DE2851810A1 - Hollow roofing or cladding solar energy panel - has fluid chamber and ducting channel and top transparent air box - Google Patents

Abstract

For utilisation of radiated solar energy, the panel element is hollow and of normal roofing or cladding panel shape, for laying in the usual way. It comprises two water-tight connected shells, with overlapping edges and a hollow space (8) for passage of liquid. The shells are made of heat-absorbing and conducting material, esp. sheet metal. The upper one in flat and the lower with depressions forming a channel for the liquid. There is a top air box, with transparent cover and sides, and there are top intake and outlet openings, with easily opened seals, as well as serrated profile bars.

Description

Plate element for the use of irradiating

Solar energy The invention relates to a plate element according to the preamble of claim 1 and aims to provide inexpensive individual elements to create nearly the size, shape and weight of conventional roofing panels correspond.

With these plate elements it should be possible to create solar collector surfaces Any size in one, for example, with normal ceramic or natural stone plates to integrate covered roof.

Of particular interest are the relatively inconspicuous and therefore architecturally desirable design types when used on new Residential building roofs. But you can also replace existing roof coverings such solar panels can be used.

Collector plate elements are known e.g. from DE-AS 2626958, DE-GM 7613567, D-GM 7708813 and DE-GM 7520739.

These are handy, easy to combine with conventional ones Building elements to be laid with roof tiles.

However, the known collector elements have proven to be disadvantageous the connection of the heat transfer lines in the case of the large number of plate elements. Partially the plate elements with the connecting pipe coils on the roof or individually soldered together under the ceiling cladding. For this pipe network additional insulation measures are then necessary to prevent heat loss and the To prevent condensation from forming. It also increases as the number of connections increases the risk that leaks occur, which then lead to severe damage to the living space being able to lead.

In the collector element described in DE-GM 7520739 is the connecting contact already integrated directly into the panel elements. The simple connection under Use of a resilient, thickened nozzle and a foam rubber seal is, however, subject to the risk of the environmental conditions occurring on a house roof (e.g., thermal, chemical and mechanical influences) and also because of the under Pressurized heat transfer fluid to become leaky. Even with the other known ones If the collector elements are damaged, one of the, for example, easily breakable Glass formed plate top the possibility that the entire heat transfer fluid emanates.

The invention provides a compact, inexpensive to manufacture universal plate element suggested that this be simply and safely put together during installation, e.g. on the roof and meets the highest requirements. It is characteristic of this with the Part of claim 1 specified features formed.

The main body of the plate element can consist of two preformed shells be formed from thin sheet metal or plastic.

The upper, heat radiation absorbing shell is, apart from the Depressions in the connecting sleeves and nozzles are essentially flat.

In the lower shell there are also recesses for the ducts let in.

All recesses can be made at the same time through rational fabrication techniques, such as by embossing with a metal press or by casting will.

Both shells can be, for example, by welding, riveting or Glue, join together fluid-tight.

As the recesses for the ducts in the lower shell at the same time ensure the stiffening of the base body, can be relatively thin, good thermally conductive material are used for the production.

This lightweight construction has a beneficial effect on heat conduction and the manufacturing costs.

To further increase the efficiency, this base body can be used an air box with a radiolucent, replaceable cover is attached be. Heat- and aging-resistant plastics or glass can be used here will.

Serve for the fluid-tight connection of the plate elements to one another Concave sleeves and convex sleeves already attached during the shaping of the plate shells Nozzles, which are initially all closed and of which according to the desired The flow direction in question can be opened, e.g. according to the type of beverage cans usual zippers.

On the one hand, the laying and the subsequent replacement To enable individual plate elements, on the other hand, but also a solid and To ensure a stable connection are sawtooth-like on two sides of the air box formed profile strips provided on which the terminal strips are pushed. Two side edges of the base body are also designed accordingly.

The plate elements may be given a light weight during manufacture Curvature, so that when plugging together the convex sockets and the corresponding, concave sleeves are pressed into one another by leverage. Serve as an abutment the removable terminal strips.

Because the nozzles and sleeves for the connections in the overlapping areas are located, it is also ensured that in the event of any leaks the escaping Fluid does not get under the covered area but e.g. via the roof cladding in the gutter drains.

The preferred embodiments of the invention are defined by the subclaims which are explained in more detail below.

The feed-through channels formed by depressions in the lower plate shell for the fluid can optionally be designed in a meandering or parallel manner be. It is important that the through-channels are formed by the embossing or casting a particularly aerodynamic shape is given.

On the top of the plate body is used to absorb the Solar radiation applied a dark, matt coating.

To avoid heat dissipation on the underside of the plate element a preformed insulating layer is glued to this or a plastic is foamed.

The nozzles and sleeves for the line connections of the plate elements can optionally be conical or spherical shell-shaped. These forms guarantee a safe, permanent, with the manufacturing precision that is possible today Seal.

Due to the symmetrical arrangement of the sawtooth-like profile strips or plate edges and the inlet and outlet openings of the fluid lines is offset Laying as well as vertical laying on the joint of the panel elements is possible.

For additional protection against ingress of water, e.g. through Wind or capillary action can occur when shaping the overlapping areas Lamellar webs are attached, which after joining two adjacent Plates form a labyrinth-like seal.

By means of the properties described last and through the conventional roof coverings combinable training of the resulting during laying Coverage areas is the construction of larger solar collector areas with a Universal element possible.

The collector plate element according to the invention is based on the following the graphic representation of exemplary embodiments explained in more detail.

They show schematically: Figure 1: Collector plate element (view from the narrow side and top view), Figure 2: Horizontal section through a connecting contact in the overlap area of two plate elements (recess for socket protrudes into Air box area), Figure 3: Horizontal section like Figure 2, but protrudes here the recess for the sleeve into the area of the insulating layer, Figure 4: Example of a collector surface composed of several plate elements, Installed vertically on the joint and offset (top view and side view).

The plate element marked (1) on all drawings (Fig. 1 to 4) consists of the two assembled, preformed shells (9) and (10).

In both dishes, depressions (11) were made beforehand, which then take on two different functions in the finished element: On the one hand, they form Recesses in the lower shell (10) have a cavity (8), which acts as a passage channel (12) is guided in a meandering manner through the plate element to become another the concave sleeves (19) or the convex nozzle (20) formed in the overlap areas a fluid-tight connection between two adjacent plate elements (1 and 2 or 3).

There are easy-to-open closures on all sockets and sleeves (21), which corresponds to the desired direction of flow of the fluid (31) in the Assembly can be removed.

The terminal strip (22), which is clamped in cross-section, is attached to the toothed Profile rail (23/24) pushed on and serves as an abutment for the through light Lever-tensioned connection contacts (27 - 30).

On the surface of the plate body is for absorption of the Solar energy applied a dark, matt layer (25).

The one made of a transparent cover plate (14) and four side walls (15 - 18) formed air box (13) is due to the so-called greenhouse effect Effect an increase in heat absorption.

Toothed ones are parallel to two side walls (15, 16) of the air box Profile rails attached, which are also toothed edges when laying (6,7) of the base plate can be interlocked. The two others Edges (4,5) are straight apart from cutouts at the corners.

To avoid heat loss on the underside of the plate, this is provided with an insulating layer (26).

Claims (12)

Protection claims Ifohles, on roofs or other sun-exposed Plate element that can be attached to surfaces for the use of radiant solar energy the external shape and size of conventional roofing or cladding panels, the Can be laid like such and with the llohlraum for the passage of absorbed warmth draining fluids as well as ICin and outlet openings for fluid passed through is provided in the overlap areas resulting from laying by - two fluid-tightly connected, the base body of the plate element (1) with above and on one side when laying adjacent panel elements (2 covered and below, as well as adjacent plate elements on the other side (3) overlapping edges (4,5,6,7) and also Üen cavity (8) for the to be passed through Fluid-forming shells (9, 10) made of a good that absorbs solar energy thermally conductive material, especially sheet metal, of which those facing the sun Shell (9) essentially flat and the other shell (10) with depressions (11) is provided, which in the well-being room (8) has a channel (12) for the passage of the fluid (29), - an air box (13) on the one facing the sun Shell (9) with a transparent cover plate (14 and side walls (15,16,17,18 ), - when laying the corresponding upper and lower resp. lateral inlet and outlet openings, which are designed as concave sleeves (19) and designed as a convex connector (20) and with easy-to-open closures (21) are provided and - trained like a sagittarius, when laying interlocking and to be provided with a sliding terminal strip (22 Profile rails on the side walls (23,24 of the air box (1) or neighboring ones Plate elements (3 overlapping edges (6,7) of the base body of the plate element (@ 2. l'lattenelement according to claim 1, characterized by a meandering shape running channel (12) for the passage of the fluid. 3. Ilattenelement according to claim 1, characterized by several narrow, parallel channels with collecting channels in the vicinity of the sin and outlet openings for the passage of the fluid. 4. Plate element according to one of claims 1 to 3, characterized by a dark, dull surface of the shell (25) facing the sun. 5. Plate element according to one of claims 1 to 4, characterized by a heat insulating layer (26) on the underside. 6. Plate element according to claim 5, characterized by one made of foamed Heat insulating layer (26) formed from plastic. 7. Plate element according to one of claims 1 to 6, characterized by conical connections (20) and sleeves (19) for the inlet and outlet openings. 8. Ilattenelement according to any one of claims 1 to 6, characterized by spherical shell-shaped nozzles (20) and sleeves (19) for the Sin and outlet openings. 9. Plate element according to one of claims 1 to 8, characterized by one that is intended for vertical laying on a joint as well as offset Formation of the sawtooth-like profile rail on the upper side wall (15 of the air box (13) or the lower edge (6) of the base body and corresponding arrangement the upper and lower sin and exhaust ports (27,28). 10. slat element according to one of claims 1 to 9, characterized through an air box (13) made of heat-resistant plastic. 11. Plate element according to one of claims 1 to 10, characterized through a training that can be combined with conventional roof covering elements coverage areas that can be generated when laying. 12. Plate element according to one of claims 1 to 11, characterized through lamellar elevations or depressions in the coverage areas, when joining two adjacent plate elements a labyrinth-like Form a seal.