DE2618827A1 - SOLAR PANEL - Google Patents

Description

Bruno Riech ^ό <. '. ο. rl .-: ■ « _iä ι.- _Λ yr. . <11

7990 Friedrichshafen 5 r? -; - ·. ; ■■■■■ ι

Ehlerv ·. · ■ -... ■ ■ '■ /--..^j ⁷

Solar collector

The invention relates to a solar collector which consists of tubes through which a heatable medium flows and relates to an expedient and advantageously usable configuration of such a solar collector.

Solar panels are already different in a large number Embodiments are known and have been used to convert the radiant energy of the sun into thermal energy partially proven in practice. In many cases, pipes through which a heatable medium flows are used is heated by the electromagnetic radiation and fed directly to a consumer or a heat exchanger.

The tubes are usually made of a corrosion-resistant plastic and are arranged directly next to one another in the known Auegestaltungen and embedded in a base body so that the collector is not an independent, load-bearing component . Rather, such collectors are to be attached separately to roofs or walls and are not or only slightly resilient. Above all, however, the efficiency is low, since the radiant energy supplied m.,; can be insufficiently exploited. Despite the great construction costs, it is

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a versatility and a tasty host Use of the previously known solar collector structures is not given.

It is therefore the object of the invention to provide a solar collector consisting of tubes through which a heatable medium flows to create which does not have these disadvantages, but which is extremely simple in terms of design and thus is economical to manufacture and easily adapted to the respective structural conditions without difficulty can be. Above all, it should be achieved that the collector forms a stable component that on versatile way can be used with almost no problems and that the heat radiation supplied is always to a large extent without that the position of the collector must be changed due to the changing angle of incidence, is exploited, so that an extremely economical use is given.

According to the invention, this is achieved in that the tubes are arranged at a lateral distance from one another and one below the other are each firmly connected by profiled spacers, which are formed directly on the pipes or in the Pipes are formed in such a way that the collector is designed as a wave-shaped load-bearing element.

The intermediate pieces are advantageously formed from one or more ring segments that are uniformly curved with the radius of curvature of the tubes or irregularly , with an intermediate piece consisting of several ring segments, the segments are to be arranged in such a way that their radii of curvature alternate with one another.

The profiled intermediate pieces can also be parabolic be designed mig, which are arranged rotated by 180 to each other in several barbar parts lined up in a row are.

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In order to increase the rigidity, it can be attached to the individual ring segments by means of a flat ring To connect the section into which these merge before reaching the horizontal.

The inner circumferential surfaces of the pipelines can also be profiled to enlarge the surface, e.g. in the form of internal teeth. The external shape of the Pipes can correspond to a triangle with curved side surfaces, onto which the profiled intermediate pieces are molded are.

It is also useful to share the pipelines of one or more collectors via end pieces that can be placed on them or to be connected in series to a supply and return line.

The end pieces should each be provided with a continuous or subdivided transverse channel into which all or in each case only two adjacent pipelines open and to which a connection piece for the supply and discharge line is connected, and to connect the end pieces with the collectors can screw-in banjo bolts in the pipes or the like. be used.

To connect the collectors to one another, it is advantageous to to form profile strips running parallel to the pipelines on their long sides, which form the profile strips of the adjacent collectors are each assigned in such a way that they receive them or engage in them.

At least one of the profile strips of a collector should be used here be provided with a preferably angled support attached below the pipelines in order to ensure a safe

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To ensure support of the collector.

Below the collector can also be used to stabilize it one or more transverse StableiSv.en or the like, which are preferably supported on the profile strips.

and a preferably reflective insulating layer can also be arranged.

It is also appropriate that the profile strips of the collectors each have a support that runs above the pipelines to be provided for a cover, the covers to create a connectable to a separate heat circuit Air spaces should be attached at a distance from the pipelines.

In order to avoid noise in particular when exposed to wind, one or more piping strips should be used between the profile strips of adjacent collectors.

The pipelines and / or the profiled intermediate pieces can also be used to better utilize the supplied radiation be provided with a thermal radiation absorbing coating or covering.

A particularly advantageous embodiment results from the fact that the pipes and intermediate pieces can be installed in a translucent body, for example a sun visor.

A solar collector designed according to the invention is not only extremely simple in terms of its structural design and thus to be produced in an economical manner, but such a collector also enables one above all

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good utilization of the supplied electromagnetic radiation, so that a high degree of efficiency can be achieved when converting the radiant energy into thermal energy. Further the solar collector can be used as an independent load-bearing element. Namely that of a heatable Medium flowing through pipes of a solar collector firmly connected to one another by profiled spacers, on which the pipes are molded or in which the pipelines are molded, so a very high static strength is given and the electromagnetic radiation always hits the tubes and the spacers several times, so that only a small amount Share is reflected unused. This guarantees a good level of efficiency even with less intense solar radiation .

Furthermore, it is not necessary, according to the invention adapted collector to the respective position of the sun. The rays supplied to it are namely through the tubes and / or the profiled intermediate pieces are always optimally used at at least one point, so that the tubes The medium flowing through can almost always be heated evenly and in a short time.

Another advantage is that the profiled intermediate pieces increase the rigidity of the collector to such an extent that it can be used directly as a component. The waveform gives it the necessary stability so that special supports can be dispensed with. Rather, the collector can be integrated into a roof or a wall without special structural measures having to be taken. The undulating design also compensates for the lateral expansion.

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And since the proposed solar collector from one profile that can be economically manufactured is this without difficulty both in width and in length to the respective structural conditions adapt. The use of end pieces for connection to the supply and discharge lines makes it possible that the Adaptation can be made directly at the construction site. This means that assembly is extremely simple and inexpensive Given.rDer solar collector according to the invention thus has a large area to absorb the electromagnetic radiation, in addition, the radiation is almost always multiple reflected on the tubes and the profiled intermediate pieces, so that an extremely high utilization of the energy supplied is guaranteed. Due to this configuration, there is also a versatile use for converting the radiant energy in thermal energy possible. This can be done in an advantageous manner can be achieved in that the collector as a load-bearing roof or swimming pool cover, as a wall element as well Heat exchanger, e.g. in a swimming pool, is used. And since the manufacturing and assembly costs are almost nonexistent Precautions for the installation of the proposed collector are to be taken, are small, in this way the solar energy be exploited to a high degree.

Further details are given in the exemplary embodiments illustrated in the drawings, which are explained in detail below. Here shows:

Fig. 1 a solar collector formed from tubes and profiled intermediate pieces in section,

FIG. 2 shows a part of the solar collector according to FIG. 1 on an enlarged scale,

3 shows the end piece provided in the solar collector according to FIG. 1 and for connecting the pipelines among each other in section ;,

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FIG. 4 shows a different embodiment of the solar collector according to FIG. 2,

5 shows the solar collector according to FIG. 1 installed in a sun visor and

FIG. 6 shows a plan view of the sun visor according to FIG. 5.

The one shown in Fig. 1 and designated 1 on editions 2 supported solar collector is used to convert the radiation energy supplied by radiation 3 into thermal energy Energy. The solar collector 1 consists essentially of tubes arranged at a distance from one another 11, 11 ', 11 "o .., which form the pipes 12 for the heatable medium flowing through them, as well as profiled Intermediate pieces 13 which are formed on the pipes 11 or in which the pipes 12 are formed and through which these be firmly connected to each other. In this way, a wave-shaped load-bearing element is created, which is used as a profile is easy to manufacture economically and both in length and in width to the structural conditions can be easily customized.

The profiled intermediate pieces 13 are each composed of ring segments 14 and 15 which are curved in opposite directions to one another. The ring segments 14 and 15 are connected to one another by sections 16 which are inclined by no more than a maximum of 20 ° with respect to the perpendicular. The centers M of the pipelines 12 and the centers M ^ and M2 of the ring segments 14 and 15 lie in a plane 17. However, it is also easily possible to offset the centers of curvature M and M2 with respect to one another.

This configuration not only achieves a high level of stability for the collector, but also a high level of stability

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Surface created to use the electromagnetic radiation. In addition, as shown in FIG is shown, always reflected several times by the tubes 11 and the profiled intermediate pieces 13, so that only one a small part of the radiation 3 is emitted unused and thus a rapid and intensive heating of the through the pipelines 12 flowing medium is guaranteed.

In order to feed the heated medium e.g. to a heat exchanger or to bring it into the collector 1, like this is shown in Fig. 3, end pieces 21 attached. The end pieces 21 each have a transverse channel 22 which can be designed continuously or in such a way that only two mutually adjacent pipelines are connected to them are connected. This will. achieves that the medium flows serpentine through the collector 1. At the end pieces

21 are also screwed connections 23, to which one Feed or a return line is to be connected. It is but also possible, the supply or return line directly to be connected to banjo bolts 25.

The end pieces 21 are fastened to the collector 1 by means of hollow screws 25 which are screwed into a thread 26 cut into the pipelines 12 . And since the hollow screws 25, which penetrate the end pieces 21 in a liquid-tight manner by means of a seal 28, are provided with lateral free pa ments 27, the medium flowing through the pipes 12 can pass through the hollow screws 25 into the transverse channel

22 arrive.

To connect several KoIIeLcoren 1 to each other are on the longitudinal sides of which run parallel to the pipelines 12 profile strips 31 and 32 are formed, which intermesh. Below the pipelines 12, the profile strips 31 and 32 are provided with supports 33 and 36, respectively, to ensure a good

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To enable support of the collector 1. The angled support 36 of the profile strip 32 or one on the Profile strip 31 molded web 35 also serve to support a transverse rod strip 34 through which the tubes 11 and the profiled intermediate pieces 13 of the collector 1 are supported under extreme loads can. In addition, a reflective insulating layer 37 is attached below the collector 1.

On len profile strips 31 and 32 are also above of the pipes 12 supports 38 and 39 are integrally formed, which are used to hold a cover 40. And there the covers 40 are arranged at a distance from the pipelines 12, an air space 41 is created, which via connections 42 and a transverse channel 43 fastened to the end pieces 21 by means of screws 44 is connected to a separate heat circuit can be so that the air heated by the electromagnetic radiation is used.

To fasten the covers 40, screw channels 46 are incorporated into the profile strips 31, into which screws 48 can be screwed. And since the screws 48 are supported on the cover strips 47, the covers 40 are fixed by these against the in the supports 38 and 39 of the profile strips 31 b2w. 32 an inserted seals 45 pressed so that not only the air space is sealed, but also the supports 40 are held. Between tween the profile strips 31 and 32 are further to avoid possible rattling noises, piping strips 49 are arranged.

In the solar collector 50 shown in Fig. 4 are the the intermediate pieces 53 connecting the pipes 51 are parabolic and the individual parabolic parts 54 and 55 are each arranged rotated by 180 against each other. The tubes 51 into which the pipelines 52 are incorporated are

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here designed in its outer shape as a triangle with curved side surfaces, so that they are also visually parabolic Intermediate pieces 53 are adapted. To increase the surface area of the pipelines 52, their inner surfaces are profiled, e.g. in the form of an internal toothing 56.

In FIGS. 5 and 6 it is shown that the solar collector can also be installed in a sun visor 61 without profile strips can. The sun visor 61 is here rotatable about a bolt 63 formed on an end piece, so that this easily the Sun position can be tracked. The medium to be heated is passed through the end piece 62 to the collector via connections 64 1 supplied or discharged. The air heated in the sun visor 61 can be taken off via the connection 65.

A 9003 e-27. April 1 * 76

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Claims (19)

Patent claims: y Solar collector, consisting of pipes through which a heatable medium flows, characterized in that the pipes (11, 11 ', 11 ".. ·) are arranged at a lateral distance from one another and are firmly connected to one another by profiled intermediate pieces (13) which are attached to the pipes (11, 11 ', 11 ") are directly molded or molded into the pipes (12) in such a way that the collector (1) is designed as a wave-shaped, load-bearing element. 2. Solar collector according to claim 1, characterized in that the intermediate pieces (13) are formed from one or more ring segments (14, 15) which are curved uniformly with the radius of curvature (M) of the tubes or irregularly. 3. Solar collector according to claim 2, characterized in that «that in the case of an intermediate piece (13) formed from several ring segments (14, 15), the segments are arranged in such a way that whose radii of curvature alternate with one another. 4. Solar collector according to claim 1, characterized in that the profiled intermediate pieces (53) are formed in a parabolic shape, which are arranged rotated by 180 ° with respect to one another in the case of several parabolic parts (54, 55) lined up in a row. 5. Solar collector according to one of claims 1 to 4, characterized in that the individual ring segments (13, 53) connected to one another by a flat section (16) into which they merge before reaching the scales (17) are. 709846/0122 _omQ , _NAUNS P _E CT _E D '*' - * 2Γ- 6. Solar collector according to one of claims 1 to 5, characterized characterized in that the inner circumferential surfaces of the pipelines (52) are profiled to increase the surface areas, e.g. in the form of internal teeth (56). 7. Solar collector according to one of claims 1 to 6, characterized in that the Außenfona of the tubes (51) is a triangle with curved side surfaces corresponds to which the profiled intermediate pieces (53) are formed. 8. Solar collector according to one of claims 1 to 7, characterized in that the pipes (12) one or more Collectors (1) via end pieces (21) that can be placed on them together or in series with a supply and return line (24) are connected. 9. Solar collector according to claim 8, characterized in that the end pieces (21) each with a continuous or subdivided transverse channel (22) are provided, in which all or only two adjacent pipelines (12) open and to which a connection piece (23) for the supply and discharge line (24) is connected. 10. Solar collector according to claim 8 or 9, characterized in that that the end pieces (21) by means of hollow screws (25) or the like that can be screwed into the pipes (12). with the Collector (1) are firmly connected. 11. Solar collector according to one of claims 1 to 10, characterized in that for connecting the collectors (1) each other on their long sides parallel to the Pipes (12) extending profile strips (31, 32) are formed, which the profile strips of the adjacent collectors are each assigned in such a way that they receive or intervene in them. 709846/0122 - MT- 12. Solar collector according to claim 11, characterized in that that at least one of the profile strips (31) of a collector (1) is provided with a preferably angled support (33) attached below the pipelines (12). 13 «. Solar collector according to claim 12, characterized in that that below the collector (1) to stabilize it one or more transverse, preferably to the Profile strips (31, 32) supporting rod strips (34) or the like. are arranged. 14. Solar collector according to claim 12 or 13, characterized in that that a preferably reflective insulating layer (37) is provided below the collector (1). 15. Solar collector according to claim 12, characterized in that the profile strips (31, 32) of the collectors (1) each are provided with a support (38, 39) for a cover (40) running above the pipelines (12). 16. Solar collector according to claim 15, characterized in that the cover (40) to create an air spaces * (41) which can be connected to a separate heat groove circuit (41) old spacing on the pipelines (12) is attached. 17. Solar collector according to one of claims 1 to 16, characterized in that between the profile strips (31, 32) Adjacent collectors (1) each have one or more welt strips (49) used. 18. Solar collector according to one of claims 1 to 17, characterized in that the pipes (12; 52) and / or the profiled intermediate pieces (13; 53) are provided with a thermal radiation absorbing paint or coating. 709846/0122 ORIGINAL INSPECTED H 261 * 827 19. Solar collector according to one of claims 1 to 18, characterized in that the pipes (12; 52) and intermediate pieces (13; 53) are built into a translucent body, e.g. a sun visor (61). A 9003 e ~ r
April 26, 1976 709846/0122 L INSPECTED