FR2927417A1 - OBUS OF DISPERSION OF PROJECTILES - Google Patents

Abstract

The invention relates to a shell (1) containing projectiles (6), dispersible arranged in a body (2) provided with weakening grooves (14). This shell is characterized in that the body (2) is closed by a front wall (3) monobloc with the body (2) .Application ammunition tank.

Description

The technical field of the present invention is that of shells containing dispersible projectiles. US-6988450 discloses an antipersonnel munition comprising a casing containing beads, open forwards and closed by a detachable lid. The bottom of this envelope is: constituted by a rigid and indeformable mass and the body of the envelope is provided with longitudinal break primers to facilitate its bursting. At the exit of the barrel of the weapon, the aerodynamic pressure exerted on the lid ensures the dispersion of the balls. Nevertheless, the cluster of marbles remains in block at the beginning of trajectory (about 50 meters) before dispersing gradually in the form of sheaf. The object of the present invention is to provide a shell in which the projectile dispersion effect is ensured at the earliest after the exit of the weapon tube. This dispersion will be ensured by a controlled deformation of the body containing the projectiles. The invention therefore relates to a shell containing dispersible projectiles disposed in a body provided with weakening grooves, characterized in that the body is closed by a front wall integral with the body. According to a feature of the invention, the front partition has embrittlement grooves.

According to another characteristic of the invention, the shell comprises wedging means arranged opposite the front wall and compressible by the projectiles during firing of the shell. According to yet another characteristic of the invention, the grooves of the body extend through the grooves of the front partition. According to another characteristic of the invention, the wedging means consist of a layer of deformable elastomer. According to yet another characteristic of the invention, the projectiles are balls of metal material. The front wall of the shell may be provided with a cavity open towards the outside and delimited by a side wall. 2 The side wall may be provided with a recess in which a ring will be disposed, said ring being the caliber of the shell. The body may finally be closed by a base bearing 5 against the wedging means. A first advantage of the shell according to the invention resides in the fact that it generates a jet of projectiles very quickly after the exit of the barrel without agglomeration of these projectiles. Other features, details and advantages of the invention will become more clearly apparent from the following description given by way of indication in connection with drawings in which: FIG. 1 shows a longitudinal section of the shell according to FIG. FIG. 2 is an external view of this shell viewed in the direction F indicated in FIG. 1; FIG. 3 is a perspective view of the body of the shell. The shell 1 according to the invention is an ammunition when it is associated with a cartridge 12 containing a propellant charge, to be launched by a barrel or a weapon tube. This cartridge is quite classic and it is not necessary to describe it in more detail. The munition thus formed can be used for the purpose of clearing terrain, destroying obstacles, piercing walls, etc. The range or range of action of such an ammunition is adapted as needed. of the user. The shell 1 shown in longitudinal section according to Figure 1 consists of a body 2 closed by a front wall 3 formed of a single piece with the body. This body is monobloc. It is made for example of aluminum or aluminum alloy or any other suitable material. The material used must be able to withstand the pressures at launch by the barrel and provide the necessary stability in its path. This body 2 contains projectiles 6 which 3 are dispersible under the aerodynamic effect at the beginning of trajectory as will be explained below. These projectiles are not shown in the figures. They may be made of a sufficiently heavy material, for example metal (such as steel). Thus, in the embodiment described, steel balls with a mass of the order of 7 to 10 grams have been used. However, these projectiles may be of any shape and mass provided they are endowed with sufficient kinetic energy to cause the impact of the necessary destruction impact. The shell 1 is provided at its rear part with wedging means 5, arranged opposite the front wall 3, and held against the projectiles 6 by a base 4 screwed into the body 15 2. These wedging means 5 can be made of any suitable material, for example an elastomer disc. The role of these calibration means is twofold. It allows an initial compression of the projectiles 6 during assembly, which makes it possible to reduce the space between these projectiles and to limit the play as much as possible between the projectiles 6 and the body 2. These locking means play another role during the launch of the shell because they are compressible by the inertia of the projectiles when firing. This compression frees up space inside the container 1 to deform the envelope 2 by its medium as will be explained below. The base 4 receives the thrust generated by the propellant charge during launching. This base is for example made of aluminum alloy. The base 4 is extended by the cartridge 12 partially shown on between the base and the seal. A belt 11 is interposed 4 and the body 2. It ensures gas during the t__r of the shell. before 3 of the shell defines a cavity 9 35 open to the outside and bordered by a side wall 13 provided with a recess 13a. It also carries a central bead 8a provided with a bore 8b. The front wall 3 has at the bottom of the cavity 9 embrittlement grooves 10 (here five grooves 10a, 10b, 10c, 10d and 10e). The bore 8b makes it possible to adjust the thickness of material separating the end of the grooves 10 and this bore 8b. This delays the opening of the partition before 3 with respect to the deformation by compression of the body 2 in the middle. The front partition 3 is also provided with a ring 7 made of elastomer, disposed in the recess 13a and clamped against the side wall 13 to stiffen it. Of course, the ring 7 is the caliber of the munition and it completes the aerodynamic profile of the body 2. In Figure 2, there is shown a view along the direction F (Figure 1) showing the front wall 3 provided with grooves 10- 10e and specifying their disposition relative to the central bead 8a. This figure shows that the grooves are uniformly distributed angularly and that they are made in planes that are not radial with respect to the body 2. In FIG. 3 which represents a perspective view of the shell 1, FIG. represented grooves 14 which are formed in the thickness of the side wall of the body 2. These grooves are located in planes which are inclined relative to the axis of the shell 1 and evenly distributed angularly with respect to this axis. The grooves 14 could alternatively be made according to generatrices of the body parallel to the axis of the body. The inclined shape of the grooves, however, makes it possible to slow down in a certain way the dispersion of the projectiles out of the body 2 and thus facilitates the separation of the different projectiles.

It is still seen in Figure 3 that the grooves 14 extend through the grooves 10 of the front wall 3 so as to constitute a continuous breaking line of the entire body 2. There are here five grooves 14 regularly distributed angularly.

The operation is as follows. During firing of the ammunition, the base 4 of the shell 1 receives the thrust and the projectiles 6 crush inertia the wedging means 5 which generates a free space in the body 2.

From the exit of the barrel tube, the front partition 3 receives the aerodynamic flow at the cavity 9. This results in an axial plastic deformation in compression of the partition 3 and the body 2. The body 2 then increases in diameter at its median plane 2a (Figure 1). When the shear limit of the material of the body 2 is reached under the effect of the compression, the shell fragments along the grooves 14 of the body 2 and the grooves 10 of the front wall 3. The projectiles are then ejected and scattered in a sheaf. Thanks to the invention the projectiles can not remain agglomerated in the form of a block. The compression mechanism of the wedging means 5 and then the sequential rupture of the body 2 and the partition 3 by the radial deformation as a result of the aerodynamic thrust exerted on the front wall 3 causes the dispersion of the projectiles which can not remain agglomerated. This results in the generation of a sheaf at a reduced range of action from the barrel of the weapon (the dispersion occurs between 5 and 10 meters from the barrel of the weapon).

Claims (9)

1. Shells (1) containing dispersible projectiles (6) arranged in a body (2) provided with embrittlement grooves (14), characterized in that the body (2) is closed by a front wall (3) integral with the body (2). 2. Shell according to claim 1, characterized in that the front wall (3) has weakening grooves (10). 10 3. Shells according to one of claims 1 or 2, characterized in that it comprises wedging means (5) disposed opposite the front wall (3) and compressible by the projectiles (6) during the firing of the shell. 4. Shells according to claim 2, characterized in that the grooves (14) of the body (2) extend through the grooves (10) of the front wall (3). 5. Shells according to claim 3, characterized in that the wedging means (5) consist of a deformable elastomer layer. 20 6. shell according to one of the preceding claims, characterized in that the projectiles (6) are balls of metallic material. 7. Shells according to one of the preceding claims, characterized in that the front wall (3) of the shell (1) is provided with a cavity (9) open towards the outside and delimited by a side wall ( 13). 8. Shell according to one of the preceding claims, characterized in that the side wall (13) is provided with a recess (13a) in which a ring (7) is disposed, said ring being the caliber of the shell. . 9. shell according to any one of claims 1 to 7, characterized in that the body (2) is closed by a base (4) bearing against the wedging means (5).