CA2053567A1 - Device for common tripping of grenades inside a missile in rotation around its centerline - Google Patents

Abstract

The present invention relates to a projectile carrying submunitions, animated by a rotational movement around its longitudinal axis. The projectile comprises a central part (8) which extends longitudinally in the body (7) of the projectile and means (10, 12) for making said part of the body (7) of the projectile integral. The part (8) substantially follows the shapes of the submunitions (9) which surround it so as to entrain them in the rotational movement of the projectile. The shape of the part allows, with the body (7) of the projectile, to ensure the maintenance of the submunitions. One field of application of the invention relates to grenade dispersing projectiles. Figure 3.

Description

20 ~ 67 DL SOLIDARIZATION DEVICE
GRENADES INSIDE A PROJECT
AUTO ROTATION OF SOUND A ~ E
LONGITUDINAL

The present invention relates to a transported projectile so many submunitions, animated by a rotational movement around its udinal longii axis.
A particular area of application of this invention tion relates to charge grenades disperser projectiles explosive. Such projectiles are fired from a mortar striped allowing the rotational training of the body of projectiles at launch. The very ectories of these projectiles are therefore more stable. On the other hand, these 10 projectiles generally include a detachable base for allow the erection of grenades. The ejection principle is based then on the use of a piston which exerts on the base, a sufficient force for the base to detach from the body of the projectile and the grenades come out through the opening as well 15 created; the separation of the grenades then results from their different tangential speeds.
However, it should be ensured that grenades embedded in Im projectile are integral with the body of the projectile in its rotational movement, this in order to avoid 20 all disorder in the initial arrangement of grenades.
Some known projectiles have been developed in this goal. However, as we will see more precisely by the Following such projects, the ut ~ read means of solidari-sation of complicated and expensive grenades.
In addition, the grenades must follow, after é3ection, a determined trajectory which gives them on the one hand, a good angle of impact on the ground, necessary for the fire blasting of their ~, ~ o ~ 67 explosive charge, and on the other hand, a homogeneous distribution. he it is therefore very desirable to eliminate the elements disruptive to the trajectories of grenades during their eJection, these disturbing elements being, for example, 5 for a given grenade, other grenades or elements of wedging in the pro3ectile. However, the existing systems the current time does not meet this requirement, for reasons which we will detail later.
The object of the present invention is to overcome the 10 disadvantages mentioned above by proposing a project that contains a simple means of joining grenades relative to the movement of the project while eliminating the elements disruptors mentioned.
More specifically, the invention relates to a projectile carrying submunitions and animated by a movement of rotation about its longitudinal axis, characterized in that it also includes:
- a room around which the submunitions, and which sensibly follows the shape of 20 submunitions;
- means for securing said part to project body so as to entrain submunitions in the rotational movement of the projectile.
Other features and advantages will appear 25 during the following description, with reference to the figures attached:
- Figure 1 is a cross section of a known projectile;
- Figure 2 illustrates a securing system of 30 submunitions in a projectile, used according to the invention - Figure 3 is a longitudinal section of the projectile according to a possible embodiment of the invention.

Figure 1 illustrates a known system of soliciting of submunitions, for example grenades, to inside a projectile.
The projectile has a body 5 inside which grenades 1, 6 are placed. The grenades located at the inner periphery of the body 5 are wedged through a circular rod 2 comprising as many means of external wedges 3 that there are grenades. The baguette circu-area 2 is e] the same keyed in a longitudinal groove 4 relative to the body 5 of the pro3ectile, so as to block all the grenades 1 in rotation. A central grenade 6 is maintained by the peripheral grenades 1.
Such a system is relatively heavy and expensive.
On the other hand, we note that each pomegranate periphery ~ ue 1 is in contact with three other grenades and the means of wedging, and that the central grenade 6 is tangent to the six grenades peripheral devices. These contacts, as well as the circular rod 2, will promote disturbances on the trajectories of grenades during their erection. Finally, the presence of the groove longitudinal 4 complicates sealing longitudinal.

Figure 2 is a cross section of a pro ~ ectile transporter of submunitions, for example grenades, according to a possible embodiment of the invention:
The body 7 of the pro3ectile comprises, according to the invention, a central part 8 called an edge, integral with the body 7 of the projectile by means that we will describe later.
The edge 8 substantially follows the shape of the grenades 9 which surround it, thereby drawing them into the movement of rotation of the body 7 of the pro3ectile. In addition, the form of crosspiece of the edge 8, according to a possible embodiment, prevents grenades 9 of the same plane section from being in contact between them. The edge 8 also ensures, with the body 7 pro ~ ectile, maintaining grenades, without requiring ~ 0 ~ 3 ~ G7 other wedging means. To make the e ~ ectlon of grenades according to the same principle previously, it is enough to push the whole grenade-grenade outside the body of the pro ~ ectile by a longitudinal translation. Each grenade 9, under the action of centrlfuge force, is then eJected, and finds no element disruptive, such as other grenades or wedging means, on its tra ~ ectory.

Figure 3 shows a longitudinal section, axis XX 'of FIG. 2, of the pro ~ ectile according to a mode of possible realization of the invention: the pro ~ ectile transports several grenades 9, placed longitudinally in columns by relation to the body 7 of the projectile, around the central ridge 8.
In this embodiment, the joining of the edge 8 and of the body 7 of the pro ~ ectile is carried out via a detachable base 10 fixedJ by means of pins 11 for example, on the body 7 of the projectile. Part 12 of base 10 has a shape which allows the isolation of the edge 8, thus blocking the edge 8 in rotation. It can be noted that the seal is very simple, using, for example, a joint toric 13.
In addition, if the grenades have a shape very special, as shown in section for the pomegranate 14, it is possible to fit the conical end of a

2 5 grenade in part 16 of complementary shape of the grenade next. Preferably, the last layer of grenades 14 is itself embedded in the base 10 of the pro ~ ectile, in order to gain bulk. Maintaining the grenades of the last layer 14 is produced, for example, by a parol 17.

3 In addition, the pro ~ ectile includes an e3ection system according to a possible embodiment: a rocket 18 allows the firing of an eection charge 19 contained in a gas generator 20. The gases from combustion create a overpressure in a chamber 21 one of whose walls constitutes a piston 22. The piston 22 exerts on the central edge 8 a 20 ~ 567 suf1cient longitudinal hole to detach base 10 from body 7 of the pro3ectlle. Grenades 9 are then released, and are desolate each other because of their speed different tangentials.

In a possible embodiment of the invention, the projectile also includes a spring 23 placed between the end of the central edge 8 and the base 10, and maintained longitudinally, for example using walls 24. The action longitudinal of the spring 23 facilitates the selection of grenades 14 embedded in the base 10.
The proJectlle according to the invention has been described for a principle of pomegranate eJectlon well particuller. It is right to note that the grenades solidarlsatlon system with the projectile in its rotational movement, is not limited to no way to this eJection principle.
The joining system according to the invention, in ensuring, moreover, the maintenance of submunitions, is entirely made suitable for projects with high speeds of rotation, such as pro ~ ectiles taken from a mortar, without requiring other means of wedging which should be very resistant.

Claims (8)

1. Projectile carrying in its body (7) submunitions (9) and rotated around its longitudinal axis, characterized in that it comprises:
- a part (8) around which the submunitions (9), said part substantially matching the shape submunitions so! on the one hand, to ensure, with the body (7) their retention in the projectile, and on the other hand, prevent contact between submunitions located in a same plane section of the projectile;
- means for securing (12) the part (8) to the body (7) of the projectile so as to drive the submunitions (9) in the rotational movement of the projectile. 2. Projectile according to claim 1, characterized in that said part (8) extends longitudinally in the projectile and is centered substantially on the longitudinal axis of the projectile. 3. Projectile according to any one of the claims.
previous operations, characterized in that the submunitions (9) are arranged in columns substantially parallel to the axis longitudinal of the projectile. 4. Projectile according to any one of the claims.
tions above, characterized in that it includes a base (10) detachable fixed on the body of said projectile. 5. Projectile according to claims 3 and 4, characterized in that each of said columns contains a submunition embedded in said base (10). 6. Projectile according to claim 4, characterized in which it further comprises, a piston (20) which exerts, on said part (8), a sufficient longitudinal force, so as to detach said base from the body of the projectile and push the submunitions (9) outside. 7. Projectile according to claim 5, characterized in what the ejection of submunitions embedded in the pellet (10) is facilitated by the longitudinal action of a spring (23) placed between the end of said piece and said base. 8. Projectile according to one of the preceding claims -tes, characterized in that said means for securing the part to the body of the projectile consist of a part (12) of the base (10) whose shape allows the isolation of said piece (8) so as to block it in rotation.