FR2898407A1 - Explosive device useful for constituting a warhead, comprises a main explosive charge, an unit of axial confinement of detonation products of the main charge, and an initiating system of main explosive charge - Google Patents

Abstract

The explosive device useful for constituting a warhead, comprises a main explosive charge (10), an unit of axial confinement of detonation products of the main charge, and an initiating system of main explosive charge. The axial confinement unit comprises confinement active elements having an explosive layer (1) between two plates of inert material, and is associated with an envelope (12) generating the chips. A shape of the envelope of chips has a concave profile. The main explosive charge is a hollow charge equipped by the active element of axial confinement unit. The explosive device useful for constituting a warhead, comprises a main explosive charge (10), an unit of axial confinement of detonation products of the main charge, and an initiating system of main explosive charge. The axial confinement unit comprises confinement active elements having an explosive layer (1) between two plates of inert material, and is associated with an envelope (12) generating the chips. A shape of the envelope of chips has a concave profile. The main explosive charge is a hollow charge equipped by the active element of axial confinement unit. The initiating system is placed at a center of the main charge and at a hole (15), which is fixed through the plates and the explosive layer. One of the active elements of axial confinement is useful to allow a passage for wire or transmission tubes of initiating system. The main explosive charge and the explosive layer of active elements of axial confinement are constituted of same explosive material. The holes are fixed across the interior plate so that the explosive elements obtained in indissociable manner by casting or injecting. The continuity of main charge and explosive layers of active elements are assured by the holes. The explosive layer of active elements of axial confinement is constituted of a secondary explosive.

Description

EXPLOSIVE DEVICE WITH CONTAINMENT OF DETONATION PRODUCTS

  The invention relates to the axial containment of the detonation products of an explosive device for the purpose of constituting in particular military loads, and in particular anti-missile or anti-aircraft missile charges. Most of the explosive charges used on missiles are of the fragment-like type, the impact of which must lead to the destruction of a target. The sheaf sprays are usually focused in a plane normal to or near the load axis. The structural destruction of the objective inter-comes from a known threshold value of the ratio between the kinetic energy of the fragments reaching the objective, and the surface of the objective reached by the fragments. It is therefore important to improve the value of this report, in order to be effective for the distances between the load and the greatest objective possible. Splinters of the sheaf arriving on the objective must have the greatest possible kinetic energy, and the points of impact of the splinters on the objective must be as close as possible to each other. By way of example, there are already known military load configurations comprising a fragment-generating envelope, pre-fragmented according to meridians and parallels, or according to propellers. The main explosive loading of the load is currently confined by the most general method of closing the ends of the load by flanges made of inert material. Other solutions consist in the projection of metal disks via planar wave generators having their own priming device. These configurations are not all equivalent from the point of view of the efficiency at the expulsion of the chips and the focus of the sheaf of splinters. The object of the invention is to provide an explosive device that better meets, than those of the prior art, the structural destruction requirements of the objectives. The object of the invention is an explosive device comprising an explosive main charge and axial confinement means enveloping said detonation products, the device being characterized in that said axial confinement means comprise at least one active containment element comprising a layer of explosive inserted between two plates of inert material. The invention and its characteristics will be better understood on reading the description which follows, and which is accompanied by the following appended drawings representing respectively: FIG. 1, a sectional view showing an active element for axial confinement of the detonation products according to the invention; - Fig.2, a first embodiment of the explosive device according to the invention; - Fig.3, a second embodiment of an explosive device according to the invention; - Fig.4, a third embodiment of the device according to the invention, in particular adapted to a hollow load. With reference to FIG. 2, the explosive device according to the invention comprises, as in the prior art, a main explosive charge 10 surrounded and compacted inside axial confinement means. These means of axial confinement are associated with a generatrix-generating envelope 12, generally of revolution shape about a longitudinal axis 11 of the explosive device. In this figure, this envelope has been represented concave, but this form is not limiting. According to the invention, the envelope 12 is closed, at at least one of its two ends, with an active element of axial confinement 20, replacing the flanges of inert material of the prior art. Figure 1 shows more clearly the design of such an active element. The latter comprises an outer plate 2, an inner plate 3 between which is inserted an explosive layer 1. In FIG. 2, the two ends of the envelope are equipped with an active containment element. axial. The explosive device further comprises a priming system 14 of the main load. It is here placed in the center of the latter, a hole 15 being provided in one of the two active elements, so as to allow passage to the transmission wire 16 of the outbreak of the explosion. Several holes 15 may also be provided if several transmission wires or several detonation transmission tubes are required. The active elements of axial confinement, as well as the plates 2 and 3 and the explosive layer 1, have been represented as planes. This is only an example of embodiment, the elements can be concave, convex or other forms. The term plate is nevertheless used throughout the description and in the claims. This explosive device constitutes a military missile load with focused shrapnel, and centrally primed. The detonation is thus initiated at the center of the load and develops in the main load 10 until reaching the center of the inner face of the inner plate 3 of the active elements of axial confinement 20. It induces a shock wave in this plate interior, which propagates to reach the explosive layer 1, which it causes the detonation. The detonation of the layer of explosive inserted between the two plates 2 and 3 spreads them, thus limiting the axial expansion of the detonation products, and thereby improving the speed of the chips and their focusing. Referring now to Figure 3, the priming system 17 of the explosive device is placed, not in the center of the main explosive charge, but against the inner plate 13 of one of the two active elements of axial containment 21. In this case the operation of this embodiment is similar to that presented in the previous example, but the confinement of the main load 10, the side of the boot, occurs at the beginning of the explosion of the main load. With reference to FIG. 4, in the case of a hollow-loaded warhead, provision is made only at the rear of the latter for an active element 22 according to the invention, as well as the system In this case, the rear detent of the detonation products is limited, and the curvature of the detonation front is modified. This allows in a smaller footprint, to improve the performance of the hollow charge. In these three different embodiments, the active containment elements 20, 21 and 22 obviously ensure the sealing of the compartment containing the explosive. According to a particular embodiment of the invention, it is envisaged to use the same explosive for the active elements of axial confinement 20 as that used to constitute the main load 10. In this case, it is possible to obtain indissociable, and by casting or injection, the continuity of the explosive between the active elements of axial confinement and the main load, by making a few orifices 23 through the inner plate 13 (Fig.3) of the active elements of axial confinement 21. A variant according to the invention is that the inner plate 13 of one or more active elements of axial confinement 21 or 22 is made from the inert binder of the explosive of the main load 10. In these embodiments, the explosive used to form the layer 1 sandwiched between the two plates 2 and 3, must have a high detonation pressure. On the other hand, the detonation products must have a low polytropic relaxation coefficient. The inner plate 3, juxtaposed with the main load 10, may consist of a metal or any other type of inert material such as resin or rubber. The outer plate 2 may be made of a material such as a light alloy, copper, steel, or resin loaded or not with heavy metal particles.

  Fixing the active elements of axial confinement on the casing 12 can be provided by screwing, welding, gluing or crimping. The explosive used to form the layer 1 inserted between the two plates 2 and 3 is chosen from secondary explosives. The invention is applicable to military loads of the type with effects of splinters, blast, or cores formed either by hollow charges, or by generating charges of nuclei. 5 15 20 25

Claims (10)

  An explosive device comprising: - an explosive main charge (10, 30), and - means for axially confining the detonation products of said main load enveloping said main load, the device being characterized in that said means of confinement-ment axial comprise at least one active containment element (20,21,22) comprising an explosive layer (1) sandwiched between two plates (2 and 3) of inert material.   2. explosive device according to claim 1, characterized in that said axial containment means comprise two active containment elements (21).   3. Explosive device according to any one of the preceding claims, characterized in that the axial confinement means are associated with a spark generator envelope (12).   4. Explosive device according to claim 3, characterized in that the shape of said envelope of fragments (12) has a concave profile.   Explosive device according to Claim 1, characterized in that the explosive main charge (30) constitutes a hollow charge equipped with a single active element (22) for axial confinement.   6. Explosive device according to any one of claims 1 to 4, having a priming system (14) of the explosive main load (10), characterized in that said priming system is placed in the center of the main load, at the at least one hole (15) being formed through the plates (2, 3) and the layer (1), of one of the active axial confinement elements (20) to allow passage to transmission wires or tubes of the transmission system. boot.   7. Explosive device according to one of claims 1 to 5, comprising a priming system (17,18) of the explosive main load (10,30), characterized in that the priming system is found in the center of the inner plate (13) of one of the active axial confinement elements (21,22), at least one hole (1.5) being provided in the outer (2) and inner plates and in the explosive layer (1) for the passage of the priming system.   8. Device according to any one of the preceding claims, characterized in that the main explosive charge (10,30) and the explosive layer (1) of the active axial containment elements (20) consist of the same explosive material, holes (23) being formed through the inner plate (13) so that these explosive elements can be obtained inseparably by casting or injection, the continuity of the main load and explosive layers of the active elements being provided by said holes.   9. Explosive device according to any one of the preceding claims, characterized in that the explosive layer (1) of the active axial containment elements (20) consists of a secondary explosive.   10. Explosive device according to any one of the preceding claims, characterized in that it is used to constitute a military load.