AT392844B - Munition - Google Patents

Abstract

A munition for firearms, in particular handheld firearms, which comprises a propellant charge 1 and at least one projectile 3, in which case the propellant charge 1 consists of at least two stages a to e, at least two of which have explosion characteristics which differ from one another and an electrical fuze device 5 is arranged, with a discarding sabot 2, which contains the projectile, at the front end of the propellant charge. In this case, the detonation material 5 is an electrical fuze wire or a wire mesh, metal wool etc., which is arranged in a recess in the detonation charge 1. <IMAGE>

Description

AT 392 844 B

The invention relates to ammunition for firearms, in particular handguns, which comprises a propellant charge and at least one projectile, the propellant charge consisting of at least two stages, at least two of which have different explosion characteristics, and in the rearmost propellant stage an electrical ignition device and at the front end of the propellant charge a sabot, which contains the projectile, are arranged.

Conventional ammunition consists of a cartridge case, which contains the propellant charge and the ignition device, and the actual projectile. The cartridge case, which is mostly made of non-ferrous metal, forms approximately half of the total cartridge mass and accounts for over 50% of the cartridge costs. The outer dimensions of the cartridge are mainly determined by the cartridge case. The bullets are made of expensive tombac sheets or tombac clad steel sheets and require complicated and precise manufacture. The weapons used for such ammunition require barrels with an inner profile for generating swirl, and expensive barrel hammer machines are required for the manufacture of the inner peg. The barrels are exposed to the respective gas pressure and also to wear due to the bullet friction with material removal, which must be taken into account through the use of alloyed special steels and through additional inner nitriding or inner chrome plating of the barrel core. Nevertheless, the maximum life of a barrel is only about 10,000 shots, which is not a large number for a fully automatic weapon.

Conventional ammunition has a shelf life of six to a maximum of ten years due to the decomposition of the powder used. The powder must then be remodeled or destroyed at considerable cost. Furthermore, conventional ammunition is dangerous for the shooter, as the cartridge's impact and heat-sensitive primer can ignite under certain circumstances. This happens e.g. B. when mistakenly loading a cartridge onto a still sharp cartridge in the loading space of the weapon and when storing a sharp cartridge in a hot shot loading space.

In addition, the sleeve ejection of a weapon, which is necessary with conventional ammunition, endangers the shooter or bystanders.

From DE-PS 1 082 834 an ammunition is known, the propellant charge of which is formed from several propellant stages, which are fired in succession. In contrast, the object of the present invention is to provide a propellant charge consisting of several propellant charge stages, the ignition characteristics of which can be controlled in a simple manner. This is achieved according to the invention in that the ignition material is an electrical ignition wire or a wire mesh, metal wool, etc., which is arranged in a recess passing through the propellant stages.

The ignition material is preferably arranged in central bores of the propellant stages. The projectile can be in electrical contact on the one hand and in conductive contact on the other hand with the ignition material. The contact can be arranged on the sabot and can be guided up to the periphery thereof in order to conductively connect the ignition material to the barrel of the firearm.

Furthermore, the rear end of the propellant charge preferably has a spacer plate and a contact which is conductively connected to the ignition material, the spacer plate having a diameter corresponding to the barrel diameter, which is larger than the diameter of the propellant charge. The difference between the diameter of the spacer plate and the diameter of the propellant charge can be between 1 mm and 3 mm.

The object of the invention is explained below with reference to an embodiment shown in the drawing. Show it:

Fig. 1 shows a central longitudinal section through an ammunition according to the invention and

Fig. 2 is a diagram.

The ammunition shown in Fig. 1 is caseless and consists essentially of the propellant charge (1), a sabot (2) and the projectile (3). The propellant charge (1) consists of several stages, with five such propellant charge stages (a to e) being provided in the present exemplary embodiment. The propellant stages consist of powder with different explosion characteristics, the individual stages being combined to form the propellant either by pressing or by sticking together. The propellant stages can also be arranged in a »sleeve made of plastic that burns without residues.

The propellant (1) is formed with a central bore (4) in which ignition material (5) is arranged. It is an electrically ignitable material, such as. B. an ignition wire or wire mesh, such as. B. is used in flash lamps. The ignition material must be such that it reaches the high temperatures required to ignite the propellant. At the rear end, the ammunition has an end plate (6) through which the propellant charge (1) is kept at a distance from the surrounding barrel, not shown. Sofeme this lens is made of combustible material, residues in the barrel are avoided. A contact element (7) is arranged on the outside of the cover plate (6), via which electrical current is conducted to the ignition material (5).

The sabot (2) is designed so that it fits exactly into the barrel and transmits the driving force of the propellant charge (1) to the projectile (3), but is destroyed in a very short time when leaving the barrel and separates from the projectile (3) . The sabot (2) is preferably made of plastic and is designed with predetermined breaking points. The projectile (3) comprises the projectile tip (8) and wings (10) arranged on the projectile body (9). The wings (10) give the projectile the necessary directional stability without the need for a -2-

Claims (6)

AT 392 844 B Dralls. The floor (3) is made of electrically conductive metal. The electrical current is passed through an electrical contact plate (11) from an ignition device (not shown) to the projectile (3), which is in conductive contact with the ignition material (5) at its rear end. Sofeme is applied to the contacts (7) and (11) from an external power source, the ignition material (5) burns off at a high temperature and 5 ignites the individual propellant charge stages, thereby causing the desired acceleration of the projectile (3) the sabot (2) comes. In Fig. 2, the pressure behavior in a gun barrel with conventional ammunition is shown schematically with a solid line. As can be seen from this, shortly after the ammunition is fired, there is a rapid rise to a high pressure peak and then a rapid drop in pressure, the curve ending at the time 10 when the projectile leaves the barrel. The pressure behavior of the ammunition according to the invention is shown schematically by the dashed line. As can be seen from this, the pressure increase is not so high at the beginning, the pressure remains constant over a longer period of time and then decreases continuously. The shape of this curve depends on the type and arrangement of the different propellant charge levels and can be selected as desired. In FIG. 2, different explosion times of the propellant charge stages according to FIG. 1 are shown with (a to e). The time delay can e.g. B. can be achieved in that the propellant charge stages (a to e) require different lengths to the highest pressure development. Another possibility is to design the ignition material (5) in such a way that it does not begin with the high temperature development over the entire length, but rather begins at a desired point and from there this temperature development progresses to the other propellant charge levels to the desired extent. The ignition is advantageously 20 by batteries or z. B. by means of ignition devices that work according to the piezo effect. In order to increase the air resistance for the sabot (2) after leaving the barrel and to accelerate its separation, the air resistance can e.g. B. by funnel-shaped depressions, arrangement of predetermined breaking points, production of the sabot from several elements that can be separated from each other by relatively low forces, etc., can be increased. The difference between the diameter of the spacer plate (6) and the diameter of the propellant charge determines the free space between the propellant charge and the barrel. A preferred difference is between 1 mm and 3 mm. In the exemplary embodiment, the contact (11) is arranged on the outside of the sabot (2), connecting its periphery (12) to the projectile (3) and thus to the ignition material (5). The current flow during ignition follows the gun barrel, the Contact (11), the projectile (3), the ignition material (5) and the contact (7) to the power supply and extraction device. The current can also flow from the barrel, for example, via a contact directly connected to the propellant charge in the rear area of the sabot. 35 PATENT CLAIMS 40 1. Ammunition for firearms, in particular handguns, which comprises a propellant charge and at least one projectile, the propellant charge consisting of at least two stages, at least two of which have different explosion characteristics, and in the rearmost propellant stage an electrical ignition device and at the front At the end of the propellant charge, a sabot containing the projectile 45 are arranged, characterized in that the ignition material (5) is an electrical ignition wire or a wire mesh, metal wool, etc., which is arranged in a recess in the ignition charge (1). 2. Ammunition according to claim 1, characterized in that the ignition material (5) is arranged in central bores of the propellant stages (a to e). 50 3. Ammunition according to one of claims 1 and 2, characterized in that the projectile (3) on the one hand with an electrical contact (11) and on the other hand with the ignition material (5) is in conductive contact. 4. Ammunition according to claim 3, characterized in that the contact (11) on the sabot (2) 55 is arranged and is guided up to its periphery (12) in order to conductively connect the ignition material (5) to the barrel of the firearm. 5. Ammunition according to one of the preceding claims, characterized in that the rear end of the propellant charge has a spacer plate (6) and a contact (7) 60 which is conductively connected to the ignition material (5), the spacer plate (6) corresponding to the barrel diameter Has diameter that is larger than the diameter of the propellant charge (1). -3- 5 AT 392 844 B 6. Ammunition according to claim 4, characterized in that the difference between the diameter of the spacer plate (6) and the diameter of the propellant charge is between 1 mm and 3 mm. Including 2 sheets of drawings -4- i: