CZ282878B6 - Building elevation - Google Patents

Abstract

The building structure face has a support construction comprising an aluminium support profile (1) with an inner chamber (2) of surrounding an aluminium hollow profile as posts and/or beam profiles. In between the profiles are fitted wall components, partic. fire protection plates (4). The edges (5) of the wall components, covering from their outside (11) are connected to the support profiles by cover profiles (12). In the inner chambers of the support profiles and with their outer flanks (16) directed towards the facade outer side support profiles (3) are fixed on the bearer profiles. At least the side flanks (19,20) and the building-side inner flanks (22) of the support profiles are covered on their outsides by a fire protection insulation (23). <IMAGE>

Description

Technical field

BACKGROUND OF THE INVENTION The invention relates to a façade of a building with a supporting structure consisting of a light metal support profile, in particular aluminum, with an internal chamber with a closed cross section, in particular of aluminum hollow posts and / or girders, between support profiles of embedded wall elements, a region of the wall elements on its outer surface covered by a pressure profile connected to the support profile and a protective profile located in the inner chamber of the support profile and fixed by its outer side facing the outer side of the facade on the support profile.

BACKGROUND OF THE INVENTION

DE 38 12 223 C2 discloses a façade with a supporting structure of aluminum hollow profiles into which a steel profile is inserted for reinforcement. This steel profile basically serves to maintain the stability of the façade construction in case of fire. Indeed, the pure aluminum profile has a relatively low melting point. In the event of loss of aluminum stability, the steel profile provided by the relevant fire regulations, in particular DIN 4102, Part 13, ensures the necessary overall stability. However, this profile system has the disadvantage of processing and hot behavior, since different materials are used for the profiles.

DE 39 12 984 C2 discloses a similar profile system in which a refractory material is used for the inner profile compared to aluminum. Problems associated with the processing of various materials and with thermal expansion also exist.

DE 42 24 923 discloses a structural element which, in terms of bearing profile, consists only of a hollow profile surrounded by fire insulation. To protect the fire insulation against external influences, it is necessary to screw the steel sheet cover. This has a negative effect on the optical appearance of the facade. The glass plate support profile known from DE 37 39 741 also has only a fire-resistant steel profile.

SUMMARY OF THE INVENTION

The invention is based on the object of creating a façade in which the above-mentioned disadvantages are minimized and yet complies with the relevant fire regulations.

The solution to this object is achieved by at least the lateral sides and the inner side on the side of the building of the protective profile, which preferably consists of a light metal, in particular aluminum, covered with fire insulation. According to further features of the invention set out in the dependent claims, the protective profiles can be connected, in particular screwed, from the outer side of the support profile to this support profile. According to a further feature of the invention, the fire insulation may fill the gap between at least the lateral sides of the protective profile and the opposite inner sides of the support profile, in particular it may have a U-shaped cross section with arms covering the lateral sides of the protective profile. It is also advantageous from the point of view of fire performance that the sides of the sealing web facing the wall elements are covered with a fire insulation element, or the outer sides of the pressure profile are covered with fire insulation. This pressure profile can furthermore be covered on its outer side including the fire insulation with a covering profile. In this case, said fire insulation may preferably be formed as a plate-like covering element, the insulating element being in particular formed by a fire-foaming agent.

- 1 GB 282878 B6

Due to this simple solution, the necessary fire protection is possible, for example, only with aluminum profiles. This is particularly important for the critical area of the façade corner where fire damage is particularly severe. Therefore, it is advantageous to protect the fireproof insulation against mechanical damage from the outside, thus reducing the impact on the fireproofing properties.

The façade forms a stable building unit with its profiles, but it is easy to manufacture. When aluminum is used for profiles, this can bring simplification in storage, manufacturing and processing. Various material-based processing tools, as in the prior art, are not required. However, the protective profiles can also be made of steel, wood or the like.

Suitable materials for the fire protection layer are preferably mineral substances, for example based on silicates. Such a fire-retardant material is known, for example, under the designation Promatect-H of Promat GmbH, Sceifenkamp 16, D-40880 Ratingen.

Overview of the drawings

The invention is explained in more detail by way of an example of embodiment shown in the drawings. Here it shows:

FIG. 1 is a cross-sectional view of a portion of the façade bearing profile; and FIG. 2 is a perspective view of a substantial portion of the façade of FIG.

DETAILED DESCRIPTION OF THE INVENTION

The metal profiles of the façade support structure, for example glass coverings, consist exclusively of light metal, especially aluminum. The support profile 1 is hollow with a square or rectangular cross-section. It surrounds the inner chamber 2, which is closed tightly around the cross-section of the profile 1. However, it is also possible that the tightness is broken in special cases. However, this is not in principle contrary to the invention, although the hermetic closure of the inner chamber 2 is an advantage for protection. It is essential that the inner chamber 2 of the support profile 1 is suitable for the application of a protective profile 3, also consisting of aluminum, which has a square cross section in FIG. 1 and a rectangular cross section in FIG. A hollow profile is also suitable as a protective profile 3 with respect to stability, to which the above-mentioned remarks in connection with the cross-section of the support profile 1 apply analogously.

The lining and rung profiles, i.e. the supporting profiles 1, form a mutual connection of the supporting structures of the building facade at a specified distance. They are located between the frames of the frames, which are filled with wall elements, in particular the fire protection plate 4. The fire protection plate 4 adjoins in the peripheral area 5 with its inner surface 6 with the outer flank 8 of the support profile 1 facing the retractable side 7 of the facade. The bearing is provided by means of an intermediate layer formed by a sealing profile 9 of elastic material. The sealing profiles 9 are fixed in longitudinal grooves 10 which project from the outer flank 8 of the support profile 1 in the direction of the upstream side 7. They are formed in the longitudinal direction of the support profile 1, i.e. perpendicular to the drawing in FIG.

The edge regions 5 of the fire protection panels 4 are provided with pressure profiles 12 on their outer surface 11 from the windward side 7. The pressure profiles 12 are also made of aluminum. They abut in the edge region 5 of the fire protection plate 4 by means of further sealing profiles 13 of elastic material. The sealing profiles 13 abut other longitudinal grooves 14 in the pressure profile 12, which act analogously to the longitudinal grooves 10 of the support profile f. The fixing of the fire protection plates 4 to the support structure is effected by clamping between the pressure profiles 12 and the support profiles 1.

The fastening screws 15 are preferably self-tapping screws which cut the thread themselves when screwing. The clamping pressure exerted by the screwing-in of the clamping screws 15 is in this case cushioned or attenuated by the sealing profiles 9, 13 interposed between the pressure profiles 12 and the supporting profiles 1 and, on the other hand, of the edge region 5 of the fire plate 4.

The protective profiles 3 consist of light metal or aluminum, i.e. the same material as the support profile 1 and the pressure profile 12. However, it is also conceivable to make wood or conventional steel. In the exemplary embodiment, the protective profile 3 inserted into the inner chamber 2 is fixed with its outer side 16 facing the upstream side 2 on the outer wall 17 of the support profile 1 forming the outer flank 8. This fixing can be simply screwed to the outer flank 8 of the support profile 1. the screwing is illustrated in the drawings by the axes 18 of the screws.

In the fixed state, the protective profile 3 adjoins the outer side 16 facing the upstream side 7 immediately adjacent the inner side of the outer wall 17 of the support profile 1. The screwing itself can be carried out particularly easily from the outer region of the support profile 1 provided with the longitudinal groove 10. the outer sides 16 for fixing, i.e. its side sides 19, 20 and its inner side 22 on the building side 21, are covered with fire insulation 23. The fire insulation 23 fills the gap between the side walls 19, 20 of the protective profile 3 and the opposite inner sides 24 profile 1.

The fire insulation 23 comprises plate-like cover elements. In the case of insulation 23 of the protective profile 3, it can be combined in one U-shaped arm covering the protective profile 3.

In the plane of the fire protection plates 4, the support profiles 1 and the pressure profiles 12 are separated from one another by means of a sealing web 25 of low thermal conductivity. Pulling screws 15 pass through the sealing webs 25. The sealing webs 25 serve to prevent the immediate transfer of heat from the metal support profiles 1 to also the metal pressure profiles 12 and thus the heat conducting well from the building. The sealing webs 25 are formed with an H-shaped cross-section. The legs of this cross-section serve to fix against displacement or centering on the web profiles 26, 27, which protrude in one piece from the support profile 1 and from the pressure profile 12 in opposite directions. to the interspace 28 between these profiles 1, 12 or between the fire panels 4. The cross-sectional arms H are also covered on both sides on their outer side with fire insulation in the form of plate-like insulating elements 29.

Also, the outer sides 30 of the pressure profile 12 are covered with fire insulation 23. It provides thermal shielding of the support profile 1 from the downstream side 7. The pressure profile 12 is facing the upstream side including the fire insulation 23 covered by a cover profile 31 which is also formed. made of aluminum.

In the embodiment according to FIG. 1, the fire insulation 23 has a limited width, while in the embodiment according to FIG. 2 it fills the entire gap between the legs 33 of the pressure retainer. The profile 12 in the direction of the upstream side 7, thus providing an outwardly enhanced fire protection.

In the exemplary embodiment, if the fire insulation 23 between the outer side 16 of the protective profile 3 and the inner side of the outer wall 17 of the supporting profile 1 is omitted due to the direct fixing of the protective profile 3 to the supporting profile 1, this has no apparent negative effect on the fire protection efficiency. in the event of a fire, the heat from the upstream side 7 is less than from the side 21 of the building. In the event of fire, the insulation is reactive glass.

-3GB 282878 B6

The test guidelines and / or test requirements for the degree of fire protection require a complete retention of the structural stability of the load-bearing structure for a specified period of time.

The protective profile 3 is formed substantially over the entire effective length of the support profile 1 extending vertically to the drawing of FIG. 1.

PATENT CLAIMS

Claims (10)

Building facade with a supporting structure, consisting of a light metal support profile (1), in particular aluminum, with an internal chamber (2) with a closed cross section, in particular aluminum hollow posts and / or girders, between the support profiles (1), of intermediate wall elements, in particular fire protection plates (4), having an edge area (5) of the wall elements on their outer surface covered by a pressure profile (12) connected to the support profile (1) and a protective profile (3) located in the inner chamber (2) of the supporting profile (1) and fixed by its outer side (16) facing the outer side of the facade on the supporting profile (1), characterized in that at least the lateral sides (19, 20) and the inner side (22) on the building side (21) The protective profile (3) is covered with fire insulation (23). Facade according to claim 1, characterized in that the protective profiles (3) consist of light metal, in particular aluminum. Facade according to claim 1 or 2, characterized in that the protective profiles (3) are connected, in particular screwed, from the outer side (8) of the support profile (1) to this support profile (1). Facade according to one of Claims 1 to 3, characterized in that the fire insulation (23) fills the gap between at least the lateral sides (19, 20) of the protective profile (3) and the opposite inner sides of the support profile (1). Facade according to at least one of the preceding claims, characterized in that the fire insulation (23) of the protective profile (3) is U-shaped in cross-section with arms covering the lateral sides (19, 20) of the protective profile (3). Facade according to at least one of the preceding claims, characterized in that the sides of the sealing web (25) facing the wall elements (4) are covered with a fire-insulating element (29). Facade according to at least one of the preceding claims, characterized in that the outer sides (30) of the pressure profile (12) are covered with fire insulation (23). Facade according to claim 6, characterized in that the pressure profile (12) is covered on its outside, including the fire insulation (23), with a covering profile (31). Facade according to at least one of the preceding claims, characterized in that the fire insulation (23, 29) is designed as plate-like covering elements. Facade according to at least one of the preceding claims, characterized in that the insulating element (29) is formed by a fire-foaming agent.