FR2619900A1 - Non-explosive projectile for fighting against lightweight targets - Google Patents

Abstract

Non-explosive projectile for fighting against lightweight targets and in particular aircraft and flying missiles. The invention relates to non-explosive projectiles for fighting against lightweight targets. These projectiles are produced by assembly with a binder 2 of elements 1 which remain integral during all the storage, supply and ballistic operations inside and outside, and which are broken down upon passage of the first target, so as to give rise to secondary explosions. These elements, separated after passing through the first wall of the target, produce secondary explosions.

Description

 The present invention relates to a non-explosive projectile for the fight against light targets, in particular aircraft and flying machines.

 It is usual to fight against aircraft and flying devices with explosive projectiles and possibly incendiary explosives. However, the explosion of a shell on the surface of a target does not always cause much damage. Because of this, currently, projectiles are used with a delayed-action impact rocket so as to cause bursts inside the missile; these fragments can reach the electrical or hydraulic circuits or other vulnerable elements.

 We also use projectiles equipped with a proximity rocket, but the fragments are only effective on the first layers of the machine, except in the case of projectiles of a fairly large caliber.

 All these devices are quite expensive; they also have the disadvantage of containing explosives which, despite the level of non-vulnerability represented by modern compositions, pose security problems when they are stored inside firing platforms (airplanes, armored surface ... ).

 The modern trend in ammunition is towards non-explosive projectiles where kinetic energy is used rather than chemical energy.

 The use of. sub-calibrated, heavy metal, arrow-type, or full-caliber projectiles also made of heavy metal associated with uranium or another pyrophoric metal is widespread, but these projectiles are only partially suitable for anti-aircraft warfare.

 It is also known that in the case of a massive steel or other metal projectile, the impact on target at a speed greater than 1500 meters / second causes the projectile to disintegrate. This disintegration generates secondary splinters with enough kinetic energy to cause damage to other walls or interior elements.

 This technique, although interesting, involves the use of hypervelocity cannons.

 The object of the present invention is to obtain identical or similar results without the use of hypervelocity.

 The objective of the present invention is to produce a projectile made of several elements which are linked together by any means so that the projectile remains massive and undeformable during all the feeding operations, during all the interior ballistics and exterior, and divides into sub-elements after contact with the first wall of a light target.

 The division of the projectile into secondary fragments will be carried out at the normal impact speed of current weapons, and may be applicable for a whole range of impact speed and depending on the resistance of the target.

 The methods of assembling or gluing the elements as well as the shapes or structures of these elements will depend on the objectives sought, and the ballistics of the weapon used.

 The following examples represent embodiments of the present invention. These examples are not limiting and other obvious embodiments will appear to experts in the field.

EXAMPLE 1
The projectile indicated in fig. 1 and 2 is made from heavy metal elements (i) and held together by a sintered metal matrix (2). The heavy metal elements are made of tungsten alloy and the matrix is made of sintered brass so that, on impact of the projectile, the ruptures are made at the sintered metal connections.

 To make such a projectile, the tungsten alloy elements are gradually put in place with the sintering powder, layer by layer, with precompaction.

After precompaction, the whole is passed into the oven and the powder is sintered to obtain the desired mechanical strength.

Then follow the finishing operations and the installation of the striping belt.

EXAMPLE 2
The projectile shown in fig. 3 is made of hard steel and the indicated cuts (3) are made by an electron beam, so as to reduce the mechanical resistance of the shell and cause it to be cut at the moment of its impact on a light target. After cutting, the voids are filled with a polyester type resin.

EXAMPLE NO 3
The projectile indicated in fig. 4 is sub-calibrated with a sabot (6), this sabot is separated from the projectile during the muzzle-fire of the weapon. The body of the projectile is made of several heavy metal elements (4) assembled with glue (5). The glue is sufficiently resistant for handling and shooting, but upon impact with the first wall it releases the various heavy metal elements which constitute secondary fragments.

 The types of projectiles described in the present invention can be used against different types of targets and for different calibers.

 It goes without saying that the present invention has only been described by way of illustration and not by way of limitation, and that it is capable of numerous variants without departing from its scope or its spirit.

Claims (4)

 1) A non-explosive projectile for the fight against light targets, characterized in that it consists of several assembled elements which are disassembled on impact from the first wall of the target.  2) A non-explosive projectile for the fight against light targets according to claimtcharacterized in that it consists of metallic elements assembled by a sintered metal network.  3) A non-explosive projectile for the fight against light targets according to claims 1, 2 characterized in that it consists of metallic elements assembled by bonding with a network of plastic material of the polyester type.  4) A non-explosive projectile for the fight against light targets consisting of the projectiles of claims 1,2 or 9 characterized in that it is constituted in particular by pellets of pyrophoric metal such as uranium or zirconium so that consolidate an incendiary role.