DE10239918A1 - Fully disassembling projectile - Google Patents

Abstract

When firing ammunition in shooting ranges, the bullets are damaged due to the high energy output at the target. DOLLAR A According to the invention, therefore, a completely disassembling projectile is proposed as a shell projectile, which is characterized in that the core (3) consists of balls (4, 5) or granules made of a metallic material and that the balls (4, 5) or the granules are compressed without voids.

Description

The invention relates to a completely disassembling projectile as Jacketed bullet.

When firing ammunition in shooting ranges, it occurs due to the high energy output in the target to damage the ball catches.

The object of the invention is therefore to find a floor which at same point of impact as the bullets of the ammunition the bullet catches spares on shooting ranges and when hitting hard target structures, for example steel plates, completely disassembled.

In order to solve the task, a jacket floor is presented, which has a partial jacket or full-shell bullet, the bullet core of which is void-free pressed balls or granules consists of a metallic material. As Material for the balls or the granulate are all materials that are suitable Have it pressed into a void-free core. For the sake of Environmental protection, to avoid lead dusts and contamination of the Soil, lead-free materials are preferably used.

The complete disassembly, the bursting, of the projectile reduces the energy area density in the target. This reduces the Penetration compared to conventional jacket bullets with a Cast lead core. The one pressed by the bullet jacket Bullet core made of bullets or granules breaks down with the bullet jacket on impact at the target. Determine the grain size of the granulate or Diameter of the balls both the energy output as well as the Predetermined breaking points in the core of the storey and thus the size of when it was dismantled resulting parts.

The size of the balls or granules is, depending on the caliber, between 1 mm and 12 mm, preferably between 3 mm and 6 mm. The balls with the largest diameter are used for example in caliber 50 .

The projectile cores can also consist of spheres or granulate particles be composed of different sizes.

The projectile core can also be composed such that the front area, for example the ogival area, from balls or Granule particles of smaller size exist like the cylindrical part. Thereby the core breaks down into many small fragments as soon as it hits it. On The two areas cannot be pressed together. Any area must be pressed individually. The balls or granules Different sizes can also be made from different materials exist, but the optimal center of gravity in terms of ballistics must be guaranteed.

The balls or granulate particles can be pressed with a Release agent to be coated to better disassemble in the target guarantee. Suitable separating agents are, for example, graphite or Polytetrafluoroethylene (Teflon).

The projectile cores can also be prefabricated, i.e. H. into the bullet shape pre-pressed, into which coats are inserted.

Is the story dismantled as soon as it hits or less If penetration depth is required, predetermined breaking points in the jacket are advantageous. The The predetermined breaking points run in the axial direction and lie on the inside of the Coat, preferably in the ogival area. The disassembly of the floor can influenced by the number and location of the predetermined breaking points in the jacket become. The closer the predetermined breaking points are to the top of the floor, the sooner the coat mushrooms and breaks up into fragments. Further Predetermined breaking points can have radially extending notches on the outer circumference like a coulter edge on hunting bullets.

Copper, in particular, are suitable as materials for the jacket Alloys, plated steel, soft iron and zinc-tin alloys.

The invention is explained in more detail using exemplary embodiments.

In a schematic representation:

Fig. 1 is a partial shell bullet, shown on one side in section, and

Fig. 2 is a full jacket bullet, also shown on one side in section.

In Fig. 1 a partial jacket floor 1 is shown. The core material was poured into the initially undeformed, open projectile shell 2 and then pressed into the core 3 without voids. In the present exemplary embodiment, the core material consists of large balls 4 and small balls 5 . Then the projectile jacket 1 was drawn into the projectile shape shown. In this way, a compact projectile core 3 with predetermined breaking points has been created between the pressed balls. The projectile jacket 2 is not closed in the projectile bow 6 . The projectile core 3 emerges from the opening 7 of the casing 2 and forms the projectile tip 8 . In the ogival area 9 , predetermined breaking points in the form of grooves 11 pressed into the jacket 2 run on the inside of the jacket 2 in the direction of the axis 10 of the projectile 1 . A calotte 13 is located in the rear 12 of the projectile 1 to stabilize the movement of the projectile and thus to increase the precision. In the cylindrical area of the projectile 1 there can additionally be a so-called coulter edge 14 , a notch with a sharp edge located on the outer circumference of the casing 2 , which forms a further predetermined breaking point when the casing 2 is disassembled. It is particularly advantageous for hunting bullets because it requires a clean bullet in the ceiling of the game.

In FIG. 2 is a full-jacketed bullet 15th shown. The projectile jacket 16 is closed in the projectile tip 17 . The core material consists of granules 18 which were first filled in through the open rear 19 and then pressed into a compact core 20 without voids. Subsequently, the rear area 19 of the floor 15 was provided with a cover 21 and jammed. Here, too, a compact projectile core 20 with predetermined breaking points between the granulate particles has been created. 14 with a notch in the cylindrical part of the shell 16 is designated, as described in the embodiment of FIG. 1.

Claims (17)

1. Completely disassembling projectile as a shell projectile, characterized in that the core ( 3 ; 20 ) consists of balls ( 4 , 5 ) or granules ( 18 ) made of a metallic material and that the balls ( 4 , 5 ) or the granules ( 18 ) are pressed without voids. 2. Projectile according to claim 1, characterized in that the projectile is a partial shell projectile ( 1 ) and that the projectile core ( 3 ) forms the projectile tip ( 8 ). 3. Projectile according to claim 1, characterized in that the projectile is a solid jacket projectile ( 15 ). 4. Projectile according to one of claims 1 to 3, characterized in that the projectile core ( 3 ; 20 ) is composed of balls ( 4 , 5 ) or granulate particles ( 18 ) of different sizes. 5. Projectile according to one of claims 1 to 4, characterized in that the size of the balls or granules, depending on the caliber, between 1 mm and 12 mm, preferably between 3 mm and 6 mm. 6. Projectile according to claim 4 or 5, characterized in that a region of the projectile core ( 3 ; 20 ) is composed of granules or balls of a different size than the other region and that both regions are pressed separately. 7. Projectile according to claim 6, characterized in that the areas consist of granules or balls made of different materials. 8. Projectile according to one of claims 1 to 8, characterized in that the balls ( 4 , 5 ) or granulate particles ( 18 ) are coated with a separating substance. 9. Projectile according to claim 9, characterized in that the Release agent is graphite or polytetrafluoroethylene. 10. Projectile according to one of claims 1 to 9, characterized in that the projectile cores ( 3 ; 20 ) are prefabricated in the jackets ( 2 ; 16 ). 11. Projectile according to one of claims 1 to 10, characterized in that the projectile jacket ( 2 ) has predetermined breaking points ( 11 , 14 ). 12. Projectile according to claim 11, characterized in that the predetermined breaking points ( 11 ) run in the direction of the projectile axis ( 10 ). 13. Projectile according to one of claims 1 to 12, characterized in that the material of the projectile shell ( 2 ; 16 ) is copper, its alloys, plated steel, soft iron or zinc-tin alloys. 14. Projectile according to one of claims 1 to 13, characterized in that the projectile ( 1 ) has a calotte ( 13 ) in the rear region ( 12 ). 15. Projectile according to one of claims 1 to 14, characterized in that the projectile is composed of two partial cores and that one partial core that does not disassemble in the projectile bow and a disassembling one Partial core is arranged in the tail end. 16. Projectile according to one of claims 1 to 14, characterized in that the projectile is composed of two partial cores and that one disassembling partial core in the projectile bow and a non-disassembling one Partial core is arranged in the tail end. 17. Projectile according to one of claims 1 to 16, characterized in that the projectile ( 1 ; 15 ) can be used on shooting ranges.