EP0160164A1 - Full calibre training missile - Google Patents

Abstract

The spin-stabilized exercise projectile 10.1 experiences a reliable reduction in its range due to the design of the recess 18.1. In this case, a region of the first part of the trajectory of the training floor which can be predetermined in terms of its length can be adapted to the corresponding region of the trajectory of a sharp reference projectile in question.

Description

The invention relates to a full-caliber training projectile according to the preamble of claim 1.

A bullet of the same type is known from DE-OS 28 46 998. In the case of a rotationally symmetrical front part with an oval shape, a bolt of circular cross section projects over a smooth rear boundary surface. With its free end, the bolt is received in a central axial blind hole of an essentially full-caliber ballast body which is adapted to it. The length of the bolt is greater than the depth of the blind hole. The bolt has a larger outer diameter in a front area than in the area of the free end. The inner diameter of the blind hole in its front area is adapted to the larger outer diameter. In the rear area, the inside diameter of the blind hole is adapted to the smaller outside diameter of the bolt. In this way, the bolt is guided on a predeterminable piece along the axis and aligned with the axis. A rubber-elastic spring element is arranged between the rear annular surface of the front part and a front boundary surface of the ballast body which surrounds the mouth of the blind hole. It is designed like a thick-walled tube, tightly surrounds the bolt and supports itself against the both of the aforementioned boundary surfaces from the front and rear. The spring element is weakly sub-calibrated; consequently, a recess extends between the two boundary surfaces in the initial state of the projectile. The ballast body has a guide ring in its peripheral area.

Due to the launch acceleration of the ballast body, the rubber-elastic spring element is compressed without the arrangement in the said area becoming over-calibrated. As soon as the arrangement has left the weapon barrel and is no longer under the direct influence of the propellant gases, the energy stored in the spring element is released. The ballast body is thereby moved against the direction of flight on the bolt towards its free end, the axially aligned guide is released, and the ballast body separates from the bolt of the front part.

Sensitive disadvantages become apparent at the latest: The behavior of the ballast body is completely uncontrolled. Since it separates from the arrangement shortly after leaving the pipe, a hazard in the vicinity of the pipe mouth cannot be ruled out. All that remains to be considered is the front part with the rear bolt enclosed by the elastic spring element. Although it is not disputed that the mass of the last-mentioned remaining arrangement is less than that of the overall arrangement described at the beginning, and the air resistance of the remaining arrangement song has also changed compared to that of the overall arrangement, a reduction in the range (the remaining arrangement arrangement) cannot, however, necessarily be assumed. If a comparison is finally made between the position of the hatred center of gravity of the overall arrangement and the position of the center of mass of the rest of the arrangement, it can be seen that the center of mass of the rest of the arrangement on the longitudinal axis of the storey lies much closer to its varder end area than the center of gravity of the overall arrangement. This can lead to an over-stabilization of the remaining arrangement, and the intended range reduction therefore remains at least for the remaining arrangement

doubtful. Consequently, there is also an uncontrolled behavior in the case of strong scattering for the remainder of the arrangement, so that here too, if the reproducibility is poor, there is a considerable risk.

The invention has for its object to provide a practice projectile of the type mentioned, which is easy to manufacture, behaves essentially like a sharp reference projectile on a trajectory assigned a shooting distance, remains in one piece on its entire trajectory to be considered with unchanged mass and a good reproducibility of the results with a good comparability in relation to the conditions when firing with sharp reference ammunition.

This object is achieved by the invention specified in the characterizing part of patent claim 1.

The invention is explained in more detail below on the basis of three exemplary embodiments shown essentially schematically in the drawing.

• Fig. 1 ein erstes Ausführungsbeispiel mit einer Ausnehmung im längsaxialen Schnitt,
• Fig. 2 ein zweites Ausführungsbeispiel mit zwei Ausnehmungen im längsaxialen Schnitt und
• Fig. 3 einen Querschnitt durch ein drittes Ausführungsbeispiel mit zwei in einem einzigen Querebenenbereich angeordneten Ausnehmungen, von denen jeder nur ein Teilwinkel um die Geschoßlängsachse zugeordnet ist.

Show it:

• 1 shows a first embodiment with a recess in the longitudinal axial section,
• Fig. 2 shows a second embodiment with two recesses in the longitudinal axial section and
• Fig. 3 shows a cross section through a third embodiment with two recesses arranged in a single transverse plane area, each of which is assigned only a partial angle about the longitudinal axis of the floor.

The exemplary embodiments are shown essentially schematically in the drawing; when discussed further advantages will become apparent which result from the invention. The same parts are provided with the same reference numerals.

1, a training projectile 10.1 extends with a tip 12, a high surface 14 and a peripheral surface 16 along a central longitudinal axis A and has an annular recess 18.1. The projectile 10.1 is of full caliber design with a caliber d. In the recess 18.1, a front 20.1 and a rear hinge ring limiting surface 22.1 are connected to one another by a base surface 24. The depth t of the recess 18.1 corresponds approximately to a fifth to a quarter of the caliber d. For a ratio of the depth t to the width b _{1 of} the recess 18.1, it applies that its smallest numerical value is greater than 0.1 and its largest numerical value can reach up to approximately 0.5. The exercise gauge 10.1 is intended for barrel weapons with drawn barrel and a caliber of 155 mm, for example. A guide ring has not been shown.

The practice projectile 10.2 according to FIG. 2 essentially differs from the practice projectile 10.1 described in connection with FIG. 1 by a second recess 18.2 in the rear area of the relevant projectile floor. In the case shown, both recesses 18.1 and 18.2 are of the same depth; however, the widths b ₁ and b ₂ differ from one another without the specified limits for the numerical value of the ratio t / d being exceeded or undershot.

In the third exemplary embodiment according to FIG. 3, the practice floor 10.3 has two mutually symmetrical recesses 18.3 and 18.4 in a single transverse plane region, each of which is assigned only a partial angle 26 about the longitudinal axis A of the floor. The largest radial distance (not shown) between the circumferential surface 16 and the respective base surface 24.3 and 24.4 is approximately one fifth of the caliber, which is not described in more detail here.

• Ein seiner Länge nach vorgebbarer Bereich des ersten Teils der Flugbahn des in seiner Reichweite auf zuverlässige Weise reduzierten Übungsgeschosses nach der Erfindung ist dem entsprechenden der Flugbahn eines betreffenden scharfen Referenzgeschosses derart anpaßbar, daß für das Übungsgeschoß die für das Referenzgeschoß gültigen Schußtafeln benutzt werden können. Dieserart lassen sich vorteilhafterweise Übungsschießen - auch bei strenger Einhaltung der auf die zulässige Reichweite und Streuung gerichteten Sicherheitsvorschriften - durchaus realistisch gestalten. Dabei bleibt das einfach zu fertigende Übungsgeschoß nach dem Abschuß einstückig. Bei aller Gestaltähnlichkeit mit dem Referenzgeschoß ist das Übungsgeschoß im hellen durch Augenschein und im dunkeln durch Tasten sicher vom Referenzgeschoß zu unterscheiden.

In numerous attempts by the applicant it was found:

• A region of the first part of the trajectory of the practice projectile that is reliably reduced in its range in terms of its length is adaptable to the corresponding trajectory of a relevant reference projectile in such a way that the bullet boards valid for the reference projectile can be used for the practice projectile. In this way, practice shooting can be carried out realistically, even with strict adherence to the safety regulations aimed at the permissible range and dispersion. The easy to manufacture practice floor remains in one piece after the shot. Despite its similarity to the reference floor, the training floor can be distinguished from the reference floor by light in the light and by buttons in the dark.

A changeable exercise floor was not shown. However, this is understood to be a structure made up of the elements of a modular structure. In this context, reference is made to DE-PS 26 09 560. The relief of the logistics is obvious.

Claims (5)

1. Full-caliber, range-reduced training projectile with at least one circumferential recess for use with a barrel weapon with a drawn barrel and in the lower angular group with a substantially extended trajectory, characterized by the following features: a) the shape of the exercise test (10.1; 2; 3) corresponds, with the exception of the Aasnehmang (s) essentially that of a sharp reference floor and b) The position of the center of gravity of the practice floor (10.1; 2; 3) essentially corresponds to that of the reference floor. 2. Projectile according to claim 1, characterized by the following features: a) it is approximately the case that the depth (t) of the recess (18.1; 2; 3; 4) corresponds to a fifth to a quarter of the caliber (d) of the practice floor (10.1; 2; 3) and b) 0.1 <t / b≲0.5, with b the width and t the depth of the recess. 3. Projectile according to claim 1 or 2, characterized in that the recess (18.1; 2; 3; 4) has different cross sections over its course. 4. Projectile according to claim 1, 2 or 3, characterized in that the recess (18.3; 18.4) extends over an angle (26) deviating from the full angle about the projectile longitudinal axis (A). 5. Projectile according to one of claims 1 to 4, characterized by exchangeable means for adapting the geometry of the recess (18.1; 2; 3; 4) to an intended trajectory of the training projectile (10.1; 2; 3).

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