CH643907A5 - I-SHAPED CARRIER PROFILE MADE OF LIGHT METAL. - Google Patents

Description

The object of the invention is now to provide a profile carrier which has the required strength with a lower weight.

This object is achieved according to the invention in that an I-shaped support profile is made of extruded light metal, in which two parallel webs are provided symmetrically to its longitudinal center plane at a distance from one another, the edge zones of which are on both sides by a longitudinal bar arranged perpendicular to the webs are connected, and that flanges are attached along the web edges at right angles to the longitudinal center plane.

In this way, an I-beam is created which, thanks to the double web, has an extremely high bending stiffness at a low weight, so that there is no risk of kinking or bending even when loaded from the side. In addition, this support has the particular advantage that it is possible to carry out screw connections perpendicular to the planes defined by the flanges between the two webs, i.e. in the longitudinal center plane of the profile, for example when using the profile to support formwork boards for vertical concrete walls . In addition, it is possible in this way to connect two such profiles to one another in such a way that one flange of one profile rests firmly on a flange of the other profile, which of course results in a significantly higher load-bearing capacity of the beam.

In the latter case in particular, it may be disadvantageous if screw heads or nuts protrude from the flange surfaces. In order to avoid this difficulty, in a further development of the invention, the configuration is such that the longitudinal strips are set back with respect to the web edges so that they each form a groove with the webs, which for example can accommodate screw heads or nuts in such a way that they do not protrude above the flanges. Each of these grooves can advantageously be designed in such a way that the outer surfaces of the two webs each form a surface that extends from flange to flange. To increase the strength, the side walls of the groove formed by the edge zones of the webs can be made somewhat stronger than the central part of the webs.

It is particularly advantageous if the groove openings are provided on both sides with a narrow web or a rib which protrude into the groove by a small amount, so that the groove openings are designed as a slot which is somewhat narrower than the width of the groove. In this way, the groove receives a T-shaped profile, in which the two ribs can serve as an attachment for the head of a hammer head screw. A groove designed in this way can also be used to insert additional elements provided with appropriate connecting means.

Two exemplary embodiments of the invention will be described below with reference to the accompanying drawing. The drawing shows:

Figure 1 shows an I-profile with a double web according to the invention;

Figure 2 shows a special embodiment for such an I-profile with grooves provided on the flange.

In FIG. 1, the I-profile 20 consists of the two webs 21 which run at a distance a from one another parallel to the longitudinal center plane of the profile 20 indicated by the dash-dotted line xx and which are connected to one another at their ends by the longitudinal strips 17, so that one is rectangular profiled box-shaped interior 22 is formed. Flanges 15 and 16 facing outward are attached along the edges 18 of this box-shaped structure, or the webs 21. To increase the strength, the longitudinal strips 17 are made somewhat stronger than the outward-facing flanges 15 and 16.

FIG. 2 shows an I-profile 20 'which is provided with a groove 12' on each of the two sides carrying the flanges 15 and 16, respectively. The two side walls 12 of each of these grooves are arranged in such a way that their outer surfaces run in the same plane as the outer surfaces of the two webs 21 arranged at a distance a from one another parallel to the longitudinal central plane indicated by the dash-dotted line xx. The wall thickness of these side walls 12 is slightly larger than the wall thickness of the webs 21. The longitudinal strips 17, which are offset inwards by a certain amount b from the outer edge 18 of the two webs and at the same time each form the base area of a groove 12 ', form the interior between the two webs 21st

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Completed in such a way that a box-shaped interior 22 'is created similarly to the I-profile 20 according to FIG. Like the side walls 12, the strips 17 have a greater material thickness than, for example, the flanges 15 and 16 or the webs 21.

Ribs 13 are provided along the outer edge of each groove 12 'and extend over the entire length of the groove and protrude by a certain small amount into the mouth region of the groove 12', so that a longitudinal slot 14 is formed between them, the width of which is less than the width the groove. There is thus the possibility, on the one hand, of introducing coaxial bores into the longitudinal strips 17 of the grooves 12 'on both sides, which form the base of the groove, through which, for example, threaded rods can be guided, for example in order to connect the profiles supporting the formwork walls on both sides to one another. In this case, the screw heads or nuts can be accommodated in the groove 12 ',

without protruding over the outer surface of the flanges 15, 16. On the other hand, for example, hammer head screws can be inserted into the groove without difficulty and used to screw any structural elements s to the profile, the heads of the hammer head screws abutting the ribs 13 from the inside.

Finally, there is also the possibility of fixing appropriately designed supplementary elements, for example U-profiles provided with a T-shaped attachment, in the grooves io 12 '.

If two such I-profiles are to be connected to one another by a butt joint in the case of very large spans, there is the possibility here of pushing a suitable connecting piece, for example in the form of a flat metal strip or a 15 T profile, into the grooves 12 'of the two Insert I-profiles and fix them there with screws. In this way, these profiles can be firmly and securely connected.

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Claims (5)

643 907 1. I-shaped support profile, characterized in that the profile (20) consists of extruded light metal, that two parallel webs (21) are also provided symmetrically to its longitudinal center plane (xx) at a distance from one another, the edge zones of which are on both sides by one Longitudinal bar (17) arranged perpendicular to the webs are connected, and that flanges (15, 16) running along the web edges (18) are set at right angles to the longitudinal center plane (xx). 2. Support profile according to claim 1, characterized in that the longitudinal strips (17) are set back with respect to the web edges (18) so that they each form a groove with the webs (21). 2nd PATENT CLAIMS 3. Support profile according to claim 2, characterized in that the outer surfaces of the two webs (21) each form a plane extending from flange (15) to flange (16). 4. Support profile according to claim 2, characterized in that the side walls (12) of the grooves (12 ') formed by the edge zones of the webs and the longitudinal strips (17) connecting the webs (21) have a greater material thickness than the webs (21). and flanges (15, 16). 5. Support profile according to claim 1 or 2, characterized in that the webs (21) connecting longitudinal strips (17) and / or the side walls (12) of the grooves (12 ') formed by the edge zones of the webs provide bores at regular intervals are. To bridge gate entrances or to create scaffolding in halls, churches and similar large areas, it is known to use lattice girders made of steel tubes. However, these lattice girders have the disadvantage that they are not laterally stable and cannot be placed on their own due to the risk of tipping over during bracing or assembly. It is also known to use steel T-beams for this purpose. Since there is only one web here, which is generally relatively weak in order to save weight, in order to increase the strength of the girders, so-called partitions must be provided, which are produced, for example, in such a way that gusset plates are welded in at certain intervals. However, such a procedure is complex and expensive, apart from the fact that the welding affects the tensile strength of the material. In addition, these known carriers have the disadvantage of high weight, which makes their handling considerably more difficult.