DE102011052212A1 - Roof covering has solar roof tile whose height and width of is corresponded with height and width of system roof tile - Google Patents

Abstract

The roof covering has a ventilation duct is provided between support bars (3) below a solar module (8), with inlet and outlet openings. A solar roof tile made of a flame-retardant plastic e.g. aluminum trihydrate, polyester or phenolic resin having a density of 1.6 g/cm 3>is combined in the solar module. The height and width of a solar roof tile (1) is corresponded with the height and width of the system roof tile. The top and the peripheral edges of the solar roof tile are provided with UV-resistant moisture coating.

Description

The invention relates to a roof covering and a usable in such a roofing solar roof tile.

Roofing stones are known in different materials, such as plastic, clay or concrete. They are sometimes referred to as roof tiles and overlap each other in what is also called "roof tile-like", typical for roof tiles, so that a plurality of such roof tiles form a closed roof skin, which is tight against precipitation, such as rain, snow o. The like , In this case, many different forms of roof tiles are known from practice, so that the roof tiles that can be laid together in the manner described to create the precipitation-proof roof skin, referred to as a so-called system roof tiles.

If a rooftop-roofed roof is to be provided with solar modules, especially with photovoltaic modules, the modules are often mounted elevated, so at a distance from the actual roof skin, which leads to a good ventilation of the modules and thus their performance even in summer Weather conditions ensures. Namely, as the temperature increases, the efficiency of the photovoltaic modules decreases, so that they should advantageously be back-ventilated and thus cooled in order to obtain the highest possible efficiencies.

However, the opening of the roof skin is problematic in terms of the desired tightness of the roof skin. In addition, in many cases, there are requirements of conservation authorities to affect the original appearance of a listed building as little as possible. The elevated mounted solar modules, which protrude significantly beyond the actual roof skin, in many cases, not alone due to these requirements can not be approved.

Furthermore, it is known to integrate solar modules flush in the roof, for example to mount the solar modules in place of roof tiles. Apart from the associated problematic, the solar modules systemically close to the other tiles, the problem arises that these solar modules are then not ventilated, so that their efficiency is impaired especially in the season, which has the most hours of sunshine.

The invention has for its object to provide a roof covering, which ensures the maintenance of the tightness of the roof over a long time and the highest possible efficiency of the solar modules in equipping a roof with solar modules, especially with photovoltaic modules and allows for rapid installation.

This object is achieved by a roof covering with the features of claim 1. Advantageous embodiments of the thereby usable solar roof tile are described in claims 3 to 12.

In other words, the invention proposes to make the roof tile itself support webs, on which then the solar module is mounted. An elevation, which penetrates the roof skin and thus causes potential leaks, is avoided in this way. In addition, the solar module can be arranged optimally flat on the roof skin, so that no aesthetically disadvantageous supernatant is effected. In particular, in the proposed Dachstein be provided to make the Dachstein even including its support bars so flat, for example, flatter than surrounding, system-identical roof tiles, so that the resting on the support bars solar module total results in a height of the proposed Dachstein, which does not exceed the height of the rest projecting roof tiles, so that with the help of the proposed roof tiles, a solar module flush with the rest of the roof can be integrated.

The fact that instead of a flat support of the solar module on a tile only the support of the solar module is carried out on the support webs, proper ventilation ducts can be created between the support webs, which is also provided as proposed. The ventilation channels not only allow air circulation within a closed air space below the solar modules, but also have the inlet openings and outlet openings, which allow a fresh air flow below the solar module.

The solar roof tile of the roof covering consists of a polyester or phenolic resin-based plastic flame-retardant with additives having a density of at least 1.6 g / cm ³ . The material used results in a good dimensional stability of the solar roof tile, for example, in contrast to thermoplastics, and a sufficiently high weight, so that the solar roof tile can be referred to as self-lying, since it requires no additional screwing or similar attachment to the roof. Thus, a violation of any provided under the roofing film can be excluded. In addition, a fast and uncomplicated and therefore economical installation of the solar roof tile and ultimately the entire roofing supported. The security level of the roofing, whose system roof tiles consist of typically non-combustible materials such as clay or concrete, is still high due to the flame-retardant design of the plastic roof tile.

The fact that the solar roof tile is made of plastic, first, a weather-resistant and dense design of the solar roof tile is possible. Secondly, a particularly flat construction of the solar roof tile is possible without it being unduly brittle-sensitive or brittle, as might be the case, for example, with correspondingly flat-shaped large-scale roofing bricks made from mineral building materials. Because of the proposed use solar roof tile is advantageously larger than the system equivalent so-called system roof tiles that are designed without a solar module and designed as a normal "roof tiles", so that a proposed solar roof tile, for example, can have the height of two to four conventional roof tiles and the Width of four or five roof tiles, depending on the design of the solar modules. In any case, the proposed Dachstein advantageous both in terms of its height and its width dimensions corresponding to an integer multiple of the corresponding height or width of a system Dachstein. This is economically advantageous in that solar modules are usually produced in accordance with large-scale dimensions, and the cost of the electrical installation is reduced, if correspondingly less and for larger-scale solar modules are joined together.

The proposed roofing has the roof tiles described, which are provided with solar modules or can be equipped with solar modules, but it also has the other roof tiles, which are referred to as so-called system roof tiles. The system is that the roof tiles can be laid together by their shape and dimensions to create the rainproof roofing. Thus, there is a so-called Verlegemaß such. As the laying width of the roof tiles, which is determined on the one hand by the actual size of the individual Dachstein, on the other hand, however, by the overlap with a neighboring Dachstein.

Within this system, a solar roof tile is sized so that its height and / or width corresponds to the laying height or laying width of two or more of the laid system roof tiles, so that the solar roof tile accordingly uses instead of a number of system roof tiles in the roofing can be. The system roof tiles thus provide a grid dimension, which determines the dimensions of the solar roof tile, so that it can be installed without adjustment work together with system roof tiles, for example, without having to change the height and / or the width of the solar roof tile or adjacent system roof tiles , The grid dimension of the system roof tiles thus represents a first boundary condition for the dimensions of a solar roof tile within this system. In this case, the width of the solar roof tile does not exceed the laying width of five system roof tiles, so that a high mechanical stability of the solar roof tile is ensured.

A second boundary condition for the dimensions of the solar roof tile is the dimensions of commercially available solar cells: several solar cells are always combined to form a solar module, with distances between adjacent solar cells and with an outer edge surrounding all the solar cells, so that the height and width of the solar module within are determined by predetermined grid dimensions. Certain module sizes are typical and commercially available. According to the proposal, it is provided that the solar roof tile is dimensioned so large that it can accommodate such a commercially available solar module. The provision of a solar module specially made for the solar roof tile is therefore not required, so that the proposed roofing is produced as economically as possible, since no uneconomically expensive special modules for solar roof tiles are required.

According to the proposal, finally, it is also provided that at least the top and the peripheral edges of the solar roof tile - so the surface portions that are exposed to sunlight and not covered by the solar module - are provided with a surface coating that is designed as UV-resistant moisture protection. Thus, the solar roof tiles made of plastic are protected against the effects of weather and therefore durable.

Advantageously, it can be provided that the surfaces of the system-like roof tiles, so the already mentioned system roof tiles, define an outer or upper level of the roof, which should not be exceeded by the roofing, be it for aesthetic reasons or resting on the solar roof tiles Protect solar modules well against uplifting wind forces. Therefore, it can be advantageously provided that the components of the solar roof tile including the solar module are arranged in this outer plane or lower.

Advantageously, it can be provided that the solar module rests with at most 20% of its surface, advantageously even only about 10% of its surface on the support webs, so that the remaining surface of the solar module can be cooled and thus enables a particularly intensive and effective cooling effect for the solar module becomes.

Advantageously, the inlet openings are arranged below the outlet openings, so that sets due to a natural thermal optimally effective cooling air flow below the solar module, without the need for further measures, especially complex technical equipment such as blowers o. The like. Are required.

Advantageously, the solar module can be glued to the support webs of the solar roof tile. In this way, on the one hand, a reliable connection is created because certified adhesives can be used for the corresponding requirements, and it is possible with appropriate dimensions of the solar modules optimal utilization of the surface of the solar roof tile by the solar module, without at the edge of the solar module brackets or other Retaining elements would have to be attached. In addition, the bonding of the solar module can be done with the Dachstein factory, so under controlled and as constant as possible, optimized for the bonding conditions. The activities to be performed on the roof itself and accordingly dangerous activities can therefore be limited to the lowest possible level, which reduces, for example, accident hazards.

The support webs can for example be arranged so that they form parallel, so-called side bars, which extend in accordance with the roof pitch from top to bottom and that they form an upper crosspiece, which has to create the corresponding ventilation channels, recesses, which are used as outlet openings of these Serve ventilation ducts. At the lower end of the ventilation duct can advantageously have the largest possible free cross-section, so that in the ventilation duct penetrated precipitation and possibly carried by the precipitation contaminants can run optimally free down and do not lead to blockages of the ventilation duct, which then later the desired ventilation of the Could affect solar module.

The bearing power of the solar roof tile on the roof truss can be increased by weighting the solar roof tile with the help of a ballast weight. In this case, the weight may be set such that the total weight of the existing plastic and provided with a solar module solar roofing stone has approximately the same weight as a corresponding number of system-identical roof tiles that are not provided with a solar module. For example, during storms, therefore, the tightness of the entire roof skin is not compromised by the fact that the lighter compared to the other system roof tiles solar roof tiles can be lifted from the rest of the roof skin.

The ballast weight can also, as the solar module, be glued to the solar roof tile. Corresponding adhesives with reliable durability are customary in practice and this bonding eliminates the need to assemble the ballast weight, which would otherwise possibly require penetration of the solar roof tile made of plastic, for example if the ballast weight were screwed to the solar roof tile, so that a violation of the Roof skin can be avoided.

Embodiments of the invention will be explained in more detail with reference to the purely schematic representations. It shows

1 a first embodiment of a Dachstein in an exploded view,

2 the Dachstein of 1 in a fully assembled arrangement, the

3 u. 4 Views on the completely assembled Dachstein 2 , in contrast, on a larger scale,

5 - 8th Views similar to those 1 - 4 , but for a second embodiment of a Dachstein, and

9 a roof covering using a solar roofing tile provided in the roofing.

In the drawings is with 1 always referred to a total of a solar roof tile, which is designed as a comparatively shallow tray, a continuous floor surface 2 has, of which several support webs 3 extend as so-called lateral webs, wherein in the laying direction, according to the roof pitch of a roof, another, transverse support web 4 is intended as a so-called crosspiece.

On the left side is the solar roof tile 1 comparatively flat, and on the right is the solar roof tile 1 designed higher, namely about hood-like, so he with this high right overlap edge 5 a flat overlap edge 6 , namely on the left lateral area of an adjacent system equivalent Solar roof tile 1 or a system-like Dachstein without solar module overlap.

The lateral webs 3 Close with their upper ends to the crossbar 4 but end up free at their lower ends insofar as they are not interconnected there. Between each two adjacent lateral support webs 3 has the upper crosspiece 4 recesses 7 on.

The space between two adjacent lateral support webs 3 represents a ventilation duct, which for the ventilation of one of the support webs 3 Overlying solar module 8th by means of a chimney effect, with incoming air from below between two lateral webs 3 under the solar module 8th so that the entire cross-sectional area between two lateral webs 3 serves as an inlet opening for this ventilation duct. If the solar module is dimensioned so large that it is also on the upper cross bar 4 rests, make the recesses 7 at the upper end of this ventilation duct as outlet openings ensure that the fresh air flowed in downwards can flow upwards and thus enable effective heat transport.

In the ventilation channel shown on the right is in addition to the recesses 7 another cable outlet 9 provided by which connection cable 10 of the solar module 8th led to the outside to the electrical installation of the solar roof tile 1 provided solar module 8th to enable.

Precipitation reaches from the top, ie from the outside, against the crossbar 4 running sideways and then flow outside the ventilation channels laterally on the two outer lateral support webs 3 down to the bottom. Should rainfall through the recesses 7 enter the ventilation channels, so they can flow down unhindered.

Below the solar roof tile 1 is a ballast weight 11 provided with the flat bottom of the solar roof tile 1 can be glued.

Out 4 it can be seen that the solar roof tile 1 with a comparatively small solar module 8th equipped in the illustrated embodiment, which is indeed on the support webs 3 , so supported on the lateral support webs, but not on the upper crosspiece 4 , This can be economically advantageous if, on the one hand, the solar roof tile 1 must be adapted to a certain grid size of a given Dachsteintyps to be able to be easily installed in conjunction with system-like roof tiles smaller dimensions, and if not adapted to this special Dachstein size solar module 8th is to be produced, but if commercially available and accordingly produced in larger quantities and economically available solar modules 8th Use should find that then, for example, not the maximum possible height, the one on this solar roof tile 1 could have deployable solar module. In addition, the optimally large cross section of the upper outlet openings of the ventilation channels is the best possible cooling effect for the solar module 8th ensured.

Also in this arrangement, with a correspondingly small solar module 8th , incoming precipitation, which is above the solar module 8th enters the ventilation duct, optimally flow down, because the inlet opening of the ventilation duct always has an optimally wide cross section, which is free of constrictions or similar locations where precipitation and contaminants entrained by them could get stuck.

In the embodiment of the 5 to 8th are for comparable components or areas of the solar roof tile 1 Comparable reference numerals have been used as for the first embodiment, even if the solar roof tile 1 should be slightly different designed.

In essence, this second solar roof tile differs 1 from the first solar roof tile 1 of the 1 to 4 in two ways: on the one hand is at the upper end of the lateral support webs 3 one stop edge each 12 provided which the orientation of the solar module 8th facilitated during assembly, and whereby it is accordingly provided that a solar module 8th not up to the rear crossbar 4 extends, but only on the lateral support webs 3 rests so that, accordingly, the ventilated surface of the solar module 8th is held optimally large, since accordingly the surface of the solar module 8th is minimized, similar to the solar module 8th in 4 of the first embodiment.

Secondly, it is provided at the lower end of the ventilation channel that the inlet opening for the fresh air does not take place over the entire free channel cross section, but here is an approximately wave-shaped configuration of the solar roof tile 1 provided, in adaptation to the same system smaller roof tiles that are free of solar modules, so that the most homogeneous appearance of the entire roof skin is achieved when, from a lower position, for example, on a road or a walkway, is looked up against the roof.

6 shows that the solar module 8th With its lower edge in front of this undulating structure, it does not hit the height of the solar roof tiles like an elevated solar module 1 protrudes, so that in any case an integrated into the roof skin arrangement of the solar module 8th is possible.

9 shows a section of a roof covering, which has several rows of roof tiles arranged one above the other 14 having. Four solar roof tiles 1 are of system-like Dachsteinen 14 surrounded, which no solar modules 8th have and each have smaller dimensions than a solar roof tile 1 , The system-like roof tiles 14 have a wavy surface, with the peaks defining the outer or top plane of the roof skin. The components of solar roof tiles 1 including the solar module 8th are so deeply arranged, the solar roof tiles 1 So overall designed so flat that all components of a solar roof tile 1 not on the height of the wave crests of adjacent system-like roof tiles 14 protrude, which are in the same row. Rather, even the highest components of a solar roof tile 1 in this outer plane, ie at the height of the wave mountains, or arranged deeper.

Claims (12)

Roofing, with a variety of so-called system roof tiles ( 14 ), each having a substantially rectangular contour, with edges corresponding to the intended laying of the roof tile as upper, side and bottom edges, all four edges are formed as overlapping edges, a rainproof connection to adjacent system roof tiles ( 14 ), which reach over or under the Dachstein, and with at least one so-called solar roof tile ( 1 ), which has the following features: the solar roof tile ( 1 ) has support bars ( 3 . 4 ) on which at least one solar module ( 8th ), • between the supports ( 3 . 4 ) and below the solar module ( 8th ) runs at least one ventilation duct, with inlet and outlet openings which a fresh air flow below the solar module ( 8th ), • the solar roof tile ( 1 ) consists of a polyester or phenolic resin-based plastic flame-retardant with additives having a density of at least 1.6 g / cm ³ , • the size of the solar roof tile ( 1 ) is adapted to the dimensions of commercially available solar cells that belong to several in the solar module ( 8th ) are summarized, whereby the dimensions result from the number of on the Dachstein ( 1 ) provided solar cells, as well as the provided between two solar cells distance measure, as well as around the entirety of the solar cell peripheral edge, • the size of the solar roof tile ( 1 ) is adapted to the dimensions of the other system roof tiles ( 14 ), the height of the solar roof tile ( 1 ) the height of a system roof tile ( 14 ), and the width of the solar roof tile ( 1 ) at least the width of a system roof tile ( 14 ) and at most the laying width of five system roof tiles ( 14 ), at least the top and the peripheral edges of the solar roof tile ( 1 ) are provided with a surface coating which is designed as UV-resistant moisture protection. Roofing according to claim 1, characterized in that the surfaces of the system-like roof tiles ( 14 ) define an outer or upper level of the roof skin, and the components of the solar roof tile ( 1 ) including the solar module ( 8th ) are arranged in this outer plane or lower. Solar roof tile of a roof covering according to claim 1 or 2, characterized in that the solar module ( 8th ) with not more than 20% of its area on the support webs ( 3 . 4 ) rests. Solar roof tile according to claim 3, characterized in that inlet openings are arranged below the outlet openings. Solar roof tile according to claim 3 or 4, characterized in that the solar module ( 8th ) with the support webs ( 3 . 4 ) is glued. Solar roof tile according to one of claims 3 to 5, characterized in that the surface of the solar roof tile ( 1 ) Wavy. Solar roof tile according to claim 6, characterized in that the solar module ( 8th ) rests on a wave crest and is fixed there by means of a Kleberaupe. Solar roof tile according to claim 6 or 7, characterized in that in the material of the solar roof tile ( 1 ) runs in a wave mountain a cable channel. Solar roof tile according to one of claims 3 to 8, characterized in that the Support webs ( 3 . 4 ) parallel side bars ( 3 ) and an upper crosspiece ( 4 ), wherein the crosspiece ( 4 ) as outlet openings of the ventilation channels serving recesses ( 7 ) having. Solar roof tile according to one of claims 3 to 9, characterized in that below the support webs ( 3 . 4 ) a ballast weight ( 11 ) is provided. Solar roof tile according to claim 10, characterized in that the ballast weight ( 11 ) with the remaining Dachstein ( 1 ) is glued. Solar roof tile according to one of claims 3 to 11, characterized by aluminum trihydrate as a flameproofing additive in the polyester or phenolic resin material.

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