DE102008027301A1 - Solar system has photovoltaic module for generating electrical energy from sunlight, where concrete support structure is provided, on which photovoltaic module is arranged - Google Patents

Abstract

The solar system (1) has a photovoltaic module (2) for generating electrical energy from sunlight. A concrete support structure (3) is provided, on which the photovoltaic module is arranged. The support structure is manufactured in a sliding manner and as a U-shaped profile, where the support structure has two brackets (4,5). Independent claims are included for the following: (1) a method for manufacturing a solar system; and (2) a method for generating electrical energy, particularly by a solar system.

Description

The The invention relates to a solar system with a photovoltaic module for generating electrical energy from sunlight.

The DE 203 18 915 U1 discloses a plant for harvesting solar energy on slopes or on flat open spaces, wherein at least one assembly of at least one solar module, a support frame for one or more solar modules and an anchorage for the support frame is present, wherein means are present, the photovoltaic current obtained a memory or a transducer, wherein the anchorage consists of a concrete slab with at least two supporting pillars, and wherein the support frame is mounted on, on or in the supporting pillars.

The DE 20 2007 005 745 U1 discloses a base member for the installation of photovoltaic modules on flat roofs, wherein the base element consists of a portable, resting on the surface base plate and on the base plate and its associated wedge plate whose inclination corresponds to the determined by the optimal solar irradiation orientation of the photovoltaic modules, wherein Lateral alignment of several basic elements whose number is determined by the size and number of photovoltaic modules used, the mounting level of the photovoltaic modules is defined.

The DE 103 35 564 A1 discloses an arrangement for flat coverage of terrain elevations, with an at least partially inclined and / or curved surface, wherein a support structure is provided for receiving cover elements, which is equipped with at least one cover member, which are arranged at a distance from the surface of the terrain elevation and the Cover surface of the terrain survey at least partially.

It Object of the invention, the cost of production of solar plants or solar power plants. It is desirable reduce the cost of electrical energy.

The aforementioned Task is by a solar system with a photovoltaic module solved for generating electrical energy from sunlight, wherein the solar system from a slidable support structure Concrete comprises, on which the photovoltaic module is arranged. A Such slidable support structure may in certain Intervals include expansion joints, possibly with a compressible Material are filled.

Details of the slip manufacturing, also referred to as extruding, z. B. the DE 693 61 56 U , of the AT 0 229 751 61 (E 52 056 B) of AT 0 235 114 B1 (E 59 803 B) and the DE 20 2006 012 732 U1 be removed. A photovoltaic module in the sense of the invention comprises in particular a plurality of photovoltaic panels, by which is meant, in particular, an integrally manufactured unit. By means of a photovoltaic module according to the invention, in particular 500 W, in particular 1000 W, electrical power can be generated. By means of a photovoltaic panel according to the invention, in particular 100 W, in particular 200 W, electrical power can be generated.

concrete Within the meaning of the invention may be reinforced concrete. Concrete in the sense The invention is in particular concrete with a quality of at least C 25/30, XC4 or XF1. In areas with spray mist Road salt or near the sea is advantageously concrete the quality XD1 or XS1 provided.

In Advantageous embodiment of the invention is the slide-finished Carrier structure designed as a U-profile. In continue Advantageous embodiment of the invention, the support structure a first leg and at least one second leg, wherein the first leg is longer than the second leg, and wherein it is advantageously provided that the photovoltaic module one of the distance of the first leg from the second leg and the difference in length between the first leg and at least one second leg dependent angle is inclined. In this way, the photovoltaic module is advantageously opposite the horizontal inclined by 10 ° to 30 °. It can be provided that the first leg on its upper surface Includes recesses.

• – dass zumindest 50% der der Betonplatte zugewandten Seite des Photovoltaikelements die Betonplatte berühren,
• – dass die Betonplatte die Struktur des Photovoltaikelements bildet, mittels der zumindest zwei Photovoltaikpanels zu dem Photovoltaikelement zusammengefügt sind,
• – dass die Betonplatte eine zum Tragen einer Windlast ausreichende Steifigkeit des Photovoltaikelements begründet und/oder
• – dass die Betonplatte und das Photovoltaikelement parallel zueinander ausgerichtet sind.

The photovoltaic module may be a conventional photovoltaic module, the z. B. comprises a plurality of photovoltaic panels, which are joined together by means of a frame structure, for example made of metal, to form a photovoltaic module. Advantageously, however, the photovoltaic module comprises a concrete slab and a photovoltaic element which is applied to the concrete slab, in particular directly, in such a way that

• That at least 50% of the concrete plate facing side of the photovoltaic element touch the concrete slab,
• That the concrete slab forms the structure of the photovoltaic element, by means of which at least two photovoltaic panels are joined together to form the photovoltaic element,
• - That the concrete slab due to support a wind load sufficient rigidity of the photovoltaic element and / or
• - That the concrete slab and the photovoltaic element are aligned parallel to each other.

A concrete slab according to the invention In particular, it can be a solid concrete slab. However, a concrete slab according to the invention may also be a concrete slab with recesses. It can be provided that the recesses amount to less than 50% of the total area of the concrete slab. For the purposes of the invention, a photovoltaic element is applied in particular to a concrete slab when it is in direct contact, in particular. However, an intermediate or overlay layer can also be provided. A photovoltaic element is applied in particular in the context of the invention on a concrete slab if the distance of the concrete slab from the photovoltaic element is not more than 5 cm.

In a further advantageous embodiment of the invention, the concrete slab between 8 cm and 20 cm thick. In a further advantageous embodiment of the invention, the concrete slab is designed as a latent heat storage or has a latent heat storage. In a further advantageous embodiment of the invention, the concrete slab on phase transition materials. Details of phase change materials or latent heat storage can the website de.wikipedia.org/wiki/latentw%c3%a4rmespeicher be removed.

In a further advantageous embodiment of the invention, the photovoltaic element or at least one photovoltaic panel is flexible. It can be provided in particular that the photovoltaic element or the photovoltaic panel is designed as a film. Details of such slides can the website www.uni-solar.com/interior.asp?id=102 be removed.

In Furthermore, an advantageous embodiment of the invention is the surface the concrete plate facing side of the photovoltaic element smaller than the surface of the photovoltaic element facing Side of the concrete slab. In a further advantageous embodiment According to the invention, the photovoltaic element does not cover the concrete slab Completely. It can be provided in particular that the uncovered part of the concrete slab has a lateral or circumferential Edge forms. At this, for example, transport devices and transport anchor be attached.

In Furthermore, an advantageous embodiment of the invention comprises Concrete slab on the side facing away from the photovoltaic element Edge or a recess, by means of which the concrete slab with the Support structure can be hooked or stabilized.

The support structure or the concrete slab may comprise adjusting means, lifting anchors and / or fastening elements (eg for fastening the concrete slab on the support structure), such as HALFEN rails. Details of such systems can be found at the Internet address www.pfeifer.de/doc/v2/49/Transportanker_02_2006.pdf callable catalog "General technical introduction for Pfeiffer transport anchor systems", which can be found on the website www.ghl-bau.at/produkte/10transport/download/ghl-PL_2008_Transportankersysteme.pdf callable catalog or from the website www.halfen-deha.de/?id=680&id_Ic=22 downloadable catalog "Halfenschienen Product Information Technik B 08". Details of Halfenschienen can also the DE 203 18 915 U1 be removed.

The support structure or the concrete slab can cavities, cable channels or recesses for cable or installation devices, such as photovoltaic connection modules (see. www.spelsberg-solar.es/html/pv-gehaeusesystem.htm ).

The aforementioned Task is also by one, in particular one or more the aforementioned features comprehensive, solar system with a photovoltaic module solved for generating electrical energy from sunlight, wherein the solar system designed as a U-shaped support structure Concrete comprises, on which the photovoltaic module is arranged.

The aforementioned The object is also achieved by a method for producing a, in particular one comprising one or more of the aforementioned features, Solar system solved, with a support structure is glued from concrete on which a photovoltaic module for Generating electrical energy from sunlight is arranged. It can be provided that the sliding production takes place at the location where the solar system is to be installed so that the support structure is no longer moving. Alternatively, it can be provided that the Carrier structure is glued in another location and brought to the place after curing of the concrete the solar system should be installed. The support structure can be stored or manufactured on a foundation. A foundation In this sense, for example, an antifreeze layer of gravel material or a lean concrete layer. A corresponding Frost protection layer of gravel material, for example, 40 cm thick be. A corresponding lean concrete layer (C 16/20) can, for example 5 cm thick.

It is also an object of the invention, the cost of electrical To lower energy.

The aforementioned object is achieved by a method for generating electrical energy by means of one, in particular one or more of the aforementioned Characteristics comprehensive, solar system solved, wherein a support structure made of concrete is slid on which (subsequently) a photovoltaic module for generating electrical energy from sunlight is arranged such that the photovoltaic module is exposed to solar radiation.

Further Advantages and details will become apparent from the following description of exemplary embodiments. Showing:

1 an embodiment of a solar system in a perspective view,

2 Another embodiment of a solar system in a side view,

3 Another embodiment of a solar system in a side view,

4 an embodiment of a photovoltaic module in a plan view and

5 an embodiment of a support structure.

1 shows a solar system 1 , which is a slidable support structure 3 made of concrete, on which a photovoltaic module 2 is arranged. The support structure 3 is U-shaped profile and includes a leg 4 and a thigh 5 , This is the thigh 4 designed longer than the leg 5 , The distance of the thighs 4 and 5 as well as their length difference determines the inclination of the photovoltaic module 2 , which is inclined relative to the horizontal advantageously between 10 ° and 60 °.

• – dass zumindest 50% der der Betonplatte 30' zugewandten Seite des Photovoltaikelements die Betonplatte 30' berühren,
• – dass die Betonplatte 30' die Struktur des Photovoltaikelements 40 bildet, mittels der Photovoltaikpanels 41, 42, 43, 44, 45 zu dem Photovoltaikelement 40 zusammengefügt sind,
• – dass die Betonplatte 30' eine zum Tragen einer Windlast ausreichende Steifigkeit des Photovoltaikelements 40 begründet und
• – dass die Betonplatte 30' und das Photovoltaikelement 40 parallel zueinander ausgerichtet sind.

The photovoltaic module 2 may be a conventional photovoltaic module, the z. B. comprises a plurality of photovoltaic panels, which are joined together by means of a frame structure, for example made of metal, to form a photovoltaic module. It can be provided that on the support structure 3 Devices are mounted in which the photovoltaic module 2 , in particular from above, can be inserted. The photovoltaic module 2 can carrier 201 . 202 . 203 concrete or metal (eg as a double T-beam). In an alternative embodiment of an in 2 illustrated solar system 1' includes a beneficial - in 4 in a plan view shown - photovoltaic module 2 ' but a concrete slab 30 ' and a photovoltaic element 40 on the concrete slab 30 ' , in particular directly, is applied in such a way,

• - that at least 50% of the concrete slab 30 ' facing side of the photovoltaic element, the concrete slab 30 ' touch,
• - that the concrete slab 30 ' the structure of the photovoltaic element 40 forms, by means of photovoltaic panels 41 . 42 . 43 . 44 . 45 to the photovoltaic element 40 are joined together
• - that the concrete slab 30 ' a stiffness of the photovoltaic element sufficient to support a wind load 40 justified and
• - that the concrete slab 30 ' and the photovoltaic element 40 are aligned parallel to each other.

The photovoltaic element 40 can be directly or by means of an intermediate layer on the concrete slab 30 ' be arranged. The photovoltaic panels 41 . 42 . 43 . 44 . 45 or the photovoltaic module 40 can be dimensionally stable or flexible, for example designed as a film.

The photovoltaic element 40 facing surface of the concrete slab 30 ' is larger than the concrete slab 30 ' facing surface of the photovoltaic element 40 so that the concrete slab 30 ' each on their sides an uncovered edge 31 and 32 includes. In this margins 31 and 32 For example, transport anchors may be provided. In addition, the concrete slab includes 30 ' - as in 2 shown - on their the photovoltaic element 40 opposite side recesses 35 and 36 , by means of which the concrete slab 30 ' with the support structure 3 hooked or fixed on this or can be aligned.

3 shows one opposite the solar system 1' modified solar system 1'' , This includes the solar system 1'' one opposite the photovoltaic module 2 ' Modified photovoltaic module 2 '' with one opposite the concrete slab 30 ' modified concrete slab 30 '' , The concrete slab 30 '' points to her the photovoltaic element 40 opposite side edges 37 and 38 , by means of which the concrete slab 30 '' with the support structure 3 hooked or fixed on this or can be aligned.

5 shows an alternative embodiment of a support structure 3 ' in a rear view. In this case, the rear leg includes 4 ' on its upper surface recesses 50 ,

1, 1 ', 1' '

solar system

2, 2 ', 2' '

photovoltaic module

3, 3 '

support structure

4, 4 '5

leg

30 ', 30 ''

concrete slab

31 32

edge

35, 36

recess

37, 38

edge

40

photovoltaic module

41 42, 43, 44

photovoltaic panel

50

recess

201 202, 203

carrier

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 20318915 U1 [0002, 0016]
• - DE 202007005745 U1 [0003]
• - DE 10335564 A1 [0004]
• - DE 6936156 [0007]
• AT 022975161 [0007]
• AT 0235114 B1 [0007]
• - DE 202006012732 U1 [0007]

Cited non-patent literature

• - en.wikipedia.org/wiki/latentw%c3%a4rmespeicher [0012]
• - www.uni-solar.com/interior.asp?id=102 [0013]
• - www.pfeifer.de/doc/v2/49/Transportanker_02_2006.pdf [0016]
• - www.ghl-bau.at/produkte/10transport/download/ghl-PL_2008_Transportankersysteme.pdf [0016]
• - www.halfen-deha.de/?id=680&id_Ic=22 [0016]
• - www.spelsberg-solar.es/html/pv-gehaeusesystem.htm [0017]

Claims (7)

Solar system ( 1 ) with a photovoltaic module ( 2 ) for generating electrical energy from sunlight, characterized in that the solar system ( 1 ) a slidable support structure ( 3 concrete) on which the photovoltaic module ( 2 ) is arranged. Solar system ( 1 ) according to claim 1, characterized in that the slidable support structure ( 3 ) is designed as a U-profile. Solar system ( 1 ) with a photovoltaic module ( 2 ) for generating electrical energy from sunlight, characterized in that the solar system ( 1 ) a U-shaped carrier structure ( 3 concrete) on which the photovoltaic module ( 2 ) is arranged. Solar system ( 1 ) according to claim 1, 2 or 3, characterized in that the support structure ( 3 ) a first leg ( 4 ) and at least one second leg ( 5 ), wherein the first leg ( 4 ) is longer than the second leg ( 5 ). Solar system ( 1 ) according to claim 4, characterized in that the photovoltaic module ( 2 ) by one of the distance of the first leg ( 4 ) of the second leg ( 5 ) and the length difference between the first leg ( 4 ) and at least one second leg ( 5 ) dependent angle is inclined. Method for producing a solar system ( 1 ), in particular for the production of a solar system ( 1 ) according to one of the preceding claims, characterized in that a support structure ( 3 ) is glued from concrete to which a photovoltaic module ( 2 ) is arranged to generate electrical energy from sunlight. Method for generating electrical energy, in particular by means of a solar system ( 1 ) according to one of claims 1 to 5, characterized in that a support structure ( 3 ) is glued from concrete to which a photovoltaic module ( 2 ) for generating electrical energy from sunlight is arranged such that the photovoltaic module ( 2 ) Is exposed to sunlight.