DE102009051973A1 - Module support for solar module of solar system i.e. photovoltaic system, has opening including section for performing swelling process of connecting elements and another section whose diameter is smaller than diameter of screw head - Google Patents

Abstract

The support (5) has connecting elements cooperating with a holding unit, and a screw head arranged at an end of each connecting element, where the support is connected with the screw head. A keyhole-shaped opening (12) is formed corresponding to the connecting elements, and includes a section for performing swelling process on the connecting elements and another section whose diameter is smaller than diameter of the screw head. The support is made of metal, and includes a U-shaped closed cross section. Independent claims are also included for the following: (1) a molding tool for mounting a module support of a supporting structure for a solar system, comprising a base support (2) a method for assembling a solar module.

Description

State of the art

The invention relates to a module carrier for at least one solar module, according to the preamble of claim 1, a support assembly for a solar system, according to the preamble of claim 14, a solar system, according to the preamble of claim 26, a template for mounting a module carrier of a support structure for a solar system, according to the preamble of claim 27, and a method for mounting a solar module of a solar system, according to the preamble of claim 31.

A solar system, in particular a photovoltaic system, usually consists of a supporting structure, which is fastened directly on the floor or a flat roof or an inclined roof surface having roof, and at least one solar module, which is fixed via a module carrier to the supporting structure. Since a solar module is an electrical component that converts shortwave radiant energy, typically sunlight, directly into electrical energy, the glass surface is more or less inclined, depending on the geographic latitude of the site, to achieve the optimal irradiation.

Solar modules have long been on the market, the glass surface of which is surrounded by a stabilizing frame, which also serves to fix it to the module carrier. More and more frequently, however, frameless solar modules have recently been fitted with stiffening elements (backrails) on their backs in order to stabilize the glass surface. As a rule, these frameless solar modules are fixed by means of a clamp on the module carrier.

A relevant in this regard to the prior art support arrangement for a solar system and a solar system with such a support arrangement are in the published patent application WO 2008/009530 A2 described. Here, the solar modules, which can also be designed frameless, clamped by means of clamps against the module carrier. The disadvantage here is that a clamping, especially at high snow or wind load, can lead to a heavy load on the glass surface, so that this heavily loaded and event. is damaged. This disadvantage is intensified when using larger-area solar modules.

In order to overcome this disadvantage and still be able to use frameless solar modules, it is possible to use a screw instead of a clamping of the glass surface, which cooperates with the stiffening elements. The disadvantage here is that it is unavoidable that the solar panels are mounted in the winter and / or the module carrier have sharp edges, so that the fitters wear cold weather and / or injuries regardless of the season gloves, giving them the necessary instinct , Especially in the precise alignment of the laid on the module carrier solar modules for the attachment of the screws, is taken. Therefore, the installation is quite time consuming.

The invention and its advantages

The module carrier according to the invention for at least one solar module, with the characterizing features of claim 1, the support assembly according to the invention for a solar system, with the characterizing features of claim 14, the solar system according to the invention, with the characterizing features of claim 26, the inventive template for mounting a module carrier a support structure for a solar system, with the characterizing features of claim 27, and the inventive method for mounting a solar module of a solar system, with the characterizing features of claim 31, have the advantage that a connecting element allows locking of the solar module and the module carrier, whereby a quick installation of the solar modules on the module carrier is accomplished and still the installer is not exposed to injury, since after locking the connection element only needs to be tightened for fixation. For the latching, the connecting element is designed with a thickening which can be inserted into an opening, wherein the opening has a first region for carrying out the thickening of the connecting element and a second region whose diameter is smaller than the diameter of the thickening of the connecting element. In the module carrier according to the invention, the opening corresponding to the connecting element is arranged on its side facing the solar module.

According to an advantageous embodiment of the module carrier according to the invention, the thickening of the connecting element is a screw head.

According to an additional advantageous embodiment of the module carrier according to the invention, at least one opening for fastening the module carrier to a support arrangement is arranged on the side facing the solar module.

According to an additional advantageous embodiment of the module carrier according to the invention, the module carrier is made of metal.

According to an additional advantageous embodiment of the module carrier according to the invention module carrier has a closed cross-section.

According to an additional advantageous embodiment of the module carrier according to the invention, the module carrier has a U-shaped cross-section.

According to a related advantageous embodiment of the module carrier according to the invention, the open side of the U-shaped cross-section is arranged on the side facing away from the solar module of the module carrier.

According to an additional advantageous embodiment of the module carrier according to the invention, the open side facing ends of the module carrier has a gain.

According to a related advantageous embodiment of the module carrier according to the invention, the reinforcement is directed inwards.

According to an additional advantageous embodiment of the module carrier according to the invention, at least one additional fastening means is arranged on the module carrier for fastening the module carrier to a support arrangement.

According to a related advantageous embodiment of the module carrier according to the invention, the additional fastening means is screwed to the module carrier.

According to an additional advantageous embodiment of the module carrier according to the invention, the additional fastening means is an angle or a shoe.

According to an additional advantageous embodiment of the module carrier according to the invention, the holder of the solar module whose glass surface is at least partially framed or the holder arranged as a stiffening element on the module carrier side facing the solar module.

According to an advantageous embodiment of the support assembly according to the invention, the thickening of the connecting element is a screw head.

According to an additional advantageous embodiment of the support assembly according to the invention, the opening is keyhole-shaped.

According to an additional advantageous embodiment of the support assembly according to the invention, the connecting element has a spacer.

According to a related advantageous embodiment of the support assembly according to the invention, the diameter of the spacer is larger than the diameter of the first region of the opening.

According to an additional advantageous embodiment of the support assembly according to the invention, the spacer made of metal, plastic, rubber, or the like ..

According to an additional advantageous embodiment of the support assembly according to the invention, the floor supports are lined up in at least one row and the floor supports of a row are connected by a longitudinal member. For example, one-post systems and two-post systems are conceivable.

According to a related advantageous embodiment of the support assembly according to the invention, the height of the floor supports of a row are different from the height of the floor supports of another row.

According to an additional advantageous embodiment of the support assembly according to the invention, the module carrier facing side of the longitudinal member at least partially on a slope.

After a related advantageous embodiment of the support assembly according to the invention, the module carrier is mounted on the slope.

According to an additional advantageous embodiment of the support assembly according to the invention, the floor support and / or the side members made of wood or plastic.

According to an additional advantageous embodiment of the support arrangement according to the invention, the module carrier is a module carrier, according to one of claims 1 to 13.

According to an advantageous embodiment of the template according to the invention are according to an additional advantageous embodiment of the support assembly according to the invention.

According to an additional advantageous embodiment of the template according to the invention markings, side stops and / or holes are available for aligning the inserted between the longitudinal member and the side without the stop surface of the module carrier introduced markings.

According to an additional advantageous embodiment of the template according to the invention as fastening means is a cooperating with the higher side of the longitudinal member tab.

Further advantages and advantageous embodiments of the invention are the following description, the drawings and claims removed.

drawing

An embodiment of the object of the invention is illustrated in the drawing and will be explained in more detail below. Show it:

1 a perspective view of a solar system according to the invention,

2 a side view of a solar system according to the invention,

3 an end view of a module carrier according to the invention,

4 a plan view of a module carrier according to the invention,

5 a detailed view of a module carrier according to the invention,

6 a side view of a module carrier according to the invention,

7 a perspective view of a module carrier according to the invention,

8th a perspective view of a designed as a shoe fastener,

9 a side view of an assembled module carrier according to the invention,

10 a side view of a configured as an angle fastener,

11 a view of the underside of a solar module,

12 a front view of a solar module,

13 a view of a solar system according to the invention,

14 a perspective view of a solar system according to the invention during assembly,

15 a side view of a template according to the invention,

16 a perspective view of a solar system according to the invention during assembly,

17 a supervision of an in 16 shown template according to the invention and

18 a side view of a 16 shown template according to the invention.

Description of the embodiment

1 shows a perspective view of a solar system according to the invention 1 , At this example are three frameless solar modules 2 shown on a supporting structure. The supporting structure is made of floor supports 3 , on it lying longitudinal beams 4 and on the side rails 4 arranged module carrier according to the invention 5 , For fixing the module carrier 5 can shoes 6 or angle 7 be used. Depending on the geographic location that is due to the solar modules 2 formed surface more or less inclined, so that compared to a horizontal lower edge 8th a solar module 2 or the lower edge 9 a module carrier 5 deeper than the top edge 10 a solar module 2 or the top edge 11 a module carrier 5 is arranged. For arranging a solar module 2 on a module carrier 5 are keyhole-shaped openings at the top 12 arranged.

2 shows a side view of a solar system according to the invention 1 ,

3 shows an end view of a module carrier according to the invention 5 , which is exemplified U-shaped, with the open side 13 during assembly points in the direction of the longitudinal member. But there are also closed cross-sectional shapes conceivable. To the stability of in 3 shown module carrier 5 increase are on the open side 13 inward reinforcements 14 arranged, the preferred angle 15 30 °. On the side walls 16 are holes 17 for fixing the in 1 illustrated fastening means (shoe 6 , Angle 7 ) intended. The open side 13 opposite, is the top 18 of the module carrier 5 ,

4 shows a plan view of a module carrier according to the invention 5 , Shown are six at the top 18 of the module carrier 5 arranged keyhole-shaped openings 12 , which serve to accommodate three solar modules, not shown. It can be clearly seen that the keyhole-shaped openings 12 from a first area 19 and a smaller diameter precipitating second region 20 exist, the second area 20 in the direction of the lower edge 9 of the module carrier 5 is aligned. In addition are at the top 18 of the module carrier 5 drilling 21 arranged through which a tool is feasible to fix a shoe, not shown, on a side rail.

5 shows a detailed view of a module carrier according to the invention 5 , This has a keyhole-shaped openings 12 coming from a first area 19 and a smaller diameter precipitating second region 20 consists.

6 shows a side view of a module carrier according to the invention 5 , On the side wall 16 there are holes 22 in which an in 1 illustrated fastener (shoe 6 , Angle 7 ) on the module carrier 5 can be fixed.

7 shows a perspective view of a module carrier according to the invention 5 ,

8th shows a perspective view of a shoe 6 designed fastener. On the side walls 23 there are holes 24 that with the in 6 shown holes 22 communicate, allowing for attachment of the shoe 6 on the carrier module 5 For example, a screw can be inserted and secured via a nut. On the bottom 25 , which faces the side member in the installed state, is a slot 26 present, through which a screw by means of a through the in 4 shown hole 20 guided tool in the side rail can be screwed. The slot 26 allows fine adjustment of the position of the shoe 6 on the side member.

9 shows a side view of an assembled module carrier according to the invention 5 , The module carrier 5 is by means of a by a mother 27 secured screw 28 passing through the holes 25 of the shoe 6 and through the holes 22 of the module carrier 5 was introduced with the shoe 6 connected. The shoe 6 is also with a through the slot 26 guided screw 29 on the side member 4 screwed. At the top 18 of the module carrier 5 is a solar module 2 arranged at the bottom 30 a stiffening element 31 (Backrail) is located. For fixing the solar module 2 on the module carrier 3 gets into a threaded hole 32 a connecting element in the form of a screw 33 slightly screwed in order to subsequently increase the thickening of the connecting element, which is a screw head 34 after passing through the first area of the keyhole opening in the second area 20 to fix the keyhole-shaped opening. As a shoe 6 is arranged only in the region of the longitudinal members, is the screw head 34 for tightening through the open side 13 freely accessible. A spacer 35 causes a spacing between the stiffening element 31 and the module carrier 5 so that the risk of corrosion is reduced. For accessibility to the screw head 34 to ensure are when using a closed cross-section of the module carrier 5 at the top 18 opposite side holes provided for the implementation of a tool.

To reduce the necessary tools and the associated necessary holes, it is conceivable that hexagon socket screws, Phillips screws, slotted screws or Torx be used instead of hexagon socket screws.

10 shows a side view of an angle 7 designed fastener. The module carrier 5 is by means of a by a mother 27 secured screw 28 passing through the holes 36 the angle 7 and through the holes 22 of the module carrier 5 was introduced, with the angles 7 connected. The angles 7 are also with screws 37 on the side member 4 screwed. Is the module carrier 5 such on the side rail 4 fixed, is not shown solar module at the top 18 of the module carrier 5 locatable.

11 shows a view of the bottom 30 a solar module 2 , On the bottom 30 , which is also the electrical connection 38 are located, two trained as a bracket stiffening elements 31 (Backrail) arranged, which can be attached to the support structure via two module carrier. In addition to the attachment to the module carriers by means of the four threaded holes 32 , it is also conceivable that oblong holes 38 can be used by a fastener feasible and can be fixed, for example by tilting.

12 shows an end view of a solar module 2 ,

13 shows a plan view of a solar system according to the invention 1 ,

14 shows a perspective view of a solar system according to the invention 2 during assembly. To the module carrier 5 on the side rails 4 to align, is preferably a template 40 used. The template 40 consists of a rectangular frame attached to the side member 4 is arranged. On one side there is a stop surface 41 against which the module carriers 5 be guided and aligned, for example, not shown markers and / or side stops.

15 shows a side view of a template according to the invention 40 on a side member 4 by means of at least one tab 42 is fixed. At the cross struts are supports 43 arranged so that a spacing of the frame 44 the template 40 from the side member 4 is present and the module carrier 5 for assembly can be pushed in between, until he the stop surface 41 touched. Through the template 40 is ensured that the lower edge 9 (lower front side) of the module carrier to be mounted 5 always the same distance to the side member 4 have and at the same time the module carrier 5 always have the same distance to each other.

In 15 also becomes clear that the side member 4 at its top a bevel 45 on which the module carrier 5 are arranged and corresponds to the desired inclination of the solar modules. The bevel 45 (Sloping, beveled surface of the top) takes, as in 15 shown on the left, only part of the top of the side member 4 a, so a part 46 the top of the side member 4 parallel to the bottom 47 of the longitudinal member 4 runs. It is also conceivable, as in 2 and 15 shown on the right, that the bevel 45 occupies the entire top, in which case one side 48 of the longitudinal member 4 higher than the other side 49 is.

16 shows a perspective view of a solar system according to the invention 1 during assembly. This is a template according to the invention 50 used a frame 41 and by means of two hooks 51 on the side member 4 is fixed, so that the template 50 something of the in 14 shown template 40 differs. To the module carrier 5 on the top edge 11 of the module carrier 5 nearest longitudinal beams 4 regardless of the design of the lower template is a straight template 52 can be used, the z. B. holes 53 that has the openings 21 of the module carrier 5 communicate.

17 shows a top view of an in 16 shown template according to the invention 50 , The template 50 is by means of hooks 51 on the side member 4 arranged. At the frame 44 is a stop surface 41 arranged, to which the lower edges 9 the module carrier 5 be introduced. At the top of the frame 44 are holes 54 arranged with the openings 12 the module carrier 5 communicate, leaving the module carrier 5 based on the holes 54 is alignable. It is also conceivable that instead of drilling 54 at the bottom of the frame 44 Pins are arranged, which are used to align the module carrier 5 in the openings 12 the module carrier 5 intervention.

18 shows a side view of an in 16 shown template according to the invention 50 , The hook 51 is detachable or by means of a hinge on the stop 41 the template 50 arranged. On the module carrier 5 is the shoe 6 by means of a screw passing through the opening 24 is plugged, fastened, leaving the shoe 6 after alignment of the module carrier 5 at the bevel 45 of the longitudinal member 4 is screwed.

All features shown here may be essential to the invention both individually and in any combination.

LIST OF REFERENCE NUMBERS

1

solar system

2

solar module

3

ground support

4

longitudinal beams

5

module carrier

6

shoe

7

angle

8th

Lower edge of the solar module

9

Lower edge of the module carrier

10

Top edge of the solar module

11

Top edge of the module carrier

12

opening

13

Open page

14

reinforcement

15

angle

16

Side wall

17

drilling

18

top

19

First area

20

Second area

21

drilling

22

drilling

23

Side wall

24

drilling

25

bottom

26

Long hole

27

mother

28

screw

29

screw

30

bottom

31

stiffener

32

threaded hole

33

screw

34

screw head

35

spacer

36

drilling

37

screw

38

Electrical connection

39

Long hole

40

template

41

stop surface

42

flap

43

support

44

frame

45

bevel

46

part

47

bottom

48

page

49

page

50

template

51

hook

52

Just template

53

drilling

54

drilling

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2008/009530 A2 [0004]

Claims (31)

Module carrier ( 5 ) for at least one solar module ( 2 ), wherein the solar module ( 2 ) has a glass surface and at least one holder and by means of at least one cooperating with the holder connecting element, which has a thickening at one end, with the module carrier ( 5 ) is connectable, - with a the solar module ( 2 ) facing side, the at least one corresponding with the connecting element opening ( 12 ), characterized in that the opening ( 12 ) a first area ( 19 ) for performing the thickening of the connecting element and a second area ( 20 ), whose diameter is smaller than the diameter of the thickening of the connecting element has. Module carrier ( 5 ), according to claim 1, characterized in that the thickening of the connecting element is a screw head ( 34 ). Module carrier ( 5 ), according to claim 1 or claim 2, characterized in that on the solar module ( 2 ) facing side at least one bore ( 21 ) for fastening the module carrier ( 5 ) is arranged on a support assembly. Module carrier ( 5 ), according to one of claims 1 to 3, characterized in that the module carrier ( 5 ) is made of metal. Module carrier ( 5 ), according to one of claims 1 to 4, characterized in that the module carrier ( 5 ) has a closed cross-section. Module carrier ( 5 ), according to one of claims 1 to 4, characterized in that the module carrier ( 5 ) has a U-shaped cross-section. Module carrier ( 5 ), according to claim 6, characterized in that the open side ( 13 ) of the U-shaped cross-section of the solar module ( 2 ) facing away from the module carrier ( 5 ) is arranged. Module carrier ( 5 ), according to claim 6 or claim 7, characterized in that the to the open side ( 13 ) pointing ends of the module carrier ( 1 ) a reinforcement ( 14 ) exhibit. Module carrier ( 5 ), according to claim 8, characterized in that the reinforcement ( 14 ) is directed inwards. Module carrier ( 5 ), according to one of claims 6 to 9, characterized in that for fastening the module carrier ( 5 ) on a support assembly at least one additional attachment means on the module carrier ( 5 ) is arranged. Module carrier ( 5 ), according to claim 10, characterized in that the additional fastening means with the module carrier ( 5 ) is screwed. Module carrier ( 5 ), according to claim 10 or claim 11, characterized in that the additional fastening means is an angle ( 7 ) or a shoe ( 6 ). Module carrier ( 5 ), according to one of the preceding claims, characterized in that the holder of the solar module ( 2 ) whose glass surface is at least partially framed or the support as a stiffening element ( 31 ) at the module carrier ( 5 ) facing side of the solar module ( 2 ) is arranged. Support arrangement for a solar system ( 1 ), in particular photovoltaic system, the at least one solar module ( 2 ), wherein the solar module ( 2 ) has a glass surface and at least one holder, - with at least one floor support ( 3 ), - with at least one longitudinal member ( 4 ) and - with at least one transverse to the longitudinal beam ( 4 ) arranged module carrier ( 5 ), with which the holder of the solar module ( 2 ) is connectable by means of at least one connecting means, which at one end has a thickening, characterized in that the module carrier ( 5 ) at its the holder of the solar module ( 2 ) facing side and / or the holder of the solar module ( 2 ) at its the module carrier ( 5 ) facing side at least one opening ( 12 ) having a first area ( 19 ) for performing the thickening of the connecting element and a second area ( 20 ), whose diameter is smaller than the diameter of the thickening of the connecting element has. Supporting arrangement, according to claim 14, characterized in that the thickening of the connecting element is a screw head ( 34 ). A support arrangement according to claim 14 or claim 15, characterized in that the opening ( 12 ) is keyhole-shaped. Carrying arrangement according to one of claims 14 to 16, characterized in that the connecting element is a spacer ( 35 ) having. Carrying arrangement according to claim 17, characterized in that the diameter of the spacer ( 35 ) greater than the diameter of the first region ( 19 ) of the opening ( 12 ). Carrying arrangement according to claim 17 or claim 18, characterized in that the Spacer ( 35 ) made of metal, plastic, rubber, or the like. is. Support arrangement according to one of claims 14 to 19, characterized in that the floor supports ( 3 ) in at least one row and the floor supports ( 3 ) a row by a side member ( 4 ) are connected. Supporting arrangement according to claim 20, characterized in that the height of the floor supports ( 3 ) of a row different from the height of the floor supports ( 3 ) is another series. Carrying arrangement according to one of claims 14 to 21, characterized in that the module carrier ( 5 ) facing side of the longitudinal member ( 4 ) at least partially has a slope. Supporting arrangement, according to claim 22, characterized in that the module carrier ( 5 ) is mounted on the slope. Supporting arrangement according to one of claims 14 to 23, characterized in that the floor support ( 3 ) and / or the longitudinal members ( 4 ) are made of wood or plastic. Carrying arrangement according to one of claims 14 to 24, characterized in that the module carrier ( 5 ) a module carrier ( 5 ) according to any one of claims 1 to 13. Solar system ( 1 ), in particular photovoltaic system, the at least one solar module ( 2 ), - with at least one solar module ( 2 ), wherein the solar module ( 2 ) has a glass surface and at least one holder and - with a the solar module ( 2 ) and at least one module carrier ( 5 ) having the support assembly, characterized in that the support assembly is a support assembly according to one of claims 14 to 25, and / or the module carrier ( 5 ) a module carrier ( 5 ) according to any one of claims 1 to 13. Stencil ( 40 ) for mounting a module carrier ( 5 ) a support structure for a solar system ( 1 ), in particular photovoltaic system, wherein the mounting on a bevelled surface of the top of a by at least one floor support ( 3 ) held longitudinal member ( 4 ) whose one side ( 48 ) higher than the other side ( 49 ), with a rectangular frame consisting of two sides and two end faces ( 44 ) and - arranged with transversely to the longitudinal extent cross struts, characterized in that for aligning the template ( 40 ) on the longitudinal member ( 4 ) on the template ( 40 ) at least one fastening means is arranged and one side of the template ( 40 ) a stop surface ( 41 ) for the end faces of the module carrier ( 5 ) having. Stencil ( 40 ), according to claim 27, characterized in that for the spacing of the frame ( 44 ) of the side member ( 4 ) on the end faces and / or the transverse struts supports ( 43 ) are arranged. Stencil ( 40 ), according to claim 27 or claim 28, characterized in that for alignment between the longitudinal member ( 4 ) and the without stop surface ( 41 ) side of the frame ( 44 ) module carrier ( 5 ) Markings, side stops and / or holes are present. Stencil ( 40 ), according to one of claims 27 to 29, characterized in that the fastening means one with the higher side of the longitudinal member ( 4 ) cooperating tab ( 42 ). Method for assembling a solar module ( 2 ) of a solar system ( 1 ), in particular a photovoltaic system, by means of a thickening having a connecting element, wherein the solar module ( 2 ) has a glass surface and at least one holder, on a module carrier ( 5 ), characterized in that the method consists mainly either of the following method steps: a.) Arrangement of the connecting element to the holder of the solar module ( 2 ), so that the thickening of the connecting element on the solar module ( 2 ) facing away from the end of the connecting element, b.) Installation of the solar module ( 2 ) on the module carrier ( 5 ), so that the thickening of the connecting element by a on the module carrier ( 5 ) opening ( 12 ), a first area ( 19 ) for performing the thickening of the connecting element and a second area ( 20 ), whose diameter is smaller than the diameter of the thickening of the connecting element, has, is insertable, c.) displacement of the solar module ( 2 ) in the direction of the second area ( 20 ) of the opening ( 12 ), so that the thickening of the connecting element, the module carrier ( 5 ) and d.) fixation of this position; or consists of the following process steps: a.) Arrangement of the connecting element on the module carrier ( 5 ), so that the thickening of the connecting element on the module carrier ( 5 ) facing away from the end of the connecting element, b.) Auflegung of the solar module ( 2 ) on the module carrier ( 5 ), so that the thickening of the connecting element by a on the holder of the solar module ( 2 ) long slot ( 39 ), c.) displacement of the solar module ( 2 ) in the direction of its lower edge ( 8th ) and d.) fixing this position, wherein the thickening of the connecting element in the slot ( 39 ).

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