DE19651376C2 - Fire-protected multi-chamber hollow profile made of aluminum or the like - Google Patents

Abstract

The sections are formed by hollow sections of aluminium or similar material with an enclosed outer (11) and inner (12) chamber. These contain a fire-resistant material, connected by at least two webs (13,14) with apertures (15) to reduce heat transfer. The webs form a spatial lattice structured, reducing the proportion of material to e.g. 5%, so that the maximum surface temperatures allowed by testing standards after a predetermined time are not exceeded. Preferably, the apertures are in the form of slots, such that slots in one web are displaced by half a slot length with respect to slots in the other web.

Description

The invention relates to a fire-protected, one-piece, extruded multi-chamber Hollow profile made of aluminum or the like for the production of frame elements for Doors, windows, glass roofs, partitions and the like, with an interior and exterior chamber and at least two spaced, with the heat transport reducing, bridges formed as openings arranged in a row of elongated holes webs to connect the inner and outer chamber, in which fire retardant Materials are used, with the central webs provided with the openings one form a spatial lattice structure.

Hollow profiles of this type are known in various designs. It is from particularly important that these are heat and heat resistant, so that the hollow profile resists heat for as long as possible in the event of a fire. Des half such profiles are usually made in one piece, that is, the inside and Middle webs connecting the outer chamber are extruded with the shells in one piece presses. In contrast, composite profiles are known in which the interior and Outer chamber are connected to each other by insulating webs, which from a thermally material, such as plastic. The foreign and The inner shell is pressed separately and then joined together by the insulating bars. Since the insulating webs have a relatively low melting point, they are used such known profiles the risk that they no longer the heat Fire protection requirements in force today.

From US-PS 5 058 351 are one-piece extruded profiles of this type, in which between several angular webs, which together form a U-shaped channel, a strip made of a thermally insulating material located in the casting or Foaming process is introduced into the channel. One of the webs that the bottom of the underground shaped gutter and the only bridging bridge is along its length in one level above and next to each other slits provided in a small Distance from each other, the webs remaining between two slots compared to the slot above it by half the length of a slot are offset from each other. This embodiment has the disadvantage that because of the in the only bridging web of the  Hollow profile is weakened excessively on the one hand, so that in the case of a Fire the insulating bars from the thermally insulating material even at low Temperature is destroyed. Second, the extreme weakening of ver permanent cross-section of the bridging bridge sufficient strength and Overall stability of window or facade structures, such as fire protection requirements are given, can never be achieved in practice.

The closest DE 44 43 762 A1 according to the preamble of patent claim 1 deals in the description and in the exemplary embodiments shown exclusively with constructions which are directed to multi-part fire protection profiles. Only in the last 5 lines in column 6 of the document has been spoken casually of the possibility of using a one-piece extruded profile with 3 internal chambers. From FIGS. 2 and 3 in conjunction with FIG. 1 of this known embodiment it can be seen that there the webs of each central web and the recesses in the webs are congruent with one another along the entire length of a profile. In practice, this means that, for example, with a length of 200 mm for each elongated hole and a length of each center web of 5 mm in FIG. 3, the reference of the web portion - based on the length of each center web - to the length of 1 m is approximately 20%. This ratio results from measures taken from FIG. 3, since no other information can be found in this document.

It is obvious that after corresponding measures from the examples in FIG. 2, the reference to the material content for the webs is still significantly higher than in the example in FIG. 3.

Another major disadvantage comes with this known construction. Since the recesses in the webs are always congruent with each other, there is always an impairment of stability when the hollow profiles are cut or cut to length because there ( Fig. 3) wherever the cut takes place, always have both center webs on the cantilever the entire length of the face without experiencing any support along its length. This entails a change in the dimensional and dimensional stability as well as the overall stability. In the citation one can avoid this by keeping the distances between the webs as small as possible, but with the disadvantage that a considerable amount of material is necessary for such mass products, as can be seen particularly clearly from the structure according to FIG. 2.

The invention is therefore based on the object of providing a fire-protected multi-chamber To design the hollow profile of the type described in more detail above in such a way that a constructively multiple ways of heat transfer in a one-piece extruded metallic Hollow profile is reduced as much as possible and yet it is ensured that the lead benden cross section of the hollow profile is sufficient, the occurring mechanical loading to take loads as part of an overall building construction.

This object is achieved according to the invention in that the elongated holes of the Center bar preferably by half the length to the elongated holes of the spac stood middle web are offset such that within the grid of the opposite lying central webs the material portion related to the length of each central web of the grid is in a range of less than or close to 5%.

While in the one-piece extruded hollow profile according to the prior art only web leading from the inside out must inevitably be weakened in order To be able to arrange the slots next to one another takes place in the proposal of the invention although a not insignificant weakening of the hollow profile, but is by the formed spatial lattice structure an inherent stability for those occurring in practice Loads of a building construction formed from it that meets the static requirements changes of such fire protection constructions are sufficient. These space grids structure is made concrete by the individual center webs with the openings enough to take over the connection between the inner and outer chamber. The spatial Lattice structure allows the remaining material portions within the lattice each middle bar can be limited to less than 5% of the total length. As a result of that the elongated holes in the invention are deliberately staggered on both sides it is also possible to cut or cut the profiles to length without paying close attention to them to have to make sure that the cut is in the immediate vicinity of the opening or elongated holes bordering webs must be applied. Is that length in the present invention Profile immediately in front of the webs delimiting the openings, so the consequent impairment of the stability of the spatial grid within permissible limits, because the offset of the openings only weakens one of the actual ones both middle webs is given. This means that only one of the middle webs protrudes on a larger one  Length unsupported from the front, while the other web is closed due to the offset is adequately supported over at least half its length.

In order to achieve an optimal fire protection effect, it is additionally provided that the in the inner and / or outer chamber used fire retardant materials there are held positively and / or non-positively. Additional mechanical clamping or loading Fixing elements such as brackets or the like can be omitted.

In the embodiment according to the invention it is provided that the lengths of the elongated holes and the length of the grid webs are constant over the length of the middle web. Whether probably a sufficient reduction in heat conduction with sufficient stabilization lity is achieved, it may be advantageous in certain applications that the Lengths of the elongated holes and the grid bars differ along the length of the middle bar are. Then, however, it is useful if a certain regularity is observed , that means the length of an elongated hole should then, for example, be double or an be approximately twice the length of two successive elongated holes, the bars between two shorter elongated holes should be shorter than that Bridges between a shorter and a longer slot.

To further reduce the heat transport in a fire, it is provided that a pre-formed profile rod made of ther on at least one side of each center bar mix insulating material that is sufficiently resistant to the effects of heat preferably made of a plastic.

The invention is explained in more detail below with the aid of the accompanying drawing.  

The drawing shows:

Fig. 1 shows a first embodiment of a multi-chamber hollow profile according to the invention in a double view, each with a view of egg NEN web, in which the lengths of the elongated holes and the webs are constant and

Fig. 2 is a representation corresponding to FIG. 1, but with different lengths of the elongated holes and grid bars.

The multi-chamber hollow profiles 10 made of aluminum shown in FIGS. 1 and 2 have a closed outer chamber 11 and a closed inner chamber 12 , which are connected by two central webs 13 , 14 running parallel and at a distance from one another. In the illustrated embodiments, T-shaped profile webs 13 ', 14 ' are on the mutually facing outer sides. The multi-chamber hollow profile 10 shown is extruded in one piece in the two exemplary embodiments.

In both versions, elongated holes 15 are punched into the central webs 13 , 14 in series, ie at equal distances from the outer and inner chambers 11 , 12 , the length of which is significantly greater than the lattice webs 16 remaining between the elongated holes. The figures show that the elongated holes 15 of the central web 13 ver by half the length to those of the central web 14 are. In addition, the widths of the elongated holes 15 are significantly smaller than the central web 13 , 14 . Since the elongated holes 15 of both central webs 13 , 14 are equidistant from the outer and inner chambers 11 , 12 , a lattice structure maintaining stability is formed, since within the elongated holes 15 of each central web 13 , 14, the elongated holes act like a spatial grid. The ratio of the width of each central web 13 , 14 to the width of an elongated hole 15 be in the illustrated embodiment of FIG. 1 about 3: 1.

In the embodiment according to FIG. 1, the length of each Langlo ches 15 is, for example, 200 mm and the average length of each grid web is 5 mm. It follows from this that five webs with a width of 5 mm are formed over a length of one meter of the multi-chamber hollow profile 10 . This results in a total length of 50 mm or 5% of the respective length of a multi-chamber hollow profile 10 for each central web 13 , 14 .

The length of each elongated hole 15 could also be, for example, 125 mm and the average length of each lattice web 16 three mm. There are then fourteen webs per meter of the multi-chamber hollow profile 10 with a total length of 42 mm, resulting in a share of 4.2% per running meter of the multi-chamber hollow profile - based on each central web 13 or 14 .

In the embodiment according to FIG. 2, the lengths of the elongated holes 15 and the grid bars 16 are not the same. Here follow an elongated hole 15 with a greater length of z. B. 103 mm two elongated holes 15 a with a length of 50 mm. The length of the webs 16 would then have to be brought into a ratio corresponding to the lengths of the elongated holes 15 , 15 a, but the total total length should preferably not exceed 5% of the length of the multi-chamber hollow profile 10 .

The outer chamber 11 and the inner chamber 12 are rectangular in cross section in the illustrated exemplary embodiments and filled with a fire-retardant material strip 17 , which is positively and / or non-positively fixed therein, so that no clamps or similar mechanical connecting elements are necessary. One or two profile bars 18 , which extend over the entire length and are made of a material which foams up in the event of a fire, can be fixed to each central web 13 and 14 .

Claims (6)

1. Fire-resistant, one-piece, extruded, multi-chamber hollow profile made of aluminum or the like for the production of frame elements for doors, windows, glass roofs, partition walls and the like, with an inner and outer chamber and at least two spaced apart, with the heat transport reducing, as arranged in a row elongated holes Opened bridge webs for connecting the inner and outer chamber, in which fire-retardant materials are used, the central webs provided with the openings forming a spatial lattice structure, characterized in that the elongated holes ( 15 , 15 a) of the central web ( 13 ) are preferably half the length of the oblong holes (15, 15 a) of spaced apart from the central web (14) are offset such that (13, 14) of the related within the lattice of the opposing central webs to the length of each of a central web (13, 14) Material content of the grid in one area ch is below or approximately 5%. 2. Fire-protected multi-chamber hollow profile according to claim 1, characterized in that the fire-retardant materials used in the outer and inner chamber ( 11 , 12 ) are positively and / or non-positively held. 3. Fire-protected multi-chamber hollow profile according to claim 1, characterized in that the length of the elongated holes ( 15 , 15 a) and the lengths of the grid webs ( 16 ) on the length of the central web ( 13 , 14 ) are constant. 4. Fire-protected multi-chamber hollow profile according to claim 1, characterized in that the lengths of the elongated holes ( 15 , 15 a) and the lengths of the grid webs ( 16 ) on the length of the central web ( 13 , 14 ) are of different lengths. 5. Fire-protected multi-chamber hollow profile according to claim 4, characterized in that the length of an elongated hole ( 15 ) is approximately twice as long as the lengths of two elongated holes in the row ( 15 a). 6. Fire-protected multi-chamber hollow profile according to one or more of the preceding claims 1-5, characterized in that on each central web ( 13 , 14 ), preferably on one side, a prefabricated, continuous profile rod ( 18 ) made of a foaming material in the event of fire is.