LU83447A1 - COMPOSITE PROFILES - Google Patents

Description

Composite profiles

The present invention relates to composite profiles, in particular light profiles made of thin steel sheet and concrete.

5

Light steel sheet profiles, in particular closed tube or box profiles, have been known for a long time and are mainly used in the field of air conditioning technology for the transport of warm or cold air. Surface-protected, mainly hot-dip galvanized 10 sheet is generally used to provide corrosion protection.

Open profiles, in particular U-, T- or double-T-shaped structures made of thin sheet metal, are less common, since in the conceivable application areas higher demands are placed on strength than can be guaranteed with thin sheet metal (2 mm).

The aim of the invention was to propose light profiles that are surface protected and have a high stability.

This goal is achieved by the composite profiles according to the invention, the features of which consist in the fact that a steel profile made of solid or preferably perforated sheet metal serves as the core, the surface of which has an at least 2 mm thick, load-bearing adhesive layer made of colloidal concrete. Colloidal concrete is a shotcrete made from cement and 25 water, which can be reinforced with glass fibers to increase the bending tensile strength. Such concrete can be made, for example, according to the method described in DE-OS 27 18 236. Another method of production in which sand additives are used has been described by the applicant in Luxembourg's 30 patent LU 81,524.

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The basic idea of the invention is that composite profiles are developed in which a relatively thin core made of sheet steel is surface-protected and stiffened using one and the same means.

5 According to the invention, this agent consists of colloidal concrete, a substance which has the required properties. Indeed, on the one hand, colloidal concrete has an unusually pronounced adhesive strength to steel, which surprisingly is particularly strong in the case of slightly rusty surfaces; on the other hand, due to its alkalinity, the concrete has the ability to actively protect the surface. Colloidal concrete is also characterized by its high compressive and bending tensile strength.

According to a first embodiment, the composite profiles according to the invention can be open, for example formed from two angular or U-shaped profiles, T, Z or double T profiles. Another embodiment provides that closed hollow profiles are formed.

The thickness of the adhesive layer made of colloidal concrete mainly depends on the strength-related requirements.

The drawings serve to illustrate the invention and to show the possibilities offered by it, in which some embodiments of the composite profiles according to the invention are shown in a non-restrictive manner, but for simplification only the profile core consisting of sheet steel, but not the adhesive layer made of colloidal concrete is shown, which is located on the surface of the profile. Further features and parts are apparent from the description of the drawings.

30th

Show it :

1 shows a U-profile;

2 shows a symmetrical double T-35 profile formed from 2 U profiles; - 3 - * FIG. 3 shows an asymmetrical double T profile formed from 2 unequal U profiles:

4 shows an asymmetrical double T profile formed from 2 identical U profiles; 5 shows a diagram in which possible uses for the profiles according to FIGS. 3 and 4. be hinted at in house building;

6 shows an asymmetrical double-T profile, in which one of the flanges has an increased width and a reinforcement compared to the other; 10 shows a closed box section formed from a sheet metal; FIG. 8 shows a box profile in which 2 profiles according to FIG. 7 are surface-connected;

FIG. 9 shows a box profile in which 2 U-shaped profiles are connected via the flange edges and FIG. 10 shows a box profile formed by connecting the flange edges of two double-T profiles.

1-6 relate to open profiles in which the composite with the load-bearing adhesive layer made of colloidal concrete is all-round according to the invention. 20 days.

The U-shaped profile (1) from FIG. 1 is symmetrical as far as the width of the flanges (8) is concerned, but the manufacture of a U-profile with unevenly wide flanges can also be easily accomplished by means of a sheet metal web .

It is also possible to bend the flange edges outwards or, as shown, inwards, creating short wings (3) running in the plane of the web (4). As is easy to see, the latter make it easier to coat the edges with colloidal concrete. Although this special concrete can be sprayed, the wings (3) can also be grouted.

The double-T profile shown in Fig. 2 consists of 2 U-Pro-35 files (1,2), which lie against each other with the webs (4), the cohesion being achieved by spot welding (12).

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To increase the cohesion, the sheets can be perforated, whereby the perforations (10) and (20) practiced in the webs (4) of the profiles (1) and (2) need not be congruent. In this way it is achieved that, for example, the concrete applied to the web (4) of a U-profile (1) is connected to the web (4) of the 5 profile (2) through the perforations (10). Through holes can of course also be advantageous.

Instead of the double T profile shown, by using 10 angles, i. by leaving out one of the flanges (7) or (8), a T or a Z-shaped profile can be formed.

Fig. 3 shows an asymmetrical profile (5), which is created by connecting the webs (4) of two profiles (1 and 2), 15 of which the profile (1) one to the web (4) at right angles and one in has an acute angle flange (8a), while the flange (8a) adjacent flange (7a) of the profile (2) runs at an obtuse angle to the web and the flanges (7a and 8a) are aligned.

The profile (6) shown in FIG. 4, on the other hand, shows an arrangement in which 2 adjacent flanges (7b and 8b) are inclined at an acute angle to the webs (4) and are arranged in mirror image.

5 shows, schematically, a section through a roof. On the 25 right-hand side are the well-known rectangular roof beams (0), which are in full surface contact with the stepped masonry, but can only be in line contact with the sloping roof battens.

30 Here, the use of the composite profiles according to the invention (5) as beams, or (6) as apex element, allows full surface contact in all areas of contact, both with the documents and with the supports.

35 An asymmetrical double-T profile is shown in FIG. 6, which is created by connecting the webs of two U-profiles (1 and 2), each of which has a short and a long flange. The webs are connected to one another via the point welds (12) and, as already explained, via the perforations (10 and 20).

The wide flange of the double-T profile thus formed is reinforced by a sheet (3) of the same base, which is attached to the underside of the wide flange by spot welding (33). Of course, both the wide flange and the plate (3) can be provided with congruent perforations, which are not shown here, to reinforce the connection.

10th

It must be emphasized that the production of steel profiles in the form of the composite profiles according to the invention shown in FIGS. 3, 4 and 6 ^ is extremely difficult and, if at all, can only be carried out with a hardly justifiable effort 15.

The composite profiles according to the invention can have, apart from open, also closed steel cores. 7 shows a box profile which is formed from a folded sheet metal sheet, the 20 longitudinal edges being connected by spot welding (12).

In this composite profile, according to the invention, the outer surfaces have an adhesive layer made of colloidal concrete. Although there is nothing standing in the way of coating the inner surfaces with concrete, especially in the case of large dimensions, where access is guaranteed, the inner surfaces can also be metallized and preferably hot-dip galvanized. This is easy to achieve by using one-sided galvanized sheet which is relatively easily accessible, and according to the methods described by the applicant, for example, in Luxembourg's 30 patents no. 75,976, 76,075 and 78,372. '

This embodiment of the composite profiles according to the invention is outstandingly suitable as an air duct, as a cable duct, or else as a hollow beam to be used in any construction. The same applies to embodiments in which two or more composite profiles according to FIG. 7 are surface-connected to one another, as illustrated in FIG. 8.

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9 shows a hollow profile created by connecting the edges of two U-profiles, the U-profiles consisting of sheet metal galvanized on one side.

5 shows an embodiment which is characterized by a particularly extensive stability and in which a non-galvanized U-profile (1 'and 2) over the web with that of a one-side galvanized U-profile (2' and 1) is connected, the flange edges of the galvanized profiles on one side also being connected to one another. Here again, the entire outer surface is surface-protected by concrete, while the inner surfaces are galvanized.

Claims (10)

1. Composite profiles, in particular light profiles made of thin sheet steel and concrete, characterized in that a steel profile made of solid or 5 preferably perforated sheet metal is used as the core, the surface of which has an at least 2 mm thick adhesive layer of colloidal concrete. 2. Composite profiles according to claim 1, characterized in that the 10 colloidal concrete is a shotcrete made of cement and water, which may have additives such as glass fibers. 3. Composite profiles according to claims 1-2, characterized in that the sheet metal profiles are open, for example U-shaped (1) or angle profiles 15. 4. Composite profiles according to claims 1-3, characterized in that the sheet metal profiles are open, for example. From two angular or U-shaped profiles (1,2) T, Z, or double-T profiles , whose. 20 webs (4) lie next to each other and are connected by spot welding (12) to each other, the flanges (7,8) running perpendicular to the web (4). 5. Composite profiles according to claims 1-4, characterized in that 25 at least two adjacent flanges (7a, 8a) belonging to each profile (1 or 2) are aligned with one another and are inclined to the adjoining webs (4). 6. Composite profiles according to claims 1-4, characterized in that 30 at least two adjacent flanges (7b, 8b), each belonging to a profile (1 or 2), are inclined mirror-inverted to the adjoining webs (4). 7. Composite profiles according to claims 1-2, characterized in that 35 the sheet metal profiles are closed, formed by folding a sheet metal sheet and by connecting the edges. 8 * composite profiles according to claims 1-2, characterized in that two other U-shaped individual profiles connected to the flange edges form a hollow profile. - 2 - 9. composite profiles according to claims 1-2 and 7-8, characterized in that at least two surface-connected hollow profiles form a sheet metal profile. 10. Composite profiles according to claims 1-2 and 7-9, characterized in that the closed hollow profiles consist of one-sided metallized, preferably galvanized sheets, the metallized sheet surface (Zn) is generally inside the hollow profile, while the Outer surfaces (Fe) of the hollow profile only have the adhesive layer made of colloidal concrete. 15