DE3623240C1 - Shaped charge for disarming ammunition - Google Patents

Abstract

A shaped charge for disarming ammunition of a different character has a set of parts (10), each of the parts (10) being detachably mounted on the shaped charge in front of the jet forming space (3) and on the collapsing axis of the lining (4) of the shaped charge, and the individual parts (10) reducing the penetration power of the shaped charge to a different extent, corresponding to the disarming of the respective ammunition. <IMAGE>

Description

The invention relates to a shaped charge for Ent sharpen ammunition of different qualities.

The ignition systems of bombs, grenades, mines and the like ammunition are becoming more intelligent. Accordingly, that prepares Defuse, for example, increasingly unexploded bombs Problems. Because the blasting of the ammunition is the real thing If the aim of the attack were to be met, the so-called "Low Order Technique".

A shaped charge is used, its breakdown performance is set so that the envelope of the disarming ammunition penetrates after passing through but no longer hit the envelope to initiate one Detonation of the explosive charge of the ammunition is able to at most a local reaction or one Deflagration of the explosive charge. By the so ge The opening formed in the shell of the ammunition can then Burn or remove explosives safely.

The breakdown performance of one or the same shaped charge the nature of the respective ammunition, d. H. the thick and to adapt to the material of the shell of the ammunition, it is known to correspond to the distance of the shaped charge to the ammunition to vary accordingly. However, this variation is only internal semi-narrow limits possible because of geometric irregularities accuracy of the shaped charge, but also due to inhomogeneity ten of the explosive charge and the lining structure increasing distance from non-reproducible scatter of the shaped charge spike and thus to a non-reproduce measurable reduction in penetration depth comes.

Furthermore, it is known to use one and the same housing  Hollow charge with one of the desired penetration rates corresponding amount of a plastic explosive to fill. The dosage of the plastic explosives on site and inhomogeneities, such as bubbles, in the plastic Explosives fill make an exact setting of the Breakthrough performance is almost impossible in practice.

Furthermore, it is known from DE-PS 25 55 649, in the Explosive charge of the shaped charge, a longitudinal hole for receiving to provide transmission charges of different lengths or according to another variant in the longitudinal bore different long fillers before the transfer charge used to distinguish the breakthrough performance distances between the initiation point of the Spreng charge and lining. In the first Variant is disadvantageous that the different lengths Transfer charges appropriate storage of Make explosive parts necessary and beyond due to the high detonation speed in the over charge against the explosive charge detonation subject to wave deformations and thus a corresponding impaired sting formation is caused while the second variant is the formation of spines by the Detona tion wave steering of the filler interferes.

The invention as characterized in the claims the underlying task is the breakthrough performance one and the same shaped charge more precisely than ever before to adapt ammunition to be disarmed, and without make pyrotechnic changes to the shaped charge have to.

According to the invention, the adjustment of the breakdown performance of the shaped charge with essentially constant Ab stood the shaped charge of the ammunition by upstream  performance-reducing components achieved.

That means the energy of the shaped charge spike is specified in barely by the nature and shape of the Components consumed to such an extent that the Energy of the stack still to break through the shell ammunition is sufficient, but not the explosive charge of the Detonate ammunition.

To do this, the components of a set can make a difference Liche thickness and / or from different Material. So the components of a set for example made of a metal, such as measurement, and 5, 10, 15 and 20 mm thick.

This is what is required for the respective ammunition Component of the set on the one hand according to the material selected the shell of the ammunition to be disarmed, which the user can see at a glance, and on the other hand, according to the thickness of the casing, which can be corresponding measuring device can be determined.

While using the Hohlla invention under water the distance between shaped charge and Ammunition must be set relatively precisely, it can be Use in air fluctuate within larger limits, e.g. B. between 30 and 60 cm.

To take precautions against ammunition that one detonator responsive to a change in the magnetic field has, the device according to the invention is preferred wise of non-ferromagnetic material. That is called upstream components advantageously consist of a non-ferromagnetic metal, preferably brass, and the shaped charge housing is z. B. made of plastic or a made of non-ferromagnetic metal.  

The shaped charge according to the invention can be used specifically for this purpose seen means, e.g. B. a tripod, or with usual pioneering means in every terrain and on every bo so contact-free compared to the Muni to be disarmed tion are used.

The term "shaped charge" is used here Connects every rotationally symmetrical explosive charge a cavity facing the explosive device with an off to understand clothing or occupancy, not just Hohlla in the narrower sense, but e.g. B. also flat charges and projectile-forming charges. A shaped charge in the narrow Sense, i.e. with a lining angle less than 100 °, However, because of the smaller spread of the spine and thus greater reproducibility of the breakthrough performance against a flat or projectile-forming charge generally preferred according to the invention. The explosive charge the shaped charge according to the invention is preferably a ge pressed charge, since pressed charges at relatively low Costs are highly homogeneous.

The invention is described in more detail below with reference to the drawing explained. Show in it

Figs. 1 to 4 are each a section through one and the same embodiment of a erfindungsge MAESSEN shaped charge without (Fig. 1) and secured therein with performance-reducing components (2 to 4) each having a different thickness.

The shaped charge consists of a housing 1 with a front in front of the end wall 2 , behind which a sting formation space 3 , a funnel-shaped lining 4 , an explosive charge 5 and a cover 6 are arranged. The explosive charge 5 and the lid 6 are z. B. fixed with an adhesive and sealant in the housing 1 . An electrically ignitable detonator 7 is screwed into the cover 6 .

The lining 4 is supported with its base on a stop designed as an annular shoulder 8 on the housing 1 . As a result, the length of the spike formation space 3 is fixed and thus ensures a uniform spike formation.

The housing 1 and the end wall 2 are made of plastic or a non-ferromagnetic metal and are formed in one piece. The spike formation space 3 is thereby hermetically sealed, so that the shaped charge can also be used for defusing underwater ammunition.

In addition, a blind hole 9 is provided in the front end wall 2 , into which a component 10, 10 ' or 10'' made of metal which can reduce the penetration of the shaped charge spike can be inserted. The one-piece components 10, 10 ', 10'' have a pin 11, 11', 11 '' , which is inserted into the blind hole 9 and a portion 12, 12 ', 12'' , which is arranged in the blind hole 9 Pin 11, 11 ', 11'' is outside the same.

The section 12, 12 ', 12'' is used to grip the component 10, 10', 10 '' and is z. B. formed with the corners over the hous se 1 protruding square plate.

The components 10, 10 ', 10''have in the collapse axis a of the casing 4 and in the axial direction an increasing of Fig. 2 to Fig. 4 thickness, and thus lead to a to be taken reduction in the penetration performance of the Hohlla dung spine after penetration of the components 10, 10 ' and 10'' .

For releasable attachment of the components 10, 10 ', 10'' a snap connection is provided, which consists of an O-ring 13 in a groove 14 in the blind hole 9 and a corresponding groove 15 in each pin 11, 11', 11 '' of Components 10, 10 ', 10''there .

The components 10, 10 ', 10''of each set may have information on the front side of the material and the thickness of the shell of the ammunition to be defused, so that the user, if necessary after measuring the thickness of the shell of the ammunition to be defused a corresponding device can determine at a glance which component 10, 10 ' or 10''of the set is suitable for the ammunition in question.

Claims (5)

1. Hollow charge for disarming ammunition of different characteristics, characterized in that the housing ( 1 ) of the hollow charge outside the sting formation space ( 3 ) and in the region of the collapse axis (a) of the lining ( 4 ) replaceable components ( 10, 10 ', 10 '' ) can be fastened, which, due to their nature and shape, reduce the breakdown capacity of the shaped charge in a predeterminable manner. 2. Hollow charge according to claim 1, characterized in that the components ( 10, 10 ', 10'' ) have a differing thickness in the direction of the collapse axis (a) and / or consist of different material. 3. Hollow charge according to claim 1, characterized in that the components ( 10, 10 ', 10'' ) consist of a nonferromagnetic metal. 4. Hollow charge according to one of the preceding claims, characterized in that for the releasable fastening of each component ( 10, 10 ', 10'' ) a pin ( 11, 11', 11 '' ) and the front wall arranged in front of the spike formation space ( 3 ) ( 2 ) the shaped charge housing ( 1 ) has a blind hole ( 9 ) for receiving the pin ( 11, 11 ', 11'',11''' ). 5. shaped charge according to one of the preceding claims, characterized in that the shaped charge housing ( 1 ) consists of a non-ferromagnetic metal or plastic.