DE1135341B - Twist-stabilized shaped charge projectile - Google Patents

Description

Spin-stabilized shaped charge projectile The invention relates on a twist-stabilized shaped charge projectile, consisting of a projectile casing and a rotatable axially displaceably mounted therein about the projectile axis, the Inner part containing a shaped charge, which when fired both by the powder propellant gases acted upon and accelerated and the inner part on the between him and propellant gases flowing through the projectile casing is stored, the projectile casing forms the counter bearing. With bullets of this type, the twist should not affect the inner part be transmitted.

Solutions have become known according to which the projectile is fired the inner part is reduced by reducing the pressing force against the projectile casing Entrainment and thus a reduced twist is obtained by between the rotating Projectile jacket and the inner part ball bearing with the interposition of an axially flexible Support to be attached. It has also been suggested to use non-compressible, however, deformable and liquid masses that then act as lubricants to be provided between the bullet jacket and the inner part. Solutions were also known after which the inner part is provided with a counter-twist or stabilized by means of a gyroscope shall be.

Another known solution is based on the knowledge accordingly the mass ratio is the area of the bullet jacket and inner part with propellant gases to apply. The possibility of the flow energy of the propellant gases was also known to use so that the inner part during the firing process as a result of conical Throttles a certain state of suspension, based on the projectile jacket, assumes.

These embodiments have various disadvantages, including, that the inner part with the swirled coat in the launch or in free flight Surface contact is coming. Two cones with the same position are particularly prone to rubbing and for increased take-away.

Other solutions are very expensive or not technically feasible.

The invention is also based on the task of launching a Entrainment of the inner part through the swirling bullet jacket by maintaining it a gas cushion between the two bodies, to be avoided as far as possible.

This is achieved in that the impingement surface of the inner part are designed as a ball and the counter bearing as a cone, with closed The opening gap between the projectile casing and the inner part is the effective impact area of the inner part is larger than the impact surface of the projectile jacket, than corresponds to the mass ratio of the two parts, while the concentrically located, smallest flow cross-section of the counter bearing compared to the impingement surface of the bullet jacket is smaller than this mass ratio corresponds. Through this Arrangement, the floating state of the inner part can be regulated within wide limits, and there may be additional resistance, such as pressing into the cables or friction between the two storey parts in their effect on the position of the inner part be balanced.

A spherical impact surface on the inner part fulfills this with a cone as a counter-bearing, the required properties as well as the effective ones Impact area when the gap is closed, i.e. when it is fired, relatively is large and corresponds to the area of the contact circle between the sphere and the cone is limited. For the dynamic state of the inflow of powder gases between The other borderline case is the inner part and the projectile jacket, however, an assumed area of impact on the ball, that of the projection of the passage opening in the counter bearing on the ball is equivalent to. However, if the area of the annular gap between the ball and the cone is smaller than the passage opening in the counter bearing, there are further pressure forces on the ball, which together are smaller than at closed annular gap. The two If dimensioned correctly, throttling points in the gas flow cause the floating position of the inner part opposite the bullet jacket.

After leaving the launch tube, the air pressure affects the Projectile tip presumably a new application of the inner part to the projectile jacket. According to the invention, this takes place in the favorable form of line contact.

The drawing shows the principle of the invention. Apply the powder gases the bottom of the bullet jacket 1 and hit at the same time through a passage opening 2 on a hemisphere 3. If this is in contact with the conical counter bearing 4, so the impact area on the ball 3 has its greatest value with the circular one Contact line as a boundary, and the inner part 6 is advanced in the firing direction. The caliber cross-section is the effective area of impact on the projectile jacket minus the impact area of the inner part. Some of the propellant gases can now through the annular gap between ball 3 and counter bearing 4 over a space 5 and through the bores 7 between the jacket 1 and the inner part 6 flow off. This reduces the effective impact area on the ball 3 and the inner part 6 takes finally a floating layer in the bullet jacket1.

Claims (1)

PATENT CLAIM: Twist-stabilized shaped charge projectile, consisting from a projectile jacket and one therein rotatable about the axis of the projectile and axially displaceably mounted, the hollow charge containing the inner part, which when fired Both are acted upon and accelerated by the powder propellant gases and the june part is stored on the propellant gases flowing through between it and the projectile jacket, wherein the projectile jacket forms the counter bearing, characterized in that the impact surface (3) of the inner part (6) is designed as a ball and the counter bearing (4) is designed as a cone, with the passage gap closed between the projectile casing (1) and the Inner part (6) the effective impingement area of the inner part with respect to the impingement area of the bullet jacket is larger than the mass ratio of the two parts (1, 6) while the concentrically located, smallest flow cross-section (2) of the counter bearing is smaller than the impact surface of the bullet jacket, than corresponds to this mass ratio. Publications considered: German Patent Specification Nos. 1038 447, 940 813.