AT393736B - Shaped charge projectile - Google Patents

Abstract

In the case of a shaped charge projectile having a casing 3 which has a shaped charge, having a hollow projectile nose 4 adjacent to the casing 3, and having a fuze switch connected to a fuze 6 for the shaped charge, which fuze switch comprises a contact shroud 8 which interacts with the projectile nose 4 as a mating contact and is enclosed by the undeformed projectile nose 4 with a gap all round, in order to ensure that the shaped charge jet is formed irrespective of the influence of any cladding 11 fitted in front of the main armour, the deformation resistance of the hollow projectile nose 4 in the region of its front end 9 is greater than the penetration resistance of the cladding 11, while having adequate strength for mechanical penetration of the cladding 11. <IMAGE>

Description

AT 393 736 B

The invention relates to a shaped charge projectile with a jacket receiving a shaped charge, a hollow projectile tip adjoining the casing and with an ignition switch connected to an igniter for the shaped charge, which consists of an undeformed projectile tip which interacts with the hollow projectile tip as a counter-contact there is a contact hood enclosed at all sides

In order to ensure an advantageous design of a shaped charge, it must be ensured that the shaped charge is ignited at a corresponding distance in front of the armor to be penetrated. For this purpose, the projectile jacket with the shaped charge is preceded by a projectile tip, which ensures the desired firing distance due to its length, at the front end of which the triggering device for the detonator is generally arranged. If the projectile hits the armor to be penetrated with its tip, the shaped charge is ignited and a corresponding shaped charge jet can form. In order to maintain the desired firing distance, the trigger device for the detonator should be actuated immediately after the armor has touched the bullet tip, which requires a low resistance to deformation of the bullet tip when the trigger devices are installed in the bullet tip. This applies in particular to a known triggering device (FR-PS 2 422136), which consists of a contact hood which interacts with the hollow projectile tip as a counter-contact, which is enclosed by the undeformed projectile tip at all sides and which represents an electrical ignition switch which, when the projectile tip is deformed triggers the detonator

The effect of such hold charge projectiles is questioned, however, if a cladding is placed in front of the main armor because this cladding and not the main armor triggers the ignition of the shaped charge.If this cladding consists of two spaced-apart shells, the space between which is filled with explosives this explosive is detonated by the shaped charge jet and the two shells are separated, whereby the effect of the shaped charge jet on the main armor is considerably reduced.

So that pre-armor cannot lead to premature ignition of the shaped charge, it is also known (US Pat. No. 4,463,678) to design the projectile tip as a balancing body which is to mechanically penetrate the pre-armor in order to bring the shaped charge closer to the main armor. The material of the balancing body should at least partially erode when penetrating the armor so that the shaped charge jet can penetrate the armor unhindered by the balancing body. In practice, however, this effect cannot be achieved satisfactorily.

According to another construction (DE-OS 26 05 455), the balancing body is provided at the top of the projectile with a guide channel for the shaped charge jet, which penetrates the balancing body through the guide channel with an additional directivity. A prerequisite for such a function is, however, that the balancing body is not significantly deformed when penetrating an armor.

Finally, it is known (DE-PS 26 29 280) to design the entire projectile housing as a hollow balancing body, which is first pierced by a shaped charge jet which also penetrates a subsequent armor to open a passage for a subsequent shaped charge jet of a further shaped charge. This construction is also susceptible to deformation of the balancing body.

In all of these shaped charge projectiles with a balancing body for penetrating a pre-armor, however, simple ignition switches cannot be used which consist of a contact hood which interacts with the hollow projectile tip and which, when touched with the hollow projectile tip deformed upon impact, triggers the ignition of the shaped charge Es Rather, comparatively complex delay switches must be provided, which ignite the shaped charge in any case even before an inadmissible deformation of the balancing body (DE-PS 26 29 280).

The invention is therefore based on the object to improve a shaped charge projectile of the type described above with simple means so that the shaped charge projectile can penetrate a lining in front of a main armor without igniting the shaped charge prematurely.

The invention achieves the stated object in that the hollow projectile tip, with sufficient strength for mechanical penetration of a cladding upstream of a main armor, has a deformation resistance in the region of its front end that exceeds the penetration resistance of the cladding

Because of the selected resistance to deformation of the front end of the hollow projectile tip, the front end can penetrate a lining in front of an armor without triggering the ignition switch. Only with an increasing depth of penetration is the deformation resistance of the projectile tip exceeded due to the increasing diameter of the projectile, and the ignition is triggered, so that the shaped charge jet can spread through the lining without being impaired. Since a corresponding deformation of the projectile tip must also be expected when the shaped charge projectile hits the main armor directly, the use of such shaped charge projectiles is by no means limited to armouring with an upstream cladding.

Particularly favorable conditions are obtained with regard to the triggering of the detonator in a further development of the invention in that the strength of the front end of the hollow projectile tip is greater than in the adjoining wall area. This prevents premature deformation of the projectile tip because it is only deformed. if the wall area with the lower resistance to deformation moves into the -2-

Claims (2)

AT 393 736 B vein lining penetrates and is pressed in radially. This brings with it the certainty that the cladding, with the displacement of any explosive charge which may be present, has already penetrated when the shaped charge is ignited, so that the shaped charge jet can develop unhindered and does not lead to premature ignition of the explosive charge. The subject matter of the invention is shown in the drawing, for example. 1 shows a shaped charge projectile according to the invention in a schematic longitudinal section, FIGS. 2 and 3 show two different designs of the projectile tip in the region of its front end in an axial longitudinal section, and FIG. 4 shows the deformation of the projectile tip causing the shaped charge when the projectile penetrates in armor in a schematic section. The shaped charge projectile consists according to the embodiment of FIG. 1 from an explosive charge (1) with a hollow body (2), for example a copper cone, receiving jacket (3), at the front end of which a hollow, conical projectile tip is attached. The floor (S) carries an igniter (6) for the shaped charge. To stabilize the trajectory of the shaped charge projectile, this has swing-out stabilizing wings. The detonator (6) for the explosive charge (1) is ignited via an electrical switch, the contacts of which are formed on the one hand by the projectile tip (4) and on the other hand by a contact hood (8) inserted into the hollow projectile tip (4) at a radial distance. With a »: deformation of the projectile tip (4) lies against the contact hood (8) in the deformation area, whereby the ignition switch is closed and the igniter is triggered electrically. The projectile tip is designed with such a strength that the front end (9) mechanically penetrates a cladding (11) upstream of a main armor (10) at the usual impact velocity of such a projectile, as is indicated in FIG. 4. This casing (11) consists of two spaced-apart shells (12), between which an explosive filling (13) is inserted. The mechanical piercing of this casing (11) takes place with a displacement of the explosive filling (13), so that when one penetrates of the front end (9) of the projectile tip (4) following ignition of the shaped charge, the shaped charge jet can form unhindered by the cladding (11) and the main armor (10) hits with full effect around the ignition of the shaped charge only after the breakthrough of the front end To ensure (9) the projectile tip through the casing (11), the projectile tip (4) in the region of the front end (9) must have a deformation resistance corresponding to the penetration resistance of the casing (11), so that the ignition contact does not result from premature deformation of the projectile tip is produced between the projectile tip (4) and the contact hood (8). Since its deformation resistance decreases as the radius of the projectile tip (4) increases, the projectile tip (4) is dented at least in regions at a distance from the front end (9), as a result of which a contact point (14) between the projectile tip (4) and the contact hood (8) is obtained, which subsequently leads to the ignition of the shaped charge. In order for the front end (9) of the projectile tip (4) to be subjected to a load which allows the casing (11) to penetrate mechanically without fear of deformation of the projectile tip (4) triggering the shaped charge, the resistance to deformation of the front can End (9) of the projectile tip (4) can be chosen correspondingly larger than in the adjoining wall area (15). For this purpose, the front end (9) of the projectile tip (4) can be hardened or, as shown in FIG. 2, can be provided with a larger wall thickness. Another possibility is to form the front end (9) according to FIG. 3 by an end piece (16) made of a harder material than the rest of the projectile tip (4). PATENT CLAIMS 1. Hollow charge projectile with a shell receiving a hollow charge, a hollow bullet tip adjoining the jacket and with an ignition switch connected to an igniter for the hollow charge, which is surrounded by the undeformed bullet tip with all-round spacing from a cooperating with the hollow bullet tip as a counter-contact Contact hood, characterized in that the hollow projectile tip (4), with sufficient strength for mechanical penetration of a casing (11) upstream of a main armor (10), has a deformation resistance in the region of its front end (9) which exceeds the penetration resistance of the casing (11) . -3- 5 AT 393 736 B 2. shaped charge projectile according to claim 1, characterized in that the strength of the front end (9) of the hollow projectile tip (4) is greater than in the adjoining wall region (15). For this 2 sheets of drawings -4-