DE102009031905A1 - Sunbeam concentrator e.g. parabolic reflector concentrator, for concentrating sunlight on flat mirror, has concentrator system arranged at outer sides of supporting plates that are pivoted with each other - Google Patents

Abstract

The concentrator (1) has supporting plates (4) whose outer sides (41) are arranged with a concentrator system (5). The concentrator system concentrates sunlight on a focal point or a focal line. The supporting plates are pivoted with each other in a closed position when compared to an opened position. The supporting plates are pivoted between the bearings, and the concentrator system includes glass strips whose width is smaller than diameter of an absorber tube (61). The concentrator system consists of a mirror glass, a metal band or a laminated plastic material.

Description

The The invention relates to a sunray concentrator.

Sonnenstrahlenkonzentratoren are known in different designs. Examples are parabolic mirror concentrators, Parabolic trough concentrators and concentrators based of optical cylindrical lenses such. B. Fresnel lenses.

From the DE 203 14 372 U1 For example, a solar beam concentrator is known in which the sunlight is focused on photovoltaic modules at a plurality of flat mirrors arranged on a parabolic carrier. The DE 10 2006 058 995 A1 describes a Fresnel solar collector arrangement in which a plurality of floor-mounted mirror tracks concentrate sunlight onto an absorber.

Of the present invention is based on the object, a simple usable sunray concentrator available put.

These Object is achieved by a sunray concentrator solved with the features of claim 1. refinements The invention are specified in the subclaims.

After that the sunray concentrator has two support plates on, which are arranged pivotally to each other. On the tops the carrier plates is arranged a concentrator system or integrates the sunlight onto a common focal point or a common focus line. The sunbeam concentrator is foldable, d. H. he is between a first, unfolded Position and a second, closed position pivoted. In the unfolded position there is a solar radiation concentration. In the closed position, the carrier plates are in Panned compared to the unfolded position and then run, for example, substantially parallel to each other.

The Provision of a foldable Sonnenstrahlenkonzentrators means a small space requirement during transport, the possibility a quick and easy deployment to the desired Place and thereby the possibility of a simple and mobile Use even in remote areas.

at The concentrator system can basically be a Any system for the concentration of sun rays act. For example, the focus may be on a common focal point (Focal point) or a common focal line (the line in which the sunbeams bundle up) take place. Likewise the carrier plates on which the concentrator system is arranged are fundamentally arbitrary, in particular have a curved, in particular parabolic shape or be formed by flat plates. The concentrator system overflows one or more mirror elements or reflections a light reflection and - concentration through.

In In a preferred embodiment, the concentrator system consists of a plurality of mirror strips. These extend parallel on the carrier plates in an orientation parallel to the axis of rotation. The carrier plates can basically be formed bent. However, they are preferably at least on the top plan formed so that the individual mirror strips arranged on the surface of planar support plates are. This has the advantage of easy manufacturability and Focus on. The mirror strips can z. B. of mirrored Glass, polished metal or made of mirrored plastic. For weight loss is the use of plastic mirror strips advantageous.

Further Can the mirror strips with a scratch-resistant surface finish be provided so that a reliable use over several years even in difficult climatic conditions, such as Use in desert areas, is possible.

In an advantageous embodiment of the invention, the individual Mirror strips firmly arranged on the carrier plates. The carrier plates are in the unfolded position at a constant distance to each other a total of tilting to a tracking to realize depending on the position of the sun. A tiltability the carrier plates as a whole is easier and less expensive as an individual adjustability of the individual mirror strips. in principle however, both solutions are possible. Thus is It is basically just as conceivable that the individual mirror strips individually tiltable arranged on the individual carrier plates are. For this purpose, own adjusting devices for the single mirror strip required. Such an individual Tilting the mirror strips allows for optimal alignment and focusing the reflected light and above In addition, a tracking of the position of the mirror strips depending on the position of the sun.

The sunray concentrator further comprises an absorber through which a heat-storing medium flows. The absorber is ideally located on the focal line so that the reflected radiation is focused on the absorber. In practical terms, it is sufficient if the absorber is arranged close to the focal line, bearing in mind that the focal line is not a mathematical line, but an elongated area in which the intensity of the reflected light has a maximum.

The absorber has, for example, an absorber tube in which the heat-storing medium flows. Furthermore, a vacuum tube is preferably provided which surrounds the absorber tube. The space between the absorber tube and the vacuum tube provides a vacuum for heat insulation. The heated heat-storing medium is guided, for example, in a closed circuit and outputs via one or more heat exchangers energy, for example, to a steam engine, a distillation unit and / or a compressed air storage system. All such components are in one embodiment in a 20 foot container or a 40 foot container according to ISO 668 arranged, whereby a modular, self-sufficient energy recovery and storage system based on renewable energy is provided. The arrangement on a commercial container allows easy transport to any part of the world.

In a configuration is provided that the width of the mirror strips smaller than the diameter of the absorber. this makes possible it that the sunlight reflected by a mirror strip is completely reflected on the absorber.

As already stated is in one embodiment the present invention provides that the carrier plates at least on its upper side, on which the concentrator system is arranged is, just trained. In addition, it may be provided that the carrier plates at its opposite end each have a parabolic trough strip as an end piece, its longitudinal axis is parallel to the mirror strips extends. This makes it possible in the edge region of the carrier plates to reflect incident light onto the absorber.

The Support plates and the absorber are preferably on one Support frame arranged. The support frame comprises in one embodiment a tracking device, which is a tilting of the carrier plates in the unfolded position depending on the position of the sun allows a pivot axis. For exact tracking of the sunray concentrator is a Verkippbarkeit to one further, to the pivot axis perpendicular axis required. Therefore, it can be provided in one embodiment of the invention, that the supporting frame, which carries the sun-ray concentrator, Furthermore, a rotation about such a further axis provides. However, it also be provided that a trackability depending on the position of the sun only in relation to one Pivot axis of the sunray concentrator is given. This will provided a cost effective solution.

In In a further embodiment, the carrier plates are such trained and arranged that they manually, d. H. with the effort a human operator between the first and the second Position are pivotable. This allows in particular easy way to install on site. Also can be provided be that the carrier plates in the unfolded position are fixable, so they are not affected by wind or other influences undesirable fold or partially from the move out unfolded position.

to Pivotability of the two support plates to each other provided a folding mechanism. This can be a common axis of rotation for both carrier plates or a separate axis of rotation for each of the support plates, wherein the both axes of rotation in the second case parallel to each other.

The Invention will be described below with reference to the figures of Drawing on the basis of an embodiment in more detail explained. Show it:

1 in side view an embodiment of a device with an unfolded Sonnenstrahlenkonzentrator in a first orientation;

2 the device of 1 with the unfolded sunray concentrator in a second orientation;

3 the sunbeam concentrator of 1 and 2 in the folded state;

4 a side view of the support frame of the device of 1 and 2 ;

5 a view from above of the device 1 ;

6 a side view of the device of 1 ; and

7 a device according to the 1 in arrangement on a container, wherein in addition the folded, stowed in the container Sonnenstrahlenkonzentrator is shown.

The 1 shows a device that is a sunray concentrator 1 as well as a supporting frame 2 has, on which the sunray concentrator 1 is attached. The device will also be referred to collectively as a sunray concentrator 1 designated. The supporting frame 2 can be placed on any surface or directly with connected to the ground. In one embodiment, the support frame is on the top of a container according to ISO 668 attached. This allows mobile transport of the entire device together with the container.

The sunbeam concentrator 1 has two carrier plates 4 on, which are arranged pivotally to each other. As in particular the representation of the 2 and 3 can be removed, this is a folding mechanism provided, which is a base 9 having at its lateral ends two axes of rotation 90 forms around the the carrier plates 4 are pivotable. In the unfolded state, the ends facing each other 43 the support plates 4 in contact with each other, whereby a further pivoting movement is stopped. In the closed position, in the 3 is shown, the carrier plates 4 swung towards each other. In the closed position, the two support plates run 4 while approximately parallel to each other.

For opening the carrier plates 4 An unillustrated motor drive can be provided. It can also be provided that the carrier plates 4 in terms of weight and size are designed such that they are manually between in the 3 shown closed position and in the 1 and 2 shown unfolded position are movable. It can be provided that the carrier plates 4 can be fixed in the unfolded position with respect to their position, for example by means of a locking mechanism, not shown, or a simple locking (not shown). This prevents the sun-ray concentrator, for example in the case of wind or other influences, from unintentionally moving out of the unfolded position.

According to the 1 and 2 are the carrier plates 4 at least on its top 41 plan educated. Parallel to the axes of rotation 90 are at the top 41 the carrier plates 4 a plurality of mirror strips 5 fixed, the incident light 10 in the direction of an absorber 6 reflect. The individual mirror strips 5 are at a different angle on the planar surface 41 the carrier plates 4 arranged so that all on the Sonnenstrahlenkonzentrator 1 incident light in the direction of the absorber 6 is focused.

The absorber 6 has an absorber tube 61 in which a heat-storing medium flows, which is heated by the reflected rays of the sun. The absorber tube 61 is from a vacuum tube 62 surround. That between the two pipes 61 . 62 The present vacuum provides thermal insulation, thereby increasing the efficiency of heating the heat-storing medium. The heat-storing medium is preferably conducted in a closed circuit and gives off its heat in one or more heat exchangers. The heat is used, for example, to drive a steam engine, for a distillation unit and / or for a heat exchanger of a compressed air storage system. All of these components are just like the solar radiation concentrator 1 in an embodiment in and / or on a container according to ISO 668 arranged.

For holding and positioning the absorber 6 is a heating tube holder 8th provided in accordance with the 5 and 6 adjacent the end faces of the carrier plates 4 extends and the absorber 6 holds. In the heating tube holder 8th In this case, the supply and discharge of the heat-storing medium can be integrated.

The carrier plates 4 have at their opposite ends in each case as a tail a parabolic trough strip 42 on. In this there is a parabolic curved mirror area, whereby at the edge region of the carrier plates 4 incident light more effective on the absorber 6 can be reflected. The mirror area can be about the actual support plate 4 protrude.

The supporting frame 2 includes a framework 21 , which is triangular in shape and the sunray concentrator 1 wearing. It is envisaged that the solar radiation concentrator 1 along an axis 7 with the support frame 2 is connected schenkbar. This axis 7 runs centrally relative to the overall arrangement of the unfolded sunray concentrator. About the pivot axis 7 is the sunbeam concentrator 1 in the unfolded state in total, with constant spacing of the carrier plates 4 to each other and to the absorber 6 , on the structure 2 pivotable. For pivoting, for example, a pneumatic actuator 22 provided that a piston 220 has, cf. 4 that with the base part 9 and / or the one carrier plate 4 connected. About an extension or retraction of the piston 220 can the unfolded sunbeam concentrator 1 around the pivot axis 7 be pivoted. Such a pivoting takes place in the context of a tracking depending on the position of the sun. By the pneumatic actuator 2 and the pivot axis 7 Thus, a tracking device is provided.

It can be provided that the solar radiation concentrator 1 via a further pivot axis, which is perpendicular to the pivot axis 7 runs, is also tiltable. As a result, a further degree of freedom in the tracking depending on the position of the sun is provided. In particular, in the installation of Sonnenstrahlenkonzentrators 1 in subtropical and tropical areas, however, can be dispensed with such a further Verschwenkmöglichkeit.

The 2 shows the sunbeam concentrator the 1 in a pivoted state. The distance of the carrier plates 4 to each other and to the absorber 6 is in comparison to the 1 unchanged. The pivoting movement relates to the unfolded Sonnenstrahlenkonzentrator 1 in total, under the action of the pneumatic control element 2 , Due to the triangular formation of the framework 21 is in one embodiment, a pivoting of the unfolded Sonnenstrahlenkonzentrators 1 possible by 40 ° or even beyond.

The 3 shows the already explained closed position of the sunray concentrator 1 , the support frame 2 not shown. When closed, the support plates close 4 the absorber 6 and thereby protect it from the weather and during transport. The tails 42 are arranged adjacent to each other.

4 shows a side view of the support frame 2 with the framework 21 and the pneumatic actuator 22 , Also shown is the axis of rotation 7 , along which the sun-ray concentrator 1 with the structure 2 pivotally connected.

The 5 shows a plan view of the device of 1 with unfolded sun ray concentrator 1 , These are the individual mirror strips 5 , the parabolic strips designed as tails 42 , the absorber 6 as well as the supporting frame 2 with the framework 21 recognizable. The on the top of the carrier plates 4 attached mirror strips 5 have a width that is smaller than the diameter of the absorber tube 61 of the absorber 6 , This ensures that the reflected light in each case completely on the absorber tube 61 is reflected, so that the highest possible efficiency is achieved.

The 6 shows a side view of the device of 1 , It is the supporting frame 2 with the framework 21 , the underside of one of the two obliquely oriented carrier plates 4 , the heating pipe holder 8th for the absorber 6 and the absorber 6 to recognize.

The 7 shows the device of 1 mounted on the top of a standard transport container 3 , Also in point view is the collapsed sunray concentrator 1 shown having dimensions such that it is inside the container 3 can be stowed.

The dimensions of the solar cone concentrator 1 be in the unfolded working position, for example, 4400 × 4000 mm. The space requirement in the container 3 is in the folded state about 5 m ³ . The maximum heat output is for example 10 kW.

Together with the sunray concentrator, further elements of a mobile energy recovery and storage system based on renewable energy, such as a wind turbine, a steam engine, a distillation device and / or an energy storage system in and / or on the container 3 be integrated.

The Invention is not limited in its design to the embodiments described above, which are only to be understood as examples. For example, can the folding mechanism for pivoting the carrier plates be formed in another way. Next, the carrier plates have a different shape, possibly also formed bent, and For example, the concentrator system can be designed in a different way. There are For example, embodiments conceivable in which mirror strips arranged in a circle on the two support plates are so that the sunlight on one point and not on one Line is focused. Also, it is conceivable that held as reflectors Mirror strips other mirror elements or a homogeneous mirroring be used. Next are the dimensions described and constructive solutions to understand only by way of example.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 20314372 U1 [0003]
• - DE 102006058995 A1 [0003]

Cited non-patent literature

• - ISO 668 [0013]
• - ISO 668 [0027]
• - ISO 668 [0031]

Claims (22)

Sunbeam concentrator ( 1 ), comprising: - two carrier plates ( 4 ), which are pivotally arranged to each other, and - a concentrator system ( 5 ) on the topsides ( 41 ) of the carrier plates ( 4 ), wherein - the two carrier plates ( 4 ) have a first, unfolded position in which the concentrator system ( 5 ) concentrates the sunlight on a common focal point or a common focal line, - have a second, closed position in which the carrier plates ( 4 ) are pivoted towards each other compared to the unfolded position, and - the carrier plates ( 5 ) are pivotable between these two positions. Sun-ray concentrator according to claim 1, characterized in that the concentrator system ( 5 ) comprises a plurality of mirror strips. Sun-ray concentrator according to claim 2, characterized in that the mirror strips ( 5 ) in a parallel arrangement on the carrier plates ( 4 ). Sun-ray concentrator according to claim 2 or 3, characterized in that the individual mirror strips ( 5 ) are individually tiltable. Sun-ray concentrator according to one of the preceding claims, characterized in that the concentrator system ( 5 ) consists of mirror glass, metal strips or a coated plastic. Sun-ray concentrator according to one of the preceding claims, characterized by an absorber ( 6 ), through which a heat-storing medium flows, wherein the absorber ( 6 ) is arranged on or adjacent to the focal line. Sun-ray concentrator according to claim 6, characterized in that the absorber ( 6 ) an absorber tube ( 61 ), in which the heat-storing medium flows, and a vacuum tube ( 62 ), wherein the vacuum tube ( 62 ) the absorber tube ( 61 ) surrounds. Sunray concentrator according to claim 7, as far as dependent on claim 2, characterized in that the width of the mirror strips ( 5 ) is smaller than the diameter of the absorber tube ( 61 ). Sunray concentrator according to one of the preceding claims, characterized in that the carrier plates ( 4 ) at least on its upper side ( 41 ) at which the concentrator system ( 5 ) is arranged, are formed flat. Sunray concentrator according to one of the preceding claims, characterized in that the carrier plates ( 4 ) at its end remote in the unfolded state each end piece as a parabolic trough strip ( 42 ) exhibit. Sunray concentrator according to one of the preceding claims, characterized in that the carrier plates ( 4 ) in the second, closed position substantially parallel to each other and / or their ends ( 42 ) are adjacent. Sunray concentrator according to one of the preceding claims, as far as dependent on claim 6, characterized in that the carrier plates ( 4 ) and the absorber ( 6 ) in the first position with constant spacing of the carrier plates ( 4 ) to each other and to the absorber ( 6 ) about a pivot axis ( 7 ) are tiltable. Sunray concentrator according to one of the preceding claims, characterized in that the carrier plates ( 4 ) on a support frame ( 2 ) are arranged. Sunray concentrator according to claim 13, as far as dependent on claim 12, characterized in that the support frame ( 2 ) a tracking device ( 22 ), which is a tilting of the carrier plates ( 4 ) at a constant distance to each other depending on the position of the sun about the pivot axis ( 7 ) causes. Sunray concentrator according to claim 13 or 14, characterized in that the support frame ( 2 ) is designed to be placed on a 20-foot container or a 40-foot container in accordance with ISO668. Sunray concentrator according to one of the preceding claims, characterized in that the sun-ray concentrator ( 5 ) has a size such that, when folded, it is stowable in a 20-foot container or a 40-foot container in accordance with ISO668. Sunray concentrator according to one of the preceding claims, characterized in that the concentrator system ( 5 ) has a scratch-resistant surface finish. Sunray concentrator according to one of the preceding claims, as far as referred to claim 6, characterized in that the through the absorber ( 6 ) is coupled with a steam engine, a distillation plant and / or a compressed air storage system, wherein all of these components are arranged together with the Sonnenstrahlenkonzentrator in and / or on a 20-foot container or a 40-foot container according to ISO668. Sunray concentrator according to one of the preceding claims, characterized in that the carrier plates ( 4 ) are configured and arranged such that they are manually pivotable between the first and the second position. Sunray concentrator according to one of the preceding claims, characterized in that the carrier plates ( 4 ) are fixable in the first, unfolded position. Sunray concentrator according to one of the preceding claims, characterized by a folding mechanism which controls the pivotability of the two carrier plates ( 4 ) provides each other. Sunray concentrator according to claim 21, characterized in that the folding mechanism has two axes of rotation ( 90 ) having.

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