BE1013819A3 - Protective outside wall for bank or other building which may be attacked by missiles or ram raiders, consists of folded steel plate sandwiched between steel walls - Google Patents

Abstract

The wall structure (1) is about 50 mm thick (15) made from steel plate (3). The hollow wall has flat steel plates at front (2) and rear (8). A zig-zag folded plate (4) between the front and rear provides extra strength. If the wall is hit by an impact, much of the force can be absorbed, when the angled relief zones (5) bend.

Description

       

   <Desc / Clms Page number 1>
 



   SAFETY WALL
The invention relates to a security wall comprising a plate structure which offers protection against impacting projectiles and burglary.



   According to the current state of the art, projectiles burglar-resistant security walls consist of sandwich panels with a fairly large body depth. These walls are used, for example, to shield ATMs or to separate a bank lobby that is always publicly accessible from the other part of the bank branch.



  Such security walls must offer protection against burglary and impact projectiles.



   The existing safety walls of this type have the disadvantage that once they are placed they can no longer be easily moved or adapted to, for example, new devices or a new room layout.



   The invention aims to overcome these drawbacks by building up a removable and / or displaceable safety wall from replaceable wall elements with relatively small construction thickness, and without compromising the resistance to impact projectiles or burglary.



   For this purpose, the security wall is composed of projectile and burglar-resistant wall elements which, according to the invention, contain a plate structure with relief-forming zones so that a projectile which penetrates a front, whether or not relief-forming, zone of the plate structure is deflected from its straight path. a rear, relief forming or not forming zone of the

 <Desc / Clms Page number 2>

 plate structure which rear zone has an inclination with respect to said straight path, wherein the thickness of said plate structure or the distance between the extreme front and rear points of the embossed or non-embossed zones of the plate structure is such that this cannot be bridged by means of a hand tool that can be used for this purpose, such as an electric drill,

   Tilting saw or grinding wheel limited to a maximum power of 500 W and a maximum working length of almost 50 mm, being, respectively, the length of the drill, the length of the saw blade and the usable radius of the grinding wheel.



   Said thickness is expediently at least 50 mm and the relief-forming zones are at a distance of at most 400 mm from each other, so that possibly less thick parts of the plate structure cannot be reached with said hand tools.



   Advantageously, the thickness of said plate structure is between 50 mm and 200 mm and consists of two opposite steel plates, at least one of which comprises relief-forming zones and wherein said plates are attached to each other in such a way that the distance between two sutures is a maximum of 400 mm, so that when releasing with the aid of said hand tool a part of at least 400 mm by 400 mm from the front plate this part remains connected to the rear plate.



   Said relief-forming zones preferably consist of relatively tough and deformable steel whereby a projectile, such as for example a bullet fired by means of a firearm, which penetrates a first zone of said plate structure is deflected from its straight trajectory on a rear relief-forming zone and thereby converts kinetic energy into heat and deformation energy.



   The wall elements have an area of at most 1 m2 in a particularly advantageous manner.

 <Desc / Clms Page number 3>

 



   According to a first preferred embodiment of the invention, said plate structure at the front comprises a flat front plate of steel with steel plate parts adhered to each other or overlapping at the rear thereof which can be formed by a zigzag-shaped rear plate, wherein the thickness of the plate structure, more particularly the distance between the front side of the front flat plate and the extreme corners remote from the front side of the plate structure of the zigzag-folded rear plate is SO mm to 200 mm and said plate members preferably forming an angle with said flat front plate which is between 100 and 600 and thus forming the embossing zones of the plate structure.



   According to said first preferred embodiment, said wall element may consist of a rectangular flat steel plate which is folded twice 900 at the four edges so as to form a cassette in which the said steel plate parts forming the relief-forming zones are situated.



   According to a second preferred embodiment of the invention, said plate structure comprises two steel plates provided with convex relief-forming zones which are alternately oriented to the front or to the rear of the plate structure, said plates being connected to each other in a regular manner by means of spacers, which for example, it may consist of short steel rod, at the height of the facing convex embossing zones and wherein the thickness of said plate structure, being the distance between the extreme points or tops of the mutually facing hollow embossing zones between the two plates, 50 mm to 200 mm.



   According to said second preferred embodiment, said concave relief zones can be obtained, for example, by applying, by deep-pushing in two opposite directions perpendicular to

 <Desc / Clms Page number 4>

 the surface of a steel plate, of alternating a cavity and an elevation substantially in the form of a ball cap.



   The invention also relates to a projectile and burglar-resistant security wall that is built up of contiguous, detachable wall elements, which contain said plate structures with relief-forming zones.



   Said safety wall can be provided with impact buffers between the adjacent wall elements, as a result of which the wall retains its stability when absorbing impacts or beeches, as is the case, for example, when a vehicle is driven onto the wall. Preferably, a minimum of one buffer per meter of wall is provided.



   Due to a modular construction of the security wall, a recess in this wall can be provided in a simple manner to provide access to, for example, ATMs, safes or counters.



   According to another possible embodiment, the safety wall on the aggression or front is covered with a panel from, for example, MDF, with a cavity between said panel and said plate structure.



   Other details and advantages of the invention will be apparent from the following description of an embodiment of the method and the device according to the invention; this description is only given as an example and does not limit the scope of the protection claimed; the reference numerals used hereinafter refer to the attached figures.



   Figure 1 is a schematic representation of a cross-section of a part of a first preferred embodiment of the wall element, according to the invention.



   Figure 2 is a schematic representation of a cross-section of a part of a variant of this first preferred embodiment of the wall element, according to the invention.

 <Desc / Clms Page number 5>

 



   Figure 3 is a schematic representation of a cross-section of a part of a second variant of this first preferred embodiment of the wall element, according to the invention.



   Figure 4 is a representation of a possible trajectory following a impact projectile in a wall element according to said first preferred embodiment such as the one in Figure 1.



   Figure 5 is a schematic representation of a part of a cross-section of a second preferred embodiment of the wall element, according to the invention.



   Figure 6 is a schematic perspective view of a wall element according to the first preferred embodiment as in Figure 1.



   Figure 7 is a schematic perspective view of a wall element according to the second preferred embodiment as in Figure 5.



   Figure 8 is a perspective schematic representation of an embodiment of a safety wall constructed from various detachable wall elements.



   Figure 9 is a schematic representation of a horizontal section of a security wall, according to the invention.



   Figure 10 is a schematic representation of a horizontal section of a security wall according to an advantageous embodiment, according to the invention.



   Figure 11 is a side view with partial section of the security wall, according to the invention.



   In the various figures, the same reference numerals refer to the same or analogous elements.



   The invention relates to a burglary and projectile-resistant wall element 23 that mainly consists of a plate structure 1, as well as a wall that is composed of such wall elements.



   According to a first preferred embodiment, shown in figure 1, said plate structure 1 of the wall element comprises the aggressive

 <Desc / Clms Page number 6>

 or front 2 a flat steel plate 3 with behind it a zigzag-shaped steel plate 4. This steel plate 4 has relief-forming zones 5 with respect to the flat steel plate 3, which are formed by the mutually connecting flat plate parts of the zig-zag -folded plate 4. These plate parts form an angle 6 of 100 to 600 with the flat steel plate 3.



  Said flat steel plate 3 and the zig-zag-shaped folded steel plate 4 are attached to each other at the height of the angled edges 7 of the steel plate 4 towards the front, more particularly at the tangent line of two consecutive flat plate parts of the steel plate 4 and the front flat steel plate 3. The thickness 15 of the thus obtained plate structure corresponds to the distance between the front side 33 of the flat plate 3 and the corners 17 of the steel plate 4 folded towards the rear side 8, more particularly the rear side 8 oriented extreme points 17 of the relief zones 5 of the plate structure 1. The rear side 8 of the plate structure 1 may be provided with a cover plate which is not shown in Figure 1.



   Said thickness of the plate structure is greater than the distance 30 that can be bridged with said usable hand tool so that when sawing, grinding or cutting a part 31 from the front side 2 of the plate structure 1 to a depth 30 corresponding to the working length of said hand tool, this part 31 remains connected, via the relief zones 5 or flat plate parts of the steel plate 4, to the rest of the plate structure 1.



   According to a possible variant of this first preferred embodiment, shown in Figure 2, said plate structure 1 consists of the steel plate 3 with at its rear side separate, plate parts which are arranged obliquely to the plate 3 and mutually parallel plate parts which form the relief zones 5 of the plate structure 1. Said plate parts can be attached to a cover plate 9 which can be provided on the rear side 8 of the plate structure 1.



   According to a further possible variant of this first preferred embodiment, shown in Figure 3, said one exists

 <Desc / Clms Page number 7>

 
 EMI7.1
 plate structure 1 from the steel plate 3 with a corrugated plate 4 fixed at its rear side which forms the relief zones 5 of the plate structure 1. The rear side 8 of the plate structure 1 is provided with a cover plate 9.



  The slope or angle 6 between the said plate parts or relief-forming zones 5 of the plate structure 1 and the flat steel plate 3 ensures that a striking projectile 10, for example a bullet fired by a firearm, that passes through the flat steel plate 3 at the front of the wall element urges the relief-forming zone 5 located behind it to be deflected from its original straight lane 11 to a lane 12 (Figure 4).



  The kinetic energy of the projectile is herein converted into heat and distortion energy, whereby the projectile 10 is collected by the relief-forming zone 5. Consequently, the plate structure 1 prevents the passage of an impact. According to a second preferred embodiment of the invention, as shown in Figure 5, said plate structure comprises two opposite steel plates 3 and 4 provided with convex embossing zones 5 which are alternately oriented towards the front 2 , more specifically with the convex side towards the front 2 and with the concave side towards the rear 8, and with the rear side 8 of the plate structure 1, more specifically with the convex side towards the rear 8 and with the concave side towards the front 2.



  Said holbolle relief-forming zones 5 have a depth and diameter of approximately 15 and adjoin each other.



  The holbolle embossing zones 5 of the front plate 3 oriented towards the rear 8 are opposite the holbolle embossing zones 5 of the rear plate 4 facing the front 2, while the holbolle embossing zones 5 of the front plate 3 facing the front 2 facing the convex embossed zones 5 of the rear plate 4 oriented towards the rear side 8, in particular the convex sides of the embossing zones 5 of the plates 3 and 4 face each other

 <Desc / Clms Page number 8>

 The hollow sides of the relief zones 5 of the plates 3 and 4 face each other.



   Spacers or steel bars 13 regularly connect the extremities or tips 14 of the rear-facing concave embossing zones 5 of the front plate 3 to the corresponding extremities or tops 7 of the front-facing concave embossing zones 5 of the rear plate 4 with each other. At least three spacers 13 are provided per unit area of 1 m2 of the wall element.



   The plate structure 1, formed by the plates 3 and 4 attached to each other by means of the spacers 13, is, in this specific embodiment, mounted in a frame consisting of U-profiles 19.



   The thickness 15 of the plate structure or the distance between the outermost points or tips 16 of the front-facing hollow sphere-forming zones 5 of the front plate 3 and the extreme points or tops 17 of the rear-facing hollow-sphere relief-forming zones 5 of the rear plate 4 is larger than the working length 30 of said hand tool.



   Preferably, the distance between the plane 33 in which the extreme points or peaks 16 of the front-facing hollow sphere embossed zones 5 of the front plate 3 are located and the points 32 of the transition between the to the front 2 and the to the rear 8 oriented holbolle embossing zones 5 of the rear plate 4 larger than the working length 30 of said hand tool.



   To further illustrate the invention, some concrete embodiments of the relevant wall element are given below.



   Example I: Wall element according to the first embodiment.



   Figure 6 is a schematic representation of a complete wall element according to said first preferred embodiment of the invention. A flat steel plate 3 is located at the front 2 of the plate

 <Desc / Clms Page number 9>

 wall element. This plate 3 consists of steel of the type S235JRG2, or an equivalent steel, with a thickness that is at least 1 mm, at most 20 mm and preferably 3 mm. The four edges 18 of this plate 3 are folded towards the rear side 8 at an angle of 90 with the front side 2. These four edges are further folded together again towards each other 900 and in this way form a cassette with a depth 50 mm to 200 mm and preferably 80 mm.

   In this cassette the relief-forming zones 5 are situated against the rear side of the flat steel plate 3, for example formed by adjoining plate parts of a zigzag-shaped steel plate 4, as represented in figure 1. This plate 4 also consists of steel of the type S235JRG2, or an equivalent steel, but with a thickness that is at least 0.5 mm, at most 20 mm and preferably 2 mm. Attachment means known per se can also be provided on said cassette for attaching this wall element to another wall element, a support bear or in a frame provided for this purpose.



   Such fasteners and frame were not shown in Figure 6.



   Example II Wall element according to the second embodiment.



   Figure 7 is a schematic representation of a wall element following said second preferred embodiment, wherein a U-shaped profile 19 forms a frame around said plate structure 1, with concave embossing zones as shown in Figure 5, in which the top, bottom, 1 left - and the right edge of this plate structure 1 is clamped. This U-shaped profile 19 consists of steel of the type DC01 or DC01 + ZE25 / 25, or an equivalent steel, with a thickness of a minimum of 1.5 mm, a maximum of 4 mm and preferably 3 mm. Furthermore, in said U-shaped profile 19 the necessary fixing means can be provided for fixing this wall element to another wall element or in a frame provided for this purpose.

 <Desc / Clms Page number 10>

 
 EMI10.1
 



  Said steel plates 3 and 4 of the plate structure 1 consist of steel of the type DC01 or DC01 + ZE25 / 25, or an equivalent steel, with a thickness of a minimum of 0, a maximum of 4 mm and preferably 2, mm. Said hollow convex parts 5 are formed by deep-pushing, wherein the push-through depth is a minimum of 8 mm, a maximum of 25 mm and preferably 14, wherein the number of press-throughs is a minimum of 400, a maximum of and preferably 710 per m2 and wherein the hollow-convex relief-forming zones 5 onto each other and uniformly distributed over the surface of the plate according to a substantially constant pattern.



  The distance between said plates 3 and 4 is at least 25 mm, at most mm and preferably at least 47 mm. This distance is determined by the length of the spacers 13 that connect both plates 3 and 4 at the extreme points or 7 and 14 of the facing convex embossed zones 5. The spacers are preferably uniform over the surface of the plate also distributed according to a substantially constant pattern. The number of spacers 13 is a minimum of 3, a maximum of 64 and preferably 8 per m2. The total thickness of the plate structure 1, being the distance between the outermost points or tips 16 and 17 of the hollow convex embossed parts of said steel plates 3 and 4, is therefore at least 57 mm, at most mm and preferably at least 103 mm.



  Example Safety wall constructed from different wall elements.



  A representation of a safety wall constructed from different wall elements 23 is shown in Figure 8. Vertical L-shaped profiles Horizontal U-shaped profiles 21b are placed and form a frame 21 in which the wall elements 23 are clamped. The steel profiles 21a 21b of the frame 21 consist of steel of the type DC01 or DC01 + ZE25 / 25, steel, with a thickness of at least 0.4 mm and preferably 2,

 <Desc / Clms Page number 11>

 
In addition, shock buffers 24 are provided at the base of the wall, whereby a better firmness of the latter is obtained.



   Figure 9 shows a horizontal section of a safety wall in which the wall elements 23, such as in the above-mentioned example II according to the second embodiment according to the invention and as also shown in figures 5 and 7, are clamped against said vertical profiles 21a with the aid of an L-shaped profile 34 that is placed vertically against the rear of the wall elements and is attached to said profile 21a.



   A wall element 23, such as in the above-mentioned example II according to the second embodiment according to the invention, which is not provided with a frame 19, can also be mounted in the frame 21 of the safety wall in a very advantageous manner (figures 10 and 11).



  To this end, horizontal U-shaped intermediate profiles 21b are placed between the wall elements 23 located one above the other, whereafter they are placed against the rear side of the vertical profiles 21a. The wall elements are then finally clamped with the aid of L-shaped profiles 34 which are fixed along the rear side of the safety wall against the frame 21, whereby the front side of the wall element 23 is clamped against the frame 21 and the rear side of the wall element 23 is clamped against the profile 34.



   Vertical impact buffers 24 are provided at the height of said frame 21 or between wall elements 23. These impact buffers 24 are mounted on the rear side 8 of the wall between the different wall elements 23 on the vertical profiles 21a and on the floor, preferably perpendicular to the wall. Said buffer buffers 24, as also shown in Figure 11, preferably have a height of 750 mm and a length of 730 mm and are preferably built up of two flat steel plates, 24a and 24b, with a thickness of 3 mm. Said shock buffers 24 are placed against a profile 35 which is vertically attached to the profile 21a.

 <Desc / Clms Page number 12>

 



   The safety wall constructed in this way can be easily erected and dismantled if one has access to the rear side 8 of the wall and can also simply be provided with recesses 25 for, for example, a transfer hatch or access to a bank machine located behind.



   The invention is of course not limited to the wall described above and represented in the accompanying figures. For example, the said plate structure can be processed in a security door or hatch.


    

Claims (20)

 EMI13.1   CONCLUSIONS 1. Burglary (23) with a plate structure (1) characterized in that this plate structure (1) has relief-forming zones (5) such that a projectile (10) which penetrates a front zone of the plate structure (1) deviates from its path when coming into contact with a rear zone (5) in that the latter shows a slope with respect to the front zone, the thickness (15) of the plate structure (1) being greater than the distance (30) that can be bridged by means of a hand tool that can be used for this purpose. Wall element according to claim 1, characterized in that the thickness (15) of the plate structure (1) is at least mm. Wall element according to one of claims 1 to 2, characterized in that said plate structure (1) consists of at least two plates (3 and 4) which are opposite each other at a certain distance and which are attached to each other. Wall element according to claim 3, characterized in that said plates (3 and 4) are attached to each other and this at at least three different points (7, 14) per m2 Wall element according to one of claims 3 to 4, characterized in that at least one of said plates (3 and 4) comprises mutually connecting flat or curved plate parts which form said relief-forming zones (5). Wall element according to one of claims 3 to 5, characterized in that one of the plates (3 and 4) is a flat plate. Wall element according to one of claims 1 to 6, characterized in that the embossing zones (5) of said plate structure (1) form an angle (6) with the surface (33) of the front side (2) of the wall element (23) ) which is between 10  <Desc / Clms Page number 14> Wall element according to one of claims 1 to 7, characterized in that it comprises a flat plate (3) with behind it a plate (4) folded in a zigzag shape.  Wall element according to one of claims 1 to 8, characterized in that it comprises at least one plate (3, 4) with hollow convex embossing zones (5) adjoining each other, which are alternately oriented towards the front and rear of the plate structure (1) and are evenly distributed over the surface of the plate (3, 4).  The wall element according to claim 9, characterized in that it comprises two opposite plates (3 and 4) with concave embossing zones (5), with spacers (13) in a regular manner extreme points (14) of the rearward (8) oriented holbolle embossing zones (5) of the front plate (3) with corresponding extreme points (7) of the holbolle embossing zones (5) of the rear plate (4) oriented towards the front (2), the distance connecting between the plane (33) in which the extreme points (16) of the frontal (2) oriented convex relief-forming zones (5) of the front plate (3) are located and the points (32) of the transition between the to the front (2) and the concave embossing zones (5) oriented towards the rear (8)  of the rear plate (4) is greater than the working length (30) of said hand tool.  Wall element according to one of claims 1 to 10, characterized in that said plate parts or relief-forming zones (5) consist of steel.  Wall element according to one of claims 1 to 11, characterized in that said plate structure (1) consists of steel.  Wall element according to one of claims 1 to 12, characterized in that it has an area of at most 1 m2.    Wall element according to one of claims 1 to 13, characterized in that it is provided with means for attaching it to a wall element (23) adjoining it.  <Desc / Clms Page number 15>    EMI15.1   Security wall characterized in that it comprises at least one wall element (23) according to one of claims 1 to 14 Method for constructing a safety wall according to claim 15, characterized in that a frame (21) consisting of vertical L-shaped profiles (21) is placed, whereafter different wall elements (23) are placed in said frame (21) with horizontal U-shaped intermediate profiles (21) 21b), wherein these wall elements are clamped with the aid of L-shaped profiles (34) which are fixed along the rear side (8) of the safety wall against the frame (21) whereby the front side (2) of the wall element (23) is pressed is pressed against the frame (21) and the rear side (8) of the wall element (23) against the profile (34). Burglary and security wall according to claims 15 or 16, characterized in that it is provided with shock buffers (24) at the rear (8), whereby the wall retains its stability in the event of an impact or against the aggression side or (2). Security wall according to one of claims 15 to 17, characterized in that vertical impact buffers (24) are provided on the side of the wall elements (23) remote from aggression side (2). Security wall according to one of claims 15 to 18, characterized in that it is provided with a panel (26) on the front of aggression (2), a cavity (27) being located between said panel (26) and the plate structure (1) of the wall elements (23). Security wall according to one of claims 15 to 18, characterized in that a recess (25) is provided to provide access to, for example, ATMs, safes or