DE3737231A1 - Projectile - Google Patents

Abstract

The invention relates to a projectile having an explosive charge, explosive charge lining and detonator arranged inside the projectile casing. In the case of such projectiles, for example shaped-charge projectiles, only a small amount of tamping with respect to the explosive charge detonation is produced by the projectile casing. In order to achieve improved utilisation of the explosion gas pressure for jet or projectile formation without a major increase in weight, it is proposed according to the invention that the casing (16) around the explosive charge (24) be enclosed, at a distance which can be predetermined, by a further casing (12) and that a further explosive charge (32) be provided in the intermediate space (30) created in this way, which further explosive charge is detonated at the same time as, or slightly earlier than, the main charge, as a result of which a briefly amplified pressure effect is achieved by the pressures supporting one another against the explosive charge lining, and an amplified acceleration pulse of the shaped-charge jet or projectile. <IMAGE>

Description

The invention relates to a projectile with inside explosive charge arranged on the projectile housing, Explosive charge allocation and detonator.

Such bullets are shaped charge bullets in numerous variants with pointed cone insert, flat cone insert or projectile-forming insert known. Such a shaped charge floor consists essentially chen from a cast in a floor case Explosives and an insert in front of it or covering from a ductile material, such as Copper. A shaped charge floor with a flat cone insert is e.g. known from DE-PS 29 13 103. The floor housing causes a slight insulation against the Explosive detonation. From weight and space for reasons of economy the wall of the storey housing is rela tiv thin. Therefore, the housing wall just cause a slight dam.

It is therefore an object of the invention to provide a better one Exploitation pressure is used to create beams or projectile formation without much weight or space to achieve an increase in the storey housing.

This object is achieved with the features solved in the characterizing part of claim 1. Around the existing insulation by the thin-walled Ge lap housing of the detonated explosive charge to increase, another explosive charge is used. By the outside of the inner shaped body Acting pressure is the wall of the inner shaped charge body for a certain time  against the internal pressure of the detonating jet or projectile-forming explosive charge. Thereby without significant reinforcement of the floor wall and associated weight and space gain one briefly increased pressure from mutual Pressure support on the insert (e.g. copper, steel or Tantalum) and thus the acceleration pulse ver lengthened and strengthened. This results in an increased Punch through in the target.

Advantageous embodiments of the inventions are specified in the subclaims.

The invention is explained and described in more detail with reference to an embodiment shown in the drawing. The reference numeral 10 denotes a shaped charge projectile, in which the Geschoßge housing consists of an outer thin-walled cylinder 12 with end wall 14 and an inner thin-walled cylinder 16 with end wall 18 . An igniter housing 20 , for example for a percussion and transmission igniter, is fastened on the outside of the end wall 14 and has an ignition tube 22 projecting into the projectile body. The inner thin-walled cylinder 16 is filled with an explosive charge 24 , which has a pointed conical recess on the side opposite the detonator housing 20 , which is covered with a copper insert 26 . On the side of the insert 26 , the projectile body is open, that is to say without a fixed end wall, or is covered to protect the sensitive insert 26 with a circular disk 28 , for example glued on.

The ignition tube 22 is filled with a boost or transfer charge to initiate the ignition pulse in the explosive charges.

The gebil Dete between the inner cylinder 16 and outer cylinder 12 cavity 30 is poured with a further explosive charge 32 . In the area of the explosive charge 32 , the ignition tube 22 has a plurality of openings 34 .

The igniter 20 is designed as a piezo igniter and enables light to ignite both explosive charges 24 and 32 at the same time. The ignition of the outer explosive charge 32 can, however, also take place with a slight time delay or slightly earlier (for example 3 microseconds) earlier than the ignition of the central main charge 24 .

For accelerated and all around simultaneous Zündein line in the outer explosive charge 32 is expediently provided that arranged in the cavity 30 (for example, a mesh or grid-like network of detonating fuse (with a burning or ignition speed of about 110,000 m / s) and is encased by the poured-in explosive mass 32. Because of the limited dimensions in the cavity 30 , a detonating cord with a small critical diameter (in which the rapid progress of ignition is still just taking place) should be selected, particularly in the case of small calibres of the projectile according to the invention with the transfer charge in the ignition tube 22 in connection.

Normally, the cylinder housings 12 and 16 are made of thin-walled steel. For special purposes, the inner cylinder housing 16 can be made of light plastic and the outer cylinder housing 12 can be made of heavy metal, for example tungsten or depleted uranium, with a corresponding increase in weight, but without increasing the space . or can be molded into the inside of the outer heavy metal cylinder housing.

To increase the insulation or for better utilization the explosion gas pressure for explosive forming of the copper insert is through the outside of the inner housing cylinder-acting pressurization the wall or the gas pressure of the detonating shaped charge explosive charge  supported. This will prolong a short time and heightened pressure on the copper insert is sufficient and thus the acceleration pulse is extended and reinforced. In addition to increased penetration will also increase the number of fragments and effect by the outer (notched) cylinder man tel reached.

Claims (6)

1. projectile with an explosive charge, explosive charge assignment and detonator arranged inside the projectile housing, characterized in that the housing ( 16 ) is surrounded by the explosive charge ( 24 ) at a predeterminable distance from another housing ( 12 ) and in a cavity created thereby ( 30 ) a further explosive charge ( 32 ) is provided. 2. Projectile according to claim 1, characterized in that the outer housing ( 12 ) as a thin-walled hollow cylinder with igniter ( 20 ) in an end wall ( 14 ) and the inner housing ( 16 ) are designed as thin-walled inner cylinders, which have a common ignition Pipe ( 22 ) of the detonator ( 20 ) are connected to one another and are fixed to one another via the explosive charge ( 32 ) cast into the cavity ( 30 ). 3. Projectile according to claim 1 or 2, characterized in that the igniter ( 20 ) is designed as a piezo igniter, by means of which both explosive charges ( 24 , 32 ) can be ignited simultaneously. 4. Projectile according to claim 1, 2 or 3, characterized in that the cylindrical projectile housing ( 12 , 16 ) consist of steel. 5. Projectile according to claim 1, 2 or 3, characterized in that the inner cylinder housing Zy ( 16 ) made of plastic and the outer cylinder housing ( 12 ) made of heavy metal, such as tungsten. 6. Projectile according to claim 1, 2, 3, 4 or 5, characterized in that in the wall of the outer cylinder housing ( 12 ) pre-drawn construction splinters A notches are formed.