The present application is based on International Application No. PCT/EP2005/052968 filed on Jun. 24, 2005 which in turn corresponds to France Application No. 04 07009 filed on Jun. 25, 2004 and priority is hereby claimed under 35 USC §119 based on these applications. Each of these applications are hereby incorporated by reference in their entirety into the present application.
The present invention relates to a projectile fitted with a bulkhead shield particularly of a projectile with a pyrotechnic charge, situated between the pyrotechnic portion and the command and control portion. It applies in particular to shells or rockets whose detonation is programmed a given delay after impact on the target.
To destroy or traverse a concrete wall for example with the aid of a shell, it is preferable to delay the detonation of the shell after the impact of the latter on the wall. The same applies when the shell must penetrate hard or soft ground or else a metal structure for example. According to a simple approach, the shell or the rocket comprises at least two portions, a command and control portion situated at the front, followed by a portion comprising the pyrotechnic charge. The command and control portion comprises in particular proximity sensors which determine the distance to the target and a command unit which activates the pyrotechnic charge especially according to the distance from the shell to the target. The charge is fired by an electric signal originating from the command and control portion of the shell. Time delay circuits may be situated in the pyrotechnic portion in particular to delay the initiation of firing of the charge following the activation signal supplied by the command portion. This delay is, for example, from a few thousandths to a few tens of thousandths of a seconds. An electric wire, more usually a flex or a bundle of wires, must therefore pass from the command and control portion to the pyrotechnic portion to allow the command signals to travel, for example, to initiate the firing. These two portions are in particular separated by a wall comprising a bulkhead shield. When the shell impacts a target, the pyrotechnic portion and particularly its firing system must not in fact be destroyed by the shatter debris caused by the impact of the shell head, in particular its command and control portion, on the target, for example a concrete wall. The bulkhead shield is placed at what is called the eye of the shell.
The aforementioned flex or bundle of wires to pass through the wall separating the two portions must in fact pass through the bulkhead shield. A hole is therefore necessary to allow the wire to pass through. In the absence of precaution, under the pressure of the impact, the various materials forming the target shatter and pack into the hole. This debris then damages the mechanisms and the electronic modules situated beneath the bulkhead shield, in the pyrotechnic portion in particular. Solutions are known for preventing shatter materials from traveling into the hole. In particular, chicanes are made to retard, or even stop, the passage of these materials. Another solution consists in producing small slots allowing the wires to just pass through. However, such solutions are complex to apply. Specifically, the thickness of the bulkhead may be for example of the order of 10 to 20 millimeters. Producing chicanes or thin slots in such thicknesses is complicated. The result thereof in particular is an added cost of producing the parts.
An object of the invention is particularly to alleviate the aforementioned disadvantages. Accordingly, the subject of the invention is a projectile comprising a front portion for command and control, a rear portion for containing a detonator and pyrotechnic charge, an electrical connection between the front portion and the rear portion for passing signals from an electronic circuit in the front portion to a detonator in the rear position, and a bulkhead shield dividing the front and rear portion; the bulkhead shield comprising a wall having a front surface facing the front portion and a duct through the wall between the front and rear portions and through which electrical connector extends, and an end cap having a closure portion shaped to close the duct and a support portion connected to the closure portion through a weakness zone which is substantially weaker than the remainder of the end cap, the support portion abutting the front surface of the wall and the closure portion being positioned over the front of the duct, the end cap and the duct being separated by a passage through which the electrical connection passes, the arrangement being such that rearward pressure on the end cap shears the weakness zone to detach the closure portion and pushes the closure portion rearward into the duct to close the duct to protect the rear portion from debris.
In one embodiment, the duct comprises at least one cylindrical portion and one conical portion, the conical portion being oriented toward the front. The engaged portion of the end-cap is, for example, cone-shaped. Advantageously, the conical portion of the duct and the conical portion of the end-cap have substantially the same angle. In another possible embodiment, the duct comprises a first cylindrical portion and a second cylindrical portion of larger cross section, the cylindrical portion of larger cross section being oriented toward the front. The engaged portion of the end-cap is, for example, of cylindrical shape with a larger cross section than the cross section of the first cylindrical portion of the duct in order to close the latter when the end-cap comes into contact with it. The duct and the end-cap are, for example, axi-symmetric. The mechanical weakness zone is, for example, a thinner zone of the support portion.
One portion comprises, for example, a pyrotechnic charge and the other portion placed at the front of the projectile comprises, for example, a command and control system, the front of the bulkhead shield being oriented toward this command and control portion.
The main advantages of the invention are that it makes it possible to produce robust bulkhead shield parts, that it enhances the reliability of a projectile fitted with such a bulkhead shield and that it is simple to apply.
Still other advantages of embodiments according to the present invention will become readily apparent to those skilled in the art from the following detailed description, wherein the preferred embodiments of the invention are shown and described, simply by way of illustration of the best mode contemplated of carrying out the invention. As will be realized, the invention is capable of other and different embodiments, and its several details are capable of modifications in various obvious respects, all without departing from the invention.
The present invention is illustrated by way of example, and not by limitation, in the figures of the accompanying drawings, wherein elements having the same reference numeral designations represent like elements throughout and wherein:
Other features and advantages of the invention will appear with the aid of the following description given with reference to the appended drawings which represent:
a, the situation of a bulkhead shield in a projectile, for example a shell;
b, the situation of a bulkhead shield in another type of projectile, for example, a rocket;
a shows, via a simple diagram, the situation of a bulkhead shield in a shell 1. The shell comprises at least two portions 2, 3. A first portion 2, situated at the front of the shell, comprises for example the command and control system of the shell. The second portion 3 comprises in particular its pyrotechnic charge. A wall 4 separates for example the two portions. The wall 4 is itself closed by the bulkhead shield 5 situated substantially in its center, at what is usually agreed to be called the eye of the shell. The wires carrying the control signals pass through the bulkhead shield 5. When the shell impacts a target, the shatter materials must not pass through the hole of the bulkhead shield designed for the wires to pass through, mainly to protect the firing mechanisms and the electronic modules situated in the first portion 2. These electronic modules are, for example, programmed to create a firing delay in response to an activation signal originating from the command and control portion 1. This delay is, for example, defined so that the shell detonates, for example, after having penetrated a portion of the target. This target may be, in particular, a concrete wall, hard or soft ground or else a metal structure. Hereinafter the bulkhead shield 5 will be called the shield.
b illustrates the position of a shield in a rocket. The rocket 1′ also comprises two portions 2, 3. The first portion 2, situated at the front of the rocket, comprises, for example, the command and control system of the rocket. The second portion 3 comprises in particular its pyrotechnic charge. A wall 4 separates the two portions. The wall 4 is closed by the shield 5 situated substantially in its center. The wires carrying the command signals pass through the bulkhead shield 5. For the rest of the description, reference will be made to a shell as the type of projectile, however, the shield described may be used for a rocket or for other types of projectiles.
In addition to its conical portion 231, the end-cap 23 comprises for example a plate 232 mechanically attached to this conical portion. The plate 232 rests for example on the wall 21 of the shield. As a result, a recess closely fitting the shape of the plate is for example made in the wall 21 in which the plate 232 is placed, the conical portion 231 of the end-cap being engaged in the duct 22. The plate 232 forms, for example, a flat cylinder so that the end-cap 23 in its entirety forms an axi-symmetric component centered on the axis of symmetry 20 of the shield 5. The plate is for example force-fitted into the wall, or welded, for holding in the closed or virtually closed position, leaving just the passageway space 25. The plate comprises for example a slot 233 to allow the connections 24 to pass through. More generally, an opening 233 in the plate made in line with the opening or passageway space 25 makes it possible to obtain a complete opening. The conical portion 231 of the end-cap 23 and the plate 232 are mechanically attached so that they can in particular form a single part. However, their mechanical linkage comprises for example a weakness zone 26 so that the conical portion 231 can separate from the plate 232. This mechanical weakness zone 26 consists for example of a thinner portion of the plate. As an example, it may be formed of a thin circular zone 26, this zone connecting the plate 232 to the conical portion 231, all nevertheless forming a single part. In the event of pressure being applied to the end-cap, the conical portion may then detach itself from the plate 232 by shearing. The wall 21 is, for example, extended on each of its sides by a recessed portion 211, 212, forming for example a hollow cylinder. A thread, not shown, may be provided for example for screwing the shield onto a support, or more particularly into the eye of the shell. Depending on the thickness of this support or because of other possible mechanical or operational constraints, the extensions 211, 212 of the wall 21 of the shield may be more or less long. The plate 232 of the end-cap 23 may be replaced by any other mechanical support fixedly attached to the conical portion 231 and capable of being separated therefrom.
Other embodiments of a shield according to the invention are again possible so that the duct 22 of the shield comprises an inner surface substantially parallel to a surface of the end-cap 23 engaged in the duct, with a space 25 reserved between these two surfaces. Under the effect of an external pressure, the two surfaces come into contact to close the shield. The invention is cheap and simple to apply. In particular, the parts comprising a shield according to the invention may be axi-symmetric without particular reaming operations. There are at most two reaming operations to be performed. One reaming operation for the duct 22 is simple to achieve. The same applies to producing the slot 22 of the support of the end-cap designed to allow the connections to pass through. This embodiment furthermore makes it possible to obtain robust parts.
A projectile equipped at most with such a shield is therefore more reliable and also less costly to produce. As shown with reference to
It will be readily seen by one of ordinary skill in the art that embodiments according to the present invention fulfill many of the advantages set forth above. After reading the foregoing specification, one of ordinary skill will be able to affect various changes, substitutions of equivalents and various other aspects of the invention as broadly disclosed herein. It is therefore intended that the protection granted hereon be limited only by the definition contained in the appended claims and equivalents thereof.
Number | Date | Country | Kind |
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04 07009 | Jun 2004 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2005/052968 | 6/24/2005 | WO | 00 | 12/23/2006 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2006/000575 | 1/5/2006 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
1229506 | Pail | Jun 1917 | A |
1241095 | Scamohorn | Sep 1917 | A |
1415593 | Lucas | May 1922 | A |
1975809 | Teitscheid | Oct 1934 | A |
1992926 | Towner | Feb 1935 | A |
2889778 | Bennett | Jun 1959 | A |
3204559 | De Matthew | Sep 1965 | A |
3726228 | Lohninger et al. | Apr 1973 | A |
3786754 | Donahue et al. | Jan 1974 | A |
3937145 | Lohninger | Feb 1976 | A |
3952663 | Forst et al. | Apr 1976 | A |
3977330 | Held | Aug 1976 | A |
4242964 | Warren et al. | Jan 1981 | A |
4676163 | Bell | Jun 1987 | A |
4809613 | von Entress-Fursteneck et al. | Mar 1989 | A |
4890556 | Ottmann et al. | Jan 1990 | A |
H1603 | Deckard et al. | Nov 1996 | H |
6082265 | Sakamoto et al. | Jul 2000 | A |
6640719 | Pacella et al. | Nov 2003 | B1 |
7150409 | Gonnelli et al. | Dec 2006 | B2 |
Number | Date | Country |
---|---|---|
36 39 319 | Dec 1987 | DE |
0 426 627 | May 1991 | EP |
2 819 885 | Jul 2002 | FR |
2 006 397 | May 1979 | GB |
2 117 492 | Oct 1983 | GB |
Number | Date | Country | |
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20070227392 A1 | Oct 2007 | US |