DE102008046850B4 - Support for photovoltaic modules and associated assembly and associated assembly method - Google Patents

Abstract

A support (12) for photovoltaic modules (14) comprising a frame (16) and fixing means for supporting the photovoltaic modules (14) in the frame (16), the frame being made of plastic and the fixing means being formed as receiving profiles (18), said joining means for fastening the receiving profiles (18) on the frame (16) are provided, characterized in that the receiving profiles (18) receiving grooves (30) for receiving free narrow sides (48) of a photovoltaic module (14) and that the joining means for a the upper edge of the frame (16) parallel to the frame plane outwardly projecting, on the frame (16) provided joining webs (26) and on the other as on the receiving profiles (18) provided with the joining webs (26) cooperating joint recesses (32) so formed are that the receiving profiles (18) laterally on the frame (16) can be pushed, in which case the free narrow sides (48) of the photovoltaic module (14) in receiving grooves (30) and the joining webs (26) get into the joint recesses (32).

Description

The invention relates to a support for photovoltaic modules, comprising a frame and fastening means for mounting the photovoltaic modules in the frame.

Such carriers are for example from the DE 201 09 943 U1 known.

From the EP 1 052 363 A1 Profile frame for holding glass sheets or plastic plates have become known, wherein the frame comprises two legs which are joined transversely to the plane of the glass or plastic plate with the glass or plastic plate.

From the FR 26 01 728 A1 are fastening means in the form of receiving profiles for receiving the free narrow sides of surface elements known.

The present invention has for its object to provide support for photovoltaic modules, which have a simple structure, are inexpensive to produce and enable safe enclosure of the photovoltaic modules.

This object is achieved with a carrier having the features of claim 1. The carrier according to the invention therefore provides that the frame is in one piece, in particular, of plastic and that the fastening means are designed as receiving profiles which have receiving grooves for receiving free narrow sides of a photovoltaic module. By providing a particular one-piece frame made of plastic this can be produced inexpensively in mass production. By providing the receiving profiles with associated grooves, the photovoltaic modules can be safely bordered along their free narrow sides. When rectangular in plan view photovoltaic modules are the narrow sides of the circumferential sides, ie the longitudinal and transverse sides.

The invention provides that joining means are provided for fastening the receiving profiles on the frame. The joining means are included as provided on the frame joining ridges and as provided on the receiving profiles, cooperating with the joining guide grooves. As a result, a positionally accurate joining of the receiving profiles is ensured on the frame.

The joining webs are formed on the upper edge of the frame projecting outwards, so that the receiving profiles are laterally, ie parallel to the plane of the frame, pushed onto the frame and thereby reach the joints in the joint recesses. By this lateral sliding of the receiving profiles on the frame can additionally be achieved that the respective narrow side passes into the associated receiving groove of the associated receiving profile. Consequently, with moving the respective receiving profile in only one direction, on the one hand, the photovoltaic module securely bordered and on the other at the same time the receiving profile joined to the frame.

Advantageously, a plurality of receiving profiles are provided, which are to be arranged along the narrow sides of the photovoltaic module. In rectangular photovoltaic modules, four recording profiles, namely on the four narrow sides, are preferably provided. The grooves of the recording profiles take on the narrow sides preferably vσllständig. This ensures that the photovoltaic modules are securely enclosed by the recording profiles.

Preferably, the receiving profiles are made of plastic and have at the areas where the photovoltaic modules abut the receiving profiles, sealing means. The sealing means are preferably provided extending over the entire longitudinal direction of the receiving grooves, so that a close contact of the sealing means is ensured on the surface of the respective photovoltaic module. Preferably, sealing means are provided on the opposite sides of the receiving grooves, so that the narrow sides of the photovoltaic modules are protected against ingress of moisture or dirt. In particular, when the photovoltaic modules consist of several components, which are arranged one above the other, it is ensured by such a design of the invention that no moisture or foreign bodies can penetrate into the photovoltaic modules.

The receiving profiles are preferably produced by extrusion, wherein the sealing means, which are formed in particular from a different plastic as the receiving profiles, are integrally formed by coextrusion to the receiving profiles or produced together with the receiving profiles. As a result, an economical production of the receiving profiles including sealant is achieved in particular.

In order to obtain a possible torsion-free frame and to ensure a secure receiving the photovoltaic module through the frame, the frame preferably provides longitudinal and / or transverse elements for supporting the underside of the photovoltaic module. In particular, large-scale photovoltaic modules can be safely supported by the frame.

To a setting of the receiving profile after the lateral sliding on the frame reach, it is conceivable that the jointed teeth and the joint recesses with the joint-side gears have cooperating counter teeth. In this way, a kind of locking connection between joining webs and joint recesses, and thus between the frame and the respective receiving profile in a simple manner, can be realized without additional components.

Furthermore, it is advantageous if the receiving groove remote, lower wall of the joint recess is received by a frame-side locking recess in the final assembled state such that a frame-side, the locking recess defining locking edge engages the respective receiving profile at least in sections, in particular perpendicular to a plane parallel to the frame plane. Due to the lateral sliding of the receiving profiles on the frame consequently a locking connection is realized to secure the final assembly position of the receiving profile on the frame. The latching recess limiting latching edge is preferably not formed elastically deformable. Rather, it may be provided that the joining webs are at least partially formed elastically such that the receiving profile can engage in the associated latching recess. Due to the provision of the locking edge lateral removal of the respective receiving profile after reaching the final assembly position is no longer possible. In this respect, a permanent locking connection is realized.

The object mentioned at the outset is also achieved by an assembly comprising a carrier according to the invention with associated frame and associated receiving profiles as well as a photovoltaic module received by the carrier. This final assembled assembly can in particular go as an independent assembly in the trade.

For mounting the assembly according to the invention, the procedure is in particular as follows. First, the photovoltaic module is spent on the frame. Thereafter, the receiving profiles are laterally, parallel to the frame plane, pushed onto the narrow sides of the photovoltaic module, wherein also the recording profiles are joined to the frame.

In this case, as already mentioned, joining webs on the frame and joint recesses are provided on the receiving profiles in such a way that the receiving profiles can be laterally pushed onto the frame in such a way that the joining webs reach the joint recesses.

In the event that, as already mentioned, frame side a locking recess is provided with locking edge for receiving the lower wall of the joint recess, the assembly is such that the lower wall of the joint recess enters the frame-side locking recess, so that the locking recess limiting locking edge Behind recording profile engages.

Further advantages and advantageous embodiments of the invention will become apparent from the following description, with reference to which the embodiment of the invention shown in the figures is described and explained in more detail.

Show it:

1 a top perspective view of a photovoltaic module having a carrier

2 a perspective bottom view of the carrier according to 1 ;

3 the frame of the carrier in 1 without the photovoltaic module;

4 an enlarged view of a section of the frame 3 ;

5 a cross section through a recording profile, as in 1 shown without photovoltaic module and without frame;

6 the cross-section according to 5 with photovoltaic module and frame.

In the 1 is an assembly 10 shown a carrier 12 as well as one from the carrier 12 enclosed photovoltaic module 14 includes. The carrier 12 is in turn made of a frame 16 as well as a total of four, the four free narrow sides of the photovoltaic module 14 enclosing recording profiles 18 , The frame 16 is in one piece made of plastic, and designed in particular as injection-molded component. The recording profiles 18 are preferably also formed as plastic and designed as extruded parts.

How out 2 becomes clear, the frame has a reinforcing longitudinal element 20 as well as two stabilizing cross elements 22 on.

As in particular from 3 becomes clear, the top of the longitudinal element rises 20 over the tops of the cross members 22 , On the top 24 of the longitudinal element comes the bottom of the photovoltaic module 14 to rest.

As from the magnification according to 4 becomes clear, the frame points 16 at its upper edge several, laterally outwardly projecting joins 26 on. Below the joints 26 are in the frame 16 locking recesses 28 intended. The longitudinal extent of the joins 26 essentially corresponds to the longitudinal extent of the respectively associated latching recess 28 ,

The recording profiles 18 have a longitudinally constant cross section, as in 5 is shown. It becomes clear that the recording profiles 18 a receiving groove 30 for receiving the free narrow sides of the photovoltaic module 14 exhibit. Furthermore, the recording profiles 18 in each case one joint recess extending parallel thereto 32 on, in the final assembled state, as well 6 becomes clear, to accommodate the respective, frame-side joints 26 serves.

As in particular from the 5 and 6 becomes clear, have the joints 26 on its top and bottom as well as the joint recesses on the with the Fügegestegen 26 facing sides gearing 34 or counter teeth 36 on.

In the recording grooves 30 are, as well out 5 and 6 becomes clear, extending in the longitudinal direction of the receiving profiles sealant 38 . 40 intended. The sealants 38 . 40 are preferably by means of coextrusion in the production of recording profiles 18 together with the recording profiles 18 produced.

For mounting the module 10 as they are in 1 is shown, first the photovoltaic module 14 on the frame 16 , as in 3 is shown, hung up. Subsequently, the deflected to a corresponding length recording profiles 18 laterally, that is parallel to the plane formed by the photovoltaic module, in such a way on the frame 16 postponed that on the one hand the joining 26 into the corresponding joint opening 32 intervene and on the other hand, the free narrow sides 48 of the photovoltaic module 14 in the grooves 30 reach. Consequently, with only one operation on the one hand, the photovoltaic module 14 from the recording profiles 18 and on the other hand the recording profiles 18 at the frame 16 together.

Because of the locking recesses 28 outwardly bounding respective locking edge 42 be when pushing the recording profiles 18 the respective joins 26 Conditionally deflected upwards. The lower wall 44 the respective joint reduction 32 is thus through the gap between the respective Fügegestegen 26 and the associated locking edge 42 squeezed through until the final assembly, as in 6 is achieved is achieved. In this final assembly the lower wall snaps 44 in the locking recess 28 a, whereby the joints 26 be moved back from their deflected position in their original position. The locking edge 42 snaps one with the locking edge 42 cooperating, receiving profile side counter-locking edge 46 , A lateral removal of the receiving profiles is after reaching the final assembly position, as in 6 is shown, no longer possible.

Like also out 6 becomes clear, are the free narrow sides 48 of the photovoltaic module 14 due to the sealant 38 and 40 Moisture and dustproof from the intake profiles 18 edged. The sealants 38 and 40 lie along the entire longitudinal extent of the recording profiles 18 under some bias on the photovoltaic module 14 at.

Overall, results in a mountable in a simple manner assembly 10 ensuring a safe positioning of the photovoltaic module 14 on the carrier 12 allowing, with the assembly of the assembly 10 is possible in a simple manner without additional aids.

Claims (12)

Carrier ( 12 ) for photovoltaic modules ( 14 ), comprising a framework ( 16 ) and fixing means for mounting the photovoltaic modules ( 14 ) as part of ( 16 ), wherein the frame is made of plastic and the fastening means as receiving profiles ( 18 ), wherein joining means for fixing the receiving profiles ( 18 ) on the frame ( 16 ) are provided, characterized in that the receiving profiles ( 18 ) Receiving grooves ( 30 ) for receiving free narrow sides ( 48 ) of a photovoltaic module ( 14 ) and that the joining means on the one hand as at the upper edge of the frame ( 16 ) formed parallel to the frame plane projecting outwards, on the frame ( 16 ) joining joints ( 26 ) and on the other hand than at the admission profiles ( 18 ), with the seams ( 26 ) cooperative joint savings ( 32 ) are formed so that the receiving profiles ( 18 ) on the side of the frame ( 16 ) are pushed, then the free narrow sides ( 48 ) of the photovoltaic module ( 14 ) in recording grooves ( 30 ) and the joints ( 26 ) into the merging arrangements ( 32 ) reach. Carrier ( 12 ) according to claim 1, characterized in that a plurality of receiving profiles ( 18 ) are provided along the narrow sides ( 48 ) of the photovoltaic module ( 14 ) are arranged. Carrier ( 12 ) according to claim 1 or 2, characterized in that the receiving profiles ( 18 ) are formed of plastic and on the areas attached to the photovoltaic module ( 14 ), sealant ( 38 . 40 ). Carrier ( 12 ) according to claim 3, characterized in that the receiving profiles ( 18 ) are produced by extrusion, wherein the sealant ( 38 . 40 ) by coextrusion to the receiving profiles ( 18 ) are formed. Carrier ( 12 ) according to one of the preceding claims, characterized in that the frame ( 16 ) Longitudinal and / or transverse elements ( 20 . 22 ) for the application of the photovoltaic module ( 14 ) having. Carrier ( 12 ) according to one of the preceding claims, characterized in that the joining webs ( 26 ) Toothings ( 34 ) and the joint savings ( 32 ) Counter teeth ( 36 ) exhibit. Carrier ( 12 ) according to one of the preceding claims, characterized in that the receiving groove ( 30 ) located far away, lower wall ( 44 ) of the joint saving ( 32 ) of a frame-side locking recess ( 28 ) is received in the final assembled state such that a frame-side, the latching recess ( 28 ) limiting latching edge ( 42 ) the respective admission profile ( 18 ) at least partially locked behind. Carrier ( 12 ) according to one of the preceding claims, characterized in that the joining webs ( 26 ) are formed at least partially elastically deflectable. Assembly ( 10 ) comprising a carrier ( 12 ) with a frame ( 16 ) and with recording profiles ( 18 ) according to at least one of the preceding claims and one of the carrier ( 12 ) photovoltaic module ( 14 ). Method for assembling an assembly ( 10 ) according to the preceding claim, characterized in that the photovoltaic module ( 14 ) on the frame ( 16 ) that recording profiles ( 18 ) laterally parallel to the frame plane on the narrow sides ( 48 ) of the photovoltaic module ( 14 ) and also the recording profiles ( 18 ) with the frame ( 16 ). The method of claim 10, wherein the assembly ( 10 ) a carrier ( 12 ) according to at least claim 9, characterized in that the receiving profiles ( 18 ) on the side of the frame ( 16 ) are postponed so that the joints ( 26 ) into the merging arrangements ( 32 ) reach. The method of claim 11, wherein the assembly ( 10 ) a carrier ( 12 ) according to at least claim 8, characterized in that the lower wall ( 44 ) of the joint saving ( 32 ) in the frame-side locking recess ( 28 ), so that the latching recess ( 28 ) limiting latching edge ( 42 ) the respective admission profile ( 18 ) is locked behind.

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