DE102008026163A1 - Solar panel, particularly solar collector panel for collector system, comprises pipeline structures for transmission of heat exchanger medium, and bar structures for supplying heat receiving surface - Google Patents

Abstract

The solar panel comprises pipeline structures (R1,R2,R3) for transmission of a heat exchanger medium, and bar structures (S1,S2) for supplying heat receiving surfaces (A1,A2,A3,A4). The solar panel is produced as extruded section, and is arranged in the inner areas of the pipeline structures in a non-circular manner. Longitudinal profilings (L1,L2,N1,N2) are formed in the inner areas of the pipe structures. The panel is made of aluminum.

Description

The The invention relates to a solar collector panel, as well as on a collector system made including it.

solar collectors which as such serve to heat a liquid heat exchange medium typically a plate element to which pipes are welded through which a heat exchange medium guided becomes. These plate elements are in the area of their back from an insulating layer and in the area of its radiation-exposed Front covered by a pane or film structure.

Of the Invention has for its object to provide a technique by which collector systems can be manufactured, which are characterized by a robust Structure, and a high overall efficiency.

This object is achieved by a solar panel with:
a pipe structure for passing a heat exchange medium, and a plate structure for providing a heat receiving surface, said solar panel is made as an extruded profile and the interior of the pipe structure is designed out of round.

Thereby is it possible in an advantageous manner to create a solar panel, characterized by a high structural strength characterized and in which a particularly effective heat transfer on the heat exchanger medium is reached.

According to one particularly preferred embodiment In the interior of the pipe structure, the invention relates to longitudinal profiles educated. These longitudinal profiles can as narrow longitudinal webs or also only as small longitudinal noses be educated. These webs can be substantially radially aligned. The bars in turn can be another filigree longitudinal profiling having further heat exchange surfaces. It is possible, the longitudinal profiling formed in the interior of the pipe structure sections to rework so that the flow through the raw structure under pronounced mixing the heat transfer medium he follows. For this it is possible, for example, by an inserted Forming tool sections, z. B. at a distance of 300 mm approximately 8 mm long and about 3 mm laterally evasive -exhibitions on the longitudinal profiles form by which the turbulence of the heat transfer medium in the interior of the pipe structure further supported becomes.

According to one particular aspect of the present invention are these longitudinal profiles in an angular range, in which also the outer web or Heizlamellenstrukturen to the pipeline structure are connected. This ensures that the over the outer bridge or plate sections inflowing heat flow particularly effective from the heat transfer medium is tapped.

The Piping structure itself is preferably designed so that this a jacket with a substantially circular cross-section includes, with inward over this circular ring cross-section those longitudinal profiles and after Outside protrude out those web flank or plate structures.

The outward hervorkragenden web or Heizlamellenstrukturen can so be formed so that the wall thickness in the course of the pipeline structure slightly increases. The transition area between the outer, on the piping structure abutting Web or Heizlamellenstrukturen and preferably also the Inneneckbereich the longitudinal profiles is designed so that this results in pronounced radii. hereby becomes particularly effective in the formation of notch stresses in these transitional areas prevented.

According to one particularly preferred embodiment According to the invention, the panel is designed such that it has several Tube cross sections includes over common integrally with the profile made web-flank or Plate structures are interconnected. The panel can in particular be formed so that this two or preferably three tube cross-sections includes. At the side edge area of the respective panel profile sections, In particular, angle and channel profile sections may be formed, via which the panel to a larger panel plate can be composed.

The panel according to the invention is preferably made by extrusion in aluminum. It is also possible, the panel made of other materials, especially copper to manufacture.

The panel according to the invention is preferably on the irradiation side with one, the radiant heat input supportive Coating provided. It is possible, on the panel according to the invention a transparent layer, in particular of a glass or plastic material applied. The application of this layer can be by gluing or melting. In the rear area the panel is preferably as possible smooth and shiny executed.

The panel according to the invention is preferably incorporated in a solar collector housing and in the area his back with a heat insulating layer, preferably made of a foam glass material is made, provided. The heat supply accessible Panel front is preferably by a disk structure or covered a film structure, reducing heat dissipation by ambient air convection is reduced.

In The pane structures covering the front of the panel can be visual active geometries, in particular lens structures be formed, through which a certain focus of the incident radiation is reached.

The panel according to the invention is particularly suitable for the realization of a for heating a liquid Heat exchange medium, especially oil or preferably water added with additives. The panel according to the invention Can also be used as a cooling structure for cooling of photovoltaic systems and possibly also as a heating structure used for indoor heating. The panel according to the invention Can also be used as a heat exchanger profile in floor coverings, especially in asphalt areas embedded, for example, are laid outdoors. In a particularly advantageous manner, the profile according to the invention on existing trapezoidal sheet roofs be screwed, the profile of the invention preferably in the Gutter areas is moved. On the profile so laid can then possibly transparent, leaving a small gap of preferably about 5 to 15 mm disc elements are placed. The disc elements can rest on the trapezoidal webs of the trapezoidal sheet metal roof.

Further Details and features of the invention will become apparent from the following Description in connection with the drawing. It shows / shows:

1 3 is a perspective view for illustrating the construction of a panel according to the invention with three integrally connected tube sections provided with longitudinal ribs,

2 a hand sketch to illustrate a further profile cross-section of a panel according to the invention,

3 a sketch to illustrate the frontal exposure of the tube cross-sections of the panel,

4 a hand sketch to illustrate the structure of a temperature-resistant elastomeric material component for effecting the integration of the panel in a medium circuit,

5 a perspective sketch for further illustration of the elastomer component according to 4 .

6 a hand sketch to illustrate a box section for receiving the elastomer component after the 4 and 5 as well as for the frontal completion of a composite of several, solar collector panels according to the invention panel plate.

7 4 is a schematic illustration for illustrating the structure of a connection component made of an elastomeric material for tapping or supplying a heat exchanger medium to the panel;

8th a perspective view of the panel after 1 with an exemplarily exposed end section of the pipeline structure R2,

9a to 9d various sketches to illustrate further, constructive details of a manufactured, including a solar panel according to the invention collector.

This in 1 illustrated, solar panel according to the invention comprises a plurality of pipe structures R1, R2, R3, which serve as such for the passage of a liquid or optionally also gaseous heat exchanger medium. The solar panel further comprises a plurality of web or plate structures S1, S2, which project outwardly beyond the pipe structures R1, R2, R3 and are made in one piece with these pipe structures R1, R2, R3. These web or Heizlamellenstrukturen serve to provide a heat receiving surface A1, A2, A3, A4.

The Solar panel according to the invention is manufactured as an extruded profile and is also characterized by it from that the interior of the piping structures R1, R2, R3 is out of round. In the embodiment shown here are in the interior of the pipe structures R1, R2, R3 longitudinal profiles L1, L2 and longitudinal noses N1, N2 formed. These profiles make the entry, the over the heat receiving surfaces A1, A2, A3, A4 incoming Heat in improves the heat exchange medium flowing in the pipe structures R1, R2, R3.

The pipe structures R1, R2, R3 are designed so that they each have a jacket M, which comprises the recognizable here, substantially annular cross-section. The longitudinal profiles L1, L2, N2, N1 as well as the longitudinal webs S1, S2 protrude inwardly from this annular cross-section. The transitions between the longitudinal profiles and the Ste Conditions in the actual main cross-section of the pipeline structure are designed so that notch effects are largely avoided. The transition areas are designed for this purpose with radii, which are preferably larger than shown here in the drawing.

The Solar panel shown here has a total width of 200 mm up and wearing the here recognizable three pipe sections R1, R2, R3. The Pipelines are designed so that they do not have the through the heat receiving surfaces A1, A2, Protrude A3, A4 defined major plane. The longitudinal webs S1, S2 are in this Embodiment as recognizable, cranked formed and have an angle of about 120 degrees to each other on. At height of the outer jacket The tube cross sections R1, R2, R3 go the initially sloping starting sections the web or Heizlamellenstrukturen S1, S2 in the actual main areas of the solar panel. In the area of these main areas is the solar panel with small longitudinal grooves Mistake. The outer shell of the pipe structures R1, R2, R3 is scarce under the heat absorption surfaces A1, A2 ... A4 defined main level.

The the heat absorption serving main surface the solar panel is preferably black anodized and marked in such a way, that one as possible high radiant heat input results. For the processing of this panel as in the roof area to the building Solar panel it is also possible Corrosion and sufficiently durable anodizing of the same in other Colors, especially brick red make.

In the left side edge region which can be seen in this illustration, a longitudinal web is attached to the solar panel according to the invention 4 formed, which can be inserted as such in a longitudinal groove of an adjacent panel. This longitudinal groove 5 is shown in the embodiment shown here along the right edge of the solar panel. In the solar panel according to the invention also other profile geometries can be realized to form from this panel larger, plate-like units, or to facilitate the integration of the same into an overall system. In the embodiment shown here, the width of the panel is about 200 m. the inner diameter of each pipe structure is approx. 12 mm. This panel is particularly suitable for panel lengths of up to 8 m.

hereby will it be possible Collector systems to create the typical roof structures extend from the eaves to the ridge.

In 2 is a profile cross-section of a solar panel according to the invention again illustrated in the form of a hand sketch. This solar panel according to the invention can be designed so that the wall thickness of the relevant for the heat transfer wall zones increases with approach to the respective pipe cross-section R1, R2, R3. On the back of the solar panel further profiles P may be provided, through which the integration of the solar panel according to the invention is supported in an overall system.

How out 3 It can be seen that it is possible to expose short nozzle sections of the tube cross-sections R1, R2, R3 in the end-side end region of the solar panel according to the invention by machining. In accordance with a particular aspect of the present invention, a distributor component can be placed on these exposed pipe sections, which are preferably designed as cylinder surfaces with regard to their external geometry.

In 4 a variant of such a distributor component is shown, which is made of a high-temperature-resistant elastomeric material and a steel mesh insert basic body 7 having. This basic body 7 forms several connecting pieces 8th . 9 . 10 on the in 3 shown, exposed end portions of the tube sections R1, R2, R3 are placed. The fixation of this distributor component on the solar panel can in particular by the in 2 indicated clamp systems 11 reached. By these clamp systems on the one hand, the peripheral walls of the nozzle 8th . 9 . 10 pushed onto the outer wall surfaces of the exposed pipe socket R1, R2, R3 and also secured against removal. In the area of the inner wall sitting on the nozzle sections, a micro-profiling is preferably formed in the elastomer part. The distributor part according to the invention can form part of a range by which the different connection and coupling requirements relevant in paraxis, in particular the shoring in the area of the roof area, are taken into account.

In 5 the structure of this distributor component is further shown. It is possible to use this distributor component as in 6 indicated via a box profile 12 to dress up. This box profile 12 has a cover in this embodiment 13 which is removable as needed and thus an access to the inserted distributor member and the clamp fitting (see 4 and 5 ) releases.

The according to the invention from a Elastomer material manufactured distributor member may also otherwise Have geometries. In particular, it is possible for this distributor component as a crossbeam - like element that points to the frontal area of the Solar panels can be plugged and at the same time also one bearing surface for one, forms the solar panel covering cover plate.

The Solar panel according to the invention can become larger rectangle-box-like Solar collectors are assembled. It is also possible through the solar panel according to the invention larger, in particular To form entire roof areas covering plate elements to thereby especially large-scale solar collector systems to realize.

The Solar collector panel according to the invention is suitable not only for Applications in the roof area, but is particularly suitable to the jalousie arrangement in the facade area. By the solar panel according to the invention can also railing structures, Snow grille solar collectors and otherwise relatively inconspicuous, architecturally appealing Collector systems can be realized.

The Insulation of the back the solar panel according to the invention is preferably carried out by relatively high temperature resistant, preferably non-combustible insulating structures, in particular glass foam or Mineral wool elements. The cover of the front of the solar panel is preferably done by transparent disc systems, the immediate on the solar system according to the invention are attached.

The Heating characteristic can be adjusted by tuning the optical effect provided cover plates are matched. It is possible, optical Medium on the panel. That's the way it is possible, the panel according to the invention to be provided with a transparent glass or ceramic glaze and possibly forming the glaze skin in such a way that it is optically active, in particular developed a focusing effect.

The Solar panel according to the invention can be used in particular for heating heat transfer media, the for the operation of solar thermal power plants are used.

In 7 is a variant of a made of an elastomeric material connection element 20 shown, which is a main body made of an elastomeric material 21 with molded channels 22 having. The in this component 20 Molded channels are designed so that the component 20 with its long side attached to an end portion of a solar panel according to the invention, in particular over a distance of about 35 mm can be postponed. In such a position set the exempted at the end portion of the solar panel according to the invention pipeline structures in the here recognizable nozzle sections 8th . 9 . 10 one. About the window sections shown here, it is possible to these nozzle sections 8th . 9 . 10 Set clamps over which the nozzle sections can be reliably clamped onto the exposed piping structures. On the distributor component shown here 20 are more neck sections 23 . 24 provided, via which an integration of this distributor component 20 can be accomplished in the other heat exchanger media circuit.

At the front of the component 20 is, as recognizable in the sketch, a complementary to the profile cross-section of the associated panel provided lowering section 25 formed. By means of this countersinking section, a particularly advantageous and resilient suspension of the panel according to the invention is achieved via the elastomer component 20 accomplished. The pressing of the aforementioned nozzle 8th . 9 . 10 can by the clamp elements shown here 26 . 27 be accomplished. These clamp elements can be designed so that over the fastening screws shown here 28 . 29 also a positive anchoring is accomplished on the inserted panel.

To the panel according to the invention via a, in 7 as shown, elastomeric manifold component to be able to integrate into the fluid circuit, as shown 8th it can be seen on the panel, the end portions of the tube structures R1, R2, R3, as shown here by way of example for the tube structure R2, are cut free.

The Integration of the solar panel according to the invention in a corresponding fluid circuit can also by other Connection concepts, in particular by soldering preferably from the same material existing piping systems, or by known per se screw or press connections of pipe connection systems be accomplished.

In the 9a to 9d In the form of a family of sketches, further details of a solar collector manufactured with the inclusion of a solar panel according to the invention are shown. The solar panel 30 is in the region of its back with a, preferably made of a metal material radiation protection film 31 covered. Behind this radiation protection film 31 there is an insulation 32 , which may preferably consist of a glass foam profile material, possibly also from otherwise known insulating materials, in particular mineral wool or PU foam. The solar panel according to the invention 30 is at the back by a tub element 33 completed. The solar panel 30 is in this embodiment by an integral with the solar panel 30 executed profile structure with this tub element 33 connected.

In the embodiment shown here, the connection is made by a plurality of rivet connections formed in the longitudinal direction of the peripheral solar panel 34 , At the solar panel 30 is in the edge area continues to have a fastening profile 35 formed, which has a receiving cross section for an earring cord 36 as well as for a frame profile 37 forms. About this attachment profile shown here 35 it becomes possible to get a slice 38 in a sealed manner with the solar panel according to the invention 30 to pair. The tub 33 can be designed so that these only a single, inventive solar panel 30 surrounds. It is also possible to manufacture the tub as Abkantblechbauteil and to make in terms of their width so that it covers several, assembled to a larger collector plate, solar panels according to the invention.

In 9b is in the form of a perspective sketch in the 9a Outlined concept even further illustrated. The frontal end of the solar panel shown here 30 may in particular by recourse to the provisions of the 4 . 5 and 6 as well as in particular 7 illustrated distributor components can be accomplished.

In 9c is shown in the form of a sketch a variant in which the suspension of the solar panel 30 via, preferably of a high temperature resistant extruded plastic component 40 is accomplished with low thermal conductivity value. This makes it possible, any heat losses over the edge region of the solar panel 30 to reduce.

In 9d is a further variant for the connection of a solar panel according to the invention 30 shown. In this case, a thread or otherwise receiving section is milled into the pipeline structure R1 with removal of the longitudinal profiling in sections. In this section can be a connecting piece 50 be screwed over which in the form of a union nut 51 and optionally underlaid seal 52 in a manner known per se, a connection to suitable fluid distribution systems can be achieved.

Claims (10)

Solar panel with: a pipeline structure (R1, R2, R2) for the passage of a heat exchange medium, and one Bar structure (S1, S2, S3) for providing a heat receiving surface (A1, A2 ... A4), this solar panel made as an extruded profile is and the interior of the piping structure out of round is. Solar panel according to claim 1, characterized in the inner area of the pipe structure longitudinal profilings (L1, L2, N1, N2) are formed. Solar panel according to claim 2, characterized that the longitudinal profiling are formed in an angular range in which the outer web or Heizlamellenstrukturen connected to the pipeline structure are. Solar panel according to claim 2 or 3, characterized that the longitudinal profiling several longitudinal noses includes. Solar panel according to at least one of claims 1 to 4, characterized in that the pipeline structure substantially a jacket with circular Cross-section includes from which inward those longitudinal profiles and to the outside protrude those ridge or Heizlamellenstrukturen. Solar panel according to at least one of claims 1 to 5, characterized in that the panel has a plurality of pipe sections includes. Solar panel according to at least one of claims 1 to 6, characterized in that the panel provided in the edge region with Eingriffsprofilabschnitten is over which several panels are assembled into a panel plate can. Solar panel according to at least one of claims 1 to 7, characterized in that formed on the panel profile sections are for forming a disk support structure. Solar panel according to at least one of claims 1 to 8, characterized in that the panel is made of aluminum is. Solar panel according to at least one of claims 1 to 9, characterized in that the panel on the irradiation side anodized.