DE1082163B - Shaped charge projectile - Google Patents

Description

GERMAN

According to conventional methods, a shaped charge projectile is either through on its path Rotation at high speed or stabilized with the help of fins. Own both methods however disadvantages.

It is known that the penetration capacity of a shaped charge projectile stabilized by rotation is considerably reduced by the action of centrifugal force. A decrease in the rotation of the projectile either results in an insufficient improvement in penetration power or does not stabilize the projectile sufficiently.

Projectiles stabilized by fins, intended to be fired from handguns or artillery have other disadvantages. The body of the tail with the fins must be strong and so that it is difficult to avoid the incineration of the powder in the cargo space To be able to withstand gas pressure. It is difficult to correctly measure the center of gravity with such a projectile while maintaining a favorable shape and size of the shaped charge. The bullet, in which such a projectile is incorporated, gets a great length, becomes uncomfortable in the Handling and is also not very suitable for use in weapons with a short barrel. A special Another disadvantage is the difficulty of producing fin-stabilized projectiles from bullets provided with rifles Shoot pipes to make better use of these weapons.

The projectile according to the invention is based on a completely different principle of stabilization, whereby both the rotation and the fins can be dispensed with.

Namely, it has been found that good stabilization of shaped charge projectiles with a shell part enclosing the explosive charge with rigid Connected cap and bottom part is achieved when first the outer surface of the cap by a sharp edge is limited, secondly, the line of rotation generating the outer surface at the sharp edge forms an acute angle with a plane perpendicular to the longitudinal axis of the projectile, third the shell part with a frustoconically tapering part from the front end in as is known, encloses most of the explosive charge, fourthly the transition shoulder between the frustoconical shell part and the little protruding bottom part with guide ring approximate forms a right angle and a tail pipe open at the rear is attached to the bottom part.

The outer surface of the cap must have such a shape that during the flight of the projectile on the air shaped charge projectile located in front of the projectile

Applicant:
Försvarets fabriksstyrelse, Stockholm

Representative :, Dr. G. Eben, patent attorney,
Munich 13, Agnesstr. 39

Claimed priority:
Sweden from May 20 and June 7, 1955

Hugo Abramson and Sigfrid Akselson,

Eskilstuna (Sweden),
have been named as inventors

is deflected sideways by the outer surface. This half is bounded by a sharp edge, the outer surface and the outer surface of the rotation-generating line forms with a longitudinal axis of the projectile ¹ perpendicular to the plane defined an acute angle which is preferably smaller than 30 °.

Furthermore, it has been found to be useful that the frustoconical shell part with the longitudinal axis of the projectile forms only a very small angle, which preferably depends on the speed of the projectile is about 2 to 5 °.

Furthermore, it has been found to be advantageous if the bottom part by a rear shell part enclosing shell-shaped body is formed, which is threaded on the shell part in a known manner is attached and the outer edge surface forms a rear cylindrical part of the projectile.

It is best to choose the dimensions of the projectile so that the distance between the sharp edge is on the outer surface from the center of gravity of the entire floor is less than a third of the distance between the sharp edge and the rear end of the tail pipe, which is why the latter is useful is kept as light as possible. The cap can be heavier to help reduce air pressure during the

009 · 510/53 "

Can withstand flight. The center of gravity of the whole floor is thereby in the longitudinal direction moved in front. The center of gravity is preferably at the apex of the front surface of the shaped charge forming conical metal insert or in its vicinity.

It is also useful that the length of the frustoconical shell part is one to two thirds of the Distance between the sharp edge that delimits the cap and the rear end of the tail tube. The length of the latter and, if applicable that of a tube forming the upper part of the cap is to be dimensioned relatively large, it can z. B. correspond to the bullet caliber.

The transition shoulder between the frustoconical shell part and the little protruding The bottom part forms approximately a right angle, which is therefore slightly larger or smaller than 90 ° can.

The tail tube must have one, with the exception of the threaded front end on the bottom part Have an outer diameter that is slightly smaller than the caliber of the bullet, so when firing no unwanted contact takes place on the wall of the launch tube, which could easily reduce the trajectory of the Can have an unfavorable effect on the projectile.

As a result, the outside diameter of the tail tube is about 88 to 99 ^fl / o of the bullet caliber, preferably about 94 to 95%. Furthermore, for the same reason it has been found to be advantageous to use the tail pipe in a relatively less elastic material, e.g. B. a suitable metal to perform.

The stabilizing effect on the trajectory of the projectile according to the invention, which by its above specified forms is causedj is based on the formation of a fluidized bed at the front end of the projectile during flight. These flow conditions are complicated and cause small changes in the external surface of the projectile body Disturbances in stability. Despite this limitation in the shape of the bullet, it has been possible to to build a shaped charge into the projectile body with a favorable effect.

The invention can be applied to projectiles at subsonic, sonic and supersonic speeds come to use. It can be applied not only to projectiles that are to be fired from smooth tubes, but also to Projectiles for firing from a drawn barrel, in the latter case, however, provided that the guide ring receives a slip to such an extent that the rotation of the projectile opposite their normal value, d. H. about 5000 to 15,000 revolutions per minute, is significantly reduced.

The drawing shows a longitudinal section through an embodiment of the shaped charge projectile according to of the invention shown as an example.

According to this, the projectile consists of a frustoconically tapering jacket part I ₁ towards the rear, a cap 2 screwed onto the front end of the frustoconical jacket part 1, a slightly protruding bottom part 3 screwed onto the rear end of the frustoconical jacket part 1 and a tail tube 4, which is screwed onto the bottom part 3. The frustoconical shell part 1 and the bottom part 3 enclose a hollow charge 5 with a conical metal insert 6 as a front surface and a detonator 7 at its rear end. The upper part of the cap 2 is elongated and forms a tube 8, at the front end of which an impact fuse 9 is attached. Between the apex of the conical metal insert 6 and the detonator 7 there is a flame tube 10 for conducting the pilot flame. The cap 2 is provided with a flange 11, the front end of which forms a sharp edge 19 and the outer diameter of which corresponds to the caliber of the projectile, so that the flange 11 serves as a guide ring. The flange 11 preferably engages around the front end of the frustoconical casing part 1. Also the outside diameter of the front end 12 of the bottom part 3 and the diameter of the front end

¹ S 13 of the tail tube 4 correspond to the caliber of the bullet.

In the embodiment shown, both the outer surface 14 of the cap 2 and the transition surface 15 to the cylindrical outer surface of the tube 8 have the shape of a truncated cone. However, the transition surface 15 forms a larger angle with a plane perpendicular to the longitudinal axis of the projectile than the outer surface 14, the corresponding angle of which is less than 30 ^Ω . The length of the

Outer surface 14 of the cap 2 next to the flange 11 generated line of rotation amounts in the illustrated Embodiment to about a third of the bullet caliber.

The transition shoulder 16 between the conical

frustum-shaped shell part 1 and the little protruding Bottom part 3 forms approximately a right angle. On the circumference of the bottom part 3 is located a sliding guide ring 17,18, the slip is so high that the projectile only one such rotation receives, which does not significantly affect the mass stream formed by the shaped charge on impact.

Claims (4)

Patent claims: 1. Hollow charge projectile with a shell part enclosing the explosive charge with rigidly connected Cap and base part, characterized in that the outer surface (14) of the cap (2) is limited by a sharp edge (19) and the line of rotation generating the outer surface on the sharp edge with a plane perpendicular to the longitudinal axis of the bullet Forms angle, the shell part (1) with one of the front end in itself frustoconical the rear tapering part in a known manner Most of the explosive charge (5) encloses the transition shoulder (16) between the frustoconical "Shell part (1) and the little protruding; bottom part (3)" with guide ring (18) approximately "forms a right angle and a tail pipe (4) open at the rear is attached to the bottom part is. 2. Projectile according to claim 1, characterized in that the outer surface (14) of the cap (2) generating line of rotation at the sharp edge (19) with a perpendicular to the longitudinal axis of the The plane on the floor forms an angle that is less than 30 °. 3. Projectile according to claim 1, characterized in that the frustoconical shell part (1) Forms an angle between 2 and 5 ° with the longitudinal axis of the projectile. I 082 163 4. Projectile according to claim 1, characterized in that that the bottom part (3) by a rear shell part (1) enclosing shell-shaped Body is formed on the shell part (1) in a known manner by means of thread is attached and the outer edge surface (12) of a rear cylindrical part of the projectile forms. Considered publications: German Patent Specifications No. 864 527, 858 949, 57 832; Austrian patent specifications No. 65 813, 35 471; Swiss Patent No. 307 659; French Patent No. 1,043,545; British Patent Nos. 578 845, 578 775; U.S. Patent No. 2,413,004. 1 sheet of drawings