NL8100586A - WING STABILIZED ARROW PROJECTILE. - Google Patents

Description

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Wing stabilized arrow-shaped projectile.

The invention relates to a wing-stabilized arrow-shaped projectile, which serves for firing, optionally, from a smooth or a weapon tube provided with pulling and fielding, which projectile can be connected to a floating ring or to a floating mirror depending on the application case and has means to compensate for the rotation forced upon it from a drawn gun barrel when fired.

An arrow-shaped projectile, which is usually fired from a smooth weapon tube, is automatically forced to rotate when fired from a drawn weapon tube. This tube rotation must be compensated for the stability of the projectile, especially as a result of the; The rotation given to the tail control during firing does not significantly affect the aerodynamic flight behavior of the projectile.

Within this problem circle, the particular difficulty lies in the extremely low axial mass a. Moment of inertia of the projectile in relation to that of comparable larger caliber projectiles. The following example will clarify this:

Since the moment of inertia increases with the fifth power at scale, a projectile of e.g.

28 mm diameter have an approximately 525 times greater axial inertia moment than a scaled projectile down to 8 mm diameter. It can be deduced from this that the torque acting on the projectile in the weapon tube may only be very small in order to prevent, at least very strongly, limiting the inclusion of rotation.

Taking these physical facts into account, it is already known to compensate for the rotation of a projectile, which is provided, for example, with a driving ring, either by means of a rotating disc or by means of a rotating sealing tape.

In the former case, an annular disc is arranged axially behind the floating ring. The face of the disc slides on the floating ring, while its cylindrical 81 0 0 58 6 * - 2 - triangular surface processes the sealing.

In the second case, a sliding sealing ring is arranged peripherally on the floating ring. This sealing ring, which rotates freely on the driving ring, cuts in the manner of a projectile guide band known per se in the pulls of the weapon housing.

Although these two proposals for a solution already have mutually great useful effects, however, both of them are in no way sufficient in their effect. It is true that the known solutions already have certain limits with regard to conception.

In view of the imperfections and limitations associated with these solutions, the present invention underlies the problem, which takes into account the mass production of arrow-shaped projectiles, to provide a rotation equalization for such arrow-shaped projectiles in a simple manner. In doing so, the aim must be achieved to shoot ballistic retracted weapon houses optimally. It must also be achieved that, upon firing, depending on the air forces and the inertia of the tail construction of the arrow-shaped projectile, in extreme cases only a part of the rotation of the projectile is transferred to the tail construction.

According to the invention, this problem is mainly solved in that - the rear projectile is reduced in length relative to the remaining projectile body as regards the diameter, with regard to the diameter, and - the reduced diameter also forms the axis for receiving a radially movable sleeve, hub or such member, which carries the circumferentially distributed stabilizing wings.

The proposed invention also undergoes a further favorable development, in that the sleeve, hub or the like is secured against axial displacement by means of an element, such as a nut, locking pin or the like, which forms the end of the projectile.

The very simple construction alone makes it possible to produce an arrow-shaped projectile also suitable for mass production. As a result of the rotational power as well as the inertia of the tail construction, when an arrow-shaped projectile is fired from a drawn weapon tube, it can be ensured that only a minimal part of the projectile rotation can still be transferred to the tail construction. In addition, the residual number of revolutions of the tailplane in the ballistic flight due to the aerodynamic forces acting on it practically shows a tendency to zero.

The invention will be explained in more detail below with reference to the drawing, which shows by way of example an embodiment of the arrow-shaped projectile according to the invention. In the drawing: Fig. 1 shows an arrow-shaped projectile with a rotatable tail construction in side view and Fig. 2 shows the arrow-shaped projectile according to Fig. 1 in the direction of the arrow "A".

The arrow-shaped projectile, indicated in its entirety by 1, consists essentially of the pointed arc-shaped part 1a, the cylindrical middle part 1b, the rear part 1c which has been reduced in diameter with respect to the middle part 1b, and the tail construction 1d.

The rear portion 1c, in radially rotatable arrangement, carries a sleeve, hub or like member le to which the wings of the tail construction are mounted. The number of these wings depends on the degree of stabilization required.

30 To move or move axially. even falling off the sleeve, hub or the like member le with its tail construction - resp. to prevent stabilizing wings 1d on (of) the rear part 1c, a security member 2, e.g. a nut, locking pin or the like is provided. This organ also forms the closure at the rear of the projectile.

The reduced diameter of the rear part 1c has a length "L", which approximately corresponds to the length of the tail construction 1d. This diameter has such a 81 00 58 6 - 4 - 1 V * dimension that a favorable aerodynamic flow is created all around.

Conclusions 8 1 0 0 58 6

Claims (2)

1. Wing-stabilized arrow-shaped projectile, which is used for firing either from a smooth or a weapon housing provided with pulling and fielding, which projectile can be connected to a floating ring resp. with a driving mirror and means for compensating for the rotation which is forced upon it when firing from a drawn gun housing, characterized in that - the projectile (1) at the rear (1c) is approximately the length (L) of the tail structure, in diameter, has been reduced relative to the remaining projectile body (lb), and that the reduced diameter is also the axis for receiving a radially movable sleeve, hub, or similar member (le ), which carries the stabilizing wings (1d) distributed around the circumference, and that the radially movable sleeve is equal in its diameter. to or smaller than the projectile caliber. Arrow-shaped projectile according to claim 1, characterized in that the sleeve, hub or like member (le) is secured against axial displacement by means of a member (2) forming the end of a projectile, eg a nut, locking pin or the like. 81 00 58 6