DE102009048086A1 - Roof covering plate for extraction of heat energy from solar irradiation, has upper part with opening, where hollow space is formed in roof covering plate by assembling lower part and upper part to roof covering plate - Google Patents

Abstract

The roof covering plate (1) has an upper part (3) with an opening (4). A hollow space is formed in the roof covering plate by assembling a lower part (2) and upper part to the roof covering plate. A water guiding device (5) is arranged in hollow space, and the volume of the water guiding device corresponds to the volume of the hollow space. The upper part is made of foamed material, particularly of a heat insulating plastic.

Description

The The invention relates to a roofing plate for the production of Heat energy from solar radiation.

In the prior art, a variety of roofing panels are known with which the heat energy from solar radiation can be used. From the DE 33 34 926 A1 For example, a roofing plate is known with which a roof surface can be created with embedded in the surface of pipes. The roofing panel after the DE 33 34 926 A1 has for this purpose in its surface elongated recesses into which the ridge extending from the ridge to the eaves pipes are embedded. The recesses are formed so deep according to the diameter of the pipes, that the apex of the pipe with the flanks of the recesses lies in a plane.

Another roofing plate for the use of heat energy from solar radiation is in the DE 30 00 148 A1 disclosed. In this document, a roofing tile made of cement screed is described, are stored in the manufacture of flexible plastic pipes. The embedded plastic pipes can be traversed by a liquid, so that this liquid is heated when exposed to sunlight.

The have known from the prior art roofing panels the disadvantage that they are both a relative ensure poor heat transfer and make a high production cost necessary.

Of the The present invention is therefore based on the object, a roofing plate specify that has a reduced production cost and a best possible heat transfer ensures a circulation medium.

The The aforementioned object is achieved in a Roofing plate of the type mentioned above, in that the roofing plate has a lower part and an upper part, wherein at least the upper part has at least one recess, so by joining the bottom and the top at least one cavity in the roofing panel to the roofing panel arises. The cavity is between the upper part and the lower part formed and created mainly by the recess in the upper part. By the cavity becomes water or another suitable liquid Passed medium, leaving the water or the liquid medium through the sunlight reaching the roof tile is heated.

When Circulatory medium is in principle any liquid Medium with a high heat capacity, preferably However, in the present invention, water is used as the circulating medium used. Restrict the following explanations to the description of embodiments where water is used as a circulation medium, alternative circulation media are however conceivable. The use of water as a circulation medium and its immediate warming saves the transmission losses, which would arise through a heat exchanger, because the heat energy from the sun does not first be transferred from a circulating medium to the water got to. Depending on the purpose and depending on the temperature of the water reached by the solar radiation, If necessary, the water must be in addition to conventional Energy sources continue to be heated. It can However, the energy saved for otherwise the heating of the water to the temperature to which the Water has already been heated by the sunlight is, would have to be applied.

In order to the water passed through the cavity is not uncontrolled escapes the cavity of the roofing plate is preferably between the lower part and the upper part of a seal and / or a sealing Adhesive provided, allowing leakage of water from the sealed Areas is prevented. The water to be heated occurs in the ridge-side head region of the roofing plate in the cavity A, heats up within the cavity through the on the roofing panel incoming sunlight, and enters in the eaves side foot of the cavity again out of this out, with the heated medium subsequently either forwarded for direct use or in the Cavity of the eaves side subsequent roofing plate is initiated to be additionally heated there.

The circulation of the water through the cavities of a plurality of roofing panels in a roof surface may be such that the water circulates continuously through a plurality of cavities of a plurality of roofing plates, the heated water being collected in a heat-insulated buffer reservoir, in particular a stratified reservoir. as well as such that no continuous circulation of the water takes place, but the water rests in the cavities of the roofing plates and only when needed directly from the cavities of the roofing plates batchwise - directly for use - is removed. Even if a warming of the water takes place only by a few degrees, this can be saved as part of the hot water supply other sources of energy, as by other energy sources only the En ergie for heating a smaller temperature difference - up to the desired final temperature - must be applied.

According to one advantageous embodiment of the roofing plate is provided that in the cavity of the roofing plate at least one water guide device is arranged. As a water supply facilities are closed, for example Containers designed to be round, elliptical or polygonal Have base, but preferably container used with a rectangular base. The volume of Water guiding device essentially corresponds to the Volume of the cavity, so that the water guide device completely enclosed by the cavity. The usage a water guide device has the advantage that the complex Sealing the contact surface between lower part and upper part not applicable, since the water is exclusively through the Water supply device is passed.

Thereby, that the water guide device at least from the recess is enclosed in shell, can also higher Realized pressures in the water supply device be because the material of the water guide device in addition is stabilized by the upper part. The stabilizing effect the upper part is particularly important if the What serführungseinrichtung is made of a plastic and within the water guide device Water is passed as it warms up the water can lead to a significant increase in pressure. additionally is advantageously provided that not only the upper part of a Recess has, but also the lower part of a recess whose base area is the base of the Water supply device corresponds, so that the water supply device from the recess in the base and the recess in the top the roofing plate is enclosed.

The Water guide device has at least one inlet and at least one outlet, wherein the inlet preferably in ridge-side head area of the roofing plate and the drain arranged in eaves side foot of the roofing plate is. This arrangement of the inlet and the outlet offers the advantage that the water is the water guiding device of the roofing plate to happen solely by the action of gravity can, without an additional pump is necessary.

Of the Inlet and the outlet are preferably as fittings, For example, provided with a thread or a sleeve, so that the processes of the water guide device respectively tight with the inlets of the water guiding device the eaves side subsequent roofing plate and the inlets according to the flow of the water guide device the first side preceding roofing plate can be connected. In front of the first ridge-side roofing panel with a water guiding device and after the last eaves-side roofing panel with a water guide device is in each case a collection device, for. B. a cross-connecting pipe, intended. For the complete emptying of the water guiding device, z. As for maintenance, is preferably provided that the walls of the water guiding device in Foot area funnel-like inclined in the direction of the flow are so that no water remains inside the water guiding device remain when the inlet is closed and the drain is open becomes.

The guided in the cavity or in the water guide device Water is absorbed by the sunlight on the surface heated the roofing plate. To the area for heat transfer, It has proven to be advantageous that the cavity or also the water guiding device a base which is essentially the base of the in one Roof surface visible area of the roofing tile equivalent. Through such a large cavity or a large-scale water supply device is guaranteed that the greatest possible Proportion of radiating onto the surface of the roofing tile Heat energy to the existing in the cavity or in the water guide device Water is transferred.

A Variant of the roofing plate is designed such that not only only one cavity is realized, but a plurality of cavities, each cavity in each cavity a pipe arranged as a water guide device is. The upper part of the roofing plate points for it a number of longitudinally extended from the ridge-side head area to the eaves-side foot area Recesses corresponding to the number of pipes, the be introduced into the cavities. In each of the through the recesses between the lower part and the upper part of the roofing plate resulting cavities will each have a pipeline as Water guiding device introduced so that even at this variant, a seal between the lower part and upper part of the Roofing plate is dispensable.

The use of pipelines as a water-conducting device has the advantage that a higher pressure can prevail in the pipelines than in other water-guiding devices, since the internal pressure is distributed evenly over the pipe wall. In addition, leaves a variety of individual circuit implement sections that can be switched on or off individually as needed. The design with a plurality of pipelines as water guiding devices is particularly suitable for a design of the water cycle, in which the water is continuously circulated and collected in a heat-insulated buffer storage, since the pipes have a lower volume compared to other water supply devices. The individual pipes are either individually connected to a respective first- or eaves-side arranged pipe or bundled in the head and foot of the roofing plate of a cross-connecting pipe line, which leads the water from the pipes to a common inlet and outlet.

According to one preferred variant is arranged in the cavity water supply device as formed multiple wound pipe, at least one Inlet and at least one drain are formed. Such multi-threaded piping, also referred to as a line snake can be compared to a straight pipeline Advantage that with the same footprint of the recess a Water guiding device with a larger Length be provided in the roofing tile can. The recess in the upper part of the roofing plate can thereby be adapted to the dimensions of the line snake, so that the line coil is held in position when in the recess is inserted. Alternatively, in the example rectangular recess and / or on the top of the base support webs for holding and mounting formed of sections of the multi-threaded pipeline be.

Around a particularly high flexibility in the use of individual Achieve roofing tiles in a roofing, points the multi-threaded piping preferably adjacent to the inlet and the process two more connection connections on. The two other connection connections are used for connecting the spiral pipe in the installed state of the roofing plate in a roof covering with the corresponding connections Spiral piping of adjacent roofing tiles. Also if normally the pipeline of a roofing plate over their inlet only with the pipeline in the roofing above and about its course with the pipeline in the roofing underneath arranged roofing plate is connected, so creates the design of the multi-threaded pipe with a total four - in the four different directions pointing - connections the possibility to choose the single roofing plate optional in the ridge-side head area, in the eaves foot area or between the head area and the foot area.

Preferably There are two connections with one thread and two connections with a corresponding rotatable sleeve or a union nut provided, so that the inlet and the drain of a pipeline easy on site, d. h on the roof with the drain or the inlet respectively connected to a pipeline of an adjacent roofing plate can be. A high degree of modularity can thereby be achieved be that in the roofing panels either the inlet a thread and the drain a sleeve or a union nut or the drain thread and the inlet a sleeve or a union nut exhibit. This ensures that the pipeline the individual roofing panels are interconnected can, without a roofer must pay attention, one to lay certain roofing tile.

Around the connection of the drain of the pipeline of a roofing plate with connection of an inlet of a pipeline of the following Roofing plate is easier to connect preferably at least in the vicinity of the inlet and in the Near the expiration in each case a flexible area in the Pipe inserted. In the flexible area, in particular Arranged in the bow area, it can be, for example, a flexible Metal hose is the one with the adjacent rigid areas the pipe is screwed, plugged or firmly connected.

The Water guiding device is preferably made of metal, in particular copper is suitable because copper does not corrode and releases no pollutants to the water, which is why copper also reinforced in the sanitary area as a pipe material Has. As an alternative to copper, preference is given to the water-guiding device made of plastic. This has the advantage of having plastic complex geometries are easy to fabricate, which makes customizing the water guiding device to the geometry of the cavity is possible with little effort. In addition, plastic has a cost advantage over copper, both in terms of the procurement of the raw material as well as the production costs.

The top of the top of the roofing panel essentially represents the area that can be seen in a roof area of each individual roofing panel. According to a further embodiment, it is therefore provided that the visible in a roof area of the upper part of the roofing plate has a flat surface, said on this flat surface of the upper part of a sun lareinrichtung attachable is. Alternatively, the top of the top of the roofing panel may also be slightly bent inward, ie, concave. In this case, a solar device formed as a flexible film can be applied to the upper part, so that the solar module is arranged like a concave mirror.

When Particularly advantageous is a photovoltaic device for Mounting on the flat or slightly concave surface of the Upper part exposed, because so - in addition to the use the heat energy of solar radiation - in addition Electricity can be generated. The dissipation of heat energy through the water supply below a photovoltaic device has the further advantage that the efficiency of the photovoltaic device is improved, as this generally at lower temperatures is greater than at higher temperatures. The Size of the solar device corresponds preferably the size of the visible area of the roofing tile in a roof area, so that with a plurality of roofing tiles in a roof area a large area Solar device can be realized. This solar device can be modular, as not necessarily on each Roofing plate a solar device must be applied.

Next the attachment of a solar device on the flat surface the upper part of the roofing plate is preferably provided that the lower part on its underside at least a section with having a flat surface, wherein the flat portion the lower part of a thermal insulation can be attached. The attachment of a thermal insulation at the bottom the lower part of the roofing plate offers the advantage that the Thermal insulation simultaneously with the roofing panel can be mounted so that a step is saved. In a particularly preferred embodiment of the roofing plate is Therefore, at the bottom of the lower part of a thermal insulation attached, preferably the entire surface at the bottom of the lower part is applied. The thermal insulation is for example glued to the bottom of the base, screwed or otherwise be strengthened. Alternatively, the insulation in the Production process molded directly onto the underside of the base or molded.

The Heat insulation is preferably just designed, leaving the roofing plate with the attached thermal insulation can be applied directly to the roof battens of a roof. The insulation is at the bottom of the Bottom of the roofing plate positioned so that they - at Use in a roof area - directly on the surrounding thermal insulation of other roofing tiles connects, leaving the roof area a closed thermal insulation without thermal bridges on its underside. To easily position the thermal insulation to allow at the bottom of the base is preferred a positioning device provided on the underside of the lower part, with the thermal insulation in a designated position brought and then fastened. The positioning device is For example, designed as a projection while in the Thermal insulation according to a form-fitting matching return is configured.

If both the visible in a roof area of the upper part as well as a portion of the underside of the base a level Have face, can with the roofing plate, according to a advantageous embodiment, a roof realized Be a completely level base and one has completely flat top. The flat surfaces - top and bottom - the roof surface are covered by a stepped arrangement of different ceiling levels in the side, head and foot areas of a roofing plate, so that overlap adjacent roofing tiles staircase. The completely flat bottom of the roof allows an immediate application of the roof surface on the battens of the roof, while a completely level top the roof area, for example, the application of large area Solar facilities allows. Furthermore, the level has Top of the roof area has the advantage of having a smooth surface the burden of the attack of wind or gusts of wind can be reduced, reducing the roof area overall less prone to damage.

In addition to recovering heat energy from solar radiation, the roofing panel must generally ensure watertight coverage of the roof surface and discharge of accumulating rainwater. Preferably, therefore, it is provided that a rainwater drainage takes place on or below the viewing plane of the lower part, in a main ceiling plane, a middle ceiling plane and a lower ceiling plane. Both rain gutters and longitudinal gutters are preferably provided for the rainwater drainage in the three ceiling levels, the transverse gutters are provided for collecting the rainwater and the longitudinal grooves for draining the rainwater. It has been found to be particularly advantageous that the main ceiling plane has a transverse channel, the middle ceiling plane has a transverse channel and at least two longitudinal channels and the lower ceiling plane has a transverse channel, all transverse channels being in each case in communication with the longitudinal channels of the central ceiling plane in such a way that the water flows out of the transverse channels the longitudinal channels are routed and through the longitudinal channels in the direction of the eaves or in the head area of the eaves following roofing plate is derived.

On the rainfall of the roof surface will consequently either over the surface of the top in Direction of the eaves side subsequent roofing plate removed or the rainwater entering between the roofing tiles, for example, through the butt joints between the roofing tiles penetrates, is trapped by transverse grooves in the three ceiling levels and introduced into the longitudinal gutters for discharge. The cover the roofing panels with each other and the rainwater management through transverse gutters and longitudinal channels makes an intrusion of Rainwater under the roof is almost impossible creating an additional underlay below the roof area becomes unnecessary. Even with a leak of a water guide device, a Connection or a cavity, the accumulated water is reliable derived in the direction of the eaves without taking it under the roof penetrates.

The Top of the roofing plate serves with the recess for Production of a cavity or to cover the water supply device. As advantageous materials for the upper part of the roofing plate Foamed materials have been found, as these especially easy to shape, have a low weight and are very stable.

Especially is provided that the upper part of the roofing plate off a heat-insulating plastic, in particular a foamed plastic. Plastic is easy to shape and process, whereby the production of the recesses or the production of the upper part can be done with little effort.

to Improvement of the stability of the roofing tile is preferably provided that at the bottom of the lower part of the Roofing plate a stabilization element is attachable, wherein the stabilizing element is preferably between the underside of the lower part and a heat insulation attachable is. The stabilization element has particular roofing panels Made of plastic proved to be advantageous, since it is heated the plastic by the sunlight a deformation of the roofing plate prevented and reliably stabilizes the roofing plate. In addition, the stabilization element prevents vibrations due to flowing water. On the stabilizing element is preferably formed a hook with which the roofing plate attachable to a roof batten. The stabilizing element is For example, made of metal, concrete, ceramic, clay or wood.

A further preferred embodiment of the roofing panel sees before, that the upper part is not applied directly to the lower part is, but that between the lower part and the upper part of a fastening module is arranged so that the cavity between the mounting module and the upper part is formed. This embodiment offers the Advantage that the fastening, for example a water-guiding device, on the lower part is simplified by the fact that the mounting module is positively secured to the base and the mounting module has a recess into which a water guide device can be introduced, wherein on the mounting module, the upper part, - also with a recess - is applied. Overall is the water guide then completely enclosed by the mounting module and the upper part of the roofing plate. The unit consisting of fastening module and upper part is shaped, or cohesively on the lower part of the roofing plate attached.

The The upper side of the upper part is preferably designed such that the visible in a roof area of the upper part Having longitudinal grooves. These longitudinal grooves serve For example, a water supply below a To ensure applied solar device. Furthermore serve the longitudinal channels - when not mounted Solar device - the visual design of the roof surface. Alternatively to the longitudinal channels are for optical design the roof surface but also any kind of pattern, ornaments or other design means provided on top of the top.

A last particularly preferred embodiment of the roofing plate provides that in the roofing plate between the lower part and the upper part of a cavity is present, in which a container is introduced as a water guide device, wherein the Container in its ridge-side area an inlet in his eaves-side area has a sequence, and where on the flat visible surface of the upper part of a photovoltaic device and at the bottom of the lower part of a thermal insulation are attached. By such a configuration of a roofing plate is a reliable thermal insulation of the roof while recovering both heat energy as also possible from electricity from solar radiation.

When Material for the lower part of the invention Roofing tile can be concrete, ceramic, wood, metal or clay, the roofing plate is particularly preferred made of a plastic.

In particular, there are a variety of ways the roofing roof according to the invention design and develop further. Reference is made to both the claims subordinate to claim 1, as well as to the following description of preferred embodiments in conjunction with the drawings. In the drawing show:

1 an embodiment of a roofing plate with a container as a water guiding device,

2 an embodiment of a roofing plate with pipelines as water guiding devices,

3 an embodiment of a roofing panel with mounting module and with a container as a water-guiding device,

4 an embodiment of a roofing plate with cross-linked pipelines as a water guiding device,

5 an embodiment of a roofing plate with a multi-threaded piping as a water guiding device,

6 schematically two roofing plates, each with a multi-threaded piping as a water guide device, and

7 an exploded view of an embodiment of a roofing plate.

1 shows an embodiment of a roofing panel according to the invention 1 , for the production of heat energy from solar radiation, with a lower part 2 and a top 3 , The top 3 has a recess 4 on (dashed lines in 1 ), so by joining the lower part 2 and the shell 3 to the roofing tile 1 a cavity in the roofing tile 1 arises. Between the lower part 2 and the top 3 the roofing plate is a water guiding device 5 arranged, wherein the volume of the water guiding device 5 essentially the volume of the recess 4 in the upper part 3 corresponds, so that the cavity completely from the water guide device 5 is completed. The water guiding device 5 points in the ridge-side head area of the roofing tile 1 - in 1 shown above - an inlet 6 and in the eaves-side foot area of the roofing tile 1 - in 1 shown below - a process 7 on. The feed 6 and the process 7 have a connecting device to allow the inlet 6 and the process 7 with other inlets and outlets or connecting lines are connectable. The feed 6 is in the head area of the roofing tile 1 arranged so that the water is the water guide device 5 under the action of gravity in the direction of the process 7 passes.

The base of the water guide device 5 corresponds essentially to the base area of the area visible in a roof area 8th of the top 3 , ensuring that the largest possible area for heat transfer exists. The area visible in a roof area 8th of the top 3 points in this embodiment according to 1 a flat surface on which a - in 5 illustrated - photovoltaic device 9 attachable. The photovoltaic device 9 has essentially the size of the area visible in a roof area 8th of the top 3 and becomes visible on the area visible in a roof area 8th fixed in shape, force or material. Also the bottom 10 of the lower part 2 the roofing tile 1 has a flat surface on which a - in 7 illustrated - thermal insulation 11 attachable. Also the thermal insulation 11 has a flat surface and is full surface at the bottom 10 of the lower part 2 fixable. In a roof surface contacted the thermal insulation 11 in their side areas the thermal insulation 11 from adjacent roofing tiles 1 , so that a closed heat insulation below the roof surface - without thermal bridges - is guaranteed.

When assembled, the upper part closes 3 flush with the side edges of a viewing plane 12 of the lower part 2 from. The water guiding device 5 is completely on the viewing plane 12 of the lower part 2 applied and total of the recess 4 of the top 3 enclosed, so the top 3 with the water guiding device 5 is in optimal heat transfer contact, creating a favorable heat transfer between the upper part 3 and water guiding device 5 is guaranteed.

On the roof surface or the roofing plate 1 incident rainwater is above the visible area in a roof area 8th of the top 3 derived in the direction of the eaves. Rainwater at the top 3 over on the lower part 2 or between the lower parts 2 of roofing tiles adjacent in a roof area 1 penetrates, becomes in a main ceiling level 13 , in a middle ceiling level 14 and in a lower ceiling level 15 caught and derived.

In the embodiments according to the 1 to 5 is in the main ceiling plane 13 a transverse channel 16 provided that level the water from the main deck 13 in the middle ceiling level 14 derives. In the middle ceiling level 14 are a cross channel 16 and two longitudinal channels 17 provided, which are aligned substantially orthogonal to each other. The lower ceiling level 15 also has a transverse line ne 16 on, with the longitudinal channels 17 the middle ceiling level 14 communicates. In the transverse channels 16 accumulating rainwater is in the longitudinal channels 17 the middle ceiling level 14 directed and from these longitudinal channels 17 in the direction of the eaves or in the head area of a eaves side subsequent roofing plate 1 derived. So all the cross channels 16 with the longitudinal channels 17 can be connected, are the longitudinal troughs 17 the middle ceiling level 14 through the cross gutter 16 the middle ceiling level 14 extended. Furthermore, the longitudinal channels run 17 the middle ceiling level 14 from the level of the lower ceiling level 15 rising, to below the level of the middle ceiling level 14 (please refer 1 to 5 ). The embodiments in the 1 . 2 . 4 and 5 additionally in the viewing plane 12 of the lower part 2 three longitudinal channels 17 on, the rainwater from the cross gutter 16 the main ceiling level 13 and rainwater, which may be below the water guide 5 accumulates reliably in the direction of the eaves.

2 shows an embodiment of a roofing plate with piping 5a as a water guiding device 5 , The pipelines 5a are on the viewing plane 12 of the lower part 2 , in the longitudinal channels 17 the viewing plane 12 brought in. The pipelines 5a be from the top 3 covered and from the recesses 4 enclosed, so that the piping 5a in the head and foot area of the roofing tile 1 from the top 3 stepping out. The outer edges of the upper part 3 close even in this embodiment example - in the assembled state - flush with the outer edges of the visible surface 12 of the lower part 2 from.

The lower part 2 is designed staircase-like in its ridge-side head area at its top and in its eaves foot area at the bottom, so that an overlap with other roofing panels 1 in the main ceiling level 13 , in the middle ceiling level 14 and in the lower ceiling level 15 he follows. This step-like covering prevents, together with the transverse channels 16 and the longitudinal channels 17 , the penetration of rainwater under a roof surface, so that an additional Unterspannbahn becomes unnecessary. To stabilize the roofing tile 1 is at the bottom 10 of the lower part 2 additionally one - in 5 illustrated stabilization element 18 attachable that the stability of the roofing tile 1 additionally raised and between the bottom 10 of the lower part 2 and a thermal insulation 11 can be mounted. The stabilization element 18 lies completely on the underside 10 of the lower part 2 at.

3 shows an embodiment of a roofing plate 1 , where the top part 3 not directly on the lower part 2 is applied, but between the lower part 2 and the top 3 a fastening module 19 is introduced. The mounting module 19 has a recess 20 on that with the recess 4 of the top 3 Corresponds, so that between the upper part 3 and the mounting module 19 a cavity is formed in which the water guiding device 5 is completely introduced.

The mounting module 19 is form-fitting on the viewing plane 12 of the lower part 2 attached. In addition, there is between the mounting module 19 and the viewing plane 12 of the lower part 2 an adhesive applied for final attachment. In this embodiment, the visible surface 12 none - in the 1 . 2 . 4 and 5 shown - longitudinal channels 17 below the mounting module 19 on. The use of the mounting module 19 has the advantage that the water guiding device 5 from above and below from recesses 4 . 20 is enclosed, whereby an increased stability of the water supply device, especially at high pressures is ensured.

Especially with water management facilities with large base areas - as in the 1 . 3 and 7 shown - could at high pressures bulging of the material of the water guide device 5 done, but what by the water guide device 5 enclosing mounting module 19 and the top 3 is prevented. Furthermore, by the mounting module 19 the attachment of the water guide device 5 on the lower part 2 simplified, since the water guide device 5 only in the recess 20 of the mounting module 19 must be inserted; then the top part 3 applied and on the mounting module 19 attached.

4 shows an embodiment of a roofing plate 1 with transversely connected pipelines 5a as a water guiding device 5 , The cross-connected pipelines 5a are on the viewing plane 12 of the lower part 2 applied and have external dimensions, the recess 4 in the upper part 3 match, so that the cross-connected piping 5a completely from the recess 4 in the upper part 3 be enclosed. The cross-connected pipelines 5a have in the ridge-side head portion of the roofing plate a common inlet 6 and in the eaves-side foot of the roofing plate a common sequence 7 on, with which connect to water management facilities 5 adjacent roofing tiles 1 or to - not shown - connection lines is possible.

A variant of in 4 illustrated roofing plate 1 is in 5 shown. The on the lower part 2 arranged water guide device 5 consists of a multiple wound NEN pipeline 5b , at the in their ridge-side head area an inlet 6 and at her eaves foot area a drain 7 is arranged. In addition, has the manner of a line coil formed coiled tubing 5b two more connection connections 21 on, over which the pipeline 5b in the laid state of the roofing tile 1 can be connected in a roof covering with corresponding connection terminals of adjacent pipes. The feed 6 , the sequence 7 and the two connection terminals 21 are each with a thread 22 or a corresponding union nut 23 Mistake. The sequence 7 the pipeline 5b a first roofing panel 1 Thus, for example, simply by the feed 6 the pipeline 5b a roofing plate disposed below a second roofing plate 1 be connected to that of the inlet 6 assigned union nut 23 on the thread 22 at the expiration 7 is screwed on, reducing the two pipes 5b be reliably connected with each other (see. 6 ).

In the 5 and 6 illustrated embodiment of a roofing plate 1 In addition, it can be seen that the inflow 6 and a first connection terminal 21 in the area of a first corner of the rectangular roofing plate 1 and the process 7 and the second connection connection 21 in the area of the diagonally opposite corner of the roofing tile 1 are arranged. At the in 5 illustrated arrangement of the roofing plate 1 are the feed 6 and the first connection terminal 21 in the upper right corner of the roofing tile 1 and the process 7 and the second connection terminal 21 in the area of the lower left corner of the roofing tile 1 arranged.

So even with closely spaced roofing tiles 1 the connection of the individual twisted pipes 5b can be done with each other simply on site, ie on the roof, is both near the inlet 6 as well as near the drain 7 each a flexible bow area 24 into the pipeline 5b integrated. In the flexible bow area 24 it is preferably a flexible metal hose, which is connected to the adjacent rigid portion of the tortuous pipeline 5b plugged together or soldered. Unlike the two in 6 only schematically illustrated pipelines 5b , both of which each have only two turns, have the pipes 5b in practice - similar to the representation according to 5 - more than two turns on. It is usually sufficient if only the top and the bottom arch area 24 is designed to be flexible, while the middle arch area can be rigid.

7 shows an exploded view of an embodiment of a roofing plate 1 , being between the lower part 2 and the top 3 , in the recess 4 of the top 3 , a water guiding device 5 is introduced, whose base surface visible in a roof area 8th of the top 3 equivalent. On the bottom 10 of the lower part 2 is a stabilization module 19 attached, again on the stabilization module 19 a level thermal insulation 11 is appropriate. On the area visible in a roof area 8th of the top 3 is a photovoltaic device 9 attached, whose size is substantially visible in a roof area 8th of the top 3 equivalent.

With such a design of a roofing plate 1 Both excellent insulation of the roof surface is guaranteed without thermal bridges, as well as thermal energy and electricity from the solar radiation won. Every single module of the roofing tile 1 can be added or omitted depending on the customer, so that the roofing panel according to the invention 1 very flexible in its design and manufacture. In an embodiment according to the 7 are also pipelines 5a or tortuous pipelines 5b as a water guiding device 5 conceivable. In addition, the mounting module could also 19 on the visible surface 12 of the lower part 2 the roofing tile 1 to be assembled.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 3334926 A1 [0002, 0002]
• - DE 3000148 A1 [0003]

Claims (19)

Roofing plate for recovering heat energy from solar radiation, having a lower part ( 2 ) and a top ( 3 ), whereby at least the upper part ( 3 ) at least one recess ( 4 ), so that by joining the lower part ( 2 ) and the upper part ( 3 ) to the roofing plate ( 1 ) at least one cavity in the roofing plate ( 1 ) arises. Roofing panel according to claim 1, characterized in that in the cavity at least one water guiding device ( 5 ), wherein the volume of the water guiding device ( 5 ) substantially corresponds to the volume of the cavity, and wherein the water guiding device ( 5 ) at least one inlet ( 6 ) and at least one process ( 7 ) having. Roofing panel according to claim 1 or 2, characterized in that the cavity has a base surface, which is substantially the base of the area visible in a roof area of the upper part ( 8th ) of the roofing plate ( 1 ) corresponds. Roofing panel according to one of claims 1 to 3, characterized in that a plurality of cavities is present, wherein in each cavity in each case a pipeline ( 5a ) as a water guiding device ( 5 ) is arranged. Roofing panel according to claim 1, characterized in that in the cavity at least one water guiding device ( 5 ), wherein the water guiding device ( 5 ) as a multiply wound pipeline ( 5b ) is formed at the at least one inlet ( 6 ) and at least one process ( 7 ) is trained. Roofing panel according to claim 5, characterized in that the multiply wound pipeline ( 5b ) an inlet ( 6 ), a procedure ( 7 ) and two connection ports ( 21 ), for connecting the gewun which pipeline ( 5b ) in the laid state of the roofing plate ( 1 ) in a roofing with the corresponding connections of tortuous pipelines of adjacent roofing panels, preferably two terminals ( 6 or 7 . 21 ) a thread ( 22 ) and two connections ( 7 or 6 . 20 ) a corresponding union nut ( 23 ) exhibit. Roofing panel according to claim 6, characterized in that the multiply wound pipeline ( 5b ) an inlet ( 6 ) and a first connection port ( 21 ) in the area of a corner of the rectangular roofing plate ( 1 ) and a process ( 7 ) and a second connection port ( 21 ) in the region of the diagonally opposite corner of the roofing plate ( 1 ) having. Roofing plate according to one of claims 5 to 7, characterized in that the multiply wound pipeline ( 5b ) at least in the vicinity of the inlet ( 6 ) and in the vicinity of the process ( 7 ) each have a flexible area, in particular a flexible arch area ( 24 ) having. Roofing panel according to one of claims 1 to 8, characterized in that the water guiding device ( 5 ) consists of metal, in particular of copper or is made of plastic. Roofing panel according to one of claims 1 to 9, characterized in that the area visible in a roof area ( 8th ) of the upper part ( 3 ) of the roofing plate ( 1 ) has a flat surface, wherein on the flat surface of the upper part ( 3 ) a solar device, in particular a photovoltaic device ( 9 ) is attachable. Roofing panel according to one of claims 1 to 10, characterized in that the lower part ( 2 ) on its underside ( 10 ) has at least a portion with a flat surface, wherein the flat portion of the lower part ( 2 ) a thermal insulation ( 11 ) is attachable. Roofing panel according to one of claims 1 to 11, characterized in that with the roofing plate ( 1 ) A roof surface with a completely flat bottom and completely flat top can be produced. Roofing panel according to one of claims 1 to 12, characterized in that a rainwater drainage on or below a viewing plane ( 12 ) of the lower part ( 2 ), in a main ceiling plane ( 13 ), in a middle ceiling plane ( 14 ) and in a lower ceiling level ( 15 ), wherein the rainwater drainage preferably both transverse grooves ( 16 ) as well as longitudinal channels ( 17 ) for water drainage. Roofing panel according to one of claims 1 to 13, characterized in that the upper part ( 3 ) consists of a foamed material, in particular of a heat-insulating plastic Roofing panel according to one of claims 1 to 14, characterized in that on the underside ( 10 ) of the lower part ( 2 ) a thermal insulation ( 11 ), the thermal insulation ( 11 ) preferably fully flat at the bottom of ( 10 ) Parts ( 2 ) is present. Roofing panel according to one of claims 1 to 15, characterized in that at the bottom ( 10 ) of the lower part ( 2 ) a stabilizing element ( 18 ) is attachable, wherein the stabilizing element ( 18 ) preferably between the underside ( 10 ) of the lower part ( 2 ) and a thermal insulation ( 11 ) is attachable. Roofing panel according to one of claims 1 to 16, characterized in that between the lower part ( 2 ) and the upper part ( 3 ) a fastening module ( 19 ) is arranged so that the cavity between the mounting module ( 19 ) and the upper part ( 3 ) is trained. Roofing panel according to one of claims 1 to 17, characterized in that the visible in a roof surface area of the upper part ( 8th ) Longitudinal channels ( 17 ) having. Roofing panel according to one of claims 1 to 18, characterized in that a cavity is present, in which a container as a water guiding device ( 5 ) is introduced, wherein the container in its ridge-side region an inlet ( 6 ) and in its eaves-side area a sequence ( 7 ), and being on the flat, in a roof surface sichtba ren area ( 8th ) of the upper part ( 3 ) a photovoltaic device ( 9 ) and at the bottom ( 10 ) of the lower part ( 2 ) a thermal insulation ( 11 ) are mounted.