DE19745883C1 - Solar collector - Google Patents

Abstract

A housing shaped like roof tiles has interlocking and overlapping features as well as a transparent covering. Thermal conducting material picks up and transmits heat. The housing forms a row of tiles at double tile width. Shaped like a box (7) fixed to its area (6), it also sits over its tile area (6) free from overlapping lips (2', 3'). In the box along its narrow sides are fitted flow and return power line units (9) for interconnections (10) between them. The ends of these flow and return power line units pass through the long sides (11, 11') of the box in a cross wise direction. Their tips (9') are fitted with ring seals (12).

Description

The invention relates to a solar panel consisting of egg nem with connection and overlap profiles and transpa Renter cover provided housing in roof tile shape and from Devices for the passage of a heat transfer medium and Heat absorption.

Such solar collectors are, for example, according to DE-OS 27 22 206 known, which are collectors in particular Art acts as the collector housing made of foam glass is formed, in which also operationally necessary elements are foamed. These collectors are laid like roof tiles gel, with special connection designs are provided to connect these "brick collectors" hydraulically with each other to be able to, which, however, both with regard to the special Ge design and installation is difficult and time-consuming. In addition, one needs to be made of individual bricks "Collector field" of an all-round seal, if this collector field takes up only part of a normal brick covering. The same also applies to a solar and flat plate collector DE-OS 26 02 814, in which to connect the in the Individual collectors contain special hydraulic systems Plug connections provided in the form of short line pieces are. Concerning. further relevant prior art, and what the installation of collector fields from Concerning individual bricks, reference is made to DE 42 27 929 A1, DE  44 08 508 A1, DE 42 16 171 A1, the collector according to DE 44 08 508 A1 is intended for the admission of solar cells.

Although this state of the art sometimes almost twenty years as far as is known, such "bricks collectors ", probably because of that not because the whole thing is still too expensive and in particular with regard to the hydraulic coupling of the individual elements is complex and cumbersome and in most cases Installation in the normal frame of the row of roof tiles from bottom to top, d. that is, it will still be and on a much larger scale, relatively large-scale collection goal boxes installed, usually on more or more less complex support to be installed on the roof beforehand constructions.

The invention is accordingly based on the object "Brick collector" of the type mentioned above improve that with ease of manufacture in yet easy to process, d. i.e., transportable and relocatable format all essential features of full-coverage solar panels ren, this like normal roof tiles in a row from below can be moved upwards and the following in each case laying rows both hydraulically with the already laid "bricks" of the same kind connected as well with regard to different roof lath spacing who that can.  

This task is ge with a solar panel named type according to the invention solved in that the housing in the form of a row of bricks with at least twice the width of the bricks dimensioned and above the brick floor surface the housing under free maintenance of overlap support edges in the form of a with the Brick floor surface formed a unit-forming box is, in the area next to the narrow sides of the box and Return manifold pieces for at least one between these extending connecting line are arranged, the Feed and return manifold pieces with their ends the Reach through the longitudinal sides of the box so that they can be moved the ends of which are far away from the ridge are provided with ring seals.

This training according to the invention on the one hand Maintain a tile roof covering in-line structure and on the other hand, the hydraulic connection, which is still nä is explained here, absolutely unproblematic, since it is a Plug connection is. Through to the long sides of the box cross-sliding access design, which is also still is explained on the one hand is a problem Plug connection taken into account and therefore the same possibly different roof latters from roof to roof intervals, which are known to be on the order of a few Centimeters can vary. Production is also conceivable simply because the "brick molding" and the manufacture of the very simple hydraulic system can be done separately but the introduction of the hydraulic system in the "brick" is just as simple. What the different Roof batten distances, these are due to the fact that  on the one hand, the fall line lengths from roof to roof are different, on the other hand the fall line length so through The roof battens are classified so that they are an integer Multiples of bricks can be occupied, d. i.e., the respective Bricks at the upper or lower end do not need to be shortened.

Due to the simple design come for the training of Housing or the "collector tile" according to the invention all Materials in question that have sufficient strength, Weather resistance, low thermal conductivity, shape availability in appropriate molds and that too have a comparatively low weight.

Advantageous further developments result from the one in the individual to explanatory subclaims, the characteristics of which otherwise gene are preferably used in total combination.

The solar collector according to the invention is described below the drawing of exemplary embodiments closer explained.

It shows

FIG. 1 is a perspective view of a roof covering with the invention in in tegrated solar panels;

FIG. 2 shows a section through the roof covering according to FIG. 1 along line II-II;

Fig. 3 perspective the "tile collector" in single position;

Fig. 4 enlarges a cross section through the brick collector gate with dashed indicated absorber sheet;

Fig. 5 is a partial section through the ridge-side portion of the brick collector;

Fig. 6 shows three sectional views of "tile collector arrangements with different roof lath distances and

Fig. 7 perspectively a heat insulation that can be used in the brick collector.

The solar panel still consists of a with connection and overlap profiles 2 , 3 and transparent cover 4 housing 1 in tile form and from a device 5 for passing a heat transfer medium and for heat absorption, including here and as usual with solar panels, an absorber sheet understand that is in a suitable heat-conducting connection with the hydraulic system. Such an absorber plate 5 'is indicated by dashed lines only in FIG. 4.

For such a solar collector is now, initially oriented to Fig. 3, essential that the housing 1 in the form of a brick row R dimensioned with several brick widths B and above the Zie gelbodenfläche 6 while keeping overlapping Auflagännder 2 ´, 3 'in the form of a is formed with this unit 7 forming a unit. In the area next to the narrow box sides 8 , that is, inside and out of the box 7 forward and return run collector pieces 9 are arranged for at least one connecting line 10 extending between them. The supply and return manifold pieces 9 through engage with their ends, the box longitudinal sides 11, 11 ', and the first distal ends 9' of the supply and return manifold pieces 9 are provided with ring seals 12 and the other ends 9 "advantageously provided with a Einschuberweitung 13 provided This design principle could be. of course also for a tile width if the roof in question were covered with, for example, extremely wide tiles, but since the effort for just one tile width would be too great, the housing or the "collector tile" is dimensioned for at least two tile widths.

As shown in Fig. 1, the housing 1 is so dimensioned in length L that, as shown, for example, it extends over an integral multiple of a brick width B. The connection and overlap profiles 2 , 3 (see FIG. 3) are each adapted to the type of roof tile with which the entire roof surface is or should be covered, which means that otherwise usually required seals between the collector surfaces and themselves subsequent brick surfaces are eliminated.

The laying of the follow-up collectors K1, K2, K3 takes place in the course of the rows of roof tiles, which is particularly simple with regard to the hydraulic connections, because they are simply made by inserting the manifold pieces 9 into those of the already installed collectors, which also makes the aforementioned possible , different roof lath distances can be taken into account, that is, smaller distances simply require a deeper insertion of the header pieces 9 of the following "tile collector". Also with due regard to different roof lath spacings A (see FIG. 6) with the result of correspondingly different tile inclinations β, box distances KA and insertion depths E of the header pieces 9 , the through openings 15 in the longitudinal sides 11 , 11 'of the box are provided with elastic penetration sleeves 14 (see in particular FIG. 5) for receiving the thereby to the box sides 11 , 11 'cross-displaceable line pieces 9 provided. If this transverse displaceability were not present, there would be at least insertion difficulties with different roof lath spacings A from roof to roof.

With regard to a comfortable and, in this respect, also appropriate insertion during the laying of rows, the end 9 ´ of the forward and return sam cable line pieces 9 equipped with ring seals 12 advantageously projects beyond the length of the box side 11 which is far away from the ridge by an insertion length L 'which essentially corresponds to the width B' of the overlap support edge 3 ' , and the other end 9 "is essentially flush with the other side of the box 11 ', as shown in FIGS . 4, 5. The dimensioning of the width B' of the overlap support edge 3 'also takes into account different roof battens spacing A, A'"A", which, as mentioned, can vary by a few centimeters (see FIG. 6).

A meander-shaped Ver connecting line 10 is expediently so connected to the manifold line pieces 9 that it forms a Verschiebewi resistance for this. In order to be able to introduce the hydraulic part into the box 7 in a simple manner with such a design, as can be seen from FIG. 3, for example, the first-side access openings 15 ″ are open at the top, so that appropriately designed sealing sleeves 14 ″ together with the Bus line pieces 9 can be inserted from above. This embodiment is particularly preferred with regard to the absorber plate 5 'indicated in dashed lines in FIG. 4, which is firmly connected to the connecting line, for example by soldering in the interest of good heat conduction, but in this respect the usability of the hydraulic system in the box opening cross-section corresponding to the cut size would hinder box 7 .

The proviso, in particular from FIG. 4 but also from FIG. 6, that the forward and return manifold pieces 9 extend to the brick floor surface 6 at an angle β in the box 7 , which essentially corresponds to the angle resulting from the tendency of the housing 1 to overlap, is also carried out in the interest of a convenient insertion when laying the "collector tile", but in particular also with a view to being able to use straight pipe pieces for the pluggable manifold pieces 9 . In this context, reference should be made to FIGS. 2 and 6, which make it clear that the wiring harness from the manifold pieces 9 extends parallel to the rafters DS, while the tile or housing base surfaces 6 are caused by slats and overlap, as shown, run inclined to the rafters DS. Without the inclination arrangement of the manifold pieces 9 in box 7 , the inclination offset would only have to be taken into account by appropriately bent pipe pieces, which is possible in principle but would be inappropriate.

Since the box structure above the floor surface 6 would represent a certain barrier for the unimpeded rain or melt water drainage, ie there would be an accumulation height in the order of the height of the profiles 16 of the floor surface 6 , there is an advantageous further development that the weather side in the Brick floor surface 6 along the first-sided box along side 11, a profile 16 interrupting What serlaufrinne 17 is arranged. For this purpose, in particular to Figs. 4 5 referred to, ie out of the water drain channel 17 transversely running off water passes through the longitudinally extending channels 8 of the Ka stenschmalseiten 17 'on the underlying each brick or collector.

The box 7 is also upwards, that is, covered on the weather side with a transparent cover 4 made of suitable material in a conventional manner. Furthermore, nothing stands in the way of introducing heat insulation 18 into the box 7 under the manifold pieces 9 and their connecting line 10 , which is advantageously designed in the form of a plate 18 'which fits into the box 7 , in the upwardly open grooves 19 for receiving the front - And return manifold pieces 9 and if necessary. also the connecting line 10 are arranged. With such a heat-insulating plate 18 ´ the hydraulic system embedded in it, as it were, would also be fixed in box 7 , which must have an abutment if the collecting line pieces 9 of the “collector brick” to be connected upwards are inserted. The above-mentioned, special connection of the connecting line 10 to the manifold pieces 9 or other suitable abutment elements would be unnecessary, which abutment measures or elements would be used in particular when it comes to the material from which the "collector tile" is formed deals with sufficient thermal insulation properties.

Claims (10)

1. Solar collector, consisting of a with connection and overlap profiles ( 2 , 3 ) and transparent cover ( 4 ) provided housing ( 1 ) in roof tile shape and from devices ( 5 ) for the passage of a heat transfer medium and for heat absorption, characterized in that dimension the housing ( 1 ) in the form of a row of bricks (R) with at least twice the brick width (B) and above the brick floor surface ( 6 ) of the housing ( 1 ) while keeping overlapping bearing edges ( 2 ', 3 ') in the form of a brick floor surface ( 6 ) a unit-forming box ( 7 ) is formed, in which in the area next to the box narrow sides ( 8 ) supply and return manifold pieces ( 9 ) for at least one connecting line ( 10 ) extending between them are arranged, the supply and return manifold pieces ( 9 ) with their ends reach through the longitudinal sides of the box ( 11 , 11 ') so that they can be displaced transversely and their ends ( 9 ') remote from the ridge are provided with ring seals ( 12 ). 2. Solar collector according to claim 1, characterized in that in the longitudinal sides of the box ( 11 ', 11 ') with elastic penetration sleeves ( 14 ) fitted through openings ( 15 ) for the supply and return manifold pieces ( 9 ) are arranged. 3. Solar collector according to claim 1 or 2, characterized in that the ridge-side ends ( 9 ") of the forward and return manifold pieces ( 9 ) with insert extensions ( 13 ) are seen ver. 4. Solar collector according to one of claims 1 to 3, characterized in that the ends ( 9 ') of the supply and return manifold pieces ( 9 ) equipped with ring seals ( 12 ) by a width (B') of the overlap support edge ( 3) ') corresponding insertion length (E) projects beyond the ridge long side ( 11 ) and the other end ( 9 ") is essentially flush with the other side of the box ( 11 '). 5. Solar collector according to one of claims 1 to 4, characterized in that the supply and return manifold pieces ( 9 ) to Zie gelbodenfläche ( 6 ) at an angle ß in the box ( 7 ) he stretches, which is due to the tendency of the housing to overlap ( 1 ) resulting angle essentially corresponds. 6. Solar collector according to one of claims 1 to 5, characterized in that the weather-side in the brick floor surface ( 6 ) along the ridge-side longitudinal side of the box ( 11 ') a Bodenflächenpro filing ( 16 ) interrupting water drainage channel ( 17 ) is arranged. 7. Solar collector according to one of claims 1 to 6, characterized in that in the box (7) on the tile floor surface (6), a heat insulation (18) is arranged. 8. Solar collector according to claim 7, characterized in that the heat insulation ( 18 ) from a plate ( 18 ') is formed in the upwardly open grooves ( 19 ) for receiving the supply and return manifold pieces ( 9 ) and possibly the connecting line ( 10 ) are arranged. 9. Solar collector according to one of claims 1 to 6, characterized in that the housing ( 1 ) is formed from heat-insulating material. 10. Solar collector according to one of claims 1 to 6 or 9, characterized in that the existing from the supply and return manifold pieces ( 9 ) and the connecting line ( 10 ) hydraulic system in the box ( 7 ) by abutment elements against displacement in the direction of extension of the manifold pieces ( 9 ) is fixed.