DE102008051426A1 - Photovoltaic module, has frame formed in manner, such that photovoltaic module is stackably secured against slipping perpendicularly to surface-normal, where frame surrounds peripheral side of semiconductor component - Google Patents

Abstract

The module (1) has a laminar shaped semiconductor component (3) i.e. solar cell, oriented perpendicular to a surface-normal (2), and a frame (8) surrounding a peripheral side of the semiconductor component. A side (11) of the frame faces another side (9) of the frame in a direction of the surface-normal. The frame is formed in a manner, such that the photovoltaic module is stackably secured against slipping perpendicularly to the surface-normal. Anti-slipping elements (10, 12) are shiftedly arranged on the latter side (9) of the frame in a direction of the surface-normal.

Description

The The invention relates to a photovoltaic (PV) module with a frame.

PV modules consist of a composite of semiconductor devices and a Surround it for the purpose of attachment. During storage and the transport of the PV modules are stacked on top of each other. It must You slipping through special packaging and devices be prevented. Badly fixed modules can slip during transport and damaged become or cause damage.

Of the Invention is therefore based on the object, a PV module with a to provide improved transportability.

These The object is solved by the features of claim 1. Of the The core of the invention is the frame of a PV module in such a way Form that stacked PV modules due to the Forming the frame against slipping secured against each other are. These are opposite each other Sides of the frame shaped so that they are like the parts of a Puzzles when putting the frames together in entangled engagement come together. Advantageous embodiments emerge from the Dependent claims. characteristics and details of the invention will be apparent from the description several embodiments based on the drawing. Show it:

1 a cross section of several stacked PV modules according to a first embodiment,

2 a cross section of several stacked PV modules according to a second embodiment,

3 a cross section of several stacked PV modules according to a third embodiment,

4 a cross section of several stacked PV modules according to a fourth embodiment,

5 a cross section of a PV module according to a fifth embodiment,

6 a cross section of a PV module according to a sixth embodiment,

7 a cross section of a PV module according to a seventh embodiment and

8th a cross section of a PV module according to an eighth embodiment.

The following is with reference to the 1 a first embodiment of the invention described. A photovoltaic module 1 also as a PV module 1 denotes at least one, in particular a plurality of flat, perpendicular to a surface normal 2 oriented semiconductor devices, in particular solar cells 3 , At the solar cells 3 they are crystalline, especially mono- and / or polycrystalline and / or thin-film solar cells. The solar cells 3 have a front side 4 and one of these in the direction of the surface normal 2 opposite lying back 5 on. On the front side 4 is a first protective layer 6 arranged. The protective layer 6 is in particular tempered glass. Other materials with high mechanical strength and high optical transmission are also possible. On the back side 5 the solar cells 3 is a second protective layer 7 intended. The second protective layer is in particular formed as a film, in particular of a thermoplastic plastic, preferably of polyvinyl fluoride. The protective layers 6 . 7 are weather-resistant and dirt-repellent. They may in particular have a coating. By means of the first protective layer 6 and the second protective layer 7 are the solar cells 3 sealed.

The solar cells 3 are circumferentially of a frame 8th surrounded by the frame 8th for sealing the solar cells 3 can contribute. The frame 8th is mirror-symmetric to a normal to the surface 2 parallel midplane 17 educated. The frame 8th is in the direction of the surface normals 2 over the front 4 the solar cell 3 above. Likewise, the frame stands 8th in the direction of the surface normals 2 over the back 5 the solar cell 3 above. This is the solar cell 3 when storing the PV module 1 through the frame 8th protected against damage. The frame 8th is formed such that the PV module 1 against slipping perpendicular to the surface normal 2 secured is stackable. He points to this on a first page, which in the following as the top 9 is called, as a projection 10 trained first anti-slip on. The lead 10 is in the direction of the surface normals 2 opposite the top 9 of the frame 8th staggered. Accordingly is on one of the top 9 in the direction of the surface normals 2 opposite second side of the frame 8th which below as the bottom 11 is referred to, a second, as a recess 12 trained anti-slip element provided. The lead 10 and the recess 12 are formed complementary to each other, so that the projection 10 a first frame 8th and the recess 12 a second, to the first frame 8th identical frame mens 8th how two matching parts of a puzzle are positively engageable. The lead 10 of the first frame 8th is thus with the recess 12 of the second frame 8th in entangled engageable. With two superimposed frames 8th forms the recess 12 a groove and the projection 10 a matching bung, especially a rectangular bung.

The frame 8th has a cross section which is in three identical, rectangular, parallel to the surface normal 2 aligned areas 13 . 14 . 15 is divisible. Here is the middle, second area 14 opposite the other two areas 13 . 15 in the direction of the surface normals 2 staggered.

The frame 8th is made of a dimensionally stable and weather-resistant material. It may be formed in particular of aluminum, steel or plastic.

The following is with reference to the 2 A second embodiment of the invention described. Identical parts are given the same reference numerals as in the first embodiment, to the description of which reference is hereby made. Structurally different, but functionally similar parts receive the same reference numerals with a trailing "a". The difference from the first embodiment is that the frame 8a according to the second embodiment instead of the central region 14 the outer area 15 in the direction of the surface normals 2 opposite the other two areas 13 . 14 is arranged offset.

The following is with reference to the 3 A third embodiment of the invention described. Identical parts are given the same reference numerals as in the first embodiment, to the description of which reference is hereby made. Structurally different but functionally similar parts receive the same reference numerals with a trailing "b". The difference from the first embodiment is that the frame 8b according to the third embodiment instead of the central region 14 the inner area 13 in the direction of the surface normals 2 opposite the other two areas 14 . 15 is arranged offset.

The following is with reference to the 4 A fourth embodiment of the invention is described. Identical parts are given the same reference numerals as in the first embodiment, to the description of which reference is hereby made. Structurally different, but functionally similar parts receive the same reference numerals with a trailing "c". The difference from the previous embodiments is that the frame 8c has an H-shaped cross section. This is the middle range 14 in the direction of the surface normals 2 shorter than the two adjacent areas 13 and 15 , The frame 8c thus has both on its top 9 as well as on its underside 11 one recess each 12 on. Two superimposed frames 8th be by means of a Zwischenleg element 16 which acts as a spring in through the recesses 12 formed groove is inserted against slipping perpendicular to the surface normal 2 secured. The intermediate laying element 16 is advantageously from a formbeständi gene material. It may preferably be slightly elastic at least on its surface. Advantageously, it is frictionally engaged in the recesses 12 arranged.

The following is with reference to the 5 A fifth embodiment of the invention is described. Identical parts are given the same reference numerals as in the first embodiment, to the description of which reference is hereby made. Structurally different, but functionally similar parts receive the same reference numerals with a d followed. The difference from the previous embodiments is that the frame 8d a recording area 18 for receiving the PV module 1d as well as to the recording area 18 in the direction of the surface normals 2 subsequent support area 19 having. The support area 19 is integral with the recording area 18 educated.

The recording area 18 surrounds the PV module 1d periphery. The recording area 18 includes an upper, first wall 20 , a side, second wall 21 and a lower, third wall 22 , The first wall 20 is parallel to the front 4 the solar cell 3 aligned. The third wall 22 is parallel to the first wall 20 aligned. The second wall 21 is perpendicular to the first wall 20 and the third wall 22 , The three walls 20 . 21 . 22 thus form a U-shaped profile. The first wall 20 and the third wall 22 stand in the direction perpendicular to the surface normal 2 inward, that is towards the middle plane 17 , over the support area 19 above.

The third wall 22 is also part of the support area 19 , This has a hollow chamber profile with a peripheral enclosed cavity 23 on. The support area 19 includes in addition to the third wall 22 a parallel to this extending, in the direction of the surface normal 2 from this offensive, fourth wall 24 , one on the second wall 21 subsequent fifth wall 25 and one parallel to the fifth wall 25 arranged sixth wall 26 on. The third, fourth, fifth and sixth wall 22 . 24 . 25 and 26 enclose the cavity 23 , The cavity 23 can be used advantageously for laying cables and / or cables.

The lead 10 is on the top 9 forming first wall 20 arranged. Accordingly, the recess 12 in the bottom 11 forming fourth wall 24 arranged. Through the hollow profile is the frame 8d particularly stiff with low weight.

The following is with reference to the 6 a sixth embodiment of the invention described. Identical parts are given the same reference numerals as in the fifth embodiment, to the description of which reference is hereby made. The difference from the fifth embodiment is that the frame 8e according to the sixth embodiment, the projection 10 and the recess 12 on the outside of the frame 8e that means farthest from the middle plane 17 removed, are arranged.

The following is with reference to the 7 A seventh embodiment of the invention is described. Identical parts are given the same reference numerals as in the fifth embodiment, to the description of which reference is hereby made. The difference from the fifth embodiment is that the frame 8f according to the seventh embodiment, the projection 10 and the recess 12 in the direction perpendicular to the median plane 17 at the height of the inside of the jacking area 19 forming sixth wall 26 are arranged.

The following is with reference to the 8th an eighth embodiment of the invention described. Identical parts are given the same reference numerals as in the fifth embodiment, the description of which is hereby incorporated by reference. As in the fourth embodiment, in the eighth embodiment, both on the top 9 as well as on the bottom 11 of the frame 8g a recess 12 intended. To secure against slipping perpendicular to the surface normal 2 are as in the fourth embodiment Zwischenleg elements 16 which act as a spring in through the recess 12 formed groove are inserted, provided.

Claims (8)

Photovoltaic (PV) module ( 1 ; 1a ; 1b ; 1c ; 1d ; 1e ; 1f ; 1g ) comprising a. at least one surface-trained, perpendicular to a surface normal ( 2 ) oriented semiconductor device ( 3 ) and b. a frame ( 8th ; 8a ; 8b ; 8c ; 8d ; 8e ; 8f ; 8g ), which the semiconductor device ( 3 ) circumferentially surrounds with i. a first page ( 9 ) and ii. one of these in the direction of the surface normal ( 2 ) opposite second side ( 11 c. where the frame ( 8th ; 8a ; 8b ; 8c ; 8d ; 8e ; 8f ; 8g ) is formed such that the photovoltaic module ( 1 ; 1a ; 1b ; 1c ; 1d ; 1e ; 1f ; 1g ) against slipping perpendicular to the surface normal ( 2 ) is stackable secured. Photovoltaic module ( 1 ; 1a ; 1b ; 1c ; 1d ; 1e ; 1f ; 1g ) according to claim 1, characterized in that at least one first anti-slip element ( 10 . 12 ) provided on at least one of the pages ( 9 ) of the frame ( 8th ; 8a ; 8b ; 8c ; 8d ; 8e ; 8f ; 8g ) in the direction of the surface normals ( 2 ) opposite this page ( 9 ) is arranged offset. Photovoltaic module ( 1 ; 1a ; 1b ; 1c ; 1d ; 1e ; 1f ; 1g ) according to claim 2, characterized in that at least one second anti-slip element ( 12 ) provided on the first anti-slip element ( 10 . 12 ) opposite side ( 11 ) of the frame ( 8th ; 8a ; 8b ; 8c ; 8d ; 8e ; 8f ; 8g ) is arranged. Photovoltaic module ( 1 ; 1a ; 1b ; 1c ; 1d ; 1e ; 1f ; 1g ) according to claim 3, characterized in that the anti-slip elements ( 10 . 12 ) of two frames ( 8th ; 8a ; 8b ; 8c ; 8d ; 8e ; 8f ; 8g ) are engageable with each other in an entangled manner. Photovoltaic module ( 1 ; 1a ; 1b ; 1c ; 1d ; 1e ; 1f ; 1g ) according to claim 3 or 4, characterized in that the anti-slip elements ( 10 . 12 ) are formed as a projection and recess, which in the juxtaposition of two frames ( 8th ; 8a ; 8b ; 8c ; 8d ; 8e ; 8f ; 8g ) form a bung. Photovoltaic module ( 1 ; 1a ; 1b ; 1c ; 1d ; 1e ; 1f ; 1g ) according to one of the preceding claims, characterized in that the first page ( 9 ) of the frame ( 8th ; 8a ; 8b ; 8c ; 8d ; 8e ; 8f ; 8g ) is designed in such a way that it is jigsaw-like with the second side ( 11 ) of an identical framework ( 8th ; 8a ; 8b ; 8c ; 8d ; 8e ; 8f ; 8g ) is engageable. Photovoltaic module ( 1c ; 1g ) according to one of claims 3 to 4, characterized in that the at least two anti-slip elements ( 12 ) are formed as recesses. Photovoltaic module ( 1c ; 1g ) according to claim 7, characterized in that an interposing element ( 16 ) is provided, which as a spring in a through the recess ( 12 ) formed groove fits.