FR3027664A1 - PROJECTILE COMPRISING ANTI RICOCHET MEANS - Google Patents

Abstract

The invention relates to a projectile (1) comprising a body (2) extended at its front by an ogive (3). This projectile is characterized in that it comprises a damping means (4) interposed between an inner surface (3c) of the ogive and the body (2) of the projectile.

Description

The technical field of the invention is that of projectiles and in particular projectiles of medium caliber (caliber between 12.7mm and 50mm). The projectiles, whether perforating or explosive, generally comprise a body which is extended at its front by a ballistic warhead. The warhead is made of a lightweight material (plastic or aluminum alloy). It does not participate in the perforation but it reduces the aerodynamic braking of the projectile trajectory. One of the problems encountered with projectiles is that of their ricochet on a target. The ricochet occurs most often when the angle of impact of the projectile with the perpendicular to the target (angle of incidence) is greater than or equal to 450. Known solutions for reducing or preventing ricochets often include indentations carried by an outer surface of the warhead and which cling to the target upon impact. Patent EP1685363 describes an example of an ogive having peripheral rings for fastening the projectile to the target for strong impacts. These solutions have disadvantages. The indentations increase in particular the aerodynamic braking of the projectile on trajectory. These solutions are therefore most often reserved for powered projectiles such as rockets or missiles or short-range projectiles such as medium-caliber grenades. Also known, for example by the patent FR1449347, medium caliber projectiles for which the indentations are provided at a front part of the projectile body which is covered by the warhead. There is no aerodynamic braking on the trajectory.

However, it is necessary to realize the warhead in a material that bursts from the impact on the target (and regardless of the angle of incidence), so that the indentations of the body can effectively prevent ricochets.

But the resistances of the warhead are not the same in all directions of impact and it arrives with these projectiles ricochet intervenes as soon as the impact of the warhead on the target. Reproducibility of anti-ricochet performance is therefore not ensured for all directions of impact. The object of the invention is to overcome such drawbacks by proposing a projectile incorporating means making it possible to reproducibly reduce target ricochets, which means do not increase the aerodynamic resistance of the projectile on trajectory. The invention is therefore particularly well suited to medium-caliber projectiles fired by cannon, projectiles having a range greater than 500 meters. Thus, the subject of the invention is a projectile comprising a body extended at its front by an ogive, a projectile characterized in that it comprises a damping means interposed between an internal surface of the ogive and the body of the projectile. According to one embodiment, the damping means 25 comprises at least two parallel blades extending radially relative to an axis of the projectile until coming into contact with or near the internal surface of the ogive, blades integral with a axial support. Advantageously, the axial support comprises a rear part incorporating a bore which covers an extension of the body. The axial support may incorporate a cavity receiving an impact marking composition or load.

According to a variant, the ogive may comprise on at least a portion of its inner surface indentations arranged opposite the grooves of the damping means separating the parallel blades.

Advantageously, the blades and the axial support may form a one-piece assembly. The one-piece assembly may be made of plastic or aluminum alloy. According to another embodiment, the damping means W may be formed by a block of cellular material. The cellular material may for example be an aluminum foam. Other advantages of the invention will appear on reading the following description of particular embodiments, description given with reference to the accompanying drawings and in which: - Figure 1 shows in longitudinal section the front part of a projectile according to a first embodiment of the invention. - Figure 2 shows in perspective and in isolation the damper means implemented in this first embodiment. - Figure 3 shows in longitudinal section the front part 25 of a projectile according to a second embodiment of the invention. With reference to FIGS. 1 and 2, a projectile 1 according to a first embodiment of the invention comprises a body 2 which is extended at its front portion by a nose 3. The body 2 has a threaded front portion 2e on which attach the warhead 3 which has a corresponding threaded portion.

The body 2 may be a steel body containing a payload 2b, for example an explosive or an impact marking composition (for an exercise projectile). The body 2 may alternatively be a solid body 5 for a piercing projectile. The ogive 3 is made of a light material, for example an aluminum alloy or a plastic material. It does not participate in the perforation performances of the projectile and its function is to improve the aerodynamic coefficients of the projectile. The nose 3 comprises a rear portion 3a, substantially cylindrical, which extends the body 2 of the projectile and a front portion 3b whose profile is ogive. The ogive 3 has a thin wall and its inner surface 3c delimits an internal cavity 7. According to the invention a damping means 4 is interposed between the inner surface 3c of the ogive and the body 2 of the projectile. According to the first embodiment described here, the damping means 4 is made for example of polyamide 6-6. This means 4 comprises at least integral with an axial support 8. radially with respect to an axis coming into contact with or near two parallel blades 5 The blades 5 extend 6 from the projectile to the inner surface 3c of formed by a monobloc piece, a plastic material such as the ogive. Thus the blades 5 arranged facing a front part 3b ogivée ogive are in contact with the inner surface 3c thereof and the blades 5 located opposite a rear cylindrical portion 3a of the warhead are not not in contact with the internal surface of the warhead. All the blades 5 are secured to an axial support 8. The axial support 8 comprises a front portion 8a of reduced diameter and a rear portion 8b of greater diameter. The rear portion 8b of the support 8 incorporates a bore 9 which cap an extension 10 of the body 2. The bore 9 may be a smooth bore and the connection between the damping means 4 and the extension 10 will be a press fit connection. Alternatively, a thread may be provided on the extension 10 cooperating with a thread formed in the bore 9. The blades 5 are thus spaced from each other by grooves 11 with a cylindrical bottom. As can be seen in FIG. 1, the grooves 11 are all of equal depth opposite the rear portion 8b of the axial support 8. This rear portion 8b of the axial support is in fact facing the cylindrical rear portion 3a of the 3. The grooves 11 have on the other hand a decreasing depth 15 facing the front portion 8a of the support 8 which itself is located opposite the front part ogivée 3b of the nose 3. The blades 5 arranged at the level the front portion 8a of the support 8 are all supported against the inner wall 3c of the ogive. The blades 5 disposed at the rear portion 8b of the support are at a small distance from the inner wall of the ogive. Upon impact of the projectile on a target, the shock received by the warhead 3 is transmitted to the blades 5. The transmission is direct for the blades 5 in contact with the ogive. It intervenes after a beginning of deformation of the warhead for the blades which are not in contact with this one. The blades 5 constitute elements that will deform during the impact shock by absorbing part of the energy of the impact. This will result in a crash of the warhead and an absence of ricochet. It will be noted that a shock at zero incidence (axis of the projectile perpendicular to the target) will directly request the support 8 whose deformation is less than that of the blades. This has no notable impact since the risk of ricochet at zero incidence is very low. The characteristics of the shock absorption provided by the damping means 8 will depend, on the one hand, on the nature of the materials constituting the warhead 3 and the damping means 4, and on the other hand on the number and the thickness of the 5. Preferably, a damping means 4 made of aluminum alloy or high density polyethylene will be produced.

The ogive 3 may be made of aluminum alloy, or another metal alloy or a plastic material. As seen in FIG. 1, the ogive 3 comprises indentations 12 arranged facing the grooves 11. These indentations are formed by grooves with a cylindrical bottom carried by the internal surface 3c of the warhead 3. They form areas of reduced thickness at the level of the warhead 3, areas that will promote the rupture of the warhead on impact. It may be possible to define a damping means 4 in which the blades 5 are not in contact with the ogive, or at the front portion 3b thereof or at its rear portion 3a. But such a provision is of less practical interest because it is necessary to maintain the damping means 4 during the flight phases of the projectile to avoid unbalance. Minimal contact is therefore necessary to ensure the setting of the damping means. As a variant it is of course possible to provide damping means 4 formed of the mechanical assembly 30 of blades 5 on a separate axial support 8. It is also possible to implement a damping means 4 which is formed of a block of a cellular material, for example an aluminum foam. This block will be manufactured to the dimensions of the internal cavity 7 of the warhead 3. It will be in contact with the internal surface of the warhead and with the front part of the body 2 which may or may not include an extension 10. During the impact, the foam of the average damping block 4 will be crushed and will absorb some of the energy of impact, thus preventing the ricochet of the projectile. Figure 3 shows a second embodiment of the invention. This mode differs from the previous one in that the damping means 4 comprises an axial cavity 13 receiving an impact marking load, for example a gel dye, in liquid form, or in powder form. During the impact on a target the deformation of the damping means 4 will cause the expulsion of the marking charge which will form a colored cloud at the impact.

Alternatively, it is possible to replace the coloring powder with a colored fumigene pyrotechnic composition which will be initiated by the energy of the impact and which will form a colored cloud.

Claims (10)

CLAIMS1- Projectile (1) comprising a body (2) extended at its front by a warhead (3), projectile characterized in that it comprises a damping means (4) interposed between an inner surface (3c) of the warhead and the body (2) of the projectile. 2- projectile according to claim 1, characterized in that the damping means (4) comprises at least two parallel blades (5) extending radially relative to an axis (6) of the projectile to come into contact or close the inner surface (3c) of the warhead (3), blades integral with an axial support (8). 3- Projectile according to claim 2, characterized in that the axial support comprises a rear portion (8b) incorporating a bore (9) capping an extension (10) of the body (2). 4- Projectile according to one of claims 2 or 3, characterized in that the axial support (8) incorporates a cavity (13) receiving an impact marking composition or load. 5- projectile according to one of claims 2 to 4, characterized in that the ogive (3) has on at least a portion of its inner surface (3c) indentations (12) 25 disposed facing grooves (11) of the means damper (4) separating the parallel blades (5). 6 - Projectile according to one of claims 2 to 5, characterized in that the blades (5) and the axial support (8) form a one-piece assembly. 30 7- Projectile according to claim 6, characterized in that the one-piece assembly is made of plastic material. 8- Projectile according to claim 6, characterized in that the one-piece assembly is made of aluminum alloy. 9- Projectile according to claim 1, characterized in that the damping means is formed by a block of cellular material. 10- Projectile according to claim 9, characterized in that the foamed material is an aluminum foam.