DE1004973B - Shaped charge projectile - Google Patents

Description

GERMAN

The invention relates to a shaped charge projectile which is fired from guns with a rifled barrel should be and is provided with a guide ring.

The increased penetration of shaped charge projectiles is known to be based on the fact that the Explosion of the shaped charge from the tapered sheet metal lining covering the explosives into the Projectile axis concentrated jet of molten metal is formed, which penetrates armor. However, it has been found that twist-stabilized hollow charge projectiles only have a reduced penetrating power because the centrifugal force generated by the bullet twist is the concentration of the molten Metal counteracts in the bullet axis. So z. B. a shaped charge projectile from 75 mm caliber, which rotates at 10,000 revolutions per minute in flight and at a low initial speed from about 300 to 400 m / sec. is shot down, about 20 to 30%> the power it would have if it weren't spinning. Are twist-stabilized shaped charge projectiles shot at a higher initial velocity, its penetration continues to decrease, and the The aim of the hollow charge is to increase the penetration power compared to projectiles without a hollow charge becomes practically meaningless if the initial speed of the twist-stabilized hollow charge projectile is around 700 to 800 m / sec. is increased, because as the initial speed increases, so does the bullet twist and that generated by it Increase centrifugal force, which counteracts the increase in penetration power.

The fight against moving targets requires direct and quick fire. So you can't Reduce the initial velocity of shaped charge artillery projectiles in order to achieve a high penetration rate to get, but must strive at the highest possible initial speed, which for a Good accuracy is required while maintaining the projectile twist during flight of the projectile to reduce the flight stability as much as possible up to the impact of the projectile.

It is known to shoot hollow charge projectiles without a twist and to move them in the trajectory through a tail unit to stabilize. However, such projectiles only have an inadequate quality when leaving the launch tube Flight stability on, so that easily deviations from the flight path occur and the accuracy is only slight, especially if the launch is not steep. It has already been suggested to provide a shaped charge projectile stabilized with a tail unit with a guide ring, to get it from a gun with a rifled barrel shaped charge projectile

Applicant:

Institution for the development of

Inventions and commercial

Applications, ENERGA,

Vaduz (Liechtenstein)

Representative: Dipl.-Ing. G. Weinhausen, patent attorney,
Frankfurt / M., Friedrich ^ Ebert-Str. 53

Claimed priority:
Switzerland from December 19, 1952

Edgar William Brandt, Geneva (Switzerland),
has been named as the inventor

to be able to shoot. The projectile controlled by the tail unit then receives a twist that is generated by the Tail unit is braked on the trajectory of the projectile, but this braking is indefinite is and is usually not sufficient to destroy the twist up to the impact of the projectile or something to reduce far that the shaped charge is effective with full penetrating power.

Furthermore, it is known to provide artillery projectiles with an inner one which can be rotated against the projectile casing To provide projectile body and train so that the inner projectile body taking advantage of Propellant gas rotates even faster than the bullet casing set in rotation by the pulls of the gun barrel. However, this is associated with an increase in the projectile twist. Other artillery shells has been provided with a rotatable and a fixed guide ring. The rotatable one The guide ring has the task of creating a better seal on the rifling of the gun barrel than the fixed guide ring that transfers the twist to the projectile body because the rotatable one The guide ring is not loaded by the tangential forces that generate twist. The improved sealing should result in an increased initial speed and an increased projectile twist.

In contrast to these previously known applications of rotatably mounted on the projectile body Guide rings, the invention is directed to launching a gun barrel drawn from it Form the shaped charge body so that it is at high

609 840/103

projecting shot caliber and pressing into the rifling of the barrel when firing. The annular beads 7, 8 have only a small cross-section compared to the guide ring 5 because they only need to exert a small force on the bullet when the Ge-5 shot is fired due to the sliding movement of the guide ring relative to the bullet.

In the embodiment according to FIG. 3, two washers 9 and 10 and a sleeve 11 are between Ge

Part of the guide ring 5 and rests against its rear annular bead 8. The cartridge case forms so a tight seal on the storey.

In the modified design according to FIG. 4, the actual guide ring 5 is ^{embedded in a metal ring 5 a} , which in turn is rotatable on the projectile body. Channels 15 are passed through the projectile body 3 in front of the guide ring, so that powder gases that

Initial speed only a reduced twist
receives upon launch and on its trajectory through
a tail unit is stabilized. This is achieved according to the invention in that the in a known manner
rotatably seated on the projectile body guide ring so
sits loosely so that it only has part of the swirl generated
transfers to the projectile body. The strength of the
The twist that the projectile receives is caused by this
the friction between the guide ring and the
Projectile body, arranged by the formation of the friction io shot and guide ring, which serve as sliding surfaces, through the masses of the guide ring and the surfaces, so that the guide ring is freely movable projectile body and by the size of the Vor Hch in the recess and surfaces exposed to propellant gases on the storey. only a small part of the rotation due to friction

You can transfer the friction between the guide ring, which is transmitted to it by the trains of the gun barrel and affect the projectile body by issuing 15.

the guide ring in an intermediate layer on the cartridge case 12, which contains the propellant charge,

lap body embeds. For this purpose, one or more intermediate rings made of provided, inwardly directed bead 13 over metal, cardboard or other material, e.g. B. from a ring 14, which sits in an annular groove of the projectile leather, graphite, alloys with low friction 20 bottom part 4. The front edge of the cartridge coefficient od. The like. Also by more or less sleeve 12 encloses the smaller in diameter, strong greasing of the mutually movable parts
the coefficient of friction can be changed.

The initial twist given to the projectile body by the guide ring has only the purpose that the projectile Leaving the gun barrel to stabilize until the tail unit takes effect and further stabilization of the projectile on the trajectory.

The drawing shows examples of implementation

of the shaped charge projectile according to the invention, and 30 between the guide ring or the guide Zwar shows the ring carrying the ring and the projectile through

Fig. 1 is a view of the half axially cut flow, can escape.

ten projectile according to the invention, the guide ring 5 consists of deformable

Fig. 2 to 4 on a larger scale sections through material, so that it is when propelling the projectile the bearing point of the guide ring can be pressed into the cables in different ways, e.g. B. made of copper borrowed designs and pressed fiber or leather.

5 shows a partial view according to FIG. 1 of a device. The invention can also be applied to projectiles.

shot whose caliber is smaller than that of the barrel. turn which have a smaller caliber than the launching device. The projectile shown in FIG. 1 has a head tube as shown in FIG. The Fühünder 1, which is at the top of the ballistic 40 ring ring 5 is sitting in a on the projectile hood 2, which is rotatably mounted on the cylindrical part 3 of the body 3 ring 16, the projectile body is screwed. To part 3
the one that tapers towards the rear closes
Bottom part 4 of the projectile body with the
Part 3 is screwed. There is a 45 on the floor
attached hollow tail, which carries the tail unit with hinged wings 19. In the projectile body
is the shaped charge 17, the front in the usual
Way is covered with a sheet metal lining 18.

The projectile body carries a guide ring 5 approximately in the plane of its center of gravity, which is at the connection point is inserted between the parts 3 and 4 in an annular groove of rectangular cross-section. The ring groove is smeared or with graphite on its surfaces facing the guide ring another friction-reducing coating 6 (Fig. 2) provided so that the ring can slide in the groove, when tangential forces act on it.

The guide ring 5 has annular beads 7, 8 on its outer surface (Fig. 2 and 3), which over the device

consists of several parts that remain on the projectile up to the muzzle and are then thrown off.

Claims (2)

PATENT CLAIMS: 1. Hollow charge projectile for drawn tubes, with guide ring and tail unit, characterized in that that the in a known manner rotatably on the projectile body (3, 4) seated guide ring (5) so sits loosely that it transfers only part of the twist to the projectile body. 2. Projectile according to claim 1, characterized in that the guide ring (5 or 5, 5 ^a ) is embedded in an intermediate layer (6 or 9 to 11) on the projectile body (3, 4). Considered publications:
German patent specifications No. 57 832, 172 152,
114190, 271621; British Patent No. 579,649. 1 sheet of drawings © 609 840/103 3.57