FR3010181A1 - PROJECTILE WITH REDUCED LETHALITY - Google Patents

Abstract

The invention relates to a reduced lethal projectile (1) comprising a head (2) of flexible material connected to a rigid body (2), and comprising at least one flyweight (5) which is slidably mounted in a bore (4). ) of the body (3), the flyweight (5) can pass from a rear position that it occupies during the firing to a forward position during the impact on a target. This projectile is characterized in that the bore (4) encloses a fluid (8) which is disposed between the flyweight (5) and a front portion (6) of the body, the bore (4) having at least one longitudinal groove (9) forming a rolling orifice through which the fluid can pass during movement of the weight (5).

Description

The technical field of the invention is that of non-lethal projectiles and ammunition firing such projectiles. Non-lethal projectiles are well known today. 5 They allow the police to neutralize an individual without killing or seriously injuring him. US6041712 discloses a reduced lethal projectile which comprises a deformable foam nose integral with a rigid plastic skirt. 10 The nose crashes on the individual thus reducing the risk of injury. The deterrent effectiveness of this projectile is related to the impulse received, that is to say the amount of movement of the projectile that is stopped by the individual. It therefore depends on the mass of the projectile and its speed. However, the shock received creates a peak of force that can be significant despite the deformable foam nose. These known projectiles can therefore be dangerous during an impact on a fragile part of the individual, such as the head. Patent GB2135029 also discloses a projectile comprising a sliding flyweight which moves on impact and its damped movement by the deformation of a spring means or a compressible element. If this projectile makes it possible to reduce the force transferred to the target during the impact while maintaining the level of the received pulse, it does not make it possible to reduce the lethality in all the firing conditions. In particular, when the speed of impact is high, for example during an impact at a reduced distance between the shooter and his target, the shock received by the target will have an impact force that will not be sufficiently damped. It is the object of the invention to provide a reduced lethal projectile which provides an impact force which is controlled for a wide range of impact velocities on the target. The projectile according to the invention thus has a greatly improved safety of use.

Thus, the subject of the invention is a reduced lethal projectile comprising a head made of flexible material connected to a rigid body, and comprising at least one flyweight which is slidably mounted in a bore of the body, the flyweight being able to pass from a rear position which it occupies when firing to a forward position when impacting a target, the front position in which it directly or indirectly impacts a front part of the body, projectile characterized in that the bore contains a fluid which is disposed between the weight and the front portion of the body, the weight and the bore being cylindrical and the bore having at least one longitudinal groove forming a rolling orifice through which the fluid can pass during the displacement of the weight to go d a first volume in front of the weight to a second volume behind the weight. Advantageously the groove or grooves will have a decreasing section between a rear portion of the groove and a front portion of the groove. The projectile may comprise at least two grooves 25 regularly distributed angularly. The invention will be better understood on reading the following description of various embodiments, a description given with reference to the accompanying drawings and in which: - Figure 1 shows in longitudinal section an embodiment of a projectile according to the invention, projectile shown in the state of rest, the section is made along the plane whose trace BB is marked in Figure 2, - Figure 2 is a cross-sectional view of the projectile, cut according to the plan whose track AA is marked in FIG. 1; FIG. 3 shows this same projectile, the fluid not shown and the flyweight in transparency, this section is made along the plane whose trace CC is marked in FIG. Figure 4 shows the same projectile in section and the impact on a target. Referring to FIGS. 1 to 3, a reduced lethal projectile 1 according to one embodiment of the invention comprises a head 2 of flexible material, for example of compressible foam or elastomer, which head is connected to a body 3 rigid, for example aluminum or a plastic such as polyamide. The body 3 comprises a cylindrical bore 4 in which a flyweight 5 can slide. The bore 4 of the body 3 is closed at its front by a plug 6 which is screwed into a thread 7 of the body. The head 2 is fixed to the body 3 via the plug 6 on which it is glued. There is shown in the figures a pin 6a which allows the positioning of the head 2 on the plug 6. Such a pin can of course be omitted. The flyweight 5 is intended to pass from a rear position shown in FIG. 1 and occupies when firing towards a forward position when impacting a target, the front position in which it impacts a front part of the body 3 projectile, formed here by the plug 6. According to a feature of the invention, the bore 4 30 contains a fluid 8 which is disposed between the weight 5 and the front portion 6 of the body (the plug). The fluid 8 is shown schematically in the figures by wavy hatching which extends over the diameter of the bore.

The fluid may be constituted by water incorporating antifreeze (such as sodium chloride) or by oil (mineral or vegetable). Furthermore, the bore 4 comprises at least one longitudinal groove 9 which forms a rolling orifice through which the fluid 8 can pass during the movement of the flyweight 5. Here the body 3 has two diametrically opposite grooves (see FIG. ). As seen in FIG. 3, each groove 9 has a longitudinal profile 9 which has a section which decreases between a rear portion 9a of the groove and a front portion 9b of the groove. Thus, if we refer to FIG. 4, at the impact of the projectile on a target 10, the flyweight 5 moves in the bore 4 (arrow D). The fluid 8 can then go through the grooves 9, a first volume V1 in front of the weight 5 to a second volume V2 behind the weight 5. It is shown schematically by arrows F this path 20 of the fluid 8. The rolling of the fluid 8 during this passage consumes some of the kinetic energy of the flyweight 5. The braking of the flyweight 5 also delays its impact on the plug 6. It is noted that a shot with a weight (with or without laminated fluid) as described by GB2135029 causes on the target two peaks of consecutive forces. The first peak corresponds to the impact of the projectile itself on the target, the second peak corresponds to the impact of the flyweight 5 on the cap 6 of the projectile. Thanks to the presence of the weight, the maximum amplitude of the force received by the target is substantially divided by two compared to a projectile without flyweight.

Thanks to the rolling of the fluid proposed by the invention, the force received by the target 10 is further decreased and there is also a temporal spacing of the two peaks of forces due firstly to the impact of the head 2 on the target then the impact of the weight 5 on the cap 6. Note that the global pulse received by the target is not changed, the overall mass of the projectile does not change. With the invention, the magnitude of the two force peaks received by the target is less dependent on the impact velocity on the target. Due to the gradual decrease in the section of the grooves 9, the rolling (and therefore the braking of the weight) is becoming stronger as the weight of the piston 5 progresses. Thus during an impact at high speed, especially when intervening at a short distance, the weight is strongly braked and its impact on the stopper is delayed.

During a low speed impact, for example for large distances, the flyweight hardly moves and the projectile behaves like a monobloc projectile.

Claims (3)

CLAIMS1- Reduced lethal projectile (1) comprising a head (2) of flexible material connected to a body (2) rigid, and comprising at least one feeder (5) which is slidably mounted in a bore (4) of the body (3). ), the flyweight (5) being able to pass from a rear position that it occupies when firing to a forward position when impacting a target, a forward position in which it directly or indirectly impacts a front part of the body ( 3), projectile characterized in that the bore (4) encloses a fluid (8) which is arranged between the weight (5) and the front part of the body (3), the weight (5) and the bore (4). ) are also cylindrical and the bore (4) having at least one longitudinal groove (9) forming a rolling orifice through which the fluid (8) can pass during movement of the weight (5) to go from one first volume (V1) in front of the weight (5) to a second volume (V2) behind the flyweight (5). 2-reduced lethal projectile according to claim 1, characterized in that the groove or grooves (9) have a decreasing section between a rear portion (9a) of the groove and a front portion (9b) of the groove (9). 3-reduced lethal projectile according to claim 2, characterized in that it comprises at least two grooves (9) regularly distributed angularly.