WO2013139595A1 - Fin-stabilized full-calibre practice projectile - Google Patents

Abstract

In order to ensure the firing strength of a full-calibre practice projectile (1), which has a solid head part (3) and a tubular fin body (5) adjoining the head part (3) at the rear, in a cost-effective manner, the invention proposes that the fin body (5) is designed in such a way that the propellant gases caused by the firing of the practice projectile (1) act also on the outer side (6) of the side wall (7) of the tubular fin body (5). In order to prevent the propellant gases from flowing past the practice projectile (1) on the outside within the weapon barrel, a sealing system (10) is provided in the area of the solid head part (3) of the practice projectile (1), said sealing system comprising a sealing ring (11) that is acted upon by a wedge ring (12). Both the axially displaceable wedge ring (12) and the sealing ring (11) are arranged in an annular groove (13) provided in the rear section of the head part (3). The sealing ring (11), which is arranged upstream of the wedge ring (12) in the direction of firing of the practice projectile (1), comprises a rear conical inner cavity (14), into which the front area of the wedge ring (12) engages in a force- and form-fitting manner such that, during an axial application of pressure onto the wedge ring (12), said wedge ring is axially displaced and presses the outer side wall region (15) of the conical inner cavity (14) of the sealing ring (11), which acts as a sealing lip, radially against the inner wall of the weapon barrel.

Description

 Overview Description Parameters

Tail stabilized full caliber training projectile

The invention relates to a ladder-stabilized full-caliber training projectile which can be fired from a weapon barrel and has a solid head part and a tubular tail body adjoining the head part on the rear side, the training projectile being provided with a sealing system on the circumference.

Such a full-caliber training projectile is known from the document DE 10 2010 034 33 A1. It is a large caliber, for example, from a tank cannon with the caliber 120 mm shootable training projectile. In contrast to comparable known full-caliber practice projectiles, which usually comprise a head part with an adjoining projectile casing and a shaft with fin assembly adjoining the projectile casing, the projectile casing itself is designed as a tubular fin body in the aforementioned training projectile, so that a separate shank may be omitted with attached fin assembly. The resulting at the launch of the practice projectile projectile charge gases reach in this full-caliber training projectile in the interior of the tubular tail body and act to accelerate the practice projectile on the rear-side region of the headboard, which limits the interior geschosskopfseitig.

In order to ensure that no propellant charge gases can flow past the inner wall of the weapon barrel and the outer wall of the training projectile at the launch of the training projectile disclosed in DE 0 2010 034 33 A1, a per se known sealing system is on the outside in the rear third of the tubular region of the stabilizer body arranged. This consists essentially of a in the outer surface of the tail body inserted annular groove, in which engages an existing plastic sealing ring.

When launching large-caliber practice bullets, a high internal pressure of the propellant charge gases occurs within the tubular tail body, which strongly acts on the side wall of the tubular tail body, in particular in the region between the sealing system and the head part. This can have an effect on the firing resistance, in particular when using a lighter body of a light metal.

The invention has for its object to provide a full-caliber practice bullet of the type mentioned, the firing resistance is ensured in a cost effective manner.

This object is achieved by the features of claim 1. Further, particularly advantageous embodiments of the invention disclose the dependent claims.

The invention is essentially based on the idea to dispense with a sealing system in the tubular portion of the tail body, so that the propellant gases formed at the launch of the training projectile also act on the outside of the side wall of the tubular tail body and thus acting on the outside of the tubular tail body pressure the counteracts the acting on the inside of the side wall of the training projectile internal pressure. To avoid an outside bypassing the propellant charge gases on the entire exercise floor within the gun barrel, a sealing system is arranged in the region of the massive head part of the exercise projectile, which comprises a sealing ring acted upon by a wedge ring. Both the axially displaceable wedge ring and the sealing ring are arranged in an annular region situated in the rear region of the head part or in a region of the tail body which overlaps the head part. In this case, the arranged in the weft direction of the training projectile in front of the wedge ring sealing ring has a rear conical inner cavity into which the front portion of the wedge ring positively and positively engages, such that when an axial pressurization of the wedge ring this is moved axially and acting as a sealing lip outer Side wall portion of the conical inner cavity of the sealing ring radially presses against the inner wall of the gun barrel. To ensure that the launch of the training projectile within the gun barrel, the outside of the tail body is acted upon by the propellant charge gases, it is provided that the tubular tail body spaced apart, knob-shaped guide elements over which the tail body is supported on the gun barrel, wherein the knob-shaped Führungsseiemente form a guide ring arranged around the tail body, and wherein the propellant gases can flow between adjacent guide elements.

The sealing ring and / or the wedge ring consist / is preferably made of plastic.

Further details and advantages of the invention will become apparent from the following, explained with reference to figures embodiment. Show it:

Figure 1 shows the longitudinal section through an inventive, consisting of a head part and a tubular tail body full-caliber exercise floor, wherein on the outside of the head part, a sealing system is arranged.

Fig. 2 is an enlarged view of a cross section through the training projectile shown in Fig. 1 along the designated there with fl-ll cutting line and

Fig. 3 is an enlarged view of the Kopfteiies of the exercise projectile shown in Fig. 1.

In Fig. 1, 1 is fired from a gun barrel, not shown leitwerkstabilisiertes full-caliber practice bullet. With the practice floor 1, a sleeve cover 2 is connected, which forms the compound of the training projectile 1 with a propellant charge, not shown, containing the propellant charge.

The training projectile 1 comprises a solid head part 3 with a trailing-side arranged tracer body receptacle 4 and a tailpiece body 5 adjoining the head part 3 at the rear.

According to the invention, the tubular tail body 5 is designed in such a way that the propellant gases produced during the launch of the training projectile 1 also act on the outside 6 of the side wall 7 of the tubular tail body 5. For this purpose, the tail body 5 is formed unterkalibrig and is supported by spaced apart, knob-shaped Führungsseiemente 8 (Figure 2) on the inner wall of the gun barrel, not shown. The nub-shaped guide elements 8 are arranged around the tail body 5 such that they form a guide ring 9, wherein the propellant charge gases can flow between adjacent guide elements 8.

In order to avoid that the propellant charge gases within the gun barrel can flow past the entire training floor 1 on the outside, a sealing system 10 is arranged in the region of the solid head part 3 of the training projectile 1.

In this sealing system 10 engage, seen in the weft direction, front, for example made of plastic sealing ring 1 and a rear side the sealing ring 11 acting wedge ring 12, in a common annular groove 13 in the rear-side region of the head part 3 a. For the purpose of simple assembly, the annular groove 13 is bounded at the rear by the front end face of the tail body 5.

The sealing ring 11 has a rear conical inner cavity 14 (FIG. 3), in which the front region of the wedge ring 12 positively and positively engages, such that upon axial pressurization of the wedge ring 12, this moves axially towards the projectile nose and acting as Dichtiippe outer side wall portion 15 of the conical inner cavity 14 of the sealing ring 11 radially presses against the inner wall of the gun barrel, not shown.

The sealing ring 11 can either be pressed or sprayed onto the head part 3 and then turned off to measure and / or without twisting directly onto the head part! 3 are raised.

Of course, the invention is not limited to the embodiment described above. For example, the massive headboard does not necessarily have to be a solid body. Rather, it may also be a hollow body, if the wall thickness and / or the material (steel, etc.) of the head part are chosen such that the propellant charge gases cause no or no significant deformation of the head part when shooting in the barrel. Furthermore, the annular groove of the sealing system does not necessarily have to be arranged on the tail body itself, but it can also be provided that the annular groove engages in this case in a training projectile in which the tail body engages over the head part on the front side (see also FIG Wall portion of the tail body is arranged.

LIST OF REFERENCE NUMBERS

1 full caliber practice floor, practice floor

2 sleeve caps

 3 headboard

 4 tracer record

 5 tail bodies

 6 outside

 7 sidewall

 8 guide element

 9 guide ring

 10 sealing system

 1 1 sealing ring

 12 wedged ring

 13 annular groove

 14 internal cavity

 15 sidewall area

Claims

1. From a barrel fire-shootable stabilizer stabilized full-caliber practice bullet (1) with a solid head part (3) and a rear side of the head part (3) subsequent tubular Leitwerkskörper (5), the training projectile (1) circumferentially with a sealing system ( 10), with the features: a) the tubular tail body (5) is designed such that the propellant gases produced during the firing of the training projectile (1) also extend to the outside (6) of the side wall (7) of the tubular tail body (FIG. 5) act, b) the sealing system (10) is arranged in the region of the head part (3) of the training projectile (1), wherein the sealing system (10) by a wedge ring (12) rear side acted upon sealing ring (11), and wherein the Wedge ring (12) and the sealing ring (11) in a common annular groove (13) in the rear-side region of the head part (3) or in a region of the head part (3) cross-tail body ( 5) engage, and c) the sealing ring (11) has a rear conical inner cavity (14), in which the front portion of the wedge ring (12) engages positively and positively, such that upon axial pressurization of the wedge ring (12) of this is axially displaced and presses acting as a sealing lip outer Seitenwandbe- rich (15) of the conical inner cavity (14) of the sealing ring (11) radially against the inner wall of the gun barrel.

2. Exercise projectile according to claim 1 or 2, characterized in that the tubular Leitwerkskörper (5) spaced apart, knob-shaped guide elements (8), which form one around the tail body (5) arranged around the guide ring (9).

3. Exercise projectile according to one of claims 1 to 3, characterized in that the sealing ring (1 1) and / or the wedge ring (12) consist of plastic / consists.