DE19603540A1 - Building roofing element mounted on roof structure - Google Patents

Abstract

At least one part-region (56) of the roofing element forms a solar cell (58), or is fitted with meandering pipe coils for a heatable medium. There are line terminals (60) for tapping of electric current generated by light and heat, or for the supply and discharge of the heated medium. Pref. the element is in the form of a roofing tile (52) with edge and deposition region (14, 16) adapted to the roof tile shape, with an electric line coupler (60) on its rear side, connectable to an electric cable harness (62).

Description

The invention relates to a roofing element. Dachein cover elements protect as a constructive part of a Roof of the interior of buildings against external weather rivers. The roof skin, the outer end of the roof forms, consists of a substructure from, for example se slats or other formwork on which the respective ge roof covering is attached. The roof covering can individual roof covering elements. The The type of roofing elements is determined, among other things, by the co-determined existing roof pitch. With relatively steep len roofs are those in the form of roof tiles Roof covering elements on horizontally laid battens stored. For this purpose, the roof tiles have corre sponding molded noses. For the safe drainage of rainwater They overlap in various forms the roof tiles scaly. Roofing elements can also asbestos cement panels, aluminum foam panels or the like Chen plates.

STATE OF THE ART

Known, by means of molded noses on a horizontal ver The roof tiles to be laid are made of solid mate rial such as slate, clay or concrete block known. Because of their different shape, in all Usually only the same type of tile for the roof covering a specific roof can be used.

To generate electricity or to heat water are solar known systems that are also used in the home  can find. The solar systems are above the existing ones NEN roof skin and thus above the example existing brick covering on its own substructure attached. The purchase of such solar systems too taking into account costs therefore not only include the mate rial price of the solar system but also its assembly costs. In addition, the necessary penetration of the subcon structure through the roof skin to tightness problem lead.

PRESENTATION OF THE INVENTION

Based on this prior art, the Invention based on the task of being as economical as possible Possibility of training solar systems on buildings to indicate roofs.

This invention is by the features of the main claim given. The invention is accordingly characterized from that the roof covering element in a partial area as Solar cell designed or meandering by one heatable medium provided with flowable pipelines is. The roof covering element is with corresponding Pipe or pipe connections equipped.

Such a roofing element has various purposes parts. In that the roofing element directly for the generation of electric current or for the production of warm water can be used is the assembly of at for example, solar cells or hot water treatment construction tion, in addition to the existing roof covering required. The cost reduction in terms of material Al and assembly effort is very significant. To be take into account that the manufacturing costs for the like roofing elements with high quantities of the same Items can be relatively low. Another advantage  it is easy to replace defective elements. In the case of photovoltaic use, the necessary Inverters either directly in the individual roof covering elements can be integrated, or together as a separate unit comprehensive for several roof covering elements on the front existing substructure of the roof skin, for example be increased.

If roof tiles are used as roofing elements the edge and support area is advantageous of the roofing tile as with known tiles usually trained. This allows such inventive Roofing tiles with those known in the prior art Roofing tiles seamlessly together on the same roof be relocated.

In the formation of the roofing element according to the invention as a solar cell can be on the back (bottom) the required line connection in the form of a connection box be led out. The connecting cable can then to elek trical distribution cables or busbars coupled be present on the substructure of the roof skin can be. The coupling can be a plug, screw, clamp or be a solder joint. Because there are only two conductors for each element are required as a connection, the assembly effort low.

When forming the roof covering element as, for example Water heating brick is in its middle part area in front of a meandering piping system act. This piping system has a lower and upper pipe connection. You can use these connections either several bricks laid in a row one above the other be connected. It would also be possible to have one to place individual bricks on a pipeline conclude. This will then heat up through this pipe system de medium such as B. passed the water.  

The hot water preparation brick or other accordingly trained roofing elements preferably have a translucent cover to cool the mäan prevent such pipe systems. The gap between the meandering pipe system and the cover may be flooded with dry gas to cause condensation to prevent.

Further configurations and advantages of the invention result themselves by the features specified in the claims as well as by the following exemplary embodiments.

BRIEF DESCRIPTION OF THE DRAWING

The invention is described below with reference to the drawing illustrated embodiments described and he purifies. Show it:

Fig. 1 is a top perspective view of Warmwasseraufbe reitungs brick according to the invention,

Fig. 2 is a top perspective view of solar tiles according to the invention and

Fig. 3 is a bottom view of a solar tile in FIG. 2.

WAYS OF CARRYING OUT THE INVENTION

On the horizontally laid battens of a roof structure, of which a lath 10 is shown in the drawing in FIG. 1, bricks 12 are laid side by side and one above the other in a usual manner. For this purpose, these bricks 12 have a nose, not shown, with which they attach to the horizontally laid slats 10 . The bricks 12 overlap in the lateral direction, for which purpose they have a corresponding groove-like right or left edge formation 14 , 16 .

In addition, the respective upper brick 12 has a lower edge region 18 on the lower brick 12 positioned below it. This laying technique is common for bricks my usual and is used for the watertight formation of the roof skin formed by the brick 12 . The overlapping of bricks in the horizontal and vertical direction is known. The bricks have a corresponding shape. Due to the large number of existing brick types, only bricks of the same type can generally be laid together.

In the brick 12 shown in Fig. 1, the edge formation 14 , 16 and the lower and upper edge regions 18 , 20 are formed such that they can also be laid in a horizontal and vertical manner in a scaled manner one above the other. The edge designs 14 , 16 , 18 , 20 can also be shaped so that they also fit certain bricks known in the prior art.

In the central area 22 there is a configuration which deviates from the usual, known shape. In this area 22 , the brick 12 has a meandering pipeline 24 . The pipeline 24 ends in the lower edge region 18 in a pipe socket 26 . In a corresponding manner, the pipe line 24 ends 28 in the upper edge region 20 in an open pipe. 28 An approximately horizontally laid supply line 30 can be connected to the pipe socket 26 . The connection can be made via a rubber adapter 32 , for example, which ensures the line connection between the lines 30 and 24 , 26 . But it is also possible to connect to the lower pipe 26, the upper pipe socket 28 of an undersigned further brick 12 . The same applies to the upper pipe socket 28 of the brick 12 shown in FIG. 1. The lower pipe socket 26 of an overlying brick could be connected to this upper pipe socket 28 . In this way, it is possible to connect either individual bricks or any number of bricks laid one above the other to a feed line 30 and to a discharge line (not shown in the drawing). At the feed line 30 and derivative several of the brick 12 or brick columns lying horizontally next to each other can then be connected.

A medium to be heated, such as water, flows through the piping system. As a result of solar radiation, this water is heated in the area of the pipeline 24 . The warm water then flows upwards and via the drain to the consumer.

In the central area 22 , the pipeline 24 is closed by a translucent cover 34 . The cover 34 serves as a certain thermal protection and prevents the pipeline 24 from cooling down excessively. To prevent condensation forming below the cover 34 , the space there can be filled with a dehumidified gas. Dry air or nitrogen or another dehumidified gas can be used as the gas.

In Fig. 2 tiles 52 are shown, which are formed as solar tile. The outer contour of this solar brick 52 corresponds to the brick 12 shown in FIG. 1. Thus, the solar tiles 52 have a corresponding lateral edge formation 14 , 16 and lower and upper edge formation 18 , 20th About a nose 54 ( Fig. 3), which is not only rich in the central area but in the present case also in a Seitenbe, these bricks 52 can be moved in the same way as the bricks 12 on horizontally laid slats 10 appendant. The bricks 52 also overlap like a scoop in both the horizontal and vertical directions.

The central region 56 of the bricks 52 is designed as a solar element 58 . The solar element 58 is to be connected via an electrical connection cable 60 to an electrical distribution network, which in the present case has a flat cable 62 . Such a flat cable 62 is placed on the crossbar 10 , on which the brick 52 in question rests. The electrical line connection between the connecting cable 60 and the flat cable 62 takes place via a connecting part 64 , which can be attached to the flat cable 62 at any point. The respective connection cable 60 can then be plugged into the connection part 64 . The production of the Lei line connection between the connecting cable 60 and the flat cable 62 can also be accomplished via a screw connection, jamming or via a soldered connection. Since the electrical connection consists of only two conductors, the wiring that is still required after laying the brick is low.

Instead of the bricks described above, the Roofing elements also made of asbestos cement panels or other plates exist. The important thing is that for Hal len- or house coverings used individual fiction moderate roof covering element designed as a solar element is that it is seamless in the existing umbrella organization lets insert. Any additional roofing elements elements are not required.

Claims (6)

1. Roofing element for sealing buildings, which is designed for bearing on the roof structure of the building, characterized in that

• - At least one partial area ( 22 , 56 ) is designed as a solar cell ( 58 ) or is seen with meandering pipes ( 24 ) through which a heatable medium can flow,
• - Line connections ( 26 , 28 , 60 ) for discharging the electrical current generated by light / heat or for supplying and discharging the medium heated by light / heat are present.

2. Roofing element according to claim 1, characterized in that

• - The element as a roofing tile ( 12 , 52 ) is formed, with the tile shape adapted training in the edge and support area ( 14 , 16 , 18 , 20 ).

3. Roofing element according to claim 2, characterized in that

• - An electrical line connection ( 60 ) is provided on its rear side.

4. Roofing element according to claim 3, characterized in that

• - The line connection ( 60 ) to an electrical wiring development ( 62 ) can be connected.

5. Roofing element according to claim 2, characterized in that

• - A pipe connection ( 26 , 28 ) is provided in its lower and in its upper area ( 18 , 20 ),
• a meandering pipe ( 24 ) is present between these two pipe connections ( 26 , 28 ),
• - The pipeline claims ( 26 , 28 ) are designed so that in series one behind the other such Dachein cover elements ( 12 ) are flowable from the heatable medium.

6. Roofing element according to claim 5, characterized in that

• - The lower pipe end ( 26 ) to a feed line ( 30 ) and the upper pipe end ( 28 ) to a derivative can be closed.