WO2008151783A1

WO2008151783A1 - Profile made of a light metal material with tube elements running along said profile, and device comprising said profile

Info

Publication number: WO2008151783A1
Application number: PCT/EP2008/004663
Authority: WO
Inventors: Jan Rothe; Günter Bergmann; Daniel Simon Egger
Original assignee: Alcan Technology & Management Ag
Priority date: 2007-06-13
Filing date: 2008-06-11
Publication date: 2008-12-18
Also published as: DE102007027984A1; DE202007008488U1; EP2167882A1

Abstract

The invention relates to a profile (20) made of a light metal material with at least one tube element (32) on the profile (20) for transporting heat-conducting media along buildings, comprising a roof plate (24) and foot profiles (26) protruding on one side of said roof plate delimiting a gap (30) therebetween. At least one tube element (32) is disposed on the inner side of the roof plate within the gap (30). The tube element (32) is preferably arranged between two neighboring foot profiles (26). The profile (20) is extrusion molded from light metal with the tube elements (32) and the foot profiles (26). According to the invention, a foot profile (26) has a T-shaped cross section, having a crosspiece (27) molded onto the roof plate (24). A base plate (28, 28a) is molded onto the other edge of the crosspiece.

Description

Profile of a light metal material with running on this pipe elements and the profile containing

contraption

The invention relates to a profile of a light metal material with at least one for the transport of heat-conducting media on buildings running on the profile pipe element according to the preamble of claim 1. In addition, the invention covers a device containing the profile device.

GB 2,376,431 A describes such a profile in the form of a plurality of plates connected to each other, each of which contains an end projecting from them web in the form of a tube half; two of these webs are joined together and form on the one hand a guide tube for a heat-carrying medium and on the other hand, the connection of the two plates to each other. The composite profile can be attached as a heat element to a ceiling - even after their production.

In the knowledge of this - even structurally meaningless - having installation body, the inventor has set the goal to create a self-supporting, large-area construction of light metal with a functional integration of photovoltaics, hot water supply and insulation. In addition, with a self-supporting roof construction, the assembly time for roofs equipped with it should be reduced, and this also for different roof constructions.

According to the invention, the profile has a plate and on one side of this projecting, a gap bounding foot profiles; Within the interspace, at least one pipe element is integrally formed on the inside of the plate and forms the path of the desired heat conduction. In addition, the pipe element between two adjacent foot profiles of the profile be arranged, preferably at equal intervals to the adjacent Fußprofilen.

As favorable, a foot profile has proven about T-shaped cross-section with an integrally formed on the plate web, at the other edge a base plate is formed; The base plates enable a stable position of the profile in the installed state.

In addition, at least three foot profiles should be formed on the plate, and one of the outside foot profiles to be connected by means of a terminal strip to the plate whose parallel to the surface surface forms a step for supporting the other plate, so that both surfaces are aligned. This plate is primarily used as a roof panel, but can also be used as a module for facades.

In the context of the invention is that a longitudinal edge of the module, in particular the roof panel, an adjacent

Profils the terminal strip rests and the base plate of the molded foot profile engages under an outer terminal strip of an adjacent base plate.

Advantageously, two adjacent profiles can be clamped together so that their

Align surfaces with each other.

In addition to run between two adjacent base plates of foot profiles of a roof panel, a bottom slot as access to the gap; For example, the latter can be filled with passed through the bottom slot insulation.

To create a roof module or a wall module, a photovoltaic layer should be arranged on the surface of the roof panel of the roof profile or the wall. In addition, the base plates of the foot profiles of the roof profile or the roof profiles can be stored on an insulating layer. This is in the latter set at least one retaining profile, which rests with a clamping surface of the insulating layer cross-curvature of the base plate of a foot profile of the roof profile clamped. That retaining profile should have a base plate which is firmly seated in the insulating layer and has a web formed thereon in an upright manner, the free edge of which is deformed to that region of curvature. The latter rests on one edge of the base plate, so it is curved towards the associated web. The other edge runs to form a connecting strip at a distance from the surface of the insulating layer.

For this purpose, it has proven to be favorable to let the attached to the holding profile edge of the base plate extend approximately in a plane with the terminal strip of the other edge of the base plate.

Several such modules form an inventive device for creating a component, in particular a roof; a plurality of interconnected profiles are joined together to form a self-supporting module, the surfaces of which are superimposed by at least one photovoltaic layer, wherein its foot profiles are supported on an insulating layer. This device is characterized by a module with PV cells, water connection and insulation elements.

According to a further feature of the invention, at least one of the end edges of the associated component profiles is assigned a pipe approximately parallel and connected to the pipe elements. To project from the pipe from pipe sections, which are connected at the other end in each case with one of the pipe elements of one of the component profiles.

It has proven to be particularly favorable to let the pipeline of the device run approximately at right angles to a gutter bounding the roof surface. With the device according to the invention both flat roofs and pitched roofs and pitched roofs can be constructed, the latter also as purlin roofs with single or with - at least one Mittelpfette containing - double-standing chair. The modules made of light metal lead to a reduction of wooden substructures.

The arrangement of the modules of light metal in the horizontal direction allows the use of long modules with reduced assembly costs. Vertical modules for constant roof pitches are located in the direction of the water and allow a central distribution channel in the gable.

Overall, this results in a solving the above task in an impressive manner embodiment.

Further advantages, features and details of the invention will become apparent from the following description of preferred embodiments and from the drawing; this shows in

Fig. 1: an oblique view of a portion of the saddle roof of a building with parts of a solar system;

2 shows an enlarged and partially covered section of the gable roof with profile sections during assembly and before their end position;

3 shows an enlarged detail

Fig. 2 with two profile sections in the end position;

Fig. 4: a reduced oblique view

Profile sections on a roof;

5 shows an end view of a profile section with two associated layers;

6 shows a roof section with two intermeshing, right-angled gables to the roof gable

Roof profiles of light metal;

Fig. 7: the roof profiles of Figure 6 without adjacent roof parts.

8 is a graph illustrating the

Module height. A pitched roof 10 consists of two at an angle w to each other inclined roof surfaces 12, 12 _a . In the rear in Fig. 1 lying roof surface 12 _a roof frame 14 and in this first ridge extending rafters 16 can be seen. On the viewer facing front roof surface 12 a plurality of solar units 18, 18 _{a are} mounted.

According to FIG. 2, 3, the roof surface 12 is formed by a plurality of parallel roof profiles 20, whose mutually flushing surfaces 22 adjoin one another according to FIG. 3 and are jointly covered by at least one photovoltaic layer 34.

Each of the extruded from a light metal alloy roof profiles 20 has on a surface 22 offering roof plate 24 of width b and the thickness e three mutually parallel molded foot profiles 26 of height h - T-like cross-section of a right to the roof panel 24 Web 27 and a parallel to its base plate 28 of thickness f - on, the two spaces 30 limit.

The left edge of the roof panel 24 in FIG. 3 is lowered in the form of a strip 25 of a width g approximately corresponding to the height of the panel thickness e and serves as a connection strip for the longitudinal edge 23 of the adjacent roof panel 24 pushed onto it. this longitudinal edge 23 defines a protruding strip-like plate portion 24 _a . Whose width gi corresponds to about twice the width g of that strip 25 at the other longitudinal plate edge.

In cross-section center of the connecting strip 25, the web 27 is integrally formed on one of the base profiles 26. Its base plate 28 _a also has a - to the roof plate 24 in a measure of the thickness f of the base plate 28 according to lowered - terminal strip 25 _a , thanks to which the base plate 28 of the adjacent roof profile 20 can be pushed under holding. The two superposed terminal strips 25, 25 _a allow a In a half the clear width of the gap 30 measuring distance i from the - the latter limiting - webs 27 extends on the inner surface of the roof plate 24 a zenith tube 32, the inner diameter d corresponds to the outer diameter di of a curvature tube 36 , which projects from a sleeve portion 38 of a parallel to the front or end edges 21 of the roof profiles 20 - according to FIG. 4 preferably in cross section of the longitudinal undercut by a gutter 17 undercover roof surface 12 - extending pipe 40 and to connect with the zenith tube 32 is. The radial distance n of the curvature tubes 36 thus corresponds to the radial distance of adjacent zenith tubes 32.

5, the assignment of the photovoltaic layer 34 and an insulating layer 50 to a roof profile 20 is outlined as a module, in Figure 6, the embedding of two interconnected in the manner described roof profiles 20. whose base plates 28, 28 _a sit on the surface 48 of an insulating layer 50. In the latter superimposed a one-piece retaining profile 42 of a base plate 44 and aufragendem web 45, the upper - pointing to the web 27 - curvature 46 superimposed on the base plate 28 _{a of} the adjacent base profile 26 and thus holds on that surface 48.

It is not shown, on the one hand, that the intermediate spaces 30 of the roof profiles 20 may optionally also be filled with insulating material and, on the other hand, that cable channels can run parallel to the zenith tubes 32 in the intermediate spaces 30.

The roof profile 20 with insulation, a PV cell and the water connection to a ready-to-install module; the roof surface 12 is composed of various such modules with extruded roof profiles 20. This results in a flexible and load-bearing modular system with which different width modules can be put together. The modules run in a horizontal direction and - if possible - a single module is placed over the entire length of the roof.

Zenit tubes 32 for hot water production are extruded directly with the roof profile 20, that is, only the water circuit or the pipe 40 must be connected. For power generation, photovoltaic layers 34 are defined, for example, as thin-film PV cells on the upper side of the modules, in particular adhesively bonded thereto.

Thanks to this module according to the invention, the height of details of Fig. 8 can be seen, can be saved by integrating the functions much installation effort and also a large part of the substructure. The fully equipped modules only need to be placed on the reduced substructure to complete the roof.

As already mentioned, in addition to the use of the described profiles 20 and the plates 24 on roofs and their use on other building surface possible.

Claims

1. Profile made of a light metal material with at least one tube element running on the profile for transporting heat-conducting media to buildings,

characterized,

in that the profile (20) has a plate (24) and foot profiles (26) projecting therefrom on one side and delimiting a space between them (30), at least one tube element (32) being formed on the inside of the plate within the intermediate space.

2. Profile according to claim 1, characterized in that the profile element (32) between two adjacent foot profiles (26) is arranged.

3. Profile according to claim 1 or 2, characterized in that it is extruded with the tubular elements (32) and the foot profiles (26) made of light metal.

4. Profile according to one of claims 1 to 3, characterized in that the cross-sectional distances (i) of the tubular element (32) of the two associated foot profiles (26) are approximately equal to each other.

5. Profile according to one of claims 1 to 3, characterized by a base profile (26) approximately T-shaped cross-section, with one of the plate (24) integrally formed web (27), at the other edge of a base plate (28, 28 _a ) is formed.

6. Profile according to one of claims 1 to 5, characterized in that the plate (24) is mounted on an outer surface of a building.

7. Profile according to one of claims 1 to 6, characterized in that the plate (24) is used as a roof panel.

8. Profile according to one of claims 1 to 7, characterized in that on the plate (24), in particular on the roof panel, at least three base profiles (26) are integrally formed and one of a longitudinal edge of the roof panel near foot profiles by means of a connection strip (25). is connected to the roof panel whose surface parallel to the surface (22) forms a step (Fig. 3, 5).

9. Profile according to claim 8, characterized in that a longitudinal edge (23) of the plate (24) of an adjacent profile (20) rests on the connection strip (25), wherein the base plate (28) of the molded foot profile (26) has an outer connection strip (23). 25 _a ) of an adjacent base plate (28 _a ) engages under.

10. Profile according to claim 9, characterized in that two adjacent profiles (20) are connected to each other by clamping and their surfaces (22) are aligned.

11. Profile according to one of claims 1 to 10, characterized in that between two adjacent base plates (28, 28 _a ) of foot profiles (26) of a plate (24) extends a bottom slot (31).

12. Profile according to one of claims 1 to 11, characterized in that its interstices (30) are at least partially filled with insulating material.

13. Profile according to one of claims 1 to 12, characterized in that on the surface (22) of the plate (24) a photovoltaic layer (34) is arranged.

14. Profile according to one of claims 1 to 13, characterized in that the base plates (28, 28 _a ) of the foot profiles (26) of the roof profile or the roof profiles (20) are arranged on an insulating layer (50), in the preferred at least a holding profile (42) is fixed, which with a surface (48) of the insulating layer cross-curvature region (46) of the base plate (28, 28 _a ) integrally formed web (45) of a foot profile (26) rests by clamping.

15. A profile according to claim 14, characterized in that the holding profile (42) in the insulating layer (50) held base plate (44) with thereof towering integrally formed web (45) and whose free edge is formed to the curvature region (46).

16. Profile according to claim 9 or 15, characterized in that the curvature region (46) of the holding profile (42) of an edge of the base plate (28a) rests, the other edge to form a

Terminal strip (25a) at a distance from the surface

(48) of the insulating layer (50), wherein preferably attached to the holding profile (42) edge of the base plate (28a) is arranged approximately in a plane with the terminal strip (25a) of the other edge of the base plate (Fig. 6).

17. Profile according to at least one of claims 1 to 18, characterized by at least one further

Drawing and / or the description removable feature.

18. An apparatus for creating a building surface with a profile according to at least one of the preceding claims, characterized in that a plurality of interconnected profiles (20) are joined together to form a self-supporting module that its surfaces (22) of at least one photovoltaic layer (34) superimposed are and store the foot profiles (26) on an insulating layer (50).

19. The apparatus according to claim 18, characterized by a module with PV cells (34), water connection (40) and insulation elements (50).

20. Device according to claim 18 or 19, characterized in that at least one of the end edges

(21) of the associated profiles (20) a pipe (40) is assigned approximately parallel and it is connected to the pipe elements (32), preferably radially from the pipe (40) projecting pipe pieces (36) at the other end in each case with a tubular element (32 ) of one of the profiles (20) are connected.

21. Device according to one of claims 18 to 20, characterized in that the pipeline (40) extends approximately at right angles to a roof surface (12) delimiting gutter (17).

22. Device according to one of claims 18 to 21, characterized by at least one further of

Description and / or the drawing removable feature.