FR2915794A1 - FRAGMENTATION GRENADE AND METHOD FOR MANUFACTURING A PROJECTILE ASSEMBLY - Google Patents

Abstract

The invention relates to a fragmentation grenade comprising an igniter device (1) associated with a charge (2) and a set of projectiles (3) comprising projectiles (4) initially grouped around the charge (2) and intended to be separated. during the explosion of the charge (2). According to the invention, at least one of the projectiles (4) projectiles (4) is provided with an opening cavity (5) intended to receive a reservoir of product (6).

Description

The invention relates to a fragmentation grenade and a method for

  manufacture of a set of projectiles constituting the pomegranate. This type of grenade is particularly intended to be used by law enforcement agencies to disperse or destabilize troublemakers during events, for example. These grenades act as a deterrent and should not cause serious injury. They generate projectiles and a sound effect that can surprise the troublemakers. They are fragmentable into several projectiles of low kinetic energy. These projectiles are non-metallic and have no sharp edges. Patent FR 0450527 discloses a fragmentable grenade comprising a sheet of elastically deformable projectiles interconnected by material bridges integrally molded with the projectiles. This sheet surrounds a charge and is configured to allow, during the explosion thereof, the separation and dispersion of the projectiles. In order to deter troublemakers more effectively, law enforcement sometimes uses uncomfortable gases for human beings, such as tear gas. The ideal is to be able to obtain the deterrent effect of the fragmentable pomegranate and inconvenient tear gas simultaneously. Fragile grenades associated with an annoying gas cartridge are known. The cartridge splits when the grenade explodes. The gas is then released. This type of device does not allow to spread the gas in a very large radius of action because the gas is released only during the explosion of the grenade, that is to say near the place where it has been launched. In addition, the presence of the gas tank makes the grenade cumbersome. The object of the present invention is therefore to provide a compact fragmentation grenade which makes it possible to release a product, such as a product which is incapacitating or inconvenient for humans, during the explosion. The present invention also aims to provide a fragmentation grenade to release a product on a large radius of action. To this end, the invention relates to a fragmentation grenade comprising: an igniter device associated with a charge, a set of projectiles comprising projectiles initially grouped around the charge and intended to be separated during the explosion of the charge. According to the invention, at least one of the missiles of the projectile assembly 5 is provided with a through cavity intended to receive a product reservoir. In different possible embodiments, the present invention also relates to the following features which may be considered in isolation or in all their technically possible combinations and each bring specific advantages: the projectiles each have an inner face and a substantially shaped outer face; of cylinder portion, interconnected by two radial faces, as well as by an upper face and a lower face, the projecting cavity of the projectiles opening through at least one of said faces of said projectiles, the projecting cavities of the projectiles emerge from these latter through their two radial faces, each opening cavity being individually provided with a product reservoir, the projectile cavities of the projectiles are channels, the set of projectiles comprises at least one alignment of projectiles each formed of minus two pro jectiles, including an upper end projectile and a lower end projectile, all the projectiles of the same projectile alignment having their respective channels aligned, the product reservoir of each projectile alignment is a reservoir of elongate form, said elongated product reservoir completely traversing all the projectiles between the upper end projectile and the lower end projectile and at least partially the upper and lower end projectiles of the same projectile alignment all opening cavities of the upper end projectiles open through their respective upper face and / or all the through cavities of the lower end projectiles open through their respective lower face, the fragmentation grenade comprises a reservoir of supply feeding all the product tanks elongate shape, - the elongated reservoir is a cylindrical tube, - the product reservoirs, are made of a polymer-based material, the product reservoirs contain a physiological effect-producing agent or a marker product, - The set of projectiles is a projectile sheet whose projectiles are elastically deformable material connected by material bridges from the projectiles molding. The invention also relates to a method of manufacturing a set of projectiles, comprising the operation of molding, with an elastically deformable material, a sheet of projectiles having projectiles interconnected by material bridges.

  According to the invention, the method further comprises: a step of forming open cavities for at least one projectile; a step of introducing product reservoirs into the open cavities.

  The invention will be described in more detail with reference to the accompanying drawings in which: - Figures 1 and 2 show two different views in axial section of a fragmentable half grenade comprising projectiles individually provided with product beads, according to one embodiment of the invention; FIGS. 3 and 4 show two different views in axial section of a fragmentable half grenade comprising projectiles traversed by cylinder-shaped product reservoirs, according to another embodiment of the invention; - Figures 5 and 6 show two different views in axial section of a fragmentable half pomegranate provided with a feed tank, according to another embodiment of the invention; - Figure 7 shows an enlargement of a projectile provided with a through cavity consisting of a channel passing through the projectile on either side of its radial faces; FIG. 8 represents an enlargement of a U-shaped projectile provided with a cavity opening in the form of a cell; Figures 1 and 2 show two different views of a fragmentable half grenade comprising projectiles provided with product beads, according to one embodiment of the invention. The half grenades are represented in axial section. Figure 1 is a three-dimensional representation and Figure 2 shows the axial section in the plane of the sheet, that is to say in front view. The fragmentation grenade comprises an igniter device 1 associated with a load 2. The igniter device 1 further comprises a pyrotechnic delay 19. The fragmentation grenade comprises a tubular sheath 20 of generally cylindrical shape adapted to internally receive the charge 2 and the In Figures 1 and 2 and those which follow, the igniter device 1 is that of a hand grenade, but an igniter device 1 intended to allow the launch of the grenade by means of a handgun. The fire is perfectly usable and interchangeable with this manual igniter device 1. The tubular sheath 20 is open at one end for the introduction of the load 2 and the attachment of the igniter device 1, and has at its other end a bottom. When the grenade is intended to be thrown by hand, it may comprise a percussion primer and a spoon 21 which makes it possible to trigger the charge 2. Preferably, the charge 2 contains a pyrotechnic composition, so that the rise in pressure is lower than that of a conventional grenade. The grenade acts as a deterrent and should not cause serious injury. The charge 2 generates a pressure, a flame but no shock waves. The fragmentation grenade comprises a set of projectiles 3 comprising projectiles 4 initially grouped around the charge 2. The projectiles 4 are intended to be separated during the explosion of the charge 2. The projectiles 4 or fragments, must not to be too aggressive. The set of projectiles 3 may be a projectile sheet whose projectiles 4 are of elastically deformable material connected by material bridges 8 from the molding of projectiles 4, as described in patent FR 0450527. They are preferably made of rubber. They can be plastic. In the examples of FIGS. 1 to 6, the projectile layer 3 has, when flattened for the purposes of observation, a generally rectangular shape and comprises three rows of projectiles 4. Each row comprises six projectiles 4. The six projectiles are distributed circumferentially around the central axis of the grenade. The number of projectiles 4 is eighteen in these examples but may be different. The material bridges 8 are located on the outside of the grenade. Their thickness is about 4% of the thickness of the projectiles 4. The material bridges 8 can connect the projectiles 4 by forming or no openings. The openings can facilitate the detachment of projectiles 4 from each other during the explosion of the explosive charge. The projectiles 4 do not have sharp edges. They have rounded corners in the corners to avoid serious injury to those affected. The projectile layer 3 is made of an elastically deformable material, which may have a hardness of between 20 and 55 Shore A. The elastically deformable material may comprise a filler of a compound making it possible to reduce the coefficient of friction of the material. outside of the grenade, for example graphite or PTFE. The elastically deformable material may comprise metal particles, made of composite material or plastic material. Other types of projectiles 3 are possible, for example those comprising projectiles 4 individually fixed around the grenade. According to one embodiment of the invention, at least one of the projectiles 4 of the projectile assembly 3 is provided with a through cavity 5 for receiving a product reservoir 6, 7. The product reservoir 6, 7 consists of a polymer-based material that generates little or no aggressive fragments during the explosion of the grenade. It may be made of a plastic material of the polyethylene, polypropylene, etc. or rubber type.

  The product can be a powder, a gas or a liquid. It may be intended to produce a physiological effect on humans as an incapacitating effect that plays on the motricity or annoying which irritates the mucous membranes for example. The product may be based on tear gas, CS, capsicum, capsaicin, pepper or other. It can be a marker product. It can be more or less concentrated. The projectiles 4 each have an inner face 9 and an outer face 10 substantially cylindrical portion-shaped, interconnected by two radial faces 11, and by an upper face 13 and a lower face 14. The opening cavity 5 projectiles 4 opens out through at least one of the faces 9, 10, 11, 13, 14 of the projectiles 4. In the examples of FIGS. 1 and 2, the projecting cavities 5 of the projectiles 4 open out of these through their two radial faces 11. Alternatively, they can open only by one of their radial faces 11. In this embodiment, the through cavities 5 individually comprise a product tanks 6, 7. Each through cavity 5 comprises a product tanks 6, 7. Product tanks 6 can break and release their contents either at the explosion of the load 2 or at the impact of the detached projectiles 4 against obstacles. The dissuasive effects of the detonation and the product are simultaneously obtained. The product is not only released during the explosion of the grenade but also during the impact of projectiles 4 against obstacles. The pressure generated by the explosion breaks part of the product tanks 6, 7. Other product tanks 6, 7 are broken by pressure during the impacts of the projectiles 4 against obstacles. The product is released in an important radius of action up to the 30 locations where the projectiles 4 were projected. The projecting cavity 5 of the projectiles 4 can emerge from these through their respective inner faces 9 and / or their respective outer faces 10. The product reservoir of Figures 1 and 2 is a spherical product reservoir 6. It may be in the form of an oval capsule.

  In this example, all the projectiles 4 comprise a through cavity 5 and each opening cavity 5 is individually provided with a product tank 6. The open cavities 5 of the projectiles 4 may be open channels at least at one of their ends. FIG. 7 represents an enlargement of a projectile 4 provided with a through cavity 5 consisting of a channel passing through the projectile 4 on either side of its radial faces 11. At least one of the radial faces 11 of the projectile 4 is configured to receive a product reservoir 6 in the form of a capsule which is adapted to snap into this radial face 11. The capsule may be cylindrical in shape. The projecting cavities 5 of the projectiles 4 may also be cell-shaped and the U-shaped projectiles 4 as shown in FIG. 8. The through cavity 5 comprises a channel passing through the projectile 4 on either side of its radial faces 11 and an opening 23 extending over the entire width of the inner face 9 allowing the projectile 4 to deform further to break the product reservoir 6 during the explosion. The product reservoir may also be an elongate product reservoir 7 as illustrated in the examples of FIGS. 3 and 4. FIG. 3 is a three-dimensional representation of a half grenade and FIG. 4 is an axial section in FIG. the plane of the leaf. The projectile assembly 3 comprises at least one projectile array 18 each formed of at least two projectiles, including an upper end projectile 15 and a lower end projectile 16. In the examples of FIGS. 1 to 6, the set of projectiles 3 comprises six alignments of projectiles 18 parallel to each other and which each comprise three projectiles 4 aligned. When the set of projectiles 3 is unwound and arranged on a plane, it is composed of a matrix of projectiles 4 which are aligned along lines and columns. In the examples given, the matrix comprises three rows or rows of projectiles 4 and six columns or projectile alignment 4. In FIGS. 3 and 4, all the projectiles 4 of the same alignment of projectiles 18 have their respective channels aligned. They can be aligned substantially parallel to the central axis of the grenade. They can also be inclined relative to the central axis of the grenade. The elongate reservoir 7 may be a cylindrical tube or the like. The elongated product reservoir 7 completely traverses all the projectiles 4 between the upper end projectile 15 and the lower end projectile 16 and at least partially the upper end projectiles 15 and lower 16 of the same alignment. 18. In the example of FIGS. 3 and 4, the elongated product reservoir 7 passes completely through the central projectile 22 which is between the upper end projectile 15 and the lower end projectile 16. All open cavities 5 of the upper end projectiles 15 open through their upper face 13 to allow the introduction of the elongated product tanks 7. The open cavities 5 of the lower end projectiles 16 do not open through their underside 14 so that the lower end projectiles 16 have a bottom to hold the res 7. Alternatively, all the through-cavities 5 of the lower end projectiles 16 open through their bottom face 14. And the through cavities 5 of the upper end projectiles 15 do not open through their upper face. 13 so that the upper end projectiles 16 have a bottom. Alternatively, the through-cavities 5 of the lower end projectiles 16 and the through-cavities 5 of the upper end projectiles 15 may be open to the outside of the grenade by their bottom 14 and top 13 respectively. In the embodiment of Figures 3 and 4, the elongated product containers 7 break and release the product during the explosion of the load 2.

  In another embodiment shown in FIGS. 5 and 6, the fragmentation grenade comprises a feed tank 17 feeding all the elongate product tanks 7. The elongated product tanks 7 pass through the end faces upper 13 projectiles 15 to be connected to the main reservoir 17 which rests on the upper end faces 13.

  The feed tank 17 may be of toric or other shape and surround the igniter device 1. It is provided with multiple orifices not shown in the figures. Each orifice is connected to an elongated product reservoir 7.

  Alternatively, the elongated product tanks 7 can pass through the lower end face 14 of the lower projectiles 16 in order to be connected to the main reservoir 17 which rests on the lower end faces 14. The pomegranate can also comprise two reservoirs 17, one resting on the lower end faces 14 and the other on the upper end faces 13. The presence of at least one reservoir makes it possible to release a larger volume of product during the explosion pomegranate. The invention also relates to a method for manufacturing a set of projectiles 3. The manufacturing method comprises the operation of molding, with an elastically deformable material, a layer of projectiles 3 having projectiles 4 interconnected by bridges. of material 8, as described in patent FR 0450527. Alternatively, each projectile 4 can be manufactured and assembled individually. The manufacturing method further comprises a step of forming open cavities 5 for at least one projectile 4. The open cavities 5 can be obtained by piercing channels in the projectiles 4.

The manufacturing method also comprises a step of introducing product reservoirs 6, 7 into the outlet cavities 5. The product reservoirs 6, 7 are slipped or clipped inside the opening cavities 5. A pomegranate is thus obtained. compact fragmentation for producing a sound effect, projecting fragments and releasing a product, such as a product that is incapacitating or inconvenient to humans. The present fragmentation grenade can also release a product on a radius of action greater than that achieved by conventional grenades.

Claims (10)

  1. Grenade fragmentation comprising: - an igniter device (1) associated with a load (2), - a set of projectiles (3) comprising projectiles (4) initially grouped around the load (2) and intended to be separated during the explosion of the load (2), characterized in that - at least one of the projectiles (4) of the projectile assembly (3) is provided with an opening cavity (5) intended to receive a product tank (6, 7).   2. Grenade fragmentation according to claim 1, characterized in that the projectiles (4) each have an inner face (9) and an outer face (10) substantially in the form of a cylinder portion, connected between them by two radial faces (11), as well as by an upper face (13) and a lower face (14), the opening cavity (5) of the projectiles (4) opening through at least one of said faces (9, 10, 11, 13, 14 ) said projectiles (4).   3. Grenade fragmentation according to claim 2, characterized in that the open cavities (5) of the projectiles (4) open from the latter through their two radial faces (11), each opening cavity (5) being individually provided with a product reservoir (6, 7).   4. Grenade fragmentation according to any one of claims 1 to 3, characterized in that the open cavities (5) of the projectiles (4) 25 are channels.   5. Grenade fragmentation according to claim 4, characterized in that: - the set of projectiles (3) comprises at least one projectile alignment (18) each formed of at least two projectiles, including an end projectile upper (15) and a lower end projectile (16), all the projectiles (4) of the same projectile alignment (18) having their respective channels aligned, - the product reservoir of each projectile alignment (18) is an elongated product reservoir (7), said elongated product reservoir (7) completely traversing all the projectiles (4) between the upper end projectile (15) and the lower end projectile ( 16) and at least partially the projectiles of upper end (15) and lower (16) of the same alignment of projectiles (18).   6. Grenade fragmentation according to claim 5, characterized in that all the through cavities (5) of the upper end projectiles (15) open through their respective upper face (13) and / or all the through cavities (5) lower end projectiles (16) open through their lower face (13) respectively.   7. Grenade fragmentation according to claim 6, characterized in that it comprises a supply tank (17) supplying all the elongate product containers (7).   8. Fragmentation pellet according to any one of claims 1 to 7, characterized in that the product reservoirs (6, 7) consist of a polymer-based material.   9. Grenade fragmentation according to any one of claims 1 to 8, characterized in that the set of projectiles (3) is a sheet of projectiles whose projectiles (4) are of elastically deformable material connected by bridges of material (8) from the molding of the projectiles (4). 20   10. A method of manufacturing a set of projectiles (3), comprising the step of: - molding, with an elastically deformable material, a projectile layer (3) having projectiles (4) interconnected by bridges of material (8), characterized in that it further comprises: a step of forming open cavities (5) for at least one projectile (4), a step of introducing product reservoirs (6) into the open cavities (5). 30