DE19521098A1 - Roof tile with photoelectric cells or solar tile - Google Patents

Abstract

The solar tile consists of photoelectric cells (1), surrounded by a frame (2) with two hollow profiled sections (3) supporting the length of the tile and acting as spacers. The solar tile lies with these profiled sections placed directly and loosely on the roof battens, but held by the hooks (8). The solar tiles are placed side by side and overlap at the side edges (4), and the edges on the left have vertical walls pointing upwards, while those on the right have vertical walls pointing downwards, parallel to the edge and forming channels so that adjacent tiles can locate in one another on both sides. The top edges (5) are blocked off to stop water running down them.

Description

The invention relates to a roof covering for a sloping roof consisting of a variety of itself overlapping and on a sub-roof construction roofing elements such as roof tiles and more adjacent components with photoelectric Cells immediately loose on the sub-roof structure lie on. These components are as follows Called "solar brick". Each solar brick has one rectangular enclosing the photoelectric cells Frame on.

It is known to use so-called solar on roofs of buildings generators for converting solar energy into electri current using solar cells, such as photoelectric Cells are also referred to attach. This solar charge Solar modules, solar panels or Called solar cell panels. They consist of a multitude of electrically interconnected photoelectric Cells. For secure attachment of the photoelectric Cells on sloping roofs are a supporting structure required. The invention relates in particular to a new and advantageous support structure.

A variety of solar bricks, i.e. components with fo toelectric cells, is known. It is here on the German utility model DE 91 14 949 U1, DE 82 12 100 U1, DE 92 01 273 U1, DE 92 09 228 and the German Offen reference DE 42 32 368 A1.  

There are a number of requirements for solar tiles posed, usually from the holding frame, which is also a cover frame is called, must be met. In addition to egg ner simple, quick installation option, one A man assembly is preferred, and a water and windproof and secure fastening on the inclined Roof are in particular a very good cooling of the fo toelectric cells as well as low cost significant. The Cooling is especially important on hot summer days because too much heating of the photoelectric cells leads to their destruction. The cost is both at the Manufacturing as well as disposal after the end of the To keep the service life as short as possible.

These requirements, and in particular the good cooling options speed as well as the low manufacturing and disposal of the currently known covers not satisfactorily fulfilled at the same time.

So occurs in the known from DE 42 32 368 A1 cover frame due to its angled shape a water backlog in the upper area of each cover frame. The bends Although the air is obviously used to cool the air improve, but due to the angled shape of the decking frame The heated air accumulates in the upper area of the Cover frame and can not be fast on the desired Way to be dissipated. In this state of the art nik are the roofing frames with each other and with the Roof battens connected by folds, several for assembly Require people and thus the desired one-man mon do not allow days.

In the be from DE 82 12 100 U1 and DE 92 09 228 U1 Known solar tiles face the problem of water congestion not on every solar tile, because here the solar tiles are on their edges overlap like scales and otherwise one form a substantially flat surface. The one from DE 82 12 However, 100 U1 known solar tiles lead to high ones  Disposal costs because the semiconductor photo elements in one frames made of polymer concrete are embedded. Per Problems also arise when cooling the photoelectric Elements based on the elements in this prior art on a cover plate made of concrete and glass lying, which dissipate the heat generated only slowly be able to.

This cooling problem occurs with that in DE 92 09 228 U1 described solar tiles not to this extent. Here is essentially the entire bottom of the fo toelectric cells for between the solar tiles and free air flowing along the roof structure accessible. The frame holding the solar cell array but consists of a lower and an upper frame part that are made of plastic and ver are screwed. This consists of several materials In addition to an increased manufacturing effort, the frame causes also increased disposal costs. By free accessible underside of the solar cells is the Cooling compared to the last-mentioned state of the art improved, but the holding frame is directly on the Cross battens of the sub-roof construction, so that the for Cooling air under these crossbars and thus through a gap with the thickness of the longitudinal slat must flow. On hot summer days, this limitation may apply sufficient cross-section of the flow cross-section Prevent or at least affect photoelectric cells pregnant.

The holder of the photoelectric cells according to the DE 91 14 949 U1 requires a large number of components. Another disadvantage is that, in contrast to the latter state of the art of every solar brick the substructure of the roof can be placed, but screwing and assembly work on the roof are such.  

The support structure described in DE 92 01 273 for On the one hand, solar modules are quite complex, just required if assembly and screwing work on the roof itself, and leads to water retention in the area between between the individual solar modules.

The invention is therefore based on the object Roof covering and a solar tile that can be used for this to develop a particularly good cooling of the fo enables toelectric cells, inexpensive both in the manufacture as well as the disposal after the end of use is a dense roof covering without water jam enables and without major assembly and screwing on the roof.

This task is at the Dachein mentioned above cover solved in that the solar brick from a lumpy part and, except for the photoelectric cells, essentially exclusively from one and only one me tall exist and at least on the underside of the frame an elongated one, also made of this metal existing and integral with the frame from stand holder, with a hook at the top of the Spacer with the top edge of the roof cover elements adjacent solar tile is attached and this solar tile with the hook on the under-roof cone structure are attached.

The one-piece design except for the photoelectric cells one and only one metal solar brick and thus the lack of screws, rivets and other loading fastening parts and the absence of plastic parts an extremely cheap disposal after the end possible of use. Between the solar cell arrangement and the Frame can be provided with a seal due to their comparatively low mass during disposal but does not bother. It is only for recycling necessary to separate the solar cells from the frame. The  Solar cells can be used in the same way as used glass be recycled. The rest of the Solar tiles, namely the frame with the spacers, can be reused as raw material in a hut. It is particularly favorable if the frame with the Spacers made of aluminum or VA steel.

The simple structure of the solar tiles also enables an inexpensive manufacture.

A quick one-man assembly is due to the low Weight possible. First, the top row of provided arrangement of solar tiles with the one at the top End of the spacer attached hook to the ent speaking crossbar attached to the sub-roof construction. The rows of solar tiles provided below will be overlapped by the top rows and in this overlap area held by the upper rows. Screw or other major assembly work is not required.

The essentially flat surface of the overlapping sun Lar tile enables a tight roof covering in this Area without water congestion.

The connection of the solar tile arrangement to the others Roofing elements, in particular roof tiles, can a manner known from the roofing trade. To remove the below the solar tile arrangement cooling air flowing above is also proposed that directly above the solar tiles ßende, known ventilation tiles are arranged. It flows through the openings in the ventilation tiles warmed cooling air to the outside.

In a preferred embodiment, the profiling on the side edges of the frame on a particularly manufactured inexpensively, which also both what is water and windproof and at the same time a shift  due to the thermal expansion. For that are the Profiling of at least two parallel to the Edge of the frame, on one side of the solar panel gel up and on the opposite side to un th pointing sheet metal strips formed, the distance we is considerably larger than the sheet thickness, so that the So Lar bricks are movable against each other.

The invention relates not only to roofing for a sloping roof with solar tiles, but also the individual NEN solar brick itself, i.e. a component with photoelectrics tric cells surrounded by a rectangular frame are closed. The already mentioned invention gift is solved here that the solar brick from egg one piece and except for the photoelectric Cells essentially exclusively from one and only is made of metal and on the underside of the frame at least one elongated one, also from this me tall existing and integral with the frame Has spacers.

Particularly good cooling of the solar cells is achieved when the air flowing underneath the solar tiles can dissipate the heat directly from these cells. It it is therefore proposed that essentially the entire Bottom of the photoelectric cells freely accessible is. The cells are therefore in contrast to known ones Versions not on a base plate.

With regard to a particularly cheap and inexpensive Disposal as well as easy reusability it is advantageous if the frame as well as the spacers consist of aluminum or steel, as already explained above has been tert. Aluminum is particularly preferred to achieve a very low weight at the same time.

To improve cooling, stability and Mon days of the solar tile, two spacers are provided  hit, with the spacers below opposite gender sides of the frame are arranged. The distance holders do not cover the solar cells. After this Installation of the solar tiles are in these spacers Oblique direction and thus on the crossbars of the sub-roof construction on.

A particularly good cooling and a weight saving with sufficient stability is achieved when the Ab stand out as hollow profiles open at both ends forms are. Additional cooling is provided by the air flowing through these hollow profiles.

A wind and waterproof installation of the solar tiles, such as it has already been described above another advantageous embodiment of the invention by corresponding profiles on the opposite overlying side edges for overlapping together limits of neighboring solar tiles reached.

It is particularly advantageous if the profiling at least two parallel to the frame edge trending up on one side of the solar tile and on the opposite downward facing sheet strips are formed, the distance between them is much larger than the sheet thickness is. The possible wind and what overlapping overlapping solar tiles also allows for thermal expansion required shift of these solar tiles formed arrangement.

In the case of the sheet metal strips mentioned Profiles form obliquely when installed directed profiles water drainage channels in which the rainwater is drained downwards in a controlled manner can be. To push up the flowing water Preventing masses from the influence of wind is a conclusion at the top of the profiling when installed  the upward-facing sheet metal strip on the in-built th state oblique sides of the solar tiles proposed.

One in terms of manufacture and disposal cheap way to attach the solar cells achieved by locking lugs on the inside of the frame.

The following is an embodiment of the invention described in more detail with reference to drawings. Show it

Fig. 1 is a perspective view of a solar tile erfindungsge MAESSEN,

Fig. 2 shows a section along the line II-II in Fig. 1 and

Fig. 3 is a section along the line III-III in FIG. 1.

The solar brick according to Fig. 1 consists essentially of a plurality of photoelectric cells (solar cells) 1, a this arrangement enclosing frame 2 and mounted two below the longitudinal sides of the frame 2, superscript hollow sections 3 which act as spacers. The solar tile lies with the hollow profiles 3 directly and loosely on the crossbars of an under-roof construction.

Laterally adjacent solar tiles overlap with their lateral, profiled edges, which are shown particularly clearly in FIG. 2. The profiles 4 shown on the left in FIG. 2, as well as the profiles shown on the right, which are open at the bottom, each form two channels running parallel to the side edge, which can serve as water drainage after the adjacent profiles shown in broken lines have been inserted. The upper end of the channels is closed with a sheet metal strip, which serves as a water barrier 5 to prevent the water from being pushed back by wind movement.

Figs. 2 and 3 also show the latching lugs 6 to which the solar cell array 1 is clamped in the frame 2.

Fig. 3 shows in a manner corresponding to Fig. 2 a section along the line III-III and in particular the profiles on the lower and upper side edge. The overlapping laying of the profiles with the profiling of adjacent solar tiles (dashed lines represents Darge) enables on the one hand water drainage without water jam and on the other hand an attachment of the lower rows of solar tiles on the upper rows. It is therefore only necessary to fix the loose solar tiles on the sub-roof structure to the top row of solar tiles. These solar tiles are hung on a crossbar by means of the hooks 8 ( FIG. 1). The rows below are held over the overlapping and interlocking, horizontal profiles. From Fig. 3 also shows that the lower and the upper part of the frame are formed for the purpose of stabilization while saving weight of hollow profiles 7 low height.

In all drawings, the same reference numerals have the same che meaning.

Reference list

1 solar cells
2 frames
3 hollow profile (spacer)
4 profiled side margin
5 water barrier
6 latch
7 hollow profile
8 hooks

Claims (12)

1. Roof covering for a pitched roof, consisting of a multitude of overlapping roof covering elements lying on an under roof construction, such as roof tiles and several adjoining components (solar tiles) with photoelectric cells ( 1 ), which lie loosely directly on the under roof construction, wherein each solar cell gel has a rectangular frame ( 2 ) enclosing the photoelectric cells ( 1 ), characterized in that the solar tiles consist of an integral part and except for the photoelectric cells ( 1 ) consist essentially of one and only one metal and on the underside of the frame ( 2 ) at least one elongated spacer ( 3 ), also made of this metal and integrally connected to the frame ( 2 ), with a hook at the upper end of the spacer with its upper edge on the roofing elements adjoin the solar tile is un d these solar tiles with the hook ( 8 ) are attached to the under-roof construction and that the adjacent solar tiles overlap with their profiled edges. 2. roof covering according to the preceding claim, marked by arranged above the solar tiles and immediately followed by well-known ventilation tiles. 3. Roof covering according to one of the preceding claims, characterized in that the profiles ( 4 ) of at least two parallel to the frame edge, on the egg NEN side of the solar tiles upward and on the opposite side facing down sheet metal are formed, the Distance is much greater than the sheet thickness, so that the solar tiles can be moved against each other. 4. Component (solar brick) with photoelectric cells ( 1 ), which are enclosed by a rectangular frame ( 2 ), characterized in that the solar brick consists of an integral part ( 2 , 3 ) and except for the photoelectric cells ( 1 ) in we sentlichen consists exclusively of one and only one tall and on the underside of the frame ( 2 ) has at least one elongated, also made of this metal and integrally connected to the frame spacer ( 3 ). 5. Solar brick according to the preceding claim, characterized in that substantially the entire underside of the photoelectric cells ( 1 ) is freely accessible. 6. Solar tile according to claim 4 or 5, characterized in that the frame ( 2 ) and the spacers ( 3 ) consist of aluminum or VA steel. 7. Solar tile according to one of claims 4 to 6, characterized by two spacers ( 3 ), wherein the spacers ( 3 ) are arranged below opposite sides of the frame ( 2 ). 8. Solar tile according to one of claims 4 to 7, characterized in that the spacers ( 3 ) are designed as hollow profiles open at both ends. 9. Solar brick according to one of claims 4 to 8, characterized by mutually corresponding profiles ( 4 ) on the opposite ge side edges for overlapping to each other adjacent solar tiles. 10. Solar tile according to claim 9, characterized in that the profiles ( 4 ) of at least two parallel to the frame edge, on the egg NEN side of the solar tile upwards and on the opposite side downward sheet metal strips are formed, the distance between them is much larger than the sheet thickness. 11. Solar tile according to claim 9, characterized by a closure ( 5 ) at the upper end of the profiling ( 4 ) in the installed state with the sheet metal strips pointing upward on the oblique sides of the solar brick in the installed state. 12. Solar brick according to one of claims 4 to 11, characterized by locking lugs ( 6 ) on the inner sides of the frame, with which the photoelectric cells ( 1 ) are attached to the frame ( 2 ).