AT391737B - BULLET-RESISTANT WINDOW OR DOOR DESIGN - Google Patents

Description

No. 391 737

The invention relates to an anti-bullet, metallic window or door construction with a frame and a sash, the frame legs are provided on the outside with bullet-resistant plates, preferably made of an aluminum alloy, the opposing, narrow-sided end faces are spaced apart and limit such a narrow gap.

Such window and door constructions are known (AT-PS 377 054, DE-OS 3300 020). In these previously known constructions, the gap between the bullet-resistant plates is angled and has two right-angled deflections over its depth. The profile of the frame itself does not have a bullet-resistant cross-sectional part, rather plate elements are arranged here on the outside.

In another bullet-resistant construction (for example according to DE-GM 7813 010 or AT-PS 374 558), the gap between the plates runs obliquely at an angle of approximately 45 ° or is graduated. The production of plates shaped in this way then takes place expensive if these plates are to be cut out of a few large plates, in particular from storage costs, or if additional mechanical processing is required for plates consisting of special alloys. In addition, there is the disadvantage, in particular in the case of a window construction, that the penetration of water from the outside into the gap between the window frame and the sash frame is promoted in the lateral and lower window area. In addition, the available internal width is reduced in the case of a door design.

Another known construction (DE-OS 2824 199) shows on the outside hollow profiles that have projectile deflecting devices. A gap is provided in the lower area of the window or door, but it was apparently assumed in the conception that the frame profiles of the frame legs do not contribute to the bullet resistance, i. H. that the frame profiles must be covered by bullet-resistant plates and that the gap between the bullet-resistant plates must be designed in such a way that a projectile hitting the frame legs at any angle must always penetrate cross-sectional areas of the bullet-resistant plates. Therefore, the bullet-resistant plates of the known construction overlap.

The invention is therefore based on the object of designing a bullet-resistant construction while avoiding the disadvantages mentioned in such a way that adequate protection is ensured in the gap area. This object is achieved in that each of the end faces delimiting the gap in pairs runs flat over the entire depth of the gap, that the gap is approximately at right angles to the plane of the frame or sash and laterally opposite the gap between the frame and sash is offset, and that the frame profile lying behind the gap delimited by the end faces of the plates and forming a frame leg has a bullet-resistant cross-sectional part lying in the plane of the gap. Because the gap is approximately at right angles to the plane of the frame or sash, the cut plates do not need to be processed on the edge. The construction is adequately protected if the gap is only placed at the height of the cross-section part that acts as a bullet-proofing. Special precautions for the formation of the gap are therefore superfluous. The essence of the invention is therefore that simple, single-layer, bullet-resistant plates can be used, which have flat, that is, not offset end faces, which simplifies their manufacture, and that in addition the formation of a frame profile itself is used for bullet resistance, it being here in the constructive embodiment, the relative position between this part of the frame profile and the gap remaining between the plates is important. Since a cross-sectional part of the frame profiles is designed to be bullet-resistant, the gap between the bullet-resistant plates can run at right angles to the window or door plane. The result of this is that a projectile which is at right angles to the plane of the window or door can at first penetrate into the gap almost undisturbed, but then hits the cross section which is bulletproof. Thus, the frame profiles themselves make a contribution to bullet security.

The classification of a bullet-proof construction in different bullet classes depends in particular on the dimensions of the gap and the cross-sectional part.

According to a special embodiment of the invention, the width of the cross-sectional part corresponds to the width of the gap, so that the cross-sectional part essentially completely covers the gap. The length of the cross-sectional part, measured at right angles to the plane of the frame, is at least 5 mm, and the length preferably corresponds to at least the thickness of the plate. According to a further embodiment of the invention, the cross-sectional part is formed by a material thickening of the frame profiles of the frame or casement.

The invention is explained in more detail using the following exemplary embodiments. Show it:

1 shows a vertical section through the upper, horizontal frame area of an inward-opening, bullet-resistant aluminum door;

2 shows a vertical section through the upper, horizontal frame area of an inward-opening, bullet-resistant aluminum door of a higher fire class;

3 shows the associated vertical section through the lower, horizontal wing frame;

Fig. 4 is a vertical section through the upper, horizontal frame area of an outward opening, bullet-resistant aluminum door.

Fig. 1 shows a vertical section through the upper, horizontal frame area of a bullet-resistant (inward opening) aluminum door with a frame (1) and a sash frame -2-

Claims (5)

No. 391 737 (2), which are designed as thermally insulated composite profiles. On the outside of the frame (1), (2) bullet-resistant plates (3) of thickness (D) made of an aluminum alloy are mounted. The flat end faces (3 ') of the plates (3) are arranged at a distance from one another, so that the opening (4) formed between the frames (1), (2) extends to the outside of the plates (3) as perpendicular to the door plane Gap (5) of width (Bj) continues. In the vicinity of the opening (4), a hollow profile (6) of the casement (2) has a cross-sectional part (7) which is designed as an anti-bullet-proof crossbar of width (B2) and length (L). As can be seen from FIG. 1, the gap (S) is arranged at the height of the cross-sectional part (7). In the present case, the cross-sectional part (7) only partially covers the gap (5), i. that is, the width (Bj) of the gap (5) is greater than the width (B2) of the cross-sectional part (7). It has been found that this formation of gap (5) and cross-sectional part (7) is sufficient for the classification of the aluminum door in a low fire class. A bullet-proof glass pane is indicated by the number (8). FIG. 2 shows an aluminum door that also opens inwards and is classified in a higher fire class than the aluminum door according to FIG. 1. This is achieved in that the cross-sectional part (7) is made stronger in relation to the gap (5). The cross-sectional part (7) completely covers the gap (5), i. that is, the width (Bj) of the opening (5) is equal to the width (B2) of the cross-sectional part (7) ((Bj) = (B2)). A further advantage of the construction becomes clear in connection with FIG. 3. A larger aluminum plate (3 ") is required for the lower, horizontal casement (2). By cutting such an aluminum plate (3 ") produced as an extruded profile at the interface (9) marked with a dashed line, the two aluminum plates (3) required for FIG. 2 result. 4 shows analogous conditions for an aluminum door opening outwards. In this case, the bullet-resistant cross-section (7) is formed by a material thickening (7 ') arranged on the outer metal shell (6') of the frame (1). It has been shown that good results were achieved in the individual bombardment classes with the described formation of the gap (5). Due to the arrangement of the bullet-resistant cross-section (7) or the material thickening (7 '), the aluminum doors remain undamaged despite the bombardment on the inside. that is, without penetration through stuck projectiles and projectile parts. PATENT CLAIMS 1. Bullet-proof, metallic window or door construction with a glare and sash frame, the frame legs of which are provided on the outside with bullet-resistant plates, preferably made of an aluminum alloy, whose opposing, narrow-side end faces are spaced apart and thus narrow Limit the gap, characterized in that each of the end faces (3 *) delimiting the gap in pairs runs flat over the entire depth of the gap (5), that the gap (5) is approximately at right angles to the plane of the frame or sash frame (1, 2) stands and laterally offset from the gap (4) cut out between the frame and the sash frame, and that the frame profile (6) forming a frame leg is located behind the gap (5) bounded by the end faces (3 ') of the plates (3) ) has a bullet-resistant cross-sectional part (7) lying in the plane of the gap (5). 2. Bullet-resistant window or door construction according to claim 1, characterized in that the width of the cross-sectional part (7) corresponds to the width of the gap (5) 3. Bullet-resistant window or door construction according to claim 1 or 2, characterized in that the length (L) of the cross-sectional part (7) measured at right angles to the plane of the frame or sash is at least 5 mm 4. bullet-resistant window or door construction according to claim 3, characterized in that the length (L) corresponds at least to the thickness (D) of the plates (3) -3- No. 391 737 5. Bullet-resistant window or door construction according to one of claims 1 to 4, characterized in that the cross-sectional part (7) by a material thickening (7 ') of the metal profiles (6) of the glare (1) or the sash frame (2) is formed . 5 Including 4 sheets of drawings