WO2019197095A1 - Explosive projectile - Google Patents

Abstract

The invention relates to a projectile (1), comprising a projectile casing (2), an explosive charge (3) contained therein, and a closure part (5). In order to prevent the introduction of heat into the explosive charge (3) from the compressed air layer in the projectile, it is provided that a protective layer (6) is applied at least to a rear explosive-charge surface (7) of the explosive charge (3). The layer thickness of the protective layer (6) can be variably designed. The protective layer (6) should be matched as accurately as possible to the contour of the explosive charge (3).

Description

 DESCRIPTION

explosive projectile

The invention relates to a warhead, in particular an explosive projectile, in which an explosive charge is received, which is introduced from behind into the warhead.

DE 10 2009 022 495 A1 discloses a method for producing a large-caliber explosive projectile and an explosive projectile produced by this method. To achieve that both the liner and the explosive charge can be introduced quickly and accurately in the projectile casing of the explosive projectile, it is proposed to produce the projectile casing in two parts, such that in the direction of the longitudinal axis of the projectile casing a rear-side projectile casing section and the Resulting mouth cavity containing front projectile casing section. The introduction of the liner in the rear-side projectile casing section and the explosive charge in the liner takes place before connecting the two projectile casing sections together.

EP 1 338 860 B1 describes a method for producing a large-caliber explosive projectile, in which initially a shell made of an elastic plastic (liner) is introduced through the mouth hole in the interior of the projectile casing and then the explosive charge is poured into the liner.

A liner is necessary in explosive projectiles to decouple due to the different volume expansion coefficients of the explosive charge and the projectile casing material, the explosive charge to the inner wall of the projectile casing with temperature fluctuations.

The above ideas are limited suitable for back-filled projectiles.

If warheads are filled with explosives from behind, a thin layer of air remains between the explosive charge and the projectile casing when closing the warhead. During firing, adiabatic compression warms up the remaining air in the gap. DE 10 2005 050 973 A1 discloses an explosive projectile comprising a plastic-bound insensitive explosive charge. To avoid stress cracking due to temperature changes is proposed to make a total separation of the charge from the inner wall. Alternatively, the so-called "setback" effect should be minimized by means of a partial coating with non-stick material. As a release agent, a silicone layer is provided. This may be partially present on the bullet inner surface. It is stated as advantageous that the silicone intermediate layer is arranged in the region of the inner surface of the cavity facing the projectile nose of the blasting projectile and / or in the region of the inner surface of the hollow space facing the explosive projectile. Such inserted layers between the explosive charge and the Ge schosshöhe must be secured against slipping or with respect to the compression of remaining air spaces in order to achieve the required security.

Here, the invention addresses the problem of avoiding unwanted implementation of an explosive charge by heated at launch air in particular in the bottom of the projectile to avoid.

The problem is solved by the features of claim 1. Advantageous embodiments can be found in the dependent claims.

The invention is based on the idea to introduce an adjustable protective layer in projectiles filled from behind. Technically, this idea allows a simple series production while maintaining the required security. The introduced layer, which can also be referred to as silvering, is firmly connected to the explosive charge without air layer. This ensures that sufficient thermal insulation is achieved. Furthermore, it is considered that an initiation of the explosive charge is not affected stronger by a Zündver.

The layer thickness can be determined for each type of blasting site. The determined layer thickness is ensured by a contouring tool, for example by means of a casting tool. The compatible with the explosive charge elastic layer is applied evenly by means of the casting tool on the explosive surface.

The resulting advantages include the fact that a cost-effective and reproducible at any time introducing the heat-insulating layer is shown. The layer serves as a damping element against unwanted implementation of the explosive charge at loading load, but not as a seal of an exposed explosive charge. The spatial order of the damping mass or the layer introduced is in the bottom of the Ge fencing head. Proposed is a projectile or a warhead with a projectile casing, an explosive charge therein and a closure part, which closes the projectile casing from behind ver. In order to prevent a heat input from an air layer compressed in the projectile into the explosive charge, it is provided that a protective layer is applied at least on a rear explosive charge surface of the explosive charge. The layer thickness of the protective layer is variable. It can be varied for each type of blasting story. The layer thickness must sufficiently reduce the heat input from the compressed air into the explosive, do not interfere with the initiation of the explosive charge by the ignition amplifier of the ignition chain. Although the layer is independent of geometry, it should as far as possible be contour-matched to the contour of the explosive charge.

The present idea serves as protection against friction and excessive heat input into the explosive charge by compression of the residual air after closing the warhead.

Reference to an embodiment with drawing, the invention will be explained in more detail.

It shows the only figure a projectile 1 with a projectile casing 2. An explosive charge 3 can here completely, partially or without wall adhesion with the projectile casing 2 ver prevented. A rear floor opening 4 is closed by a closure part 5. The explosive charge 3 is introduced in this embodiment from behind in the projectile 1 and the Ge shot casing 2. In the projectile 1 is the projectile head of an unspecified tank mortar or artillery ammunition.

The procedure is roughly as follows:

The projectile head or the projectile 1 is filled from behind with the explosive or explosive charge 3. This is poured into the projectile casing 2. The amount of Sprengla tion 3 is given. The explosive charge 3 assumes its position within the projectile casing 2 a. Thereafter, a protective layer 6 tion against heat in the Sprengla 3 introduced into the projectile casing 2. The protective layer 6 can also be referred to as silvering. The layer thickness 6 is to be dimensioned so that a sufficient heat insulation is achieved, an initiation of the explosive charge 3 by an unspecified Darge presented ignition amplifier of a detonating chain is not affected.

The compatible with the explosive charge 3 protective layer 6 is preferably elastic. This is preferably applied uniformly to a rear explosive charge surface 7. The contours of the explosive charge 3 and the protective layer 6 can be inexpensively manufactured or created in a series production by a shaping casting tool. Finally, the projectile 1 is closed by means of closure part 5. There remains only a residual trapped thin layer of air. This air layer is significantly lower than an air layer without an introduced protective layer 6.

The protective layer 6 prevents the initiation of heat from the compressed residual union air in the explosive charge 3 and thus an unwanted implementation of the projectile.

Claims

PATENT APPLICATIONS

1 . A projectile (1) having a projectile casing (2), an explosive charge (3) and a closure part (5) therein, characterized by a protective layer (6) applied to the explosive charge (3) at least on a reverse explosive charge surface (7).

2. Projectile (1) according to claim 1, characterized in that the layer thickness of the protective layer (6) is variable.

3. projectile (1) according to claim 1 or 2, characterized in that the protective layer (6) as contoured as possible to the contour of the explosive charge (3) is adjusted.

4. Projectile (1) according to one of claims 1 to 3, characterized in that the protective layer (6) prevents heat input into the explosive charge (3).

5. projectile (1) according to one of claims 1 to 4, characterized in that the protective layer (6) with the explosive charge (3) is compatible.

6. projectile (1) according to one of claims 1 to 5, characterized in that the protective layer (6) is elastic.

7. A method for producing a projectile (1) according to any one of claims 1 to 6 characterized by the following steps:

 • introducing an explosive charge (3) into the projectile casing (2),

 Applying a protective layer (6) at least on a rear explosive charge surface (7) of the explosive charge (3),

 • Closing the projectile casing (2) with a closure part (5).

8. armored mortar or artillery ammunition, characterized by a projectile (1) according to one of claims 1 to 6.