DE102012006892B3 - Tail unit-stabilized full caliber-training projectile, has recesses formed between guiding elements for axial passage of propellant gases produced during firing of projectile, and sealing system arranged in solid head part - Google Patents

Abstract

The projectile (1) has a solid head part (2), and a tube-shaped tail unit body (3) connected to the head part. The body is designed such that propellant gases produced during firing of the projectile work on an outer side (5) of the body. The outer side has an annular groove (8), and a guiding band (9) is arranged in the recess. The guiding band has rod-shaped guiding elements that are arranged at a distance from each other in a circumferential direction. Recesses are formed between the guiding elements for axial passage of the gases, and a sealing system is arranged in the head part. An independent claim is also included for a method for manufacturing a full caliber-training projectile.

Description

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

Such a full-caliber practice bullet is from the document DE 10 2010 034 333 A1 known. 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 portion of the headboard, which limits the interior geschosskopfseitig.

To ensure that when shooting down in the DE 10 2010 034 333 A1 disclosed training projectile no propellant gases between the inner wall of the gun barrel and the outer wall of the training projectile can flow past this, is about the outside of a known sealing system arranged in the rear third of the tubular portion of the tail body. This consists essentially of a recessed into the outer surface of the tail body annular groove into 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 area 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 DE 35 32 411 C2 deals with trained as a training ammunition shaped charge projectile with caliber-identical stabilizer, which has a front and a rear explosive chamber and which is provided at the end face of the projectile casing with a firing rod. The connection plate is in this case formed with the firing rod and the rear explosive chamber forming part of the projectile casing as a forging and welded to a cylindrical tube made of the same metal as the central part. Between the front and the rear explosive chamber, a support disk is arranged, which prevents the projectile shell from being compressed by the high firing pressure, so that the projectile shell requires only a small wall thickness.

The DE 7346003 U refers to a projectile with stabilized rotation. According to this solution, a control ring is attached to a rear part of the projectile. The engages during firing in the gun barrel twist and gives the projectile a rotation. The body tapers from a maximum diameter immediately before the control ring to the front end of the projectile body. The conical part is provided with circumferentially spaced-apart projections which fit tightly and extend radially.

From the WO 96/12927 A1 In particular, a method of providing a KE ammunition, such as a subcaliber bullet, with the slipping leader tape is disclosed.

The US 4,040,359 A shows a fragile circulating belt consisting of a plastic-glass mixture. This breaks through pressure during the weapon pass.

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. Furthermore, a method for producing such a training projectile will be disclosed.

This object is achieved with respect to the exercise projectile by the features of claim 1 and in terms of the method by the features of claim 5. Further, particularly advantageous embodiments of the invention disclose the dependent claims.

The invention is based essentially on the idea to dispense with a sealing system in the tubular portion of the tail body and form the tail body partially unterkalibrig, so that the firing charge gases produced at the launch of the training projectile also act on the outside of the side wall of the tubular tail body and thus the on the Outside of the tubular tail body pressure acting on the inside of the Side wall of the training projectile counteracts acting internal pressure. In this case, a guide system is provided in particular for reducing an initial donation of the training projectile in the rear region of the tail body, which comprises a guide strip receiving a ring groove of the tail body. The guide band has a plurality of evenly distributed over the circumference of the tail body arranged, web-shaped guide elements which support the tail body, and thus also the practice projectile, on the inner wall of the corresponding gun barrel. In addition, a sealing system in the region of the massive head portion of the exercise bullet is arranged to avoid an outside bypassing the propellant charge gases on the practice floor within the barrel.

While the tail body preferably consists of a light metal (usually an aluminum alloy), the material used for the guide band is preferably plastic, sintered metal or soft iron.

The guide band should comprise at least three web-shaped guide elements. The lateral spacing of adjacent web-shaped guide elements can be greater than the width of the respective guide element. The flow area can also be increased in depth.

To produce the practice projectile, the annular groove and then into the annular groove, the guide webbing having the web-shaped guide elements is first introduced into the outer side of the tubular Leitwerkskörpers.

When using plastic as a guide strip material either a corresponding, provided with guide elements guide tape can be prefabricated and then this pressed into the annular groove of the tail body (shrunk) or the guide strip material is using a corresponding, the contour of the guide elements and the recesses having shape in the Injected annular groove of the tail body.

When using sintered metal or soft iron as a guide tape material either a corresponding, provided with guide elements guide tape prefabricated and then pressed into the annular groove of the tail body (or shrunk after heating by appropriate cooling) or the guide tape material is using a corresponding, the contour the guide elements and recesses having mold poured into the annular groove of the tail body. Alternatively, it is possible to produce the ring of sintered metal or soft iron, to press and mechanically produce the final contour.

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

1 the longitudinal section through an inventive, consisting of a headboard and a tubular tail body full caliber training projectile and

2 an enlarged cross section of the tail body of in 1 shown training projectile along there with II-II designated cutting line.

In 1 is with 1 a leitwerkstabilisiertes full-caliber training projectile fired from a gun barrel, not shown (see also the DE 10 2010 034 333 A1 ), which is a massive headboard 2 and a back to the headboard 2 subsequent tubular tail body 3 includes.

The existing example of an aluminum alloy tubular Leitwerkskörper 3 is designed so that when launching the practice bullet 1 resulting propellant gases both in the interior 4 of the tail body 3 as well as on the outside 5 the side wall 6 of the tubular tail body 3 Act.

For this purpose, the tail body 3 with a guidance system 7 provided, one in the outside 5 of the tubular tail body 3 milled, circumferential, groove-shaped recess (annular groove) 8th comprises, in the example of a suitable plastic existing guide tape 9 is arranged. The leader band 9 has, seen in the circumferential direction, twelve equally spaced, web-shaped guide elements 10 on, between which in the axial direction extending recesses 11 for the axial passage of the launch of the practice projectile 1 resulting propellant gases are provided.

The guide elements 10 of the leader band 9 , which are slightly over-caliber formed, will be during the launch of the practice bullet 1 compressed and thus give a play-free leadership in the barrel. In addition, they serve a radial guidance of the corresponding, the practice floor 1 containing cartridge in their transport packaging or ammunition bunker. Another object of the over-caliber plastic element is to meet the interface problem, which is that at this position a minimum diameter is required (for example, 120.6 mm with 120 mm cartridges).

To avoid the propellant gases inside the gun barrel on the outside of the entire practice floor 1 can flow past, is a sealing system 12 in the area of the massive headboard 2 of the practice floor 1 arranged.

It attacks in the in 1 illustrated embodiment, an existing plastic sealing ring 13 in a circumferential groove-shaped recess (annular groove) 14 in the rear area of the headboard 2 one. In this sealing system 12 it is a conical seal, with the width of the annular groove 14 is greater than the width of the sealing ring 13 so that the sealing ring 13 at a pressurization by the propellant gases within the annular groove 14 axially displaceable towards the projectile tip. Due to the conical configuration of the groove bottom of the annular groove 14 causes the axial displacement of the sealing ring 13 also a radial expansion of the sealing ring 13 , making it a permanent statement between the practice floor 1 and the inner wall of the barrel comes.

For the production of the guidance system 7 It has proven to be advantageous when first in the outside 5 of the tubular tail body 3 the ring groove 8th and then into the ring groove 8th that the web-shaped guide elements 10 having guide band 9 is introduced. In this case, a corresponding, provided with guide elements guide tape prefabricated and this then pressed into the annular groove of the tail body (shrunk).

But it can also be provided that the guide strip material is injected using a corresponding, the contour of the guide elements and the recesses having the form in the annular groove of the tail body.

Of course, the invention is not limited to the embodiment described above. Thus, for example, a suitable sintered metal or soft iron can be used as a guide strip material instead of plastic. The guide strip provided with the guide elements can then in turn be prefabricated and pressed into the annular groove of the tail body (shrunk) or the guide strip material, using a corresponding, the contour of the guide elements and recesses having shape, are poured into the annular groove of the tail body.

Furthermore, the guide band can be provided in the circumferential direction with predetermined breaking points, so it blown away after leaving the gun barrel of the air forces and the aerodynamics of the practice projectile 1 is not adversely affected by the leadership band.

LIST OF REFERENCE NUMBERS

1

Full-caliber practice floor, training floor

2

headboard

3

tail body

4

inner space

5

outside

6

Side wall

7

guidance system

8th

Recess, annular groove

9

guide band

10

guide element

11

recess

12

sealing system

13

sealing ring

14

groove-shaped recess, annular groove

Claims (6)

Can be fired from a gun barrel stabilized full-caliber training projectile ( 1 ) with a solid headboard ( 2 ) and one at the rear of the headboard ( 2 ) subsequent tubular tail body ( 3 ), whereby the practice floor ( 1 ) peripherally with a sealing system ( 12 ), having the features: a) the tubular tail body ( 3 ) is partially formed in such a sub-caliber that at the launch of the training projectile ( 1 ) formed propellant gases on the outside ( 5 ) of the side wall ( 6 ) of the tubular tail body ( 3 ), b) the outside ( 5 ) of the tubular tail body ( 3 ) contains at least one circumferential groove-shaped recess (annular groove) ( 8th ), in which a leader band ( 9 ) is arranged; c) the leader band ( 9 ), seen in the circumferential direction, a plurality of equally spaced, web-shaped guide elements ( 10 ), between which recesses ( 11 ) for an axial passage of the launching of the training projectile ( 1 ) are provided propellant gases, and d) the sealing system ( 12 ) is in the area of the head part ( 2 ) of the training projectile ( 1 ) arranged. Full caliber training projectile according to claim 1, characterized in that the tail body ( 3 ) of light metal and the guide band ( 9 ) consist of plastic, sintered metal or soft iron. Full caliber training projectile according to claim 1 or 2, characterized in that the guide band ( 9 ) at least three web-shaped guide elements ( 10 ) having. Method for producing a full-caliber training projectile according to one of claims 1 to 3, characterized in that first into the outside ( 5 ) of the tubular tail body ( 3 ) the annular groove ( 8th ) and then into the annular groove ( 8th ) that the web-shaped guide elements ( 10 ) ( 9 ) is introduced. A method according to claim 4, characterized in that when using plastic as a guide strip material, either first with a guide elements ( 10 ) provided guide tape ( 9 ) and then this in the annular groove ( 8th ) of the tail body is pressed or that the guide strip material using a corresponding, the contour of the guide elements ( 10 ) and the recesses ( 11 ) having in the annular groove ( 8th ) of the tail body ( 3 ) is injected. A method according to claim 4, characterized in that when using sintered metal or soft iron as a guide strip material either initially with a guide elements ( 10 ) provided guide tape ( 9 ) and then this in the annular groove ( 8th ) of the tail body ( 3 ) or that the guide strip material using a corresponding, the contour of the guide elements ( 10 ) and recesses ( 11 ) having in the annular groove ( 8th ) of the tail body ( 3 ) is poured.

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