奥地利专利AT511467A4 APPARATUS FOR CONCENTRATING SUN RADIATION IN AN ABSORBER

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专利摘要:
Device (1) for concentrating solar radiation in an absorber (2), anchoring scaffold (8) and inflatable concentrator cushion (3) having a translucent entrance window (4) for coupling in the solar radiation and a concentrator pad (3) in at least two reflector cavities (6, 7) dividing reflector film (5), wherein the reflector sheet (5) is adapted to concentrate the solar radiation in the absorber (2), which is arranged in the cavity (6) of the concentrator pad (3) , and with an anchoring stand (8) arranged outside the concentrator pad (3) for anchoring the concentrator pad (3), wherein the absorber (2) is fastened to the anchoring stand (8) by means of an absorber suspension (15).
公开号:AT511467A4
申请号:T605/2011
申请日:2011-04-29
公开日:2012-12-15
发明作者:
申请人:Heliovis Ag；
IPC主号:

专利说明:

1
The invention relates to a device for the concentration of solar radiation in an absorber, with an inflatable concentrator cushion, the one; ichtdurchlässi.ges Eintr.i t window for coupling the solar radiation and the concentrator cushion in at least two cavities dividing Refiektor foil has, wherein the reflector film is adapted to the solar radiation in the absorber, which is arranged in the hollow space of the concentrator pad is to concentrate and with an arranged outside the concentrator pad anchoring scaffold for anchoring the Konzentrazor pad.
The invention further relates to a catalytic converter for an inflatable concentrator pad for concentrating solar radiation in an absorber arranged therein, with a scaffold provided for placement outside the concentrator pad, which is designed to anchor the concentrator pad.
Finally, the invention relates to an inflatable concentrator cushion for the concentration of solar radiation in an absorber arranged therein, with a translucent entrance window for coupling the solar radiation and with a concentrator cushion in at least two cavities dividing reflector foil, wherein the Ref l.ektorfoli e set up is to concentrate the solar radiation in the absorber.
In AT 505 075 Bl an inflatable solar collector in the form of a cylindrical tube is described. The transparent tubing at the top is divided into two chambers by a reflector membrane. The reflector membrane mirrored on its upper side extends essentially along the entire tube. For converting the solar energy, an absorber arranged in the longitudinal direction of the solar collector is provided in the chamber above the reflector membrane, which absorber can be designed, for example, as a medium-flowtube; Alternatively, the absorber may be formed by photovoltaic elements. The solar radiation is reflected by the reflector membrane in the direction of the absorber, whereby, for example, a medium is heated in the absorber. For terrestrial energy production, the solar collector is placed in a favorable position 2 to the sun's position and tracked the sun's course. For this purpose, the solar collector is pivotally mounted by means of support rollers about its longitudinal axis. In addition, anchoring straps are attached to the solar collector.
In the previous versions of the absorber was attached directly to the inflatable Sonnenko1lektor. Accordingly, the weight of the absorber (or an associated suspension device) was carried solely by the shell of the solar collector, so that the shell is deformed in the region of Beicstigungsstellen the absorber on the solar collector, This affects the focusing of the solar radiation through the reflector film in the absorber. If the concentrator cushion biased by compressed air carries the absorber, depending on the operating position of the concentrator core it can disadvantageously lead to a greater sagging of the absorber; The weight of the absorber also increases the overall sag of the concentrator pad between its bearing points. The suspension of the absorber on the concentrator pad thus has the adverse effect that the reflected from the reflector film sunbeams are not exactly focused in the line of the absorber. Thus, losses in energy conversion were unavoidable. This problem is more pronounced in larger solar panels of this type, since the extent of dents increases by the suspension of the absorber on the shell with the diameter of the shell.
Accordingly, the object of the present invention is to provide a device, an anchoring scaffold and a concentrator pad of the type mentioned, which are improved in terms of the problems explained above. Accordingly, the absorber should be arranged in operation with high accuracy in the focus area of the reflector film, with a deformation of the concentrator pad is to be reliably avoided.
This object is achieved in the device of the type mentioned by the features of the characterizing part of claim 1, after which the absorber is attached by means of an absorber suspension to the anchoring structure. In the dependent claims preferred embodiments of the invention are given.
Accordingly, the absorber is suspended via the Absorberaufhangung on the outside of the concentrator pad anchoring framework, so that the weight ces absorber or the absorber suspension is carried in an assembled operating position of the device by the anchoring framework. For this purpose, the anchoring framework on sufficient rigidity or stability, which is achieved for example by a metal construction. By the connection of the absorber to the anchoring structure, deformation of the concentrator casing can reliably be prevented, so that the absorber can be positioned with high accuracy in the focus range of the reflector foil. This can significantly increase the efficiency in the Energicumwandlung. In addition, if a uniform suspension of the absorber on the anchoring structure is reversed, a sagging of the absorber under its own weight can be reduced, so that the absorber is arranged over its entire length in the focus of the reflector foil. As a result, the energy yield during operation can be further increased. By using an existing anchoring scaffold in addition to the suspension of the absorber, also a structurally simple, partially-saving design can be achieved, which is characterized by low construction costs.
In a preferred embodiment of the invention it is provided that the absorber suspension is connected to a tracking system of the anchoring structure, which is adapted to pivotally mount the concentrator cushion about at least one axis. The anchorage tracking system is used to track the concentrator pad to the sun gear to position the concentrator pad in a favorable position relative to the sun during operation. For this purpose, it is advantageous if the concentrator pad is pivotably mounted by means of the tracking system about a longitudinal axis of the concentrator pad.
For connecting the absorber suspension to the tracking system of the anchoring framework, it is favorable if the absorber suspension is connected to at least one tracking ring surrounding the concentrator pad, preferably with a plurality of tracking rings spaced apart in the longitudinal direction of the concentrator pad. In the apparatus of the device, the absorber is carried over the absorber suspension by the at least one tracking track of the tracking system which at least partially surrounds the concentrator pad. In order to achieve a uniform suspension of the absorber, a plurality of distributed over the length of the concentrator pad Machführungsringe are preferably provided, which are each connected via the absorber suspension with the absorber. Each follower ring can be composed of several individual rings, which results in a particularly stable, weight-saving construction. For automatic tracking of the concentrator pad to the sun gear, it is advantageous if the Nachführungsringe are rotatably supported by a drive about its central axis, which preferably coincides substantially with the longitudinal axis of the concentrator pad.
In order to compensate thermally induced changes in length of the absorber suspension relative to the anchoring structure, it is advantageous L when the absorber suspension in the longitudinal direction of the absorber is displaceably mounted on the anchoring structure, in particular on Nachführungsring. During operation of the device, the absorber suspension may be subjected to other linear expansions than the anchoring structure. One reason for this is that the thermal Ländenausdehnungen in the absorber suspension or in the anchoring framework can act in different directions. In addition, local temperature differences can occur, which influence the extent of the length changes in the region of the anchoring stand or the absorber suspension. The deviations between the changes in length occurring during operation can now be taken into account by a relative displacement of the absorber suspension relative to the anchoring structure.
For the slidable mounting of the absorber suspension on the anchoring framework, it is advantageous if a linear sliding bearing is formed between the tracking system and the absorber suspension, which has a fixed to the anchoring frame or on the absorber suspension carriage and a corresponding, fixed to the absorber suspension or tracking system on the guide rail. Depending on the design, it is thus also possible to exchange the slide and guide rail at the absorber suspension or at the anchoring stand. Alternatively, other types of storage, such as a roll lay, be provided.
For slack suspension of the absorber on the anchoring structure, it is favorable if the absorber suspension comprises a support arranged outside the concentrator pad, which is connected to: the anchoring device, and an absorber holder arranged inside the concentrator pad, which is connected to the absorber; having.
For uniform, stable suspension of the absorber over the length of the absorber, it is advantageous if the support means of the absorber suspension at least ei.n rohrförmiqes support element, in particular a plurality of each ar. their end portions ineinanderge-stuck tubular support elements having. Tubular support elements are characterized by high rigidity and low weight. The rigidity of such a tubular support member is also independent of the direction, so that in each position of the concentrator pad, which depends in particular on the position of the sun, a minimal deflection of the absorber suspension occurs.
Since the support means of the absorber suspension and the absorber holder may be exposed to different temperatures during operation and thus may have different thermal expansions, it is favorable if the support means arranged outside the concentrator pad and the holding device of the absorber suspension arranged inside the concentrator pad are guided by means of a linear guide, in particular a linear sliding bearing, are mounted to each other displaceable in the longitudinal direction of the absorber.
For connecting the arranged outside of the concentrator pad support means of the absorber suspension with the arranged inside the concentrator pad absorber holder, it is advantageous if the arranged outside the concentrator pad support means and disposed within the concentrator pad absorber holder of the absorber suspension via a mounting opening sealed on all sides of the concentrator pad are connected together. The attachment opening of the concentrator pad is expediently provided in the region of the entry window, which is preferably formed by a transparent (plastic) film. For this purpose, it is favorable if the entrance window has two substantially parallel Fo.Lienbahnen, wherein the attachment opening is formed between the film webs; Depending on the design, the absorber holder is connected to the carrying device (and thus to the anchoring stand) at certain intervals or over the entire length of the absorber suspension. In this way, a uniform support of the absorber can be ensured along its longitudinal extent.
For sealing the attachment opening of the concentrator pad, a welt system is preferably provided, wherein adjacent to the mounting opening portions of the concentrator pad are folded around a piping and fixed by means of inside or outside of the concentrator cushion arranged clamping plates of the absorber suspension.
For sealing the attachment opening of the concentrator pad, it is favorable if a clamping element acting between the clamping plates of the absorber suspension, in particular a screw, is provided for applying a clamping force between the clamping plates. In addition, it may be advantageous if in the region of the folded portions of the concentrator pad adhesive beads are provided, which reliably hold the Kedersystem in the intended position. In order to further reduce or completely prevent sagging of the absorber suspension between adjacent tracking rings of the tracking device, it is favorable if a support or clamping system is arranged between the anchoring frame and the absorber suspension, in particular in an area outside the connections to the anchoring structure. For this purpose, it is particularly advantageous if the support or clamping system has at least one in particular rope-shaped clamping element, the ends of which are attached to the absorber suspension or to the anchoring framework, in particular to a supporting element connected to the tracking ring.
·· ..
The object underlying the invention is further solved by an anchoring structure of the type mentioned, in which the framework has an absorber suspension, which is adapted to, in a connected to the absorber state of. To wear absorbers.
Finally, an inflatable concentrator pad of the type mentioned above is provided to solve this problem, in which the concentrator pad has at least one attachment opening for the passage of a connectable to the absorber absorber suspension. The advantages or technical effects achievable hereby correspond in each case to those of the device explained above, so that reference can be made to these explanations in order to avoid repetition.
The invention will be explained below with reference to the illustrated in the figures Ausführungsbetspienien, to which it should not be limited, however. In detail, in the drawing:
Figure 1 is a perspective view of a device according to the invention for the concentration of solar radiation in an absorber by means of a concentrator pad, wherein the absorber is attached via an absorber suspension to an anchoring structure.
FIG. 2 shows a detail of the concentrator pad shown in FIG. 1, which has a translucent entrance window and a reflector foil dividing the concentrator pad into at least two cavities; FIG.
Eig. Fig. 3 is a schematic detail view of the concentrator apparatus shown in Fig. 1, with the absorber suspension connected to a tracking ring for tracking the concentrator pad to the sun gear;
4 shows a perspective view of a linear sliding bearing between the absorber suspension and the tracking ring (compare FIG. 3); 8th * ·
Fig. 5 is a perspective view of an outside of the concentrator pad mountable carrying device of the absorber suspension of Figure 3, which is composed of a plurality of tubular support elements, which are nested at their end regions.
6 shows a detailed view of the carrying device illustrated in FIG. 5 in the connecting region of two adjacent tubular support elements, wherein the modular structure of the carrying device is shown; FIG.
7 shows a perspective view of the concentrator device according to the invention in the region of a fastening opening of the concentrator pad sealed on all sides for connecting the absorber suspension;
Fig. 8 is a view of an alternative embodiment for sealing the attachment opening of the concentrator pad;
FIGS. 9a and 9b each show schematic support or clamping systems for supporting the absorber suspension between adjacent tracking rings;
10 schematically shows the passage of the absorber through an oval or elliptical-like passage opening at a front end region of the concentrator pad, the passage opening being sealed by means of a sealing device;
11 shows a view of the sealing device according to FIG. 10, which has a clamping part and a molded part (shown side by side);
FIG. 12 shows a cross section through the sealing device along the line XII-XII in FIG. 11; FIG.
13 is a view corresponding to FIG. 11 of an alternative embodiment of the sealing device with a longitudinally displaceable tongue section; FIG. and
14 shows a longitudinal section of the concentra- tion device according to the invention in the area of the end opening for the absorber.
Fig. 1 shows a device 1 for the concentration of solar radiation in an absorber 2. The device 1 comprises an inflatable concentrator pad 3, the structure of Fig. 2 can be seen .. Accordingly, the concentrator pad 3 is an elongated, in Substantially cylindrical or tubular shell, with a. 1 i opaque entrance window 4 for Finkoppeln the solar radiation. The envelope is subdivided by a reflector foil 5 into at least two separate hollow spaces 6, 7, which are each hermetically sealed. The Rc-reflector foil 5 has a mirror surface 5 ', which bundles the coupled-in solar radiation in the direction of the absorber 2. The absorber 2 or the solar panel is located in the focus area of the mirror surface 5 'within the upper cavity 6 of the concentrator cavity 3 adjoining the inlet window 4. As the absorber 2, in particular a tube 2' through which the fluid flows (see FIG ) or a photovoltaic element may be provided. Concentrator 1 can thus be used both for concentrated photovoltaics (CPV = Concentrated Photovoltaics) and for concentrated solar thermal energy (CSP = Thermal Concentrated Solar Power). In operation of concentrator 1, a pressure difference is formed in cavities 6, 7, as a result of which Reflector film 5 is curved uniformly concave, so that the coupled solar radiation is focused by the mirror surface 5 'in the absorber 2. The concentrator pad 3 with compressed air in the cavities 6, 7 is designed to be self-supporting principle, so compared to conventional solar concentrators a significantly lower 2, the concentrator pad 3 is made up of individual thin-walled (plastic) films, and a transparent film is provided for the entry window 4.
As further seen from Fig. 1, for anchoring the concentrator pad 3, an anchoring stand 8 arranged outside thereof is provided for fixing the concentrator pad 3 in a predetermined position. The anchoring frame 8 preferably has a tracking system 9 in order to track the concentrator pad 3 during operation of the sun. For this purpose, the tracking system 9 is adapted to pivot the concentrator pad 3 about at least one axis of the concentrator pad 3, in this case in particular the longitudinal axis of the concentrator pad 3. The tracking system 9 of the anchoring stand 8 has a plurality of spaced apart in the direction of the longitudinal axis 3 'of the concentrator pad 3 Nachführungsringe 10, which surround the concentrator pad 3. Each Nachführungsring 10 consists of several (in the embodiment shown in each case three) individual rings 10 ', which are rotatably mounted by means of Rol 1Vorrichtungen 11. For this purpose, the rolling device 11 on the rings 10 'rolling rollers 12. For pivoting the Nachführungsrings 10 a drive (not shown) is provided. For this purpose, the Nachführungsring 10 may be connected to a toothed belt, which is moved by a motor (not shown). For anchoring to the ground various anchoring elements 13 are provided.
In known embodiments of such concentrator devices 1, the absorber 2 was suspended directly on the concentrator pad 3. However, the suspension of the absorber 2 on the concentrator pad 3 disadvantageously leads to a deformation of the concentrator pad 3 at the attachment points; In addition, the weight of the absorber 2 causes the absorber 2 sags on the concentrator pad 3. This has the disadvantageous effect that the absorber 2 is not arranged in the exact operation in the focus region of the reflector sheet 5 during operation, whereby the efficiency in the energy conversion is impaired.
As shown in FIG. 3, it is provided in the illustrated concentrator device 1 for solving this problem that the absorber 2 is fixed by means of an absorber suspension 15 to the anchoring frame 8, so that the weight of the absorber 2 and the absorber suspension 15 of the essentially rigid anchoring framework 8 is worn. In this way, a deformation of the concentrator pad 3 and thus an insufficient focusing of the coupled-in solar radiation in the absorber 2 can be reliably prevented. As a result, the conversion efficiency of solar energy can be significantly increased. In the embodiment shown, the connection of the absorber suspension 15 to the anchoring frame 8 via the
Nachführungsringe 10 of the tracking system 9, which has suitable connection means (screw, welding, bolt connections, etc.).
As further seen in Fig. 3, the Absorbcraufhängqung 15 a arranged outside of the concentrator pad 3 support means 16 which is connected to the anchoring frame 8, here with a Nachiührungsring 10. The absorber suspension 15 furthermore has an absorber holder 17, which is arranged inside the concentrator pad 3, in the cavity 6, which mi.t. the absorber 2 is connected. For this purpose, the absorber holder 17 has at least one retaining ring 18, which surrounds the absorber 2 (not shown in FIG. The retaining ring 18 consists of two half-shells 19, which are connected to each other via suitable fastening means 20 (screws, bolts, etc.).
As can be seen further from FIG. 3, the carrying device 16 connected to the anchoring stand 8 has at least one tubular support element 21, which is characterized by high rigidity values with low weight.
As can be further seen from FIG. 3, a linear sliding bearing 22 is formed between the tracking system 9 and the absorber suspension 15, so that the absorber suspension 15 is displaceably mounted in the longitudinal direction of the absorber 2 on the anchoring framework 9 or on the tracking ring 10. As a result, temperature-dependent changes in length between the absorber suspension 15 and the anchoring structure 8, here the tracking ring 10, can be compensated.
As shown in Fig. 3 and in more detail from Fig. 4, a slidably mounted on the anchoring frame 8 (in the embodiment shown on Nachführungsring 10) mounted carriage 23 is provided for displaceable storage between Absorberaufhängung 15 and tracking system 9, which relative to a corresponding, at the Carrying device 16 of the absorber suspension 15 fixed guide rail 24 is slidably mounted. The guide rail 24 has a substantially corresponding to a recess in the guide carriage 23 corresponding cross-sectional profile. 12: *
Since the absorber holder 17 and the support means 16 may experience different changes in length due to temperature fluctuations during operation of the device 1, a further Lineargleit.l.ager 22 'is provided, which di e Tragei device 16 and the absorber holder 17 slidably superimposed.
The linear sliding bearing 22 'may be formed corresponding to the linear sliding bearing 22 between the supporting device 16 and the tracking system 9 (see Fig. 4). For this purpose, the other Linea rgleitlager 22 'fixed to the absorber holder 17 guide carriage 23', which is mounted relative to a guide rail 24 'slidably.
Fig. 5 shows a detailed view of the support means 16 of Absorberau suspension 15 with the linear sliding bearing 22, consisting of carriage 23 and guide rail 24. Furthermore, the support means 16 more in each case at their end portions ineinanderge-steckle rohrförraige support elements 21. For this purpose, adjacent support elements 21 have a different diameter, so that the support elements 21 fit into one another.
As can be seen from FIG. 6, the tubular support elements 21 are releasably connected to each other, so that a modular construction of the support means 16 is possible. Depending on the length of the concentrator pad 3, a corresponding number of tubular support elements 21 can thus be connected to one another. For releasable connection of the tubular support members 21, for example, screw 25 may be provided.
As can be seen from FIG. 7, the concentrator pad 3 for connecting the absorber 2 to the anchoring stand 8 has a fastening opening 26, which in the exemplary embodiment shown is in the region of the inlet window 4 of the concentrator pad 3. The support device 16 and the absorber holder 17 are connected to each other via the attachment opening 26. In order to avoid an air leak from the cavity 6 of the concentrator pad 3, the attachment opening 26 is sealed on all sides. For this purpose, a piping system 27 is provided in the embodiment of FIG. 7. The welting system 27 has keder 28 arranged adjacent to the attachment opening 26.
The edges of the transparent membrane of the concentrator pad 3 are folded around the piping 28, so that Kederfahnen 29 are formed. The Kederfahnen 29 are each fixed by means of an adhesive tape 30, preferably made of a foam material, between the umgeschlaqenen sections of the transparent membrane. Furthermore, the Kederfahnen 29 facilitate the gripping and handling of the transparent film during the assembly process, in particular when positioning the Kedcrs between the two clamping plates 31, 32nd
As can also be seen from Fig. 7, the Kederfahnen 29 between clamping plates 31 (see also Fig. 3) of the absorber suspension 15 are clamped. The clamping plates 31, 32 are connected to the support means 16 and to the absorber holder 17, respectively. To apply a suitable clamping force between the clamping plates 31, 32 a through the tubular support member 21 and the KlemmpJatten 31, 32 durchragenaes clamping element in the form of a screw 33 is provided, which is tightened according to the clamping force. In order to prevent slippage of the welt system 27 between the clamping plates 31, 32, on both sides of the mounting opening 26 adhesive beads 34 are provided, which are arranged for example on the inside of the lower, connected to the absorber holder 17 clamping plate 31.
FIG. 8 shows an alternative embodiment for sealing the fastening opening 26 in the transparent inlet window 4 of the concentrator pad 3. As can be seen in FIG. 8, holes are provided at the edges of the transparent film of the entrance window 4, in which fastening means 35 (for example screws or bolts) connected to a plate 31 'of the absorber suspension 15 are suspended. The perforated portions of the entrance window 4 are sealed with the interposition of seals and clamped by means of nuts 36.
The attachment of the absorber 2 to the anchoring frame 8 is preferably carried out at each spaced in the longitudinal direction of the concentrator pad 3 Nachführungsring 10, each one (in particular according to FIG. 7 and FIG. 8) sealed on all sides mounting opening 26 provided in the concentrator pad 3 is uit connect the arranged within the concentrator pad 3 absorber holder 17 with the outside of the concentrator pad 3 arranged support means 16.
As can be seen from FIGS. 9a and 9b, it is also possible to use a supporting resp. Clamping system 37 may be provided to reduce a caused by the weight of the absorber suspension 15 deformation or sagging between adjacent Nachführungsringen IC. For this purpose, the support or clamping system 37 a plurality of rope-shaped clamping elements 38, the free ends of each of the absorber suspension 15 and a support member 39 of the Veran-kerungsgerüsts 8 are attached.
According to Fig. 9a substantially vertically arranged support members 39 are provided, which at the. Nachführungsringen 10 are attached. The free ends of the rope-shaped clamping elements 38 are connected to the free ends of the support elements 39 and to the absorber suspension 15 (preferably in a central region between adjacent tracking rings 10).
According to the exemplary embodiment illustrated in FIG. 9b, support elements 39 arranged essentially horizontally are also fastened to the tracking rings 10, which support the absorber suspension 15 transversely to the longitudinal direction of the absorber 2.
For coupling peripheral units, such as evaporators, steam turbines or the like., The absorber 2 is guided at the front end portions of the concentrator pad 3 from the cavity of the concentrator pad 3. Heretofore, substantially circular openings have been used in the concentrator pad 3, which have been sealed by means of a plastic flap, whereby, however, only a deficient sealing of the concentrator pad 3 can be achieved.
As can be seen from FIGS. 10 to 14, the concentrator pad 3 in the embodiment shown has an oval or elliptical-like passage opening 40 for the passage of the absorber tube 2 'on at least one end-side end region (see FIG. on. In order to prevent an air outlet in the region of the passage opening 40, a sealing device 41 is provided. As can be seen from FIG. 10, the sealing device 41 has a through-passage tube 41 'produced in particular from a plastic material, through which the absorber tube 2' (not shown in FIG. 10) moves out of the hollow space 6 of the concentrator pad 3 outside is guided.
As can be seen from Fig. 11, the sealing means 41 on an outer side clamping part 42 and an inner side molding 43, which is connected to the DurchstriLtsrohr 41 '(see Fig. 14), not shown in Fig. 11. The clamping part 42 and the molding 43 each have an oval portion 42 'and 43' with the Durchtrittsöffnunq 40, which merges into an elongated tongue portion 42 '' and 43 ''. The passage opening 40 in the molded part 43 is reduced in accordance with its arrangement below the Klemmte.i.is 42 (see Fig .. 12).
10, the transparent film of the entrance window 4 is clamped in the edge region between the molding 43 and the Klernmteii 42 for sealing the passage opening 40 by means of the sealing device 41. In order to improve the sealing effect, 44 sealing elements 45 are provided on both sides of a projecting through the molding 43 and the clamping member 42 screw 44.
As can be seen schematically from FIG. 13, the oval section 42 'or 43' and the tongue section 42 '', 43 '' of the clamping part 42 or the molded part 43 can be formed by individual elements (in particular made of a plastic material, for example polycarbonate) be formed, which in a temporary mounting position to each other in the longitudinal direction (see arrow 46) are displaceable. This has the advantage that production-related tolerances in the region of the passage opening 40 can be compensated. After the oval sections 42 ', 43' and the tongue sections 42'43 '' have been brought into the desired position, the clamping part 42 or the molded part 43 by means of a connecting piece 48 'or 48' '(see arrow 49) in fixed to the final mounting position.
FIG. 14 shows a longitudinal section through the concentrator pad 3 in the region of the absorber outlet. Because of the high
Temperatures in the absorber tube 2 'can occur during operation considerable length changes, which compromise the airtight seal of the concentrator pad 3. In order to make the passage of the absorber 2 through the passage opening 40 airtight as possible, a Faltcn-bellows 50 is provided outside of the concentrator pad 3, which len, for example by Metailschel-len 51 to the sealing device 41 (here on the 43 connected to the molding part passage 41st ') or at the absorber 2 (here on the absorber tube 2') is attached. The bellows 50 adapts during operation to the changes in length of the absorber 2, so that air leakage is reliably prevented.

权利要求:
Claims (15)
[1]
17 • * Claims: 1. A device (1) for concentrating solar radiation in an absorber (2), with an inflatable concentrator cushion (3) having a translucent fcb entrance window (4) for coupling the solar radiation and a concentrator cushion (3) in at least; two reflector cavities (6, 7) subdividing reflector film (5), wherein the reflector film (5) is adapted to the Sonnenst.rahiurig in the absorber (2) which is arranged in the cavity (6) of the concentrator pad (3) , and with an anchoring stand (8) arranged outside the concentrator pad (3) for anchoring the concentrator pad (3), characterized in that the absorber (2) is attached to the anchoring stand (8) by means of an absorber suspension (1.5) ) is attached.
[2]
2. Apparatus according to claim 1, characterized in that the absorber suspension (15) with a tracking system (9) of the anchoring frame (8) is connected, which is adapted to pivot the concentrator pad (3) about at least one axis.
[3]
3. Apparatus according to claim 2, characterized in that the absorber suspension (15) with at least one concentrator cushion (3) surrounding Nachführungsring (10), preferably with a plurality in the longitudinal direction of the concentrator pad (3) beab-stanaet arranged Nachführungsringen ( 10).
[4]
4. Device according to one of claims 1 to 3, characterized in that the absorber suspension (15) in the longitudinal direction of the absorber (2) displaceable on the anchoring structure (8), in particular on the Nachführungsring (10), is mounted.
[5]
5. Apparatus according to claim 4, characterized in that between the tracking system (9) and the absorber suspension (15) a linear sliding bearing (22) is formed, which is fixed to the anchoring frame (8) or to the absorber suspension (15) slide (23 ) And a corresponding, fixed to the absorber suspension or on the tracking system guide rail (24). 18
[6]
6. Device according to one of claims 1 to 5, characterized in that the absorber suspension (15) arranged outside of the concentrator pad (3) carrying means (16) which is connected to the anchoring frame (8), and one within the concentrator Pad (3) arranged absorber holder (17), which is connected to dom absorber (2) has.
[7]
7. The device according to claim 6, characterized in that the support means (16) of the absorber suspension (15) has at least one tubular support member (21), in particular a plurality of each at their Kndbereichen nested tubular Tragelcmentc (21).
[8]
8. Apparatus according to claim 6 or 7, characterized in that the outside of the concentrator pad (3) arranged carrying means (16) and within the concentrator pad (3) arranged absorber holder (17) of the absorber suspension (15) by means of a hinearführung , in particular a Li neargleitla-gers (22), in the longitudinal direction of the absorber (2) to each other! I am stored.
[9]
9. Device according to one of claims 6 to 8, characterized in that the outside of the concentrator pad (3) arranged support means (16) and within the concentrator pad (3) arranged absorber holder (17) of the absorber suspension (15) via an allseitig abgedichtet'e mounting opening (26) of the concentrator pad (3) interconnected s ind.
[10]
10. The device according to claim 9, characterized in that for sealing the attachment opening (26) of the concentrator pad (3) a welt system (27) is provided, wherein the attachment opening (26) adjacent portions of the concentrator pad (3) to a piping (28) turned over and fixed by means of inside or outside of the concentrator pad (3) arranged clamping plates (31, 32) of the absorber suspension (15).
[11]
11. The device according to claim 10, characterized in that between the Klemmpiatten (31, 32) of the absorber suspension (15) acting clamping element, in particular a screw (33), for applying a Klemmkraff between the clamping plates (31, 32) is provided ,
[12]
12. Device according to one of claims 1 to 11, characterized in that between the anchoring frame (8) and the absorber suspension (15) in particular in an area outside the connections to the anchoring frame (8) a support b2W. Clamping system (37) is arranged.
[13]
13. The apparatus according to claim 12, characterized in that the support or clamping system (37) has at least one particular lax-shaped clamping element (38) whose ends on the absorber suspension (13) or on the anchoring structure (8), in particular on a with the Nachführungsring (10) connected support member (39) are attached. 11. Anchoring scaffold (8) for an inflatable concentrator pad for concentrating solar radiation in an absorber (2) arranged therein, with a scaffold provided for placement outside the concentrator pad (3), for anchoring the concentrator pad (3). is furnished, characterized in that the framework comprises an absorber suspension (15) which is adapted to carry in a state connected to the absorber (2) the absorber (2).
[14]
15. An inflatable concentrator cushion for concentrating solar radiation in an absorber (2) which can be arranged therein, with a light-permeable inlet window (4) for coupling in the solar radiation and with a concentrator cushion (3) dividing into at least two cavities (6, 7) Reflector film (5), wherein the reflector film (5) is adapted to concentrate the solar radiation in the absorber (2), characterized in that the concentrator pad (3) at least one attachment opening (26) for the passage of a with the absorber ( 2) connectable absorber suspension (15).
[15]
16. Inflatable concentrator cushion according to claim 15, characterized in that the concentrator pad (3) has at least 20 an end-side end region in particular a ovaJe or el-lipsenä'nnliche passage opening (40) for the passage of the absorber (2).

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同族专利:

公开号 | 公开日

IL229119D0|2013-12-31|

EP2702334B1|2019-02-27|

US9033528B2|2015-05-19|

US20140071551A1|2014-03-13|

ES2727788T3|2019-10-18|

AU2012248104B2|2016-09-29|

TN2013000438A1|2015-03-30|

AU2012248104A1|2013-12-19|

MX2013012653A|2014-07-28|

IL229119A|2017-11-30|

EP2702334A2|2014-03-05|

WO2012145774A2|2012-11-01|

MA35131B1|2014-05-02|

CN103620316B|2016-08-17|

AT511467B1|2012-12-15|

CN103620316A|2014-03-05|

MX337467B|2016-03-07|

WO2012145774A3|2013-06-20|

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EP3015787A1|2014-10-31|2016-05-04|Heliovis AG|Device for the concentration of solar radiation with inflatable concentrator cushion|

EP3015788A1|2014-10-31|2016-05-04|Heliovis AG|Device for the concentration of solar radiation with inflatable concentrator cushion|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA605/2011A|AT511467B1|2011-04-29|2011-04-29|APPARATUS FOR CONCENTRATING SUN RADIATION IN AN ABSORBER|ATA605/2011A| AT511467B1|2011-04-29|2011-04-29|APPARATUS FOR CONCENTRATING SUN RADIATION IN AN ABSORBER|

PCT/AT2012/000119| WO2012145774A2|2011-04-29|2012-04-30|Device for concentrating solar radiation in an absorber|

US14/114,295| US9033528B2|2011-04-29|2012-04-30|Device for concentrating solar radiation in an absorber|

ES12721160T| ES2727788T3|2011-04-29|2012-04-30|Device for the concentration of solar radiation in an absorber|

AU2012248104A| AU2012248104B2|2011-04-29|2012-04-30|Device for concentrating solar radiation in an absorber|

EP12721160.5A| EP2702334B1|2011-04-29|2012-04-30|Device for concentrating solar radiation in an absorber|

MX2013012653A| MX337467B|2011-04-29|2012-04-30|Device for concentrating solar radiation in an absorber.|

CN201280030241.XA| CN103620316B|2011-04-29|2012-04-30|For sunray being focused on the device in absorber|

IL229119A| IL229119A|2011-04-29|2013-10-28|Device for concentrating solar radiation in an absorber|

TNP2013000438A| TN2013000438A1|2011-04-29|2013-10-29|Device for concentrating solar radiation in an absorber|

MA36458A| MA35131B1|2011-04-29|2013-11-20|Device for concentrating solar radiation in an absorber|

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