DE102010047291B3 - Absorber for use in solar heat collector arrangement that is utilized as e.g. facade element, has plate elements comprising additional region utilizable as fixing region after separation of edge-side material portions of plate elements - Google Patents

Abstract

The absorber (22) has a plate element connected with another plate element (26), where the plate elements define a fluid stream space through which heat-absorbing fluid flows. The plate elements comprise a useful region in which the fluid stream space is arranged, and an edge-side fixing region for fixation of the absorber at a frame. The plate elements comprise an additional region arranged between the useful region and the fixing region and utilizable as the fixing region after separation of edge-side material portions of the plate elements. Independent claims are also included for the following: (1) a solar heat collector arrangement comprising an absorber (2) a method for manufacturing a solar heat collector arrangement (3) an arrangement for manufacturing a solar heat collector arrangement.

Description

The invention relates to an absorber for use in a solar collector arrangement, comprising two interconnected plate elements, which define at least one fluid flow space, which is durchströmbar or flowed through with a warm-absorbing fluid, wherein the plate elements have a Nutzbereich in which the Fluidstromungsraum is arranged, and an edge-side Fixation area for fixing the absorber to the frame.

From the DE 10 2008 064 010 A1 is a solar collector assembly in the form of insulating glass construction with a plate-shaped absorber known. The absorber is made of two thin sheets, which are completed gas-tight bordering. The boundary of the absorber is encompassed by a profile-U-shaped retaining element which fixes the absorber in the interior of the insulating glass structure.

The known solar collector arrangement has the disadvantage that a corresponding large number of absorbers of different sizes must be kept ready for a large number of different collector construction sizes. This complicates and increases the cost of producing a corresponding facade element, which precludes rapid spread. From an ecological point of view, however, it is desirable to be able to deploy as many facade elements as possible for the use of solar energy as quickly as possible.

Proceeding from this, the present invention seeks to provide an absorber of the type mentioned, which simplifies the production of a variety of different sized solar panels.

According to the invention, this object is achieved in that the plate elements have an additional region arranged between the working region and the fixing region, which region can be used or used as a fixing region after separation of edge-side material sections of the plate elements.

In the absorber according to the invention an additional area is provided, which can be reduced if necessary. The additional area adjoins the working area and is free of fluid flow paths. By separating marginal material sections of the plate elements of the additional area is reduced, but such that the remaining portion of the originally held additional area can be used as a fixing area.

The invention is based on the idea not to maximize the useful range of the absorber in departure from the prior art, but to provide a smaller useful range, whereby the maximum heat absorption capacity of the absorber based on the total area of the absorber is reduced. This disadvantage is deliberately accepted, so that the additional area can be kept ready, which in turn (after separation of marginal material sections) can be used as a fixing area. The separated material sections can be recycled.

The larger the additional area is, the larger the range of measurements that can be filled to produce solar collector arrangements of different sizes. It is preferred if the additional area extends over a height measured between the useful area and the fixing area of at least approximately 10 cm. For example, the distance between a boundary of the useful area and a lateral boundary of the plate elements in an uncontaminated state of the absorber is approximately 15 cm to 25 cm. It is also possible larger values, but at the expense of a deterioration of the ratio of usable range and total area of the absorber.

In particular, it is preferred if two additional areas are provided, which are arranged on opposite sides of the useful area. This makes it possible to provide a symmetrical absorber in which, after adaptation or shortening of the additional regions, the useful region is arranged centrally so that it lies outside a shading region of the frame when the solar collector arrangement is used as a facade element or roof skin element.

It is particularly preferred if the at least one additional region extends over the entire length of the plate elements. This makes it possible to realize an adaptation of the Absorbermaßes by simply knocking edge-side material sections.

For a particularly simple adjustment of the height of the additional area, it is preferred if the additional area is free of fluid connections for supplying fluid to be heated into the fluid flow space and / or for removing heated fluid from the fluid flow space. This allows a particularly simple separation edge-side material sections.

It is also possible for the additional area to be arranged in an absorber area in which fluid connections are present. In this case, the fluid connections (for example in the form of pipe sections) extend through the additional area and can also be adapted accordingly in their length.

The invention further relates to a solar collector arrangement with at least two disc elements which, together with a frame, define an interior in which an absorber described above is arranged. Embodiments and advantages of the inventive solar collector arrangement are described above with reference to the inventive absorber.

The invention further relates to a method for producing a solar collector arrangement, comprising an absorber described above and at least two disc elements, which together with a frame define an interior space for the arrangement of the absorber, which is characterized in that to adapt the height of the absorber to the size of the Interior marginal material sections of the plate elements are separated and that a resulting after separation of the material sections edge region of the additional area is used as a fixing area. Embodiments and advantages of the inventive method are described above with reference to the inventive absorber.

The invention further relates to an arrangement for producing a solar collector arrangement, comprising a first absorber described above and a similar but different sized second absorber and at least two disc elements which together with a frame define an interior space for the arrangement of one of the absorbers, wherein the arrangement is characterized in that the first absorber has a first structural height and the second absorber has a second, lower overall height, that the height of the useful area of the first absorber is greater than the height of the usable area of the second absorber and that the height of the second absorber is at least as great as the overall height Effective area and fixing area of the first absorber.

The above-mentioned arrangement has the advantage that a very large construction height span can be bridged by providing only two differently sized absorbers. In this case, the height of the largest possible solar collector arrangement corresponds to the height of the first absorber, the initial height of which is maintained. In the direction of smaller solar collector arrangements, the first absorber can be used until, with increasing reduction of the additional area, only one fixing area remains for fixing the absorber between the pane elements. If this measure is not reached, the second absorber can be used, which can likewise be reduced so much that only a fixing region adjoining the working region remains.

Further features and advantages of the invention are the subject of the following description and the drawings of preferred embodiments.

In the drawings show:

1 a perspective view of an embodiment of a solar collector assembly;

2 a side view of the solar collector assembly according to 1 ;

3 a plan view of an embodiment of an absorber for use in a solar collector assembly and

4 a plan view of another embodiment of an absorber for use in a solar collector assembly.

An embodiment of a solar collector arrangement is in the drawing as a whole with the reference numeral 10 designated. The solar collector arrangement 10 has two or three parallel to each other arranged disk elements. A first disc element 12 forms an outside of the solar collector assembly. A second disc element 14 is between the first disc element 12 and an optional third disc element 16 arranged. The second disc element 14 or the third disc element 16 forms another outside of the solar collector assembly 10 , When using the solar collector arrangement 10 as a facade element or as a roof skin element forms the first disc element 12 an outer pane and the second pane element 14 or the third disc element 16 an inner pane facing the building interior.

The disc elements 12 . 14 and optionally 16 are preferably formed as glass panes, in particular single-pane safety glass. The material strength of the disc elements 12 . 14 and 16 is for example 4 mm.

The first disc element 12 and the second disc element 14 limit an interior space between them 18 , If a third disc element is present, limit the second disc element 14 and the third disc element 16 between them a gap 20 ,

In the interior 18 is an absorber 22 arranged, which is designed as a flat absorber and is produced in particular in Rollbondverfahren. The absorber 22 For example, has two plate elements 24 and 26 on. It is preferred if a first plate element 24 is formed so that when looking through the first disc element 12 through the absorber 22 just appears. A second plate element 26 points in 1 indicated by dash-dotted lines Fluidstromungswege 28 on which via a fluid connection 30 are fed with warm-absorbing fluid. Heated fluid is via a fluid port 32 from the absorber 22 abfuhrbar.

For spacing the first disc element 12 and the second disc element 14 are frame elements 34 provided, which is between the first disc element 12 and the second disc element 14 along the circumference of the interior 18 extend. The frame elements 34 extend along a bottom 36 the solar collector arrangement 10 , along a top 38 and along side edge areas 40 and 42 which is between the bottom 36 and the top 38 extend. In the drawing, the frame elements 34 extending along the side areas 40 and 42 extend, not shown for reasons of clarity.

If a third disc element 16 is present, are spacing of the second disc element 14 and the third disc member 16 spacer 44 provided, which are also along the bottom 36 , the top 38 and along the side areas 40 . 42 extend.

The frame elements 34 are designed as frame profiles and point to their the first space 18 facing inside guide profiles 46 for receiving edge portions of the absorber described in more detail below 22 on. Along the leadership sections 46 is the absorber 22 slidably mounted so that it heats up the absorber 22 not to tension between the absorber 22 and the frame elements 34 comes.

An outwardly media-tight seal of the first space 18 is by means of a first sealing device 48 reached, which extends along the circumference of the frame members 34 around the first space 18 extends around.

For sealing the possibly existing gap 20 is a corresponding sealing device 50 intended.

The sealing devices 48 and 50 For example, are formed from an elastic sealing compound and allow it, the interior 18 and the gap 20 To seal media-tight to the outside, so no gas exchange between these rooms and the environment of the solar collector 10 can take place.

At a warming of the absorber 22 by solar radiation through the first disc element 12 through to the absorber 22 also warms up in the interior 18 contained gas, such as argon. With increasing warmth, the pressure in the interior increases 18 , Since the gas contained in the optionally existing gap 20 is not heated in a corresponding manner, the pressure in the gap 20 lower. In order - if a third disc element 16 is present - to allow gas pressure equalization, has the second disc element 14 a recess 52 in the form of a hole 54 on. The hole 54 is the only connection between the interior 18 and the gap 20 , which allows a gas pressure equalization. The hole 54 is relatively small and has a diameter of, for example, at most approximately 5 mm, in particular at most approximately 4 mm.

It is preferred if the recess 52 in one of the border areas 40 . 42 is arranged and thus lies outside a main field of view. A distance 56 between a lateral boundary 58 of the second disk element and the recess itself amounts to 25 mm, for example.

The recess 52 is preferably based on the distance between the bottom 36 and the top 38 symmetrical, ie halfway up the middle.

The frame elements 34 form a frame 60 , The height of the Fuhrungsprofile corresponds 46 the high marginal fixation areas 62 respectively 64 an absorber 22a . 22b (see 3 and 4 ). For example, the height of the fixation area is between about 1 cm and about 5 cm.

The fluid flow paths 28 together form a fluid flow space 66 which is within a useful area 68 extends. The useful area 68 is related to a building height 70a respectively 70b preferably arranged centrally. One parallel to the building height 70a respectively 70b Measured height of the working area 68 is with the reference numerals 72a respectively 72b designated.

In each case between the working area 68 and the fixing areas 62 . 64 are additional areas 74 . 76 provided which a high 78a respectively 78b of, for example, at least about 10 cm.

The fixation areas 62 . 64 , the additional areas 74 . 76 and the utility areas 68 extend between the fluid ports 30 32 each over the entire length of the absorber 22a . 22b , The length of an absorber 22a . 22b For example, it is between about 1 m and about 3 m.

The absorber 22a has a height 70a from, for example, 98 cm. The height 72a of the useful area 68 is about 60 cm, for example.

The height of the building 70b of the absorber 22b is for example 70 cm. The height 72b of the useful area 68 of the absorber 22b is about 31 cm, for example.

Thus, the absorber is suitable 22a for use with solar collector assemblies 10 for structural heights between 98 cm and 62 cm (for a fixation range of 1 cm) and the absorber 22b for heights between 70 cm and 33 cm.

The absorber 22a and 22b together form an arrangement which for the production of solar collector arrangements 10 with construction heights between 98 cm and 33 cm is suitable.

Claims (8)

Absorber ( 22 ) for use in a solar collector arrangement ( 10 ) comprising two interconnected plate elements ( 24 . 26 ) having at least one fluid flow space ( 66 ) which can be flowed through or passed through with a heat-absorbing fluid, the plate elements ( 24 . 26 ) a useful area ( 68 ), in which the fluid flow space ( 66 ) is arranged, and a peripheral fixing area ( 62 . 64 ) for fixing the absorber ( 22 ) on the frame ( 60 ), characterized in that the plate elements ( 24 . 26 ) at least one between the working area ( 68 ) and the fixation area ( 62 . 64 ) arranged additional area ( 74 . 76 ), which after separation of marginal material sections of the plate elements ( 24 . 26 ) as a fixation area ( 62 . 64 ) is usable or used. Absorber ( 22 ) according to claim 1, characterized in that the additional area ( 74 . 76 ) over one between the useful area ( 68 ) and the fixation area ( 62 . 64 ) measured height ( 78a . 78b ) of at least about 10 cm. Absorber ( 22 ) according to one of the preceding claims, characterized in that two additional areas ( 74 and 76 ) are provided, which on opposite sides of the useful area ( 68 ) are arranged. Absorber ( 22 ) according to one of the preceding claims, characterized in that the at least one additional area ( 74 . 76 ) over the entire length of the plate elements ( 24 . 26 ). Absorber ( 22 ) according to one of the preceding claims, characterized in that the additional area ( 74 . 76 ) free of fluid connections ( 30 . 32 ) for supplying fluid to be heated in the Fluidstromungsraum ( 66 ) and / or for the removal of heated fluid from the Fluidstromungsraum ( 66 ). Solar collector arrangement ( 10 ) with at least two disc elements ( 12 . 14 ), which together with a framework ( 60 ) an interior ( 18 ), in which an absorber ( 22 ) is arranged according to one of the preceding claims. Method for producing a solar collector arrangement ( 10 ) comprising an absorber ( 22 ) according to one of claims 1 to 5 and at least two disc elements ( 12 . 14 ), which together with a framework ( 60 ) an interior ( 18 ) for the arrangement of the absorber ( 22 ), characterized in that for adapting the height of the absorber ( 22 ) to the size of the interior ( 18 ) edge material sections of the plate elements ( 24 . 26 ) are separated and that a resulting after separation of the material sections edge region of the additional area ( 74 . 76 ) as a fixation area ( 62 . 64 ) is being used. Arrangement for producing a solar collector arrangement ( 10 ), comprising a first absorber ( 22a ) according to one of claims 1 to 5 and a similar but different measure second absorber ( 22b ) according to one of claims 1 to 5 and at least two disc elements ( 12 . 14 ), which together with a framework ( 60 ) an interior ( 18 ) for the arrangement of one of the absorbers ( 22a . 22b ), characterized in that the first absorber ( 22a ) a first height ( 70a ) and the second absorber ( 22b ) a second, lower height ( 70b ) shows that the height ( 72a ) of the useful area ( 68 ) of the first absorber ( 22a ) is greater than the height ( 72b ) of the useful area ( 68 ) of the second absorber ( 22b ) and that the building height ( 70b ) of the second absorber ( 22b ) is at least as large as the total height from the usable range ( 68 ) and fixation area ( 62 . 64 ) of the first absorber ( 22a ).

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