EP1566607A1 - Vehicle floor for land mine protection - Google Patents

Abstract

The structure has an armored base plate (3) inwardly curved in a longitudinal direction using bend edges (6). A floor (5) is drawn in a distance to the base plate for deforming a free space, where the floor is not in direct connection with the base plate. The floor consists of a material that is suitable as splitter guard. A mine protection carpet consists of a flexible high-rigid material is provided on the floor.

Description

The invention relates to a mine-protected vehicle tub floor structure with an armored base plate.

Land mines are linked to one due to their extremely high destructive power frequent occurrences in crisis and war zones is a major threat to vehicles and their crew. Especially in peacekeeping operations the The probability of picking up mines is high, even in lightly armored Vehicles have the highest requirements for protection against landmines.

Older vehicles with low or insufficient mine protection will be usually with fenders, which are screwed to the bottom of the floor, retrofitted. This design has the disadvantage that a high weight expenditure arises and thereby significantly limiting both payload and mobility.

In modern, weight optimized vehicles, however, the required Mine protection already considered in the design and in the chassis concept to get integrated.

The aim of the present invention is to provide an integrated embodiment of the Ground area of an armored vehicle, where the requirements for a high mine protection level with modular design with the lowest possible Limitations on payload and usable space are met. The bottom plate should on the one hand be dimensioned so that there is no material crack within the Bottom plate due to the mine blast comes and the dynamic bump due to the pressure surge is kept as small as possible.

From EP 1275928 A2 an application is known in which the entire bottom plate a concave formation with a large radius with circle center under the Vehicle owns. Such a shape has the advantage that at a Landminton detonation the explosion pressure a high deformation resistance precludes, and there is no risk of buckling of the structure, as this in a convex training would be the case. A disadvantage is the high production costs Such a bottom plate, since the rolling of a high-strength steel armor a very represents complex production technology.

According to the advantages of the concave bottom plate training in a be used much more economical form of training.

Moreover, the dynamic Durchbtulung the bottom plate by fastening or other flaking parts or through the Durchbtulung itself to none Cause personal injury inside the vehicle.

The objects underlying this invention are achieved in that the Floor plate in the longitudinal direction by means of one or more bending edges inwards is bent and at a distance to the bottom plate to form a Deformation clearance a second floor is fed, which is not in direct Connection with the bottom plate is.

Further advantageous features of the invention are in the subclaims characterized.

Fig. 1 und 2

schematische Schnitte durch ein gepanzertes Fahrzeug;

Fig. 3 und 4

in einem gegenüber den Fig. 1 und 2 vergrößertem Maßstab Schnitte durch den zweiten Fußboden;

Fig. 5 und 6

in schaubildlicher vereinfachter Darstellung Ansichten des zweiten Fußboden;

Fig. 7

einen vereinfachten Schnitt durch den unteren Teil eines Panzerfahrzeuges;

Fig. 8

eine schaubildliche Darstellung eines Panzerfahrzeuges;

Fig. 9 und 10

Einzelheiten bei der Anbringung von Zusatzpanzerplatten;

Fig. 11

eine schaubildliche Ansicht der Unterseite eines Panzerfahrzeuges.

The invention will be described in more detail below with reference to exemplary embodiments illustrated in the drawings, without being limited to these examples. Show

Fig. 1 and 2

schematic sections through an armored vehicle;

3 and 4

in a comparison with Figures 1 and 2 enlarged scale sections through the second floor;

FIGS. 5 and 6

in schematic simplified representation views of the second floor;

Fig. 7

a simplified section through the lower part of an armored vehicle;

Fig. 8

a perspective view of an armored vehicle;

FIGS. 9 and 10

Details in the attachment of additional armor plates;

Fig. 11

a perspective view of the underside of an armored vehicle.

According to FIGS. 1 and 2, the concave configuration of the bottom plate 3 by at least one bending edge 6 with the largest possible bending radius in Longitudinal direction of the vehicle reached. Such a bending edge 6 can in be made economically on a press brake. Another Advantage of such an embodiment is the easy integration of Wheel suspension parts 7 in the bottom plate structure. In Fig. 11 this is shown.

Thus the dynamic Durchbtulung the bottom plate 3 to no personal injury in Vehicle interior 4 can lead, according to the invention a second floor. 5 retracted, whereby between the bottom plate 3 and the floor 5 a Deformation clearance 17 is provided which is greater than the dynamic It should be bruised. For this purpose, the floor 5 must not make direct contact with the Have bottom plate 3 so as not to transmit the dynamic Durchbulung.

This floor 5 can, depending on the required level of protection, also in be made ballistic protective design execution. Fig. 3 shows a possible Training of the floor structure, in which the floor of a combination of several protective materials, e.g. from a sheet metal bottom 18 and a top of a technological material 19, e.g. an aramid fabric in one or more layers or other protective material.

Fig. 4 shows a similar embodiment, wherein the material combination 18 and 19 still additionally provided with a non-slip cover layer 1.

A preferred embodiment has one connected to the side wall 13 Intermediate frame on which the floor 5 rests.

From Fig. 5 it can be seen that the floor is divided into a plurality of individual segments 15 can be easy accessibility for maintenance purposes to ensure underlying vehicle components.

A further preferred embodiment of this is shown in FIG. 6, where one in larger Units or as a whole designed floor 5 is introduced, which also diverse Servicing cover 16 may include. To protect the vehicle crew against chips breaking through the floor or also against chipping off parts, e.g. Screw heads or fasteners 14 of the service cover 16 is to ensure above the floor, a flexible soft protective mat made of a ballistic Protective material, e.g. a composite of several layers of aramid fabric, laid, the is non-slip fixed in the vehicle and is easily removable from the vehicle to to ensure accessibility to the service lids 16.

Usually, armor against landmine threats are multilayered executed. The load-bearing structure consists of a conventional, cost-effective Steel construction. To strengthen the protective effect, this is with a Additional armor equipped, which consists either of steel, or one alternative material that has a higher mass effectiveness than steel to achieve having the desired protective effect.

The additional armor is usually in the form of individual plates on the tub attached. These plates are matched to the folded bottom plate. one preferred embodiment, in which the individual plate elements due to improved effectiveness and thus the higher mass effectiveness as possible are carried out over a large area, the difficult assembly with the need for a With the help of expensive devices and lifting equipment contrary.

Fig. 7 shows an inventive solution to the problem. At least at attached to the side edges of the bottom plate 5 along the vehicle guide rails 8, are inserted and moved into the larger additional armor elements 9 can. In a preferred embodiment, these guide rails 8, as in Fig. 8 shown, in a simple way beyond the vehicle 2 extendable, so that the Plates in front of or behind the vehicle 2 inserted into the guide rails 8 and can then be moved to the correct position. This has the advantage that the additional armor elements 9 can be made significantly larger because due to better handling the units are worn by several people or Can be handled with a simple hoist, as if the plates under the Vehicle 2 would have to be lifted up for attachment.

Another important factor for the highest possible effect of the plate elements is their attachment or their clamping at the edge of the plate. Only through an efficient Edge attachment, the plate tension forces in the case of a mine detonation so be absorbed by the effect of a Minentation is kept as low as possible. Especially with one Additional armor plate composite, it is essential to the relatively small plates to clamp, since thus the effect in terms of the Durchbulung essential is improved.

According to the invention, this object is achieved in that the Additional armor elements 9 in its edge area all around with recesses 10 are provided, which in identer execution in the guide rails. 8 find. Fig. 9 shows three possible embodiments of these recesses 10. By These recesses 10 can then be inserted corresponding connecting pin 11 be, which are then fixed to the guide rail 8 and thus the Additional armor plates 9 in its edge region along the bottom plate 5 quasi Clamp.

To connect the plates all around, and not just in the vehicle's longitudinal direction in the vehicle transverse direction between the individual additional armor plate rows 9 also suitable connection strips 12 inserted, which in identer execution as the guide rails 8 also have recesses 10 which are for receiving the Connecting pin 11, and thus to connect the individual Additional armor plates 9 are suitable. Fig. 10 shows this by way of example.

Claims (14)

Mine-protected vehicle floor structure with an armored floor panel (3), characterized in that the floor panel (3) is bent inward in the longitudinal direction by means of one or more bending edges (6) and at a distance from the floor panel (3) as a deformation space a second floor (5) is retracted, which is not in direct connection with the first bottom plate (3). Mine-protected vehicle floor structure according to Claim 1, characterized in that the second floor (5) consists of a material (19) or combination of materials which is suitable as splinter protection. Mine-protected vehicle floor structure according to claim 1 or 2, characterized in that a mine protection carpet consisting of a flexible, high-strength material, for example a plurality of aramid corundum layers (19), is applied on the second floor (5) as protection against splinters. A mine-protected vehicle floor structure according to claim 3, characterized in that the splinter protection carpet is fastened to the floor only in the edge region. A mine-protected vehicle tub floor structure according to any one of claims 2-4, characterized in that the cover layer of the second floor (5) or the splinter protection carpet consists of a slip-resistant material, eg a rubber tuft covering (1). A mine-protected vehicle floor structure according to any one of claims 1-5, characterized in that the second floor (5) is designed to be easily removable, for example screwed to the side wall (13). A mine-protected vehicle floor structure according to claim 1, characterized in that modular additional armor plates (9) can be applied. A mine-protected vehicle floor structure according to claim 7, characterized in that guide rails (8) are provided for mounting the additional armor plates (9). A mine-protected vehicle floor structure according to claim 7, characterized in that the individual supplementary armor plate rows (9) are connected to one another by a connecting rail (12). A mine-protected vehicle floor structure according to any one of claims 7-9, characterized in that the additional armor elements (9), the guide rails (8) and the connecting strips (12) have congruent recesses in the edge region, which are suitable for receiving connecting bolts (11). Mine-protected vehicle floor structure according to one of Claims 7-10, characterized in that the connection between the additional armor elements (9) and the guide and connection strips (12) is carried out by means of connecting bolts (11). A mine-protected vehicle floor structure according to claim 11, characterized in that the connecting bolt is a screw which is screwed into the remote side of the guide and connecting rails. A mine-protected vehicle floor structure according to claims 11-12, characterized in that the connecting bolt is made of high-strength material A mine-protected vehicle floor structure according to claims 11-13, characterized in that the connecting bolt is fixed in the recesses with an eg screwable device.

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