SE526591C2 - Roof structure with means for transporting an energy storage medium and an insulation layer - Google Patents

Abstract

A roof design has an external sheet covering ( 1 ), an insulating layer ( 3 ) provided beneath the sheet covering ( 1 ) and a load carrying structure ( 10 ) that supports the insulating layer ( 3 ). It is significant of the roof design that elements ( 7 ) for transporting an energy absorbing medium is provided in the insulating layer ( 3 ).

Description

BRIEF DESCRIPTION OF THE DRAWINGS Hereinafter, preferred embodiments of the invention will be described with reference to the accompanying drawings, in which: Fig. 1 shows a section in the direction of the roof pitch through a preferred embodiment of an outer roof structure according to the present invention; Fig. 2 shows an enlarged detail of a part of the section according to Fig. 1; Fig. 3 shows a schematic plan view of the roof structure according to Fig. 1, wherein a part of the outer shell layer has been removed for reasons of clarity; Fig. 4 shows a section after IV-IV in Fig. 3; Fig. 4A shows a corresponding section as in Fig. 4 of an alternative embodiment; schematically shows a section, the roof slope, through a further embodiment of a Fig. 5 in a direction transverse roof structure according to the present invention, the shell layer and the insulating layer being slightly separated; and Fig. 6 schematically shows a section, in a direction transverse to the roof slope, through a further embodiment of an outer roof construction according to the present invention, wherein the shell layer and the insulating layer are slightly separated.

Detailed Description of Preferred Embodiments of the Invention The embodiment of a roof structure according to the present invention shown in Figs. 1-4 comprises an outer shell layer 1, which may for example consist of sections of sheet metal which are joined together so that there is an overlap between adjacent sections. In the embodiment according to Figs. 1-4, the shell layer 1 consists of a sheet metal which has been imparted with a brick pattern.

The shell layer 1 is supported by an insulating layer 3, which preferably consists of a self-supporting foam. In this case, the side of the insulating layer 3 facing the shell layer 1 526 591 3 has been given a shape adapted to the shell layer 1. Since the shell layer 1 has a brick pattern, the side of the insulation layer 3 facing the shell layer 1 has a shape with valleys and ridges which means that the shell layer 1 abuts against the insulation layer 3.

As can be seen from Fig. 4, the insulating layer 3 is made of prefabricated elements 5, which are joined together by cooperating connecting means along the edges of the elements 5. When the prefabricated elements 5 are correctly joined, they form a coherent substrate on which sections of sheet metal can be applied and joined together to form the shell layer 1.

When joining the elements 5 included in the insulating layer 3, a continuous groove 9 is also formed.

As is clearest from Figs. 3 and 4, a flexible hose 7 is embedded in the insulating layer 3, the insulating layer 3 for that purpose having the continuous groove 9, which in the embodiment shown has straight portions which are connected by means of U-shaped portions. This track configuration is of course only an example of a number of different possible variants. In general, however, the groove configuration should be such that the hose 7 / groove 9 has a stretch over the greater part of the surface of the insulating layer 3 facing the shell layer 1. The hose 7 can for instance consist of a frost-resistant elastomer. In the groove configuration shown in Figs. 3 and 4, the groove 9 is located in the valleys of the insulating layer 3.

The hose 7 can now be mounted in the continuous groove 9, whereby it is an advantage if the hose 7 protrudes slightly above the insulating layer 3. When the shell layer 1 is mounted on top of the insulating layer 3, a perfect contact is made between the hose 7 and the shell layer 1, which promotes energy exchange.

Fig. 3 shows schematically, by means of the arrows P1 and P2, how an energy storage medium is supplied at one end of the hose 7 and is removed at the other end of the hose 7. The energy storage medium preferably consists of a liquid, whereby a frost protection agent can be added if necessary. The energy storage medium is preferably collected in an accumulator tank (not shown), which means that the energy extracted during the day can be used at night. 526 591 4 As can be seen most clearly from Figs. 1 and 2, the insulating layer 3 is supported by a supporting structure 10, which in the embodiment shown consists of sheet piles. The shell layer 1 and the insulating layer 3 are anchored in the supporting structure 10 by means of through-going screws 15, which extend through the shell layer 1 and the insulating layer 3 and when entering the supporting structure 10.

The roof structure according to the present invention also comprises means for circulating a liquid in the hose 7, whereby this can be done by means of a pump. When a relatively large amount of water can be caused to circulate through the hose 7, the energy taken, preferably in combination with an accumulator tank, can be used for heating tap water and / or for underfloor heating. Of course, an accumulator tank is not necessary, but the hose can be directly included in a heat exchanger system.

Fig. 4A shows a corresponding section as in Fig. 4 of an alternative embodiment of a roof structure according to the present invention. The principal difference with the roof according to 4A, compared with the roof according to Fig. 4, is that the hose 107 / groove 109 are located on the axes of the insulating layer 103.

This means that contact between the hose 107 and the shell layer 101 takes place at the highest points of the shell layer 101.

Figures 5 and 6 show further examples of how a shell layer included in the roof structure according to the present invention can be formed. In this case, the insulating layer included in the roof structure has been given a shape adapted to the shell layer. In Figs. 5 and 6, the groove for the hose is arranged in the axes of the insulating layer.

In summary, the roof structure according to the present invention thus offers a stable, insulating base for virtually all types of thin roofs, regardless of whether these are flat or profiled. With regard to the material in the shell layer, reference is made to what is said under the heading Possible modifications of the invention.

The roof structure according to the present invention also has a groove arranged in the insulating layer, in which a hose is accommodated, thereby enabling uptake and distribution of solar energy. 526 591 Possible modifications of the invention In the embodiments described above, the shell layer is 1; 101 preferably made of sheet metal. However, within the scope of the present invention, it is also conceivable that the shell layer is made of other materials, whereby plastic can be mentioned for exemplary and non-limiting purposes.

In the above-described embodiment according to Figs. 1-2, the supporting structure 10 consists of sheet piles. However, within the scope of the present invention, other types of supporting structures are also conceivable, in which case sparse boards or plywood can be mentioned for exemplary and non-limiting purposes.

In the embodiments described above, the energy storage medium is a liquid. However, within the scope of the present invention, other energy-storing media are also conceivable, air being mentioned by way of example and non-limiting purpose.

Claims (4)

10 20 25 30 526 591 Patent claims Exterior roof construction comprising an outer shell layer (1: 101), insulating layer (3; a 103 arranged below the shell layer) and a supporting structure (10; 110) the insulating layer (3; 103), and that in the insulating layer (3; 103) are applied means (7; 107) for transporting an energy storage medium, characterized in that the outer shell layer (1; 101) is profiled, that the surface of the insulating layer (3; 103) facing the shell layer (1: 101) has another the shell layer (1: the shell layer 101) adapted shape, that (1; 101) abuts closely against the insulating layer (3; 103), that the means for transporting an energy storage medium consists of a flexible hose (7; 107), that the insulating layer (3; 103) is provided with a groove (9) for receiving the flexible hose (7; 107), and that the flexible hose (7; 107) protrudes above the insulating layer (3; 103) before the shell layer (1; 101) comes to close abutment against the insulating layer (3; 103). Exterior roof construction according to claim 1, characterized in that the groove (9) is continuous and comprises in plan view straight sections and curved sections. claim 1 or 2, the shell layer (1; 101) has 3. Roof roof construction according to the knowledge of that brick pattern. Roof roof construction according to one of Claims 1 to 3, characterized in that self-supporting foam (3; 103). the insulating layer consists of one which supports,