NO172663B - OEVINGSPROSJEKTIL - Google Patents

Description

The present invention relates to a practice projectile without an explosive charge, for firing from aircraft at ground targets or for other forms of practice firing, comprising a hollow bushing, a projectile base and a nose part that abuts the bushing along a circumferential dividing surface.

Practice firing from aircraft at ground targets is partly carried out as firing from a relatively low height. During such shooting, targets are fired at such a small distance in front of the planes that the planes cannot avoid passing over the target area. In order to reduce the costs of practice shooting, projectiles without an explosive charge are usually used. This means that there is a great danger that ricochets may be thrown up from the target area, and this will happen precisely when the aircraft that launched the projectile passes over the target area. There is thus a great danger that the aircraft may be hit by these ricochets, which can constitute entire projectiles and thus can cause significant damage to the aircraft and put the crew at risk. The problem can be avoided by keeping the aircraft at a minimum height above the target area that is greater than the height to which the ricochets can reach. However, the practice shooting thus becomes unrealistic, after which the shooting must end at such a large distance from the target that the shooting does not correspond to such shooting which can be carried out with live ammunition. When using sharp ammunition, the projectiles will fragment in the target area, and the fragments can be thrown up at a small height that does not expose the aircraft to any danger.

Also with other types of practice shooting, it may be desirable or necessary to ensure that ricochets have a limited range, for example so that they do not spread outside a limited practice area.

The problem of ricocheting practice projectiles without an explosive charge has been attempted to be solved in various ways. Projectiles have been produced from pressed iron shavings, which are pulverized when they hit the target. This solution entails the problem that there is a risk that the projectiles can be pulverized already on launch, due to the large acceleration forces to which they are exposed. If the projectiles are manufactured with great or reasonable certainty against being pulverized when launched, there is a risk that the projectiles will not be pulverized when they hit the target either. Another attempt consists in producing practice projectiles wholly or partly from plastic. However, this involves a problem with regard to the mass of the projectiles in relation to sharp projectiles, as it is desirable that the practice projectiles should have approximately the same mass as sharp projectiles, due to the ballistic properties. In addition, the plastic can overheat or melt in hot cannon barrels. This of course poses a safety problem. It must be taken into account here that the shooting can be carried out with a very high rate of fire (automatic weapons) and consequently with great heat development.

Norwegian patent no. 146036 describes an under-calibrated practice projectile with a projectile body which is mainly massive, and which has weaknesses which cause a division of the projectile body upon impact. The projectile thus does not include a hollow bushing and a separate nose section.

With the present invention, a practice projectile of the type indicated at the outset has been arrived at, which in a simple and inexpensive way solves the problem of ricochets at a dangerous height or with an undesirably long range, while at the same time ensuring the necessary strength when launched.

A practice projectile according to the invention is characterized by the fact that the base forms a separate part in relation to the bushing, with a circumferential separation surface, and that the base is attached to or made one with a rod or a tube that protrudes centrally through the bushing with radial clearance to this and is attached to the nose portion, so that the rod or tube holds the projectile together as a unit, the rod or tube having a weakening portion which is located axially approximately at the separating surface between the bushing and the nose portion.

The earring projectile according to the invention is thus divided by means of two separating surfaces, and before and during launch the projectile is held together as a unit by means of the rod or tube. In the event of an oblique impact on a target, either the rod or tube itself or the fixing of the rod or tube in the nose part or the bottom breaks. The projectile is thereby divided into parts, each of which naturally has less mass than the complete projectile, and the air resistance against each of the parts will limit the height to which the parts can rise when ricocheting from the target area. When firing from an aircraft, practice firing can therefore be carried out in the same way as when using live ammunition, i.e. that the aircraft can fire at ground targets until they are at such a low altitude that, using projectiles that do not split on impact, they would have flown through a zone with a high risk of being hit by ricocheting projectiles. In other forms of practice shooting, a limited spread of ricochets is achieved and consequently a smaller extent of the dangerous area.

A projectile according to the invention can without problems be given the same shape, mass and mass distribution as live ammunition, and it is also no problem to give the projectile a strength that ensures that it can withstand launch from a cannon or as a self-propelled rocket.

The invention shall be explained in more detail in the following, with reference to the attached drawing, which shows non-limiting examples of embodiments of a projectile according to the invention. Fig. 1 shows a longitudinal section through a first embodiment shape of a projectile according to the invention. Fig, 2 shows a longitudinal section through a second embodiment shape of the projectile. Fig. 3 shows a longitudinal section through a third embodiment of the projectile.

All figures show a practice projectile comprising a bushing 1, a nose part 3 and a base 2, a rod or a tube 11 connecting the nose part 3 to the base 2. The base 2 forms a separate part in relation to the bushing 1. The base 2 and the bushing 1 lie against each other along a dividing surface 6. The bushing 1 and the nose part 3 also form separate parts, which lie against each other along a dividing surface 7. It is thus the rod or tube 11 that holds the projectile together before and during launch and in the path until it hits the target .

In the embodiment in fig. 1 is a rod 11 made in one piece with the base 2, and the rod 11 has a threaded end part 15 screwed into a threaded hole 12 in the nose part 3.

In the embodiment in fig. 2, a tube 11 is made integral with the base 2, and the nose part 3 is designed with a threaded pin 14 which is screwed into a threaded end part 16 of the tube 11.

The embodiment shown in fig. 3 is made in the same way as the design shown in fig. 1 with regard to the joining between the base 2 and the nose part 3, namely by means of a rod 11 screwed into a threaded hole 12 in the nose part 3. In this embodiment, the base 2 is made with a cavity open to the rear which contains a track light set 10, and the cavity is closed by a disc 9 with a central hole.

In all the embodiments shown, the bushing 1 is conventionally equipped with a guide band 4, and the bushing also has a circumferential groove 13 for fastening a sleeve. All the projectiles shown are home ammunition, but the invention is not limited to such ammunition.

In the embodiment shown in fig. 2, the tube 11 protrudes along its entire length between the nose part 3 and the bottom 2. However, there is nothing to prevent a larger or smaller part of the length of the tube being replaced by a massive rod, e.g. to increase the mass of the projectile towards the rear the end.

The separating surfaces 6,7 can be conical, so that centering is achieved when mounting the projectile.

If the projectiles as shown, namely with a ring-shaped cavity between the bushing 1 and the rod or tube 11, have less mass than a sharp projectile, for example the cavity can be filled with a granule, instead of e.g. using a bushing with greater wall thickness. Examples of granular material include metal shavings and sand.

In a projectile according to the invention, the rod or tube 11, or pin 14 is shown in fig. 2, so dimensioned that when the projectile is fired from an aircraft at a relatively low height, and so that the projectile is fired obliquely downwards and hits the ground at an acute angle, or when the projectile during other forms of practice shooting hits a target surface at an acute angle, it causes oblique impact against the ground or target surface breakage either in the rod or tube or in the pin. For example, the threads on the rod 11 or the threads on the pin 14 can form a weakness that breaks when it hits the target. It is also possible to design the rod or tube 11 or pin 14 with a different type of weakening, e.g. one or more circumferential grooves. It must be determined by trial whether a breach occurs under the relevant shooting conditions.

When breakage occurs, the projectile will no longer hold together as a unit. For the embodiment shown in fig. 1, the nose part 3, possibly together with part of the rod 11, will form a first unit, the bushing 1 will form a second unit, and the base 2 and the rest of the rod 11 will form a third unit.

For the embodiment shown in fig. 2, when the break occurs in the pin 14, the nose part 3 will form a first unit, the bushing 1 will form a second unit, and the bottom 2, the tube 11 and most of the pin 14 will form a third unit.

For the embodiment shown in fig. 3, the same units will be formed as for the embodiment shown in fig. 1, with the difference that the base 2 is designed differently in that it includes the holder for the track light kit 10.

Each of the aforementioned units will have poor ballistic properties compared to a complete projectile. Each unit has a mass that is significantly less than that of the entire projectile. The unit consisting of the bushing 1 forms an open tube, and when this unit constantly loses speed in the ricochet path, the unit will eventually become unstable and will no longer follow a ballistic path, but will fall relatively abruptly towards the ground.

It has thus been achieved that the projectile is divided into units that are individually unable to ricochet in a trajectory that has the same height or range as a continuous, ricocheting projectile.

When the rod or tube 11 breaks, both the nose part 3 and the bottom 2 will be detached from the bushing 1, so that this forms an open tube, which becomes unstable at a certain lower speed.

The invention is not limited to full-caliber ammunition, as the projectile can be under-calibrated, so that when launched, a separable liner is fitted which detaches after launch. It is also possible to use the invention for rocket-propelled projectiles, such as, for example, rocket-propelled practice grenades. In that case, for example, the bottom 2 can be extended backwards in a tail section with steering fins.

All parts of a projectile according to the invention, with the exception of a possible tracer kit and a possible rocket propellant charge, can be made of steel or metal. As a non-limiting example, it can be mentioned that the bushing, the base and the rod or tube can be made of steel, while the nose part can be made of light metal, for example an aluminum alloy.

Claims (2)

1. Practice projectile without explosive charge, for firing from aircraft at ground targets or for other forms of practice firing, comprising a hollow bushing (1), a projectile base (2) and a nose part (3) that abuts against the bushing along a circumferential separating surface (7) , characterized in that the base (2) forms a separate part in relation to the bushing (1), with a circumferential separating surface (6), and that the base (2) is attached to or made one with a rod or a tube (11) which protrudes centrally through the bushing (1) with radial clearance to this and is attached to the nose part (3), so that the rod or tube holds the projectile together as a unit, the rod or tube (11) having a weakening part that is located axially approximately at the parting surface (7) between the bushing (1) and the nose part (3). 2. Practice projectile as specified in claim 1, characterized in that the cavity between the bushing (1) and the rod or tube (11) is filled with a granular material, e.g. metal shavings or sand.