NO164502B - CYLINDRICAL HOLE LOAD WITH A DISPOSED INPUT. - Google Patents

Description

The present invention relates to a cylindrical hollow charge with a stepped insert of metal according to the introduction to the claim.

Modern armor for combat purposes consists of so-called active armour, which consists of a front armor ring and a main armour. The armor ring usually consists of an explosive layer and a metal plate. A conventional hole charge used to break through a simple armor ring produces a closed particle beam that has the ability to break through a homogeneous armor plate. The effect of such a particle beam is, however, destroyed by means of an active armour, as the explosive coating in the active armor breaks the incident particle beam.

From US patent no. 3478685, a cylindrical hollow charge is known which produces a partial projectile and a residual mass with a tip which is intended to break through the main armour. However, due to its unfavorable and dynamic shape, this residual mass exhibits far too little energy to be able to break through a normal main armour.

The purpose of the present invention is to provide a cylindrical hollow charge which, upon impact against an active armour, is capable of both breaking through the front armor and the main armour.

This is achieved by means of a cylindrical hollow charge of the type that appears in the introduction to the claim and which has the characteristic features that appear therein.

In the following, the invention will be described in more detail with reference to the drawing which shows two embodiments of the invention.

Fig. 1 shows a hollow charge which is known from DE-OS 1571283, fig. 2 and 3 is a hollow charge according to the invention and of the same size as fig. 1, and

fig. 4 shows the rays produced by the hole charge according to the invention according to fig. 2 and 3.

Fig. 1 shows an insert 1 in a cylindrical hollow charge 2 with sections 3,4 and 5 forming an onion shape. A housing 6 contains an explosive 7. A body 8 serves to control the detonation waves. A detonator is denoted by 9 and the length of the hollow charge 2 by 12. The base 10 in the insert 1 is smaller than the internal diameter 11 of the housing 6. Thus the base 10 also moves with the explosive 7. With this insert 1 a closed particle beam with extended ray tip. In the case of active armor, this particle beam only destroys the protection mechanism and not the main armor.

According to fig. 2 and 3 which show a hole charge 20 resp. 30 according to the invention, which develops a fast, low-mass front jet 40 according to fig. 4, and with a time delay 41, a massive main beam 42. This is achieved by means of two insert sections 21,22 resp. 31,32.

According to fig. 2, both insert sections 21 and 22 are designed convex and arranged in a housing 6.

A step or a constriction 23 occurs due to significantly thinner material in the insert section 21 and by means of an adjacent convex insert section 22.

The insert section 22 consists of e.g. of copper and/or tantalum. Insertion section 21 consists, for example, of of nickel or aluminium. The hole charge 20 has the length 28. It otherwise consists of a housing 6, explosive 7, a cone 24, a closing cover 25, an amplifier charge 26 and a body 27 for controlling the detonation wave.

The explosive 7 causes a front beam 40 by means of the insert section 21 (see fig. 4). After a delay, shown by the distance 41, fig. 4, the main beam 42 is formed by the insert section 22. The front beam 40 triggers the blocking effect on a not shown active armor and eliminates this. The distance 41 is dimensioned so that the main beam 42 then hits the armor when the largest part of the armor surface in the active armor is at rest. The main beam 42 thus strikes through the armor plates in the active armor and also in the main armor.

According to fig. 3, the cylindrical hollow charge is equipped with an insert 33 in one piece, e.g. of nickel, with insert sections 31 and 32, however without a guide device for the detonation wave.

The constriction 23 is formed by a significantly thinner insert section 31 and by means of the various angles 34 and 35. The hole charge 30 has a length 36. The effect of the hole charge 30 corresponds to the effect of the hole charge 20.

The essential thing for the invention is the recognition of the importance of designing the insert 24 or 33 inhomogenously, and with a dividing point in the form of a narrowing 23. An advantage is also the short and simple structure of the hollow charge. Functional safety is increased due to a single ignition point, and by the fact that the front and main jets move on the charge axis so that an effective stripping of the massive target is achieved, and produces a crater with the help of the precharge in it, which is deepened by the main jet without significant crater wall loss .

Previously, two hollow charge beams were produced in a projectile, resp. particle beams using two hole charges in tandem arrangement. It is immediately clear that this requires a great deal of constructive effort, and the measures for coordinating the two ignition points and the measures for mutual shielding are very difficult. Such a complex design also contains relatively many sources of error. It is also essential that the hollow charges 30 and 20 according to the invention have 15% - 35% less length 28 or 36 and a small amount of explosives 7.

Claims (1)

Cylindrical hollow charge with a stepped insert (19;33) of metal, the front section (22;32) of which has a greater mass and exhibits a greater opening angle than the rear insert section (21;31), the rear insert section producing a low-mass fore-projectile and the directly connected insert section (22;32) with a large mass produces a main projectile with a large mass, and where the transition between the insert sections is step-shaped, character! characterized by the fact that the opening angle (29) that encloses the two insert sections (21, 22 or 31, 32) is approximately 90° and that the front section (22; 32) has a mass that is 10 - 12 times the mass of the rear the insert section (21;31), and that the insert (19;33) is designed in two parts and that the rear insert section (21;31) consists of a material, such as nickel, which in principle forms a faster beam (40) than the main beam ( 42) which is produced by the front section (22;32), which is produced by e.g. copper or tantalum.