DE10103396A1 - Projectile for a training short-range ammunition - Google Patents

Abstract

The invention relates to a projectile for short trajectory training ammunition comprising a speed reducing device (7) arranged in the front part (34) of the body of the projectile (2). The reducing device (7) comprises a braking surface (7a) perpendicular to the direction of the flight in the region of the head (6) of the projectile and or a resistance surface (7b) for reducing the spinning movements of the projectile disposed in a longitudinal direction on the peripheral surface (8) of the body of the projectile (2). The speed and also the kinetic energy of the projectile is reduced in order to reduce the damage to the targets and the size of the danger area.

Description

The invention relates to a projectile for shooting training Small arms, such as rifles, pistols on short firing blaze.

Usually in shooting training the Ge fencing cartridge 5.56 mm × 45 used. This cartridge has the Advantage that the shooting behavior the realistic circumstances equivalent. The disadvantage, however, is that considerable destruction target media, d. H. the panes and the ones behind the bullet catch occurs and that the currently used Practice cartridges have a danger zone of more than 1200 m sit, what expensive protective measures on the shooting range be dingt.

The object of the invention is to handle the practice cartridges simplify and make it safer.  

This object is achieved with the features of the An spell 1 solved.

The invention proposes in the front part of the flight direction Storey where the air flows in during flight, a Redu to provide a decorative device for the speed. In order to the speed decreases and also the kinetic Energy of the projectile so that the damage to the target media is reduced and the danger zone is reduced. he According to the invention, there are two variants for reducing the speed provided for. Both variants can be used individually or can be used in combination.

According to the first variant, the reducing device in Area of the bullet tip ver perpendicular to the flight direction running braking surface. So an inflow surface with unun constant Cd value, which means that the bullet speed r is reduced and the external ballistic performance is controlled, this depends on the design of the diameter and the floor mass depends. This variant has the advantage of being light is to be produced and the speed of the projectile is already effectively reduced.

A concave recess is advantageously in the braking surface mung existing, which causes that on the braking surface flowing air defines the circumference of the projectile is so that at the top of the floor there is no floor excessive destabilizing currents or turbulence stand.

According to the second variant of the invention, the reduction tion device in the front part of the peripheral surface of the Ge  shot at least one longitudinally extending counter footprint to reduce the twist, i.e. the rotation number of storeys. The resistance surface causes the swirl given to the projectile when it was shot reduced so far it is adorned that the projectile becomes unstable. This has to As a result, the projectile begins to oscillate, causing the Ge speed is reduced. It is advantageous that the Speed significantly reduced due to the bullet swing is decorated.

The peripheral surface advantageously has a direction of rotation tion of the floor in front of the resistance surface radially reducing conical area, so that the Resistance area from the circumference of the floor in the direction of the Central axis of the floor extends. This structure is very stable because the resistance surface is, so to speak, from the full Material is excluded.

It is also possible to have several, preferably four, at 90 ° each resistance surfaces offset in circumference may be provided. The Increasing the number of resistance areas requires a ver strengthening the reduction of projectile swirl.

A spiral configuration of the resistance surface can also be used reduce the projectile twist further, since the area of the contr footprint due to the spiral arrangement around the circumference the floor is significantly enlarged.

Both variants, especially the combination of the two Variants, causes the bullet speed to be reduced and thus the maximum range is shortened, resulting in a reduced danger zone and a reduction in loading  damage to the target media. This is achieved without that changes to the weapon have to be made.

By means of the dimensions and the arrangement of the braking surface and / or the resistance surface or the resistance surfaces the reduction in speed or the maximum Set firing range defined. So it is possible to practice pa to create trons for different requirements. at for example, it is possible to reduce the danger zone to less than 650 m to reduce and a storey meeting point location at 100 m Set the practice distance to that of the battle floor it is comparable.

Exemplary embodiments are described below with reference to the drawings the invention explained in more detail.

Show it:

Fig. 1 shows a projectile according to the invention in side view, and

FIG. 2 shows a sectional view along line II-II in FIG. 1.

Fig. 1 shows a projectile 1 with a cylindrical Ge shell body 2nd The projectile body 2 consists of a rear part 3 and a front part 4 .

The rear part 3 takes up about half the length of the projectile 1 . The rear part 3 forms the projectile guide part and can be designed over calibrated, whereby the pressing resistance of the projectile in the pipe transition is increased, which leads to a good propellant burnup and a better seal against gas slip. The end 5 of the rear part 3 is concave.

The front part 4 of the projectile body 2 ends in the projectile tip 6 . On the front part 4 , a reduction device 7 is provided for the speed. The reduction device 7 contains an arranged at the top 3 braking surface 7 a and several arranged on the circumference 8 resistance surfaces 7 b.

The braking surface 7 a is perpendicular to the longitudinal axis of the projectile and since it is also arranged perpendicular to the direction of flight of the projectile 1 . In the braking surface 7 a, a concave recess 9 is present. The concave recess 9 is arranged centrally in the braking surface 7 a, ie that the center of the concave recess 9 lies on the longitudinal axis of the projectile body 2 .

The resistance surfaces 7 b, which form the second part of the reduction device 7 , are arranged on the peripheral surface 8 and are parallel to the direction of flight of the projectile 1 . The circumferential outer edge and the inner edge of the resistance surface 7 b run parallel, so that the resistance surface 7 b due to the conical areas at the Ge schossspitze 3 and at the transition area between the rear part 3 and the front part 4 an approximately parallelogram-shaped surface having. However, numerous other shapes are also conceivable, such as a triangular shape.

As shown in Fig. 2, four resistance surfaces 7 b are evenly spaced, that is offset by 90 °, distributed over the circumferential surface 8 . The direction of rotation of floor 1 is indicated by the arrows. In the direction of rotation of the projectile 1 a radially reducing ko African area 10 is provided in front of each resistance surface 7 a. Directly in front of a resistance surface 7 b, the radius is the smallest and at the other end of the conical region 10 , the radius is the largest. There is a paragraph in the peripheral surface 8 , which forms the next opposing surface 7 b. In other words, a resistance surface 7 b connects two conical regions 10 , one conical region on the resistance surface having its smallest radius, while the other conical region has its largest radius there.

In the following, the flight behavior of floor 1 will be described. By burning off the propellant, the projectile 1 is accelerated in the barrel of a firearm, and because of the barrel geometry it keeps a swirl movement for flight stabilization. Without the reducing device 7 according to the invention, a projectile would fly stably and far, since a conventional projectile with a tapering projectile tip has a very low Cd value. In the case of the projectile 1 according to the invention, the speed of the projectile 1 is reduced by the braking surface 7 a and the resistance surfaces 7 b, so that the range and impact force are reduced.

The air flowing in from the front hits the braking surface 7 a and the concave recess 9 arranged therein. This causes a first reduction in the speed of the projectile while the flight position of the projectile 1 remains stable. At the same time, the projectile 1 is rotated about its longitudinal axis, where b in the resistive surface 7 form an air resistance that reduces the spin of the projectile 1, whereby the attitude in unstable mer is, starts to oscillate to the projectile. 1 This causes a further drop in the speed of the projectile 1 . The strength and direction of the pendulum movement is determined by the arrangement and size of the resistance surfaces 7 b.

The projectile body 2 preferably consists of a biodegradable plastic which is filled with a metal. This can reduce the environmental impact.

Claims (9)

1. Projectile for a training short-range ammunition, with a projectile body ( 2 ) having a rear part ( 3 ) and a front part ( 4 ) in the direction of flight, characterized in that on the front part ( 4 ) a reduction device ( 7 ) for the speed is provided. 2. Projectile according to claim 1, characterized in that the reducing device ( 7 ) in the area of the projectile tip ( 6 ) has a braking surface ( 7 a) running perpendicular to the direction of flight. 3. Projectile according to claim 2, characterized in that the braking surface ( 7 a) has a concave recess ( 9 ). 4. Projectile according to one of claims 1-3, characterized in that the reducing device ( 7 ) on the peripheral surface ( 8 ) of the projectile body ( 2 ) has at least one longitudinal resistance surface ( 7 b) for reducing the projectile twist. 5. Projectile according to claim 4, characterized in that the peripheral surface (8) a (b 7) in the rotational direction of the projectile (1) before the resistance surface disposed radially diminishing conical portion (10). 6. Projectile according to claim 4 or 5, characterized in that four resistance surfaces ( 7 b) offset by 90 ° are provided. 7. Projectile according to one of claims 4-6, characterized in that the resistance surface ( 7 b) is formed spirally on the peripheral surface ( 8 ). 8. Projectile according to one of claims 1-7, characterized in that the rear part ( 3 ) is ausgebil det over calibrated. 9. Projectile according to one of claims 1-8, characterized in that the projectile ( 1 ) consists of a biodegradable plastic with a metal filling.