DE19823356A1 - Roof tiles with fitting for solar panel - Google Patents

Abstract

The roof tile system for holding flat solar panels has adjacent roof tiles (2,6) with interlocking edges (3,8) which are bonded with a sealer to form a flat support for solar panels which are larger than a single roof tile. The support for the solar panel is bonded by upper and side edges. The adjacent interlocking edges are set lower than the conventional edges of roof tiles.

Description

The invention relates to a roof tile for Use of solar energy. If in the following is spoken of roof tiles, then closes this is protected by roof tiles from one Concrete material with a.

It is known to have roof tiles with one in it Molded hollow in the middle of the roof tile produce such that in this midfield  trough a plate-shaped solar module for Direct conversion of solar energy into electrical energy can be used (cf. DE 196 19 369 A1 of the applicant or DE 41 41 664 C1). The midfield trough of the roof tile is through on the ridge side a head rebate and one on the sides partly through a side rebate (water leading with side fold grooves open at the top) and on the other hand by a cover fold part (covering with the deck protruding downwards folded ribs) limited.

In the plate-shaped solar module, like her are commercially available today several solar cells into one mechanical Unit connected. The individual solar cells are electrically in series and / or connected in parallel with each other, so that Module a higher voltage than a single cell can deliver and / or a stronger one Can generate electricity. Depending on the embodiment of the solar module is the module surface Format reasons and because of the Distances between the individual solar cells not completely covered with solar cells. That is why the efficiency of a solar module by the extent of the land use less than that Efficiency of the solar cells. That makes up especially with small-format solar modules noticeable.  

The industry has therefore grown up specializes in formatted solar modules, which as Large area modules on an existing one Tile roof can be installed where they the Be however, an unsightly sight average. Try such large area modules instead of on the roof in a visually better Way to integrate into a tile roof are made with an alien carrier material (e.g. with a sheet metal one Carrier element for the large area module, see DE 296 01 715 U1), but could such alien support elements optically and not convince handcrafted, because a Tile roof alien, large format support element of the different interlocking tile constructions the roof tiles, which are smaller in size, are not suitable can be adjusted sufficiently precisely, especially since most roof tiles with moving tiles varying deck lengths. Out of it always results in an increased susceptibility to Leaks in the roof covering in the transition area between the support element of the solar module and the tiled roof itself, only with an expensive effort can be permanently avoided can.

The object of the invention is an essential less expensive solution for integration larger plate-shaped solar modules in one To find tiled roof that traditionally with Interlocking tiles are covered and where the  Area dimensions of the solar modules the normal Format of a roof tile without exceeding that it is therefore to the mentioned adaptation and Tightness problems of the roof covering can come.

This object is achieved according to the invention solved that (starting from a normal commercial roofing tile) of the sides Folded part and / or the top fold part of the roof brick in the area of the midfield trough lowered is shaped such that the means field recess of a first roof tile in the Midfield trough of an adjacent roof tile essentially with a plan extension over goes and that in that way from two or several roof tiles formed double format or multiple format field trough a plate-shaped solar module can be positioned whose outer dimensions correspond to the format of the Field trough are adapted.

The construction of a roof according to the invention brick enables the integration of larger ones Solar modules in larger fields Tile roofs without the proven interlocking changed the standard format roof tiles must be and without alien carrier elements of the solar module with the named Adaptation and tightness problems in the tile roof must be installed.  

It is a very significant cost advantage that the roof tiles according to the teaching of the invention on the existing manufacturing systems of the roof tile plants are produced can. No molding press, no drying frame, no firing cassette and no furnace be changed and no repositioning and stacking establishment of the existing production facilities must be converted to the invention To produce roof tiles. Only the press are against new molds with the Shape features of the roof tiles according to the invention exchange, in principle three new press shapes are sufficient to create a so-called left Brick, a right brick and a so-called named middle brick after the teaching of the Er to manufacture the invention. The left brick has in Comparison to the conventional design of a Roof tiles on his right side lowered cover fold part. The right brick has the lowered one on its left side Side fold part, and in the so-called means brick is both the side rebate part as well the cover fold part is lowered. From these three Type bricks can be made with little effort or adaptation work double-format or multi-format troughs for mounting correspondingly large solar modules in a brick integrate roof.  

A special tightness of the field trough against water entering the lowered fold parts of the roof tile as well as a better one and simplified laying of the invention Roof tiles on a pitched roof will look like Claim 2 of the present invention reached a tile element in which a finished left roof tile with a finished right roof tile factory mutually with their superimposed recessed folded parts are glued together such that as a finished building and laying a roof tile element with a double formatted field trough is formed by the Roofers in the usual way on the roof is relocated without worrying about it wrinkled alignment of the formation of the Must take care of the roof tile involved. At the same time, such a roof tile enables element also the factory assembly of the in the recessed solar module, if is not preferred, a solar roof with the roof tiles or roof tiles according to the invention assemble elements in two stages, d. H. only that Roof tile covering and then assembly of the solar modules in the recesses of the brick roofs.

In the same way, according to claim 3 of the present invention Roof tiles also become a roof tile element with a triple-format field trough  be glued together on the side, however such a tile element already Weight that a roofer doesn't more so is easy to handle.

For waterproof gluing of the lowered Folded parts of the roof tiles into a roof tile element of the type according to the invention a two-component adhesive based on epoxy resin well suited (e.g. Viscopox concrete and clay adhesive BTK-13 from Viscopox, D-46236 Bottrop).

The positioning and attachment of the solar modules in the recesses of the roof tiles or the roof tile elements can, for. B. according to the Teaching of patent application DE 196 19 369 A1 take place, the molding of fastening provides domes on the floor of the roof tile recesses, which also have through holes can be through which the conductor of the Solar module easily fed and removed can be.

In addition to the aforementioned attachment domes or for sole use is according to claim 4 of the present Er proposed in the bonding of the invention lowered folded parts of a roof tile element one or more holding devices to stick that into the field trough stretch and there for storm-proof attachment  serve the solar module. Such holding devices can e.g. B. clips from a not rusting spring steel sheet, and for that positionally accurate gluing (embedding) in the The glued seam of the lowered folded parts can comprehensive cover fold part also corresponding Have recesses.

Likewise, in the waterproof bonding superimposed lowered fold parts of a roof tile element according to the invention electrical Conductor to be glued in as electrical feed-through conductors on the field well side of the roof tile element with the underside of the Connect tile roofs, so that with a fiction according to roof tile element the outer and the Under-roof wiring in the field troughs mounted solar modules is easy.

Although in the above of a double format or multi-format trough of the invention according to roof tiles or roof tile elements ge it must be emphasized that the Due to the system, field troughs have a larger field area available for the inclusion of a solar module pose as it said doubling or Multiplication of the previously known midfield would correspond to the recess of a single brick. This therefore, because the lowered folded parts, about that the solar module extends for an additional use of space is available stand. The one consisting of individual solar cells  Solar module can therefore be used accordingly better use of space.

In practice, predominantly (currently too almost 90%) based on solar cells crystalline silicon, whose photovoltaic efficiency a maximum reached at about 25 ° C operating temperature and with increasing operating temperature falls off. This works for you Solar roof noticeable because of the operating temperatures of the solar modules in a field well he roof tiles or roof tiles according to the invention elements typically at 60 to 100 ° C lie.

To the operating temperatures of the roof solar modules to the optimal operating temperature the silicon solar cells proposed according to claim 6 of the invention, the depth of the hollow of the roof tiles or Roof tile elements and the mounting height of the solar module in the trough measure that below the solar module in the field trough a heat exchanger element position with a heat transfer fluid bar, the feed and discharge lines in the Top rabbet part of the roof tile or roof brick element are laid.

The heat exchanger element guides the heat build-up below the solar module as well as that of  semitransparent solar modules left energy shares of solar radiation and uses it additionally, but at the same time the solar module is cooled and thereby the solar cells in one company temperature range can work for you better photovoltaic efficiency ver speaks.

An exemplary embodiment follows the invention with reference to the drawing described. It shows:

Fig. 1 shows a perspective view of two roof tiles according to the invention with a double-format field trough.

A first roof tile 2 can be seen with the side rebate part 3 , with the top rebate part 4 and with a head rebate part 5 which is simplified in the illustration.

The second roof tile 6 with the side rebate part 7 , the top rebate part 8 and the top rebate part 9 is also designed accordingly.

Compared to a conventional double interlocking tiles known design of the invention in the illustrated left tile of Deckfalzteil 4 and in the illustrated right tile of the side part 3 are according to the teachings lowered formed, they ie are flattened and in its construction height lower performed such that the Trough 10 of the first roof tile, which is limited in the conventional roof tiles as a central trough part of the ridge-side top rabbet part 5 and the side rebate parts 3 and 4 , now passes into the trough 11 of the adjacent second roof tile essentially with a planar extension, so that a so named double-format field trough is formed, which is composed of the two troughs 10 and 11 plus the width of the flattened and lowered cover fold part 8 .

In this well, the solar module 12 is used in the embodiment presented.

Claims (6)

1. Roof tiles for using solar energy

• - With a recess molded into the central area of the surface of the roof tile, which is delimited on the ridge side by a top rebate part and on the sides by a side rebate part and a top rebate part of the roof tile
• and in which a plate-shaped solar module for direct conversion of solar energy into electrical energy can be positioned,

characterized by

• - That the side rebate part and / or the deck rebate part of the roof tile is formed in a lowered manner in the area of the central field recess in such a way that the central field recess ( 10 ) of a first roof tile ( 2 ) in the central field recess ( 11 ) of an adjacent roof tile ( 6 ) essentially with a planer Extension over goes
• - And that a plate-shaped solar module ( 12 ) can be positioned in the double-format or multiple-format field recess formed in this way from two or more roof tiles, the outer dimensions of which are adapted to the format of the field recess.

2. roof tile element according to claim 1, characterized in

• - That a first roof tile ( 2 ) with a lowered side rebate part ( 3 ) and a second roof tile ( 6 ) with an abge lowered top rebate part ( 8 ) is made
• - And that the superimposed lowered rabbet parts of the first and second roof tiles are glued together in a watertight manner such that a roof tile element is formed with a double-format field recess as a finished structural unit.

3. roof tile element according to claim 1, characterized in

• - That a first roof tile with a lowered side rebate part, a second roof tile with a lowered deck rebate part and a third roof tile with a lowered side rebate part and a lowered top rebate part is made
• - And that the superimposed lowered rabbet parts of the first, second and third roof tiles are glued together watertightly, that a roof tile element is formed with a triple-sized field recess as a finished structural unit.

4. roof tile element according to claim 2 or 3, characterized in

• - That one or more holding devices are glued into the waterproof gluing of the folded down parts from lowered, which extend into the recessed area and serve there for fastening the solar module.

5. tile element according to claim 2, 3 or 4, characterized in

• - That electrical conductors are glued into the watertight gluing of the folded-down folded parts, which, as electrical through conductors, connect the recessed side of the tile element to the underside of the tile element.

6. Roof tile according to claim 1 or roof tile element according to one of claims 2 to 5, characterized in

• - That the depth of the trough and the mounting height of the solar module in the trough 50 be measure that below the solar module in the trough, a heat exchanger element with a heat transfer fluid can be positioned, the feed and discharge lines in the head folded part of the roof tile or Roof tiles element are laid.