The technical scope of the invention is that of armoured doors or opening hatches and in particular armoured doors enabling the opening in a crew compartment to be blocked, for example that of a vehicle (or immobile shelter).
It is known to make armoured doors that associate at least one armour plate and a support structure incorporating hinges and lock.
However, despite the add-on protection, armoured doors form a discontinuity on the armoured wall of a compartment and they still constitute a zone at which protection is reduced. Indeed, when an improvised explosive device is ignited nearby, the door is deformed. The hinges and fastening devices are destroyed. Part of the door may be projected inside the crew compartment whereas the rebound effect may lead to the door being ejected outwards after the explosion.
The aim of the invention is to propose a structure that enables the resistance of the door or hatch to be reinforced and thus reduces the risk of this element being projected inwards inside the compartment.
Thus, the invention relates to an armoured door for the crew compartment of a vehicle or fixed shelter, such door intended to block an opening into the compartment and incorporating a structure to the exterior of which at least one armour plate is fastened, such door wherein the armour plate is fixed at a distance from the structure and is separated from said structure by first deformable intermediate means able to absorb part of the energy of a shock, the armour plate having, furthermore, dimensions that are greater than those of the structure, and second deformable intermediate means positioned between the rim of the armour plate and a wall of the compartment surrounding the opening.
The first deformable intermediate means are preferably arranged at a peripheral zone of the door structure, a free space being provided between the armour plate and the structure so as to enable the plate to deform without impacting on the structure.
The second deformable intermediate means may be integral with the armour plate.
Alternatively, the second deformable intermediate means may be integral with the compartment wall.
The first and second deformable intermediate means are preferably made in the form of blocks of metallic foam.
The metallic foam will be, for example, aluminium foam.
The invention will become more apparent from the following description of a particular embodiment, such description being made with reference to the appended drawings, in which:
The door 5 is also reinforced by an armour plate 12.
The wall 8 of the cab is covered with armour plating 6. This is fastened to the wall by means of screws (of which only the axis 11 is shown). The wall incorporates an opening 10 blocked by the door 5.
The door 5 comprises a structure 7 mounted able to pivot on a wall 8 of the cab 2. The articulation 9 of the door is shown here schematically. It comprises several connecting rods defined so as to ensure the required opening movement given the relative thicknesses of the door 5 and wall 8 carrying the armours 6.
An armour plate 12 is fastened to the structure 7 of the door 5 by screws (of which only the axis 13 is shown here).
In
These intermediate means 14 are preferably made in the form of blocks of metallic foam, and in particular aluminium foam. Such a material ensures the rigidity of the link during the phases of normal use of the vehicle. It allows, however, substantial deformation during a shock and thus ensures the absorption of the energy received.
These second deformable means 15 are thus positioned between the rim R of the armour plate 12 and the wall 8 of the compartment surrounding the opening 10.
In accordance with the embodiment shown in
Thus, when the door 5 is closed, the inner face of its structure 7 comes into contact with the periphery of the opening 10. A sealing joint 16 integral with the door comes into contact with the wall 8. At the same time, the rim R of the armour plate 12 integral with the structure 7 presses against the second intermediate means 15.
There is thus a median zone 17 of the door where there is no shock-absorbing material. Thus, inside the door 5, between the inner structure 7 and the armour plate 12, there remains an empty zone 17 (or free space) that has no shock absorbing means. This free space enables a deformation of the plate 12 under the effect of the blast from an explosion. This deformation occurs without there being an impact of the plate 12 on the structure 7.
Such an arrangement permits part of the energy of the shock to be consumed by the deformation of the plate without the structure 7 being destroyed as a result.
Furthermore, the second intermediate means 15 are also made in the form of parallelepipedic blocks parallel to the side of the armour plates 6. The latter are thus also able to deform without impacting the wall 8 of the cab and a free space 19 (see
In accordance with the invention, the rims R of the armour plate 12 of the door 5 press on the compressible blocks of the second intermediate means 15. Thus, the mechanical load generated by the explosion will be transmitted by the armour plate 12 on the one hand to the first intermediate means 14 and on the other to the second intermediate means 15. The latter are themselves pressing on the wall 8, the latter recovers the majority of the load received, thereby relieving the structure 7 of the door. There is thus no longer a discontinuity in protection despite the presence of the door. The destruction of the hinges and locks is thereby avoided as is the projection of parts of the structure inside the compartment.
By way of a variant, the first and second deformable intermediate means (14 and 15) may be made in the form of foam of another metal or else in the form of deformable blocks or caissons.
By way of a variant, and regardless of the protection adopted for the doors or hatches, it is possible for an armouring structure as described previously with reference to
Number | Date | Country | Kind |
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08/03326 | Jun 2008 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FR2009/000688 | 6/10/2009 | WO | 00 | 12/8/2010 |