DE102018119165B3 - Solid jacket with cores - Google Patents

Abstract

The training cartridge according to the invention can be used with the same handling and hit position in a rifle on the shooting range, instead of the essentially identical insert cartridge with an insert jacket bullet as a projectile. However, the insert shell bullet of the insert cartridges has a steel core in the front area, the steel core having the same dimensions as the aluminum core of the shell cartridge of the training cartridge. The cores are adjusted so that an unchanged hit position results in the distances required for practicing from 1 - 100 meters. Advantageously, this also results in an interchangeability of the training and operational bullets in the production. It can be used alternately in a production plant for the production of storeys. The training jacket bullets for training cartridges or insert jacket bullets for cartridge cartridges according to the invention can be produced in batches without expensive retrofitting. This is possible because the insert jacket bullet (e.g. MEN GREEN AMMO BALL) has a steel core in the front area and a zinc core in the rear area, both of which have the same dimensions as the aluminum core or the identical zinc core of the training jacket bullet.

Description

The invention relates to a training cartridge with a solid jacket with cores, which has the features of the preamble of claim 1.

Solid shell bullets can differ in the number of cores. In the case of the double-core solid jacket bullet, there is usually a combination of a hard steel core and a soft, heavier lead core in a metal jacket,

Known double-core solid jacket bullets are said to achieve the greatest possible penetration effect when hitting a target due to their kinetic energy. For this purpose, a hard steel core is arranged in the front area of the well-known double-core solid jacket bullet, which generates a high pressure load when it hits a hard target due to the front end, which tapers in front and its relative deformation rigidity at the point of impact. To increase the penetration effect, another lead core is arranged behind the steel core, which transfers the kinetic energy of the heavy lead core via the front end of the steel core to the point of impact of the projectile.

For training purposes, one avoids the use of the punch-enhanced double-core ammunition described above for reasons of cost, environment and danger. Absolutely lead-free and low-pollution training ammunition is in demand at the training stand, which protects the rebound materials of the shooting ranges and thereby has an almost identical meeting point plague as the penetration-enhanced double-core ammunition and is of course safe to feed.

WO 9720185 A1 discloses a handgun jacket bullet with a front core in the front area of the bullet made of copper, aluminum, zinc or lead and a rear core arranged behind it with a density of at least 7.5 g / cm ^ 3.

GB191025199A discloses a handgun shell projectile with a front core in the front area of the projectile made of lead granulate and a rear core made of aluminum arranged behind it.

US2014202351A1 discloses a hollow-pointed jacket bullet with an open aluminum tip as a starter for early mushrooming when hitting a target.

US 2010/0 224 093 A1 . DE 199 30 474 A1 and US 2010/0 218 696 A1 disclose cartridges with a jacket bullet with at least one rotationally symmetrical front core in the front area of the bullet, a rear core arranged behind it and a jacket essentially surrounding the two cores, one of the cores made of light metal or light metal alloys and the other core made of soft metal or soft metal alloys.

The applicant sells an environmentally friendly GREEN AMMO BALL ammunition in 5.56 mm caliber with a solid, double-core bullet in which the front core is made of steel and the rear core is made of soft metal zinc. The rear core and thus the jacket is lengthened in relation to the standard NATO cartridge 5.56, so that the projectile or jacket has a length that is longer from 23 +/- 0.5 mm to 25.8 +/- 0.5 mm , This cartridge is not suitable for training purposes because of the load on the rebound materials of the shooting range and training cartridges are to be used for this, but they have a different hit position.

It is also known to produce the jacket from aluminum.

The object of the invention is therefore to provide an improved training cartridge with a solid jacket with cores for training purposes.

This object is achieved with a training cartridge with a jacket bullet, which has the features of the characterizing part of claim 1. An advantageous embodiment and development of the invention are the subject of the subclaims.

The training cartridge according to the invention with a jacket bullet initially comprises a rotationally symmetrical front core in the front region of the bullet, a rear core arranged behind it and a jacket surrounding the two cores, the rear region of the rear core, which does not consist of a lead alloy, being able to remain free to the rear. This area would be closed with a lead plate in the case of conventional ammunition with lead core in order to reduce lead vapors when the propellant charge burns up. The basis of the invention is therefore initially the double core bullet of the GREEN AMMO BALL cartridge with the bullet or jacket extended to 25.8 +/- 0.5 mm. According to the invention, however, it is provided that in the training cartridge the front core consists of a light metal or a light metal alloy with at least 80 M% aluminum, while the rear core continues to consist of a soft metal or soft metal alloy with at least 80 M% zinc.

This creates a completely lead-free and low-pollution training ammunition, which is the rebound materials of the shooting ranges spares one of the almost identical plague of plagues in comparison to the essentially identical ammunition, whereby an aluminum core is used in the front area instead of the steel core. Despite the large density difference between steel and aluminum, the sophisticated pairing of materials surprisingly leads to the fact that despite the greatly changed overall weight and center of gravity, an almost identical meeting point is achieved on the usual shooting ranges up to 100 m as with the heavier ammunition of identical construction. Furthermore, perfect functioning is achieved in the most common weapon systems with weapon wear reduced as a result of the lower masses and energies, so that the costs for the training are reduced.

If only the front core and the rear core are provided as cores, the projectile can be constructed in exactly the same way as the cartridge mentioned. The ammunition manufacturer can therefore produce a range of cartridges, including cartridges with a steel core in the front area and the training ammunition according to the invention with an aluminum core in the front area, on the same production facilities, which do not have to be converted - with the exception of replacing the supply of front cores in the feed.

This is achieved with the jacket bullet according to the invention in caliber 5.56 mm × 45.

According to the invention, this training cartridge with the projectile can be implemented with the advantages mentioned above in a training cartridge in caliber 5.56 mm x 45. The sophisticated dimensions of the training bullet enable the advantages mentioned here to be optimally realized, particularly with regard to feedability, environmental friendliness, bullet protection, exterior ballistics and at the same time compatibility with a mission bullet in use, on the shooting range and in production and materials management.

Such a training cartridge can therefore be used with the same handling and hit position in a rifle on the shooting range, instead of the essentially identical insert cartridge with an insert shell bullet as a projectile. However, the insert shell bullet of the insert cartridges has a steel core in the front area, the steel core having the same dimensions as the aluminum core of the shell cartridge of the training cartridge. The cores are adjusted so that an unchanged hit position results in the distances required for practicing from 1 - 100 meters.

Advantageously, this also results in an interchangeability of the training and operational bullets in the production. It can be used alternately in a production plant for the production of storeys. The training jacket bullets for training cartridges or insert jacket bullets for cartridge cartridges according to the invention can be produced in batches without expensive retrofitting. This is possible because the insert jacket bullet (e.g. MEN GREEN AMMO BALL) has a steel core in the front area and a zinc core in the rear area, both of which have the same dimensions as the aluminum core or the identical zinc core of the training jacket bullet.

• 1 einen Längsschnitt durch das erfindungsgemäße Mantelgeschoß in vergrößertem Maßstab,
• 2 eine teilweise geschnittene Seitenansicht des erfindungsgemäßen Stahlkernes in gegenüber 1 vergrößertem Maßstab, und
• 3 eine Teilansicht des zylindrischen Heckteils des Stahlkerns aus 2 in nochmals vergrößertem Maßstab.

In the drawing, an embodiment of a jacket bullet of the training cartridge according to the invention is shown schematically, an advantageous geometry is also explained. It shows

• 1 2 shows a longitudinal section through the mantle storey according to the invention on an enlarged scale,
• 2 a partially sectioned side view of the steel core according to the invention in opposite 1 enlarged scale, and
• 3 a partial view of the cylindrical rear part of the steel core 2 on a further enlarged scale.

In 1 an inventive double-core solid jacket floor is shown, the geometry of which, for. B is basically known from the NATO cartridge 5.56 mm x 45 - apart from the length. The floor and all parts of the floor are rotationally symmetrical. The projectile 1 consists essentially of a front core, here aluminum core 20 , a stern core, here zinc core 30 , both cores 20 . 30 essentially enclosing mantle 10 , which leaves the rear area of the rear core partially open to the rear. However, the rear area is extended compared to the normal NATO cartridge 5.56 mm x 45, which means that sufficient ballistic stability is achieved with the selected material combination. By flattening the front part of the steel core 20 and the pointed inner shape of the coat 10 a conical cavity is created in the front area of the floor 11 ,

In the exemplary embodiment, the aluminum core 20 , seen in the direction of flight, arranged in front, behind it closes the zinc core 30 so that it fits into the recesses in the aluminum core. Both cores together are from one coat 10 surrounded, for manufacturing reasons, a rear rear area 40 only partially bordered. The cover plate usual for lead cores is not necessary for the rear core because of the zinc material.

The aluminum core designed according to the invention 20 is in a further enlargement 2 to see. The rotationally symmetrical aluminum core has a front end in the front area 21 on, which in the embodiment shown forms a surface that is perpendicular or radial to the longitudinal axis of the aluminum core and parallel to the rear surface 24 is trained. The curved side surface 22 of the aluminum core is in 2 designed in such a way that they follow an arc with radius R over the entire wall with the exception of the cylindrical rear part 26 runs. In the cut area of 2 is a conical recess 27 to recognize the inclusion of the in the recess 27 engaging tip 31 of the zinc core 30 serves. With this recess, the zinc core with its high mass inertia is centered longer on the aluminum core when the bullet strikes, and thus the zinc core slides or separates 30 from the aluminum core 20 difficult. The result is that the bullet has adequate puncture performance.

The tail section 28 of the aluminum core is in 3 shown again enlarged and serves to explain the design of the cylindrical rear part 26 of the aluminum core of the projectile according to the invention. The rear part corresponds to that point on the floor from which the jacket 10 first comes into contact with the fields and trains of the run. In the projectile according to the invention, the wall goes 22 , which is curved, or runs according to an arc, in the cylindrical rear part 26 about. According to the invention, this results in a rear edge 25 , The contour of a rear part with the wall can be seen in the broken line 22 to the rear edge 25 ' is arched or runs along an arc. An aluminum core designed according to the invention with the rear edge 25 thus points in the area of the cylindrical rear part 26 has a smaller diameter and thus takes up less space in the cylindrical rear part, so that a wedge-shaped air gap is formed between the aluminum core and the jacket, which surrounds the aluminum core in a ring. Hence the coat 30 when pressing in the bullet 1 in the barrel of the weapon in this area, the possibility of the forces occurring during the pressing in by deformation in the direction of the wall of the cylindrical rear part 26 to avoid using the air gap. The energy required for this is lower than with a conventional front core, in which it is not possible to give in the jacket in the form described.

Claims (10)

Training cartridge in caliber 5.56 mm x 45, with a jacket bullet with at least one rotationally symmetrical front core (20) in the front area of the bullet, a rear core (30) arranged behind it and a jacket (10) essentially surrounding the two cores (20, 30) , characterized in that the front core consists of a light metal or light metal alloy with at least 80 M% aluminum and the rear core consists of a soft metal or soft metal alloy with at least 80 M% zinc, the diameter of the front core (20) at the point at which Firing the bullet the jacket (10) comes into contact with the fields and trains of the barrel for the first time, is reduced by a cylindrical rear part (26). Training cartridge after Claim 1 , characterized in that the front core consists of a light metal or light metal alloy with at least 95 M% aluminum and / or the rear core consists of a soft metal or soft metal alloy with at least 95 M% zinc. Training cartridge after Claim 1 or 2 , characterized in that only the front core and the rear core are provided as cores. Training cartridge according to one of the preceding claims, characterized in that the front core (20) has a front end (21), a rear surface (24) and side surfaces (22) with a curved wall, and on the rear surface (24) of the front core (20) the rear core (30) connects, the rear surface (24) of the front core having a recess (27) for receiving part of the rear core (30). Training cartridge according to one of the preceding claims, characterized in that the recess (27) in the rear surface (24) is conical. Training cartridge according to one of the preceding claims, characterized in that the curvature of the wall of the side surface (22) extends according to an arc. Training cartridge according to one of the preceding claims, characterized in that the front core (20) is produced by cold working. Training cartridge according to one of the preceding claims, characterized in that the front end (21) of the front core (20) is designed as a surface perpendicular to the longitudinal axis and parallel to the rear surface (24). Training cartridge according to one of the preceding claims, characterized in that it has a length of 25.8 +/- 0.5 mm, in particular 25.5-26.2 mm; and / or the rear edge of the front core is 10.5-12, in particular 11-11.7 mm behind the bullet tip; the aluminum front core has a weight of 0.1-0.3 g, in particular 0.18-0.22 g; and / or the stern core has a weight of 1.5-2.1 g, in particular 1.75-1.85 g; and / or the jacket surrounding the rear core has a length of 12.8-16.8 mm, preferably 13.8-15.8 mm; and / or the jacket surrounding the stern core has a cylindrical section with a diameter of 5.7 mm over a length of at least 10.4 mm, preferably 11.8 mm; and / or the projectile has a weight of 3.3-3.7 g, preferably 3.4-3.6 g, particularly preferably 3.45-3.55 g Alternating use in a rifle a) from a training cartridge according to one of the preceding claims on a shooting range and b) from an insert cartridge with an insert shell projectile as a projectile, wherein the cartridge case shell has a steel core in the front area and a zinc core in the rear area, the steel core having the same dimensions as the aluminum core of the shell bullet of the training cartridge and the zinc core has the same dimensions as the zinc core of the jacket bullet of the training cartridge or is identical to it; and preferably the bullet of the training cartridge has a weight of 3.3-3.7 g, preferably 3.4-3.6 g, particularly preferably 3.45-3.55 g and the bullet of the cartridge has a weight of 3.7 - 4.1 g, preferably 3.8 - 4.0 g, particularly preferably 3.85 - 3.95 g.

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