DE102006061284A1 - Plate-shaped photovoltaic solar module has frame made of molded profiles, where inserting corner connecting piece overlaps in corner area of cover side of plate-shaped photovoltaic solar module - Google Patents

Abstract

The plate-shaped photovoltaic solar module (1) has frame made of molded profiles. An inserting corner connecting piece (5) overlaps in the corner area of a cover side of the plate-shaped photovoltaic solar module. A molded profile (7) does not overlap side edges of the plate-shaped photovoltaic solar module. The side edge or the molded profiles not overlapping the side edges are fixed flush or with short length to overlap a rear side of the plate-shaped photovoltaic solar module.

Description

The The invention relates to a plate-shaped photovoltaic Solar module with a frame construction of molded profiles, in particular Strandpressprofilen or rolled profiles with plug-in corner connection parts, wherein the shape profiles and the corners formed plugged into each other are.

Plate-shaped photovoltaic Solar modules consist of a large number of individual solar cells, which usually stare between two panes of glass or another or flexible materials are embedded and fixed. The upper Cover can also be made of another transparent material, whereas it is known that the lower covers are made of different ones potential Materials, in particular metal sheets, plastic sheets or to perform films. Execution with a glass pane on the front and a foil on the front back (Glass-foil-laminate) is common Practice and is used in most standard PV modules from many manufacturers offered. Because the glass-film laminates, in contrast to the glass-glass laminates, a significantly lower load capacity own, become reinforcements As a rule, frame made of extruded aluminum profiles arranged. she are thus against the weather very well protected. In a market overview, released in 2004 by the German Society for Solar Energy e. V., is omitted the framed plate-shaped photovoltaic Solar modules account for 97 percent of those with a framing made of extruded aluminum profiles. The rest is made of stainless steel frames, Plastic and polymer concrete, which, however, only smaller for reinforcement Solar modules for Special purposes, such as As roofing elements or vehicle roof hatches be used. Two other solutions are described in the literature in which the amplification of disc-shaped photovoltaic solar modules by a glued back trapezoidal sheet metal has been realized.

all Aluminum frame is equal to the connection with the plate-shaped photovoltaic Solar module by plugging into a groove of the profile and additional Gluing and / or screwing is realized. The roof installation a framed plate-shaped photovoltaic solar module is very simple, z. B. already to accomplish by a clamping. A disadvantage of this type The framing is the predominantly circumferential linear enclosure and storage of the solar module. With ever larger dimensions of the used Solar modules will also increase the deflection in the middle. In order to The previous type of framing is the trend to bigger, because more cost-efficient Contrary to PV modules. The complete Framing with enclosing Edge wrapping has also been used to protect against damage of the actual glass solar cell laminate is urgently needed.

One major disadvantage of this fully framed plate-shaped photovoltaic Solar modules are the protruding ones Edges of the frame above the plate-shaped photovoltaic solar module level. Increasing contamination of the active surface of the solar modules in the area this revolving overarching Edge are the result, which in turn reduces the energy yield. Slipping from snow and the self-cleaning by rainwater gets through this overarching so-called Dirt edge difficult. These adverse effects occur the more clearer, the lower the PV module when installed is inclined.

The utility model DE 202 15 462 U1 describes a frame molding with support elements for receiving a PV module. The planar reinforcement has a positive effect on the load capacity and a dirt edge is not formed. An assembly is only possible on adhesive substrates, which precludes use as a standard solar module for all applications but.

In the EP 1 146 297 A1 is described a profile and a frame for enclosing plate-shaped photovoltaic solar modules, wherein a profile has a directed against the inside of an angle profile L-shaped shoulder for supporting the lower edge of the rectangular solar module and this profile does not project beyond the plate-shaped upper edge along one side. The other profiles of the frame are formed with U-shaped grooves in which the edges of the solar module are inserted. This frame of the three sides fully embraces and a downwardly directed side only half embraces, has at diagonally positioned solar modules, although the advantages that both the rainwater flow freely down as well as the snow can slide down.

at this solution can and therefore no dirt edge in the lower module area form. However, here is the installation position of this type plate-shaped solar modules only possible in one direction d. H. It is thus no arbitrarily variable mounting possible, what to an increased Time spent on assembly time can.

In the DE 36 11 542 A1 a plate-shaped photovoltaic solar module is described that has a rectangular frame of four metal profiles, which fully embraces the side edges of the solar module on all four sides. For quick installation of different high-trained metal profiles four corner joints are provided in the corners, the metali in their dimensions exactly rule frame profiles and serve by means of rectangular pins as connectors. These corners are then bolted to the metal frame profiles, resulting in a stable circumferential frame. However, this solution has the disadvantage that these solar modules pollute especially from the lower edge of the frame ago and the snow can slip only incomplete down. The pollution is especially a problem when in the atmosphere increased dust content, such. B. diesel particulate is present.

So far common the packaging and transport of solar modules in accordance with big cardboard boxes, in the plate-shaped Solar modules are inserted. Here are each for appropriate Dimensions of the solar modules to keep the appropriate boxes in stock in stock. A cardboard or cork insert between the individual modules is prevented the direct touch the modules with each other and protects also the scratch-sensitive made of aluminum Module frame during transport. This requires for a one considerable storage space requirement according to the sold solar module sizes and on the other hand an elaborate one Handling of the packaging and consequent increased waste. These Packaging and transport variant is also relatively uneconomical.

In another variant according to the EP 1 617 485 A1 Are massively trained plastic corners in use for transports of plate-shaped solar modules. These corners are stackable and thus form support pillars for the individual solar modules to be stacked one above the other. In this case, an additional plastic corner is arranged in each corner of a solar module. For this stackable Kunststoffeckensystem a costly deposit and return system is required. In addition, there is an increased amount of plastic waste. Such Kunststoffecken are also expensive to manufacture.

task The invention is a novel plate-shaped photovoltaic solar module with frame made of molded profiles with plug-in corner connection parts to create, which is structurally simple, that the rinsing of Pollution or snow slipping simplified, transport well and assemble and optionally allow a close shingled cover.

The object is achieved by the features of the first and second patent claim. Further expedient embodiments of the invention are the subject of further reclaimed subclaims. The plate-shaped photovoltaic solar module according to the invention has, as is known, a frame made of molded profiles which are interconnected with plug-in Eckverbindungsteilen. Such a form profiles consist in particular of extruded profiles or rolled profiles. The pluggable corner connection parts 5 overlap in the corner areas the top side 2 the plate-shaped photovoltaic solar module 1 in a novel way, so that the corner joints 5 alone can take over the form-fitting version and fixation of the plate-shaped photovoltaic solar module. According to the invention encompasses at least one shape profile 7 the side edges 3 the plate-shaped photovoltaic solar module 1 not, ie one of the side edges 3 is free and therefore can be lapped by the air. This leads to a much faster drying of the side edge 3 after exposure to moisture due to various weather conditions. This reduces the risk of edge corrosion in the interior of the solar module. One the side edge 3 non-encompassing shape profile 7 or the side edges 3 non-encompassing shape profiles 7 are so with the back 4 the plate-shaped photovoltaic solar module 1 attached that shape profiles 7 either overhanging or flush or recessed are arranged. This has the advantage that it can come on this or this exposed side edges no contamination by algae, other dirt deposits or in winter by snow covers. In addition, the cleaning is simplified to the extent that possible contamination on the free or the free side edges 3 can be rinsed easily, especially if the exposed side edge 3 directed downwards. But also the formation of the plate-shaped photovoltaic solar module 1 that all four side edges 3 lie freely and from the shape profiles 7 are not encompassed, is executable according to the invention. This design also leads to a novel very appealing visual appearance.

In a particularly preferred embodiment of the plug-in corner connection parts 5 at the plate-shaped photovoltaic solar module 1 with frame are the pluggable corner joints 5 in the corner areas the cover side 2 the plate-shaped photovoltaic solar module 1 overlap, higher than the encompassing shape profiles 8th educated. This makes it possible that a plurality of identically designed plate-shaped solar modules 1 can be stacked directly without additional transport aids.

It is even more advantageous if the pluggable corner connection parts 5 on her cover page 2 and back 4 with elevations 9 and / or depressions 10 and / or a cantilever 11 are provided, which stack when stacked two or more plate-shaped solar modules 1 mesh. These additional formations it comes when stacking to a firm grip to sta pelting solar modules 1 among themselves.

It is also possible in the plug-in corner connection parts 5 openings 14 and or internal ribs to be arranged so that the corners of the photovoltaic plate-shaped solar module ( 1 ), ie the solar module plate are formed largely luftumspülbar, so that well in these corners waterlogging can be dissipated and a relatively fast drying of the plug-in Eckverbindungsteile 5 can be done.

In a separate embodiment of the plate-shaped photovoltaic solar module 1 collar the pluggable corner joints 5 about the frame forming profiles 7 . 8th out. This leads to a particularly good self-centering of the solar modules in the stacking process, a firm grip and thus to a damage-free transport.

It is also possible the pluggable corner joints 5 in the back area below the photovoltaic plate-shaped solar module 1 to train graduated. As a result, the bearing surface on the surface of the underlying during transport plate-shaped photovoltaic solar module 1 be enlarged. This leads to a better load distribution and the stack height of the solar modules to be transported one above the other 1 can be increased overall without damage to the solar module material.

Pass the pluggable corner joints 5 of two material components, one of which is an electrically conductive material, if required, a continuous grounding of the entire module frame of the plate-shaped photovoltaic solar module can be ensured.

A particularly stable frame construction can be achieved if the newly formed and formed plug-in Eckverbindungsteile 5 made of a conductive metallic material such as aluminum.

The mechanically strong connection of the individual frame parts from the shaped profiles 7 . 8th with each other by means of the plug-in Eckverbindungsteile 5 preferably via adhesive connections or clinched connections or via a latching connection by engagement of the corner connection parts 5 in the mold profiles 7 and 8th ,

In a preferred embodiment of the plate-shaped photovoltaic solar module 1 are on the molding profile (s) 7 that the side edges 2 the plate-shaped photovoltaic solar module 1 do not encompass, hinged and / or removable edge protection profiles or edge protection strips arranged. These hinged or removable edge protection profiles serve primarily to the exposed side edges 3 to protect against damage during transport and assembly at the actual site.

In addition, the edge protection profiles on the two long sides in a rectangular plate-shaped solar module profile 1 In this case, between two adjacent plate-shaped photovoltaic solar modules, a relatively dense groove, so that no foreign matter such as leaves or the like can penetrate between or under the solar panels and the underlying roof surface remains almost completely protected from the weather. When laying several in a line superimposed plate-shaped solar modules in shingled cover so that a weather-tight total area can be formed.

It is also conceivable that the increases 9 and / or depressions 10 and / or overhang 11 are formed so that when superimposing plate-shaped photovoltaic solar modules 1 a self-centering arrangement takes place. For this purpose, in particular in each case the formations of the elevations 9 and the formation of the wells in their shapes and dimensions so coordinated.

In addition, optionally on the plate-shaped photovoltaic solar module according to the invention 1 on the insides 15 the shape profiles 7 . 8th Latches and / or detent eyes and / or one or more locking rails 16 be arranged. In these locking lugs and / or detent eyes and / or one or more locking rails 16 can if necessary cable holder 17 , Junction boxes and / or cable duct covers are clicked so that they are reliably permanently connected. This is z. B. for the first time possible to lay the discharge cable completely protected, so that in particular marten predator can be avoided.

It makes sense, especially with large plate-shaped photovoltaic solar modules 1 , About the locking lugs and / or detent eyelets and / or locking rails 16 vertical, horizontal or diagonal additional support profiles 18 on the back side 4 the plate-shaped photovoltaic solar module 1 to arrange and fasten. This has the advantage that such supported solar modules with large surface loads, z. B. in cardboard snow can not bend, which ultimately no damage to the compounds, such as in particular line or connection breaks occur within the solar module. The arrangement of these additional support profiles 18 However, this is only required for relatively flat mounting positions of the solar modules. Through this simple, choice only on demand mounted additional support profiles 18 Even with very flat mounting positions, the standardized plate-shaped photovoltaic solar modules according to the invention 1 be used.

By the additional use of lockable in the locking lugs and / or detent eyes and / or locking rails ( 16 ) engaging additional Fixierklemmen 19 can the additional carrying profiles 18 in a simple manner at the required locations on site to the respective installation situation in the mold profiles 7 . 8th the plate-shaped photovoltaic solar modules 1 adapted, mounted and immovably fixed.

It is particularly advantageous if the shaped profiles 7 . 8th , which form the solar module frame, directly to the plate-shaped photovoltaic solar module 1 glued, wedged, locked or bolted.

It is also possible on the back 4 the plate-shaped photovoltaic solar module 1 to arrange a safety net covering the whole frame. This safety net is through the molding profiles 7 . 8th from the back 4 spaced and causes in the area of the back 4 no animals can move or stop.

The invention will be described below with reference to the 1 to 5 be explained in more detail.

1 shows a possible rectangular design of a plate-shaped photovoltaic solar module according to the invention 1 with only on a narrow side arranged non-encompassing shape profile 7

2 shows the arrangement of the side edge 3 non-encompassing shape profile 7

3 shows the possibility of stacking, by means of the plug-in Eckverbindungsteilen executed according to the invention 5 with a projection 11 is reachable

4 shows a corner joint part 5 in that the self-centering stackability is achieved by means of plug-in corner connection parts 5 with one increase each 9 and deepening 10 reached

5 shows cross sections through a nichtumgreifendes mold profile 7 and an encompassing shape profile 8th with locking rails 16

6 shows possible embodiments of an additional additional profile can be arranged 18 and a snap bar 17 z. B. for cable attachment and a Fixierbügel 19 An overall view of an inventive design of a rectangular plate-shaped photovoltaic solar module 1 with pluggable corner connection parts 5 is in 1 displayed. On a narrow side, which is then mounted directed in the usual oblique mounting position at the site down, is not the solar module body encompassing shape profile 7 arranged, ie the side edge 3 is formed in this area luftumspülbar and is free. The other three side edges of the rectangular plate-shaped photovoltaic solar module 1 be from the encompassing shape profiles 8th encompassed and are not free.

In 2 is again the arrangement of a side edge 3 non-encompassing shape profile designed according to the invention 7 on the back side 4 a plate-shaped photovoltaic solar module 1 shown enlarged. That means the cover page 2 can not pollute on this narrow side, since no edge is formed on the surface at which dirt particles can be deposited or at the slipping of snow down is hindered.

A preferred possible embodiment of two plug-in Eckverbindungsteilen invention 5 with overhangs 11 to improve the stacking is off 3 seen. In this spatial representation are also the location and arrangement of plug-in joining angles made of aluminum 6 within the plug-in corner connection parts 5 shown. The exposed legs of the pluggable joining angles 6 made of aluminum into the correspondingly formed end portions of the non-gripping molding profile 7 and the encompassing shape profiles 8th plugged. The pluggable corner connection parts 5 be with the shape profile 7 and the shape profiles 8th connected by adhesive bonds or clinched connection or by snapping mechanically firmly. The bottom of the plug-in corner connection parts 5 arranged projections 11 encompass the upper supports (head areas) of the pluggable corner connection parts 5 so that at the four corners of a rectangular plate-shaped photovoltaic solar module 1 they can no longer slip against each other after stacking and can safely transport a correspondingly high stack of solar modules. In the head areas are in the plug-in corner connection parts 5 Module receiving recesses 12 formed in each one corner of the solar laminate (ie unframed solar module) plugged and guided. For better positioning and mechanically stable connection are at the plug-in Eckverbindungsteilen 5 projections 20 designed so that these in the inner cross section of the non-gripping shape profile 7 and in the encompassing shape profiles 8th intervention. Inside, in each case in the head area of the plug-in form profiles 7 and 8th , are openings for ventilation and drainage 14 arranged with it there can be no waterlogging in the corners of the embraced solar laminate.

Out 4 is apparent, such as in a corner joint according to the invention 5 a desired self-centering stackability by means of an increase 9 in the head area and a depression 10 in the foot area of the plug-in corner connection parts 5 can be achieved. These elevations and depressions can also be formed multiple times and also in another form. In the module receiving recess 12 The corner of the solar laminate is led. Likewise, in plan view, the arrangement and design of the Anformung 20 and the pluggable joint angle 6 made of aluminum.

5 shows the cross sections through a novel nichtumgreifendes shape profile 7 and a per se known encompassing shape profile 8th each with preferably similar locking rails 16 , In the free cross sections of the shape profiles 7 and 8th between the locking rails 16 You can install required installations such as connection cables or other pipes, which are then connected by means of cable holders 17 can be locked and guided in a simple manner by clicking on the locking rails. These locking rails 16 are also suitable for the arrangement of additional junction boxes, the shape of the locking rails may include other attachment options. The module intake groove 13 embraces the other side edges 3 of the rectangular plate-shaped photovoltaic solar module 1 , Usually, a gluing of the solar laminate takes place in this Modulaufnahmenut 13 , The non-encompassing shape profile 7 is flush from below on the back 4 glued to the solar laminate. The actual permanent protection against slipping down the plate-shaped photovoltaic solar module in the installed position by means of reinforced trained plug-in Eckverbindungsteile 5 that are mechanically strong with the molding profiles 7 and 8th are connected and together form a stable framework with each other. This has an especially advantageous effect if, after a long period of use, the adhesive bonds of the solar laminate on the mold profile 7 and in the module reception slots 13 the encompassing shape profiles 8th should fail.

A preferred possible embodiment of acting against deflection in large solar panels, additionally arranged additional profile 18 and for its attachment to the locking rails 16 serving fixing bracket 19 , is in 6 displayed. With fixing straps 19 becomes the additional profile 18 Reliably secured in the locking rails against slipping. The additional profile 18 lies directly on the back 4 of the solar laminate. The additional profiles 18 can also be arranged so that they have a grid-like structure on the back 4 form.

1

plate-shaped photovoltaic solar module

2

cover page of the plate-shaped photovoltaic solar module

3

side edge of the plate-shaped photovoltaic solar module

4

back of the plate-shaped photovoltaic solar module

5

pluggable corner joint

6

pluggable Include angle made of aluminium

7

nichtumgreifendes profile form

8th

encompassing profile form

9

Increase of plug-in corner connection part

10

deepening the pluggable corner connection part

11

projection the pluggable corner connection part

12

Module receiving recess

13

Modulaufnahmenut

14

Opening to ventilation and drainage

15

inside a shape profile

16

locking lugs or locking rails

17

cable holder

18

Additional support profiles

19

fixing bracket

20

projections

Claims (17)

Plate-shaped photovoltaic solar module with frame made of molded profiles, in particular of extruded profiles or rolled profiles with plug-in Eckverbindungsteilen, characterized in that the pluggable Eckverbindungsteile ( 5 ) in the corner areas the top side ( 2 ) of the plate-shaped photovoltaic solar module ( 1 ), at least one shape profile ( 7 ) the side edges ( 3 ) of the plate-shaped photovoltaic solar module ( 1 ) does not embrace that the side edge ( 3 ) or the side edges ( 3 ) non-encompassing shape profile (s) ( 7 ) with the back ( 4 ) of the plate-shaped photovoltaic solar module ( 1 ) are mounted overhanging, flush or recessed. Plate-shaped photovoltaic solar module with frame according to claim 1, characterized in that the pluggable corner connecting parts ( 5 ), which in the corner areas the top side ( 2 ) of the plate-shaped photovoltaic solar module ( 1 ) overlap higher than the encompassing shape profiles ( 8th ) are formed. Plate-shaped photovoltaic solar module with frame according to claim 2, characterized in that the pluggable corner connecting parts ( 5 ) on its cover page ( 2 ) and back ( 4 ) with elevations ( 9 ) and / or depressions ( 10 ) and / or a cantilever ( 11 ), which stack when stacked two or more plate-shaped solar modules ( 1 ) mesh. Plate-shaped photovoltaic solar module with frame according to claim 1, 2 or 3, characterized in that in the plug-in Eckverbindungsteilen ( 5 ) Openings ( 14 ) and or inside ribs are arranged so that the corners of the photovoltaic plate-shaped solar module ( 1 ) are formed largely luftumspülbar. Plate-shaped photovoltaic solar module with frame according to claim 1 to 4, characterized in that the pluggable corner connecting parts ( 5 ) via the frame-forming shape profiles ( 7 . 8th protrude). Plate-shaped photovoltaic solar module with frame according to one of the preceding claims, characterized in that the plug-in corner connecting parts ( 5 ) in the back region below the photovoltaic plate-shaped solar module ( 1 ) are graduated. Plate-shaped photovoltaic solar module with frame according to one of the preceding claims, characterized in that the plug-in corner connecting parts ( 5 ) consist of at least two material components, one of which is an electrically conductive material. Plate-shaped photovoltaic solar module with frame according to one of the preceding claims, characterized in that the plug-in corner connecting parts ( 5 ) consist of an electrically conductive material such as aluminum. Plate-shaped photovoltaic solar module with frame according to one of the preceding claims, characterized in that the plug-in corner connecting parts ( 5 ) with the molding profiles ( 7 . 8th ) are mechanically firmly connected via an adhesive connection or clinched connection or a latching connection. Plate-shaped photovoltaic solar module with frame according to one of the preceding claims, characterized in that on the one or more mold profiles ( 7 ), the side edges ( 2 ) of the plate-shaped photovoltaic solar module ( 1 ) not encompass hinged and / or removable edge protection profiles or edge protection strips are arranged. Plate-shaped photovoltaic solar module with frame according to claim 10, characterized in that in the case of a rectangular plate-shaped solar module profile ( 1 ), the edge protection profiles are formed on the two long sides schrchwinklig hinged. Plate-shaped photovoltaic solar module with frame according to claim 3, characterized in that the elevations ( 9 ) and / or depressions ( 10 ) and / or overhang ( 11 ) are formed so that when superimposing plate-shaped photovoltaic solar modules ( 1 ) is a self-centering arrangement. Plate-shaped photovoltaic solar module with frame according to claim 1, characterized in that on the insides ( 15 ) of the molding profiles ( 7 . 8th ) Locking lugs and / or detent eyes and / or one or more locking rails ( 16 ), into the cable holders ( 17 ), Junction boxes and / or conduit covers are clickable. Plate-shaped photovoltaic solar module with frame according to claim 13, characterized in that on the latching lugs and / or detent eyelets and / or locking rails ( 16 ) vertical, horizontal or diagonal additional support profiles ( 18 ) on the back side ( 4 ) of the plate-shaped photovoltaic solar module ( 1 ) are arranged. Plate-shaped photovoltaic solar module with frame according to claim 14, characterized in that the additional support profiles ( 18 ) into the detents and / or detent eyes and / or locking rails ( 16 ) engaging additional fixing clips ( 19 ) are lockable. Plate-shaped photovoltaic solar module with frame according to one of the preceding claims, characterized in that the shaped profiles ( 7 . 8th ) with the plate-shaped photovoltaic solar module ( 1 ), glued, wedged, locked or bolted. Plate-shaped photovoltaic solar module with frame according to one of the preceding claims, characterized in that below the rear side ( 4 ) of the plate-shaped photovoltaic solar module 1 through the molding profiles ( 7 . 8th ) spaced the back ( 4 ) shielding safety net is arranged.