped charge is initiated according to arrow 3 in the area of the tip of the assignment 2 . As a result, a movement in the direction of arrow 4 detonation wave 4 'is formed, which strikes the occupancy 2 .

The mass and speed of the spike elements 2 'of a shaped charge are essentially determined by the so-called dynamic angle β, at which the occupancy 2 strikes in the charge axis 5 . The dynamic angle β differs from the starting angle α by the bending angle ϕ. The kink angle ϕ should be explosives, such as hexogen or octogen, at about 10 to 20 ° to ensure maximum energy transfer from the explosive device 1 to the occupancy 2 . This means that for a shaped charge with a cone opening angle 2 α of 60 °, the dynamic angle β 30 + should be approximately 10 to 20 °, ie approximately 40 to 50 °.

In Fig. 2, a P-charge with an occupancy or cone opening angle 2α of 140 ° and an initiation 3 in the area of the top of the occupancy 2 is shown. In addition to the initiation 3 , an annular initiation of the explosive device 1 around the base of the occupancy 2 is provided, as indicated by the arrow 6 . The detonation wave 7 'is steered at initiation at the occupancy base according to arrow 6 so that it runs according to arrow 7 from the base of occupancy 2 to the top or the apex of occupancy 2 . This produces a dynamic angle β = α-ϕ, ie from 70 ° - approximately 10 to 20 °, ie approximately 50 to 60 °. Thus, the shaped charge according to FIG. 2 acts as a P charge when initiating 3 in the area of the top of the occupancy, while it forms a spike when initiating 6 in the area of the base of occupancy 2 .

It can be seen that when initiations 3 and 6 are triggered in the area of the occupancy peak or occupancy base at a predetermined, selectable time interval from one another, suitable forms of action on the target can be obtained by suitable delays, i.e. mixed forms of a shaped charge spike and one Projectile, e.g. B. a thick, short spine.

The ignition point for the initiation in the area of the base of the occupancy 2 can lie on the target side of the shaped charge according to FIG . For this purpose, a symmetrical spherical shell-shaped explosive layer 8 with a central ignition element 9 is provided in the axis of rotation 5 of the charge, which extends from the base of the occupancy 2 over the cavity 10 in front of the occupancy 2 .

Instead of the initiation 6 shown in FIG. 3 in the area of the occupancy base of an ignition point or ignition element 9 on the target side, the ignition point can also be on the side of the charge facing away from the target by a detonation wave steering device according to FIG. 4.

For this purpose, an igniter element 15 is shown in FIG. 4 provided, which is along the axis of rotation 5 of charge between a position in a region of the tip of the occupancy 2 and a position b at the side facing away from the target, the rear end of the charge displaced. Furthermore, a body 1 made of an inert material, for. B. plastic, is provided, which directs the detonation wave, if the detonator element 15 is actuated in position b, according to arrow 17 along the explosive layer 18 to the area of the base of the occupancy 2 in a rotationally symmetrical manner and thereby shields the explosive device 1 from the detonation wave 17 .

In the embodiment according to FIG. 4, when the explosive body 1 is initiated with the detonator element 15 in the position a, a projectile is generated in the area of the top of the occupancy 2 , while with the detonator element 15 arranged in the position b and due to the inert body 16 and the Explosive layer 18 a spike is formed, since the initiation of the explosive device 1 now takes place in the area of the base of the occupancy 2 . By arranging two detonator elements in positions 15 a and 15 b, mixed forms can be obtained between a shaped charge spike and a projectile by triggering them at a selectable time interval from one another.

That is, according to the invention, two ignition elements can also be used in positions 15 a and 15 b, which are controlled accordingly by an electrical ignition logic, as desired, that is, in order to obtain a projectile or a shaped charge spike.

It can be seen that the possibility described above with reference to FIGS . 2 to 4 for rotationally symmetrical charges, drastically changing the type of action of the charge on the target, is analogous to shaped charges with symmetrical symmetry, as is preferably used for cutting purposes will. In a flat roof-like charge that is the section 4 a section corresponding to FIG. Normal to the plane of symmetry, wherein a rod-like projectile is formed at first near ignition, whereas in plan symmetrical Simultananzündung to the base surfaces, a thin, impinging at high speed cutting is formed. In the former case, a strong surface effect is achieved up to large distances, while in the second case the depth effect is greater in a smaller distance range.

The charge shaped in accordance with the invention is particularly useful for warheads suitable with multiple loads, as z. B. used for missiles become. The rotationally or plane-symmetrically shaped can Charges on the surface of the mostly cylindrical warhead be brought.

For this, e.g. As shown in FIG. 5 around the circumference of the warhead 19, a plurality P loads 20, 21 may be arranged symmetrically.

In this embodiment, a fuse element 22 is arranged in the longitudinal axis 23 of the warhead 19 and a about the longitudinal axis 23 drehba rer body 24 of inert material, eg. B. plastic provided. Around the rotatable inert body is another body 25 made of inert material, for. B. plastic arranged. The rotatable inert body 24 has from the Zün derelement 22 radially extending channels 26 , 27 and 28 , which are filled with explosives and arranged at an angle of 60 ° from each other.

The further inert body 25 is also provided with channels 29 , 30 , 31 , 32 and 33 filled with explosive, which extend radially on the one hand to the area of the tip of the coatings 34 , 35 of the P-charges 20 , 21 and on the other hand to the area of the base of the Assignments 34 , 35 and are offset by 30 ° to each other. In Fig. 5, the channels 26 , 27 and 28 of the rotatable inert body 24 are connected to the channels 29 , 31 and 33 of the inert body 25 , which lead to the base of the assignments 34 , 35 . This means that in this position there is an initiation at the base of the assignments and thus the formation of spikes. It can be seen that by rotating the rotatable inert body 24 by 30 ° from the position shown in FIG. 5, the multiply shaped charges 20 , 21 are switched from the base initiation to initiation at the apex or at the top of the coverings 34, 35 .

Due to their flat design, the pro are suitable according to the invention jectile or spike-forming charges also for warheads where several rotationally symmetrical charges arranged coaxially one behind the other are. Here too, the range of uses is adjusted by adjusting the effect mechanism of one or more cargo (s) to the target structure significantly broadened.

Claims (9)

1. Shaped charge with an occupancy with an angle greater than 90 ° and an initiation of the explosive device in the area of the top of the occupancy, characterized in that an ignition guide is provided to adapt the effect of the charge to the structure and distance of the target, which in addition to the initiation ( 3 , 15 a; 22 ) in the area of the occupancy peak has a further initiation ( 6 ) of the explosive device ( 1 ) in the area of the base of the occupancy ( 2 ). 2. Shaped load according to claim 1, characterized in that the Occupancy angle is 120 to 150 °. 3. Shaped charge according to claim 1 or 2, characterized in that for initiation ( 6 ) in the area of the occupancy base to the rotation axis ( 5 ) or plane of symmetry of the charge symmetrical schalenför shaped explosive layer ( 8 ) with a central detonator element ( 9 ) is provided on the target side which extends from the occupancy base over the cavity ( 10 ) of the occupancy ( 2 ). 4. Shaped charge according to claim 1 or 2, characterized in that for initiating ( 6 ) in the area of the occupation base, a device for steering the detonation wave from one in the axis of rotation ( 5 ) or the plane of symmetry of the charge, on the side facing away from the target arranged igniter element ( 15 ) is provided to the area of the occupancy base. 5. Shaped charge according to claim 4, characterized in that the device of the detonation wave guidance from an extending from the axis of rotation ( 5 ) or the plane of symmetry of the charge to the area of the occupancy base body ( 16 ) made of inert material and from an explosive layer ( 18 ) the side of the inert body ( 16 ) facing away from the target. 6. Shaped charge according to one of the preceding claims, characterized in that in each case an igniter element ( 9 ) for initiating ( 6 ) in the area of the occupancy base and for initiating ( 3 ) in the area of the occupancy tip is provided. 7. Shaped load according to claim 6, characterized in that the initiations ( 3 , 6 ) in the area of the occupancy peak and the occupancy base can be triggered at a selectable time interval from one another. 8. Shaped charge according to one of claims 1 to 5, characterized in that a displaceable igniter element ( 15 ) both for initiation tion ( 3 ) in the area of the occupancy peak as well as for initiation ( 6 ) in the area of the occupancy basis is provided. 9. Shaped charge according to one of the preceding claims, characterized in that it is designed as a multiply shaped charge, wherein an igniter element ( 22 ) in the longitudinal axis ( 23 ) of the multiply shaped charge, a body rotatable about the longitudinal axis ( 23 ) ( 24 ) made of inert material and to the rotatable body ( 24 ) concentrically arranged further body ( 25 ) made of inert material are provided, wherein the rotatable inert body ( 24 ) from the Zünderele element ( 22 ) to the further inert body ( 25 ) extending explosive channels (26, 27, 28) and the other inert body (25) extends from the rotatable inert body (24) to the area of the base and the area of the tip of the deposits (34, 35) of each load (20, 21) extending explosives channels (29 to 33 ), which are selectively ver bindable by the rotation of the rotatable inert body ( 24 ) with its explosive channels ( 26 , 27 , 28 ).