DE202007008150U1 - Fixing device for solar modules - Google Patents

Abstract

fastening device for solar modules, wherein the fastening device support bracket (15, 16) for receiving a Frame portion (20) each having at least one solar module, each support bracket (15, 16) each associated with at least one closure element (28), with in which the frame section (20) can be held in the support bracket (15, 16), characterized in that the closure element (28) has an elastic Locking mechanism forms and at least a first and a second Position on the support bracket (15, 16), wherein the frame portion (20) in the first Position of the closure element (28) in the support bracket (15, 16) can be introduced, whereupon the closure element (28) can be brought into the second position and there under at least partial relaxation of the elastic Latch mechanism is snap-in.

Description

The The invention relates to a fastening device for solar modules.

Such devices are usually equipped with support brackets for receiving a frame portion of at least one solar module. A corresponding device is off WO 2004/079775 known. In this solution, each support bracket is associated with a closure element which can be inserted from the side into the support bracket and holds the frame portion.

It the task arises, a device of the aforementioned To provide type, which simplifies installation of the solar modules allowed. This task is followed by the fastening device Claim 1 satisfied.

Claims forms the closure element thus an elastic locking mechanism. It can take at least a first and a second position on the support bracket. In the first position of the closure element, the frame portion of the Solar module introduced into the support bracket become. Then, the closure element in the second position be brought where it is under at least partial relaxation of the elastic latch mechanism can be snapped. This allows it to introduce the frame portion in a simple manner in the support bracket and secure there.

Further give preferred embodiments from the dependent ones claims as well as from the following description based on the figures. there demonstrate:

1 the side view of a first embodiment of the invention,

2 a detailed view 1 in the area of the upper support bracket,

3 the view of 2 during insertion of the solar module,

4 a detailed view 1 in the area of the lower support bracket,

5 the closure element from above,

6 an alternative embodiment of the invention in the region of the upper support bracket,

7 a view of the support bracket of 6 .

8th a view of the closure element of 6 and

9 a section through the closure element of 8th in the area of the spring mechanism.

In the 1 to 5 shown embodiment of a solar module assembly is provided, for example, for mounting on the roof of a building and serves to one or more rows of solar modules 10 each to keep in an oblique position. However, the present invention can also be used for the exact horizontal mounting of solar modules on any surface as well as for vertical or oblique mounting on the outer wall of a building.

For holding the solar modules 10 is a fastening device 11 intended. This has a base part 12 over which the fastening device 11 connected to the ground in a suitable manner. In the present embodiment are at the base part 12 first carrier 13 and second carriers 14 arranged at the upper ends of lower and upper support bracket 15 and 16 for receiving the solar modules 10 are arranged.

2 shows the structure of the upper support bracket 16 in detail. It is formed by a light metal profile whose cross-sectional shape remains unchanged over its length, so that it is easy to produce.

The support bracket 16 forms a recess 18 for enclosing a frame section 20 of the solar module 10 , or, as described below, the frame sections of two adjacent solar modules 10 , For this purpose, the support bracket 16 a first and a second section 22 respectively. 23 which are substantially perpendicular to each other. In addition, on the second section is a right-angled nose 24 arranged. The recess 18 will be between the first section 22 , the second section 23 and the nose 24 educated.

At the first section 22 is a groove 26 arranged in which one end 27 a closure element 28 is clamped. The closure element 28 is formed by a multiple angled spring leaf. After the end 27 this consists of a distance section 29 , an approximately perpendicular to the distance section 29 standing holding section 30 , approximately parallel to the distance section 29 extending abutment section 32 and one to the abutment section 32 approximately vertically projecting guide section 33 ,

How out 2 can be seen, has the frame section 20 Rectangular shape with four outsides 35 to 38 , The first page 35 of the frame section 20 is from the second section 23 , the second page 36 from the first section 29 and the third page 37 from the nose 24 of the support bracket 16 includes. The first page 35 opposite fourth page 38 is from the holding section 30 applied. The holding section 30 the closure element 28 thus holds the frame section 20 in the recess 18 firmly and secures this against slipping.

The closure element 28 is designed so that the frame section 20 in a simple manner in the recess 18 introduced and can be snapped there. This is in 3 illustrated. As can be seen, the solar module 10 with its frame section 20 initially approximately from above against the abutment section 32 pressed, the surface of the abutment portion 32 forms an abutment, that of the second side 36 of the frame section 20 is charged. The leading edge 33 This simplifies this by giving a defined stop for the fourth page 38 of the frame section 20 forms.

By the second page 36 on the abutment section 32 applied force becomes the closure element 28 elastically deformed until the second side 36 also with the first section 22 of the support bracket 16 comes into contact. Now the support bracket can 16 and the frame section 20 be moved towards each other, so that the frame section 20 into the recess 18 retracts. This is the frame section 20 over the holding section 30 slip and the abutment section 32 released, leaving the closure element 28 in the 2 snaps back to the position shown.

As can be seen, has the closure element 28 So two positions. In the first, in 3 shown position, the frame portion 20 into the recess 18 be introduced. Then, the frame section 20 in the recess 18 be fixed by the closure element 28 is relaxed.

When inserted into the recess 18 pushes the frame section 20 with his second page 36 against the closure element located in the second position 28 and pushes this in the first position, whereupon the frame section 20 into the recess 18 can be introduced such that the second page 36 the contact with the abutment section 29 loses and the closure element 28 spring back to the second position.

How out 2 can be seen, are on the support bracket 16 two feet 40 . 41 attached, with which he in a suitable oblique position on the carrier 14 can be fixed, for example by means of screws.

The lower support bracket 15 consists of the same preformed profile part as the first support bracket 16 but it is mirrored and rotated. This is off 4 seen. Again he stops, along with a second closure element 28 the frame section 20 of the solar module 10 , In the first carrier 13 are suitable recesses 44 . 45 . 46 provided in which the feet 40 . 41 . 42 of the support bracket 15 be held in the correct orientation.

The length of the support bracket 15 . 16 depends on the respective requirements. It can be much shorter than the corresponding extent of the solar modules 10 in which case, however, the spacing of adjacent carriers 13 respectively 14 the grid of the solar modules 10 must be adapted. In this case, each support bracket holds 15 respectively. 16 preferably two adjacent solar modules. For this purpose, the closure element 28 preferably as in 5 shown constructed. It has springy tongues 50 , which each have a holding section 30 , an abutment section 31 and a leading edge 33 wear. Each of the tongues 50 holds the frame section 20 one solar module each. There is a gap between the tongues 51 through which the transverse frame sections of the two solar modules can extend, as in FIG 5 shown.

When mounting the solar module 10 in the in 1 The device shown is preferably the attachment first on the lower support bracket 15 , To thereby also an insertion in the upper support bracket 16 to enable is the carrier 14 of the upper support bracket about a horizontal axis 17 swiveling so that the frame section 20 on the nose 24 can be passed over. Now the frame section 20 in the area of the upper support bracket 16 against the closure element 28 pressed so that this, as in 3 shown moved to the second position. Then the upper support bracket 16 by gently swiveling the carrier 14 around the axis 17 against the frame section 20 guided so that the frame section 20 into the recess 18 pushes, causing the abutment 32 is released and the closure element 28 can snap back to the second position. As a result, on the one hand, the frame section 20 in the recess 18 detained and on the other hand the carrier 14 against further pivoting about the axis 17 secured.

A second embodiment of the invention is in 6 to 9 shown. Compared to the first embodiment, this differs in the design of the support bracket 15 . 16 , where in 6 and 7 the upper support bracket 16 is shown. The lower support bracket 15 is designed analogously.

As in particular from 7 becomes apparent the support bracket 16 formed by a U-profile, which is a base 55 (which at the upper support bracket 16 vertically), as well as two vertically from the base 55 protruding thighs 56 , Each of the thighs 56 has a recess 18 for receiving the frame section 20 on. The in the recess 18 used frame section 20 gets off the support bracket 16 held on three sides while securing the frame section 20 from the fourth side in turn a closure element 28 is provided. In this embodiment, the closure element 28 around a horizontal, perpendicular to the thighs 56 standing pivot axis 58 swiveling on the support bracket 16 fastened, between the two thighs 56 ,

For storage in the swivel axis 58 owns the closure element 28 a bearing opening 59 through which a pin (not shown) extends, which extends into two openings 60 in the two thighs 56 is held. Next has the closure element 28 a distance section 29 extending away from the pivot axis and at the end thereof perpendicular to the spacer section 29 protruding holding section 30 is arranged.

At the closure element 28 is a spring mechanism 61 arranged in a at the distance section 29 attached pipe 62 is stored. The construction of the spring mechanism 61 is in particular out 9 seen. It has two pins 65 , which longitudinally displaceable in the pipe 62 are stored. Between the pins 65 is a spring 66 arranged the pins 65 outwards against the thighs 56 suppressed.

As in particular from 6 can be seen, the closure element 28 around the pivot axis 58 be pivoted between a first and a second position, wherein the first position in 6 is shown in dashed lines. Is the closure element 28 in the first position, so can the frame section 20 in the recesses 18 of the support bracket 16 be introduced. After inserting the frame section 20 in the recesses 18 becomes the closure element 28 pivoted to the second position. There it is from the spring mechanism 61 against further pivoting on the support bracket 16 detained by the pins 65 in openings 68 in the thigh 56 snap. At the same time, the holding section settles 30 the closure element 28 against the recess 18 opposite side of the frame section 20 and holds this.

In all embodiments shown, the invention is characterized in that the assembly of the solar modules 10 is possible in a very simple and fast way. In particular, no tools are required and only a few, simple handles are sufficient. The mounting of the fastening device and in particular the support bracket 15 . 16 and the closure elements 28 can be done at the factory.

Claims (13)

Fixing device for solar modules, wherein the fastening device support bracket ( 15 . 16 ) for receiving a frame section ( 20 ) each having at least one solar module, each support bracket ( 15 . 16 ) at least one closure element ( 28 ), with which the frame section ( 20 ) in the support bracket ( 15 . 16 ), characterized in that the closure element ( 28 ) forms an elastic locking mechanism and at least a first and a second position on the support bracket ( 15 . 16 ), the frame section ( 20 ) in the first position of the closure element ( 28 ) in the support bracket ( 15 . 16 ) is introduced, wherein on the closure element ( 28 ) Can be brought into the second position and there snapped with at least partial relaxation of the elastic locking mechanism. Fastening device according to claim 1, wherein the support bracket ( 15 . 16 ) a recess ( 18 ) for enclosing the frame portion ( 20 ) of a first, second and third page ( 35 - 37 ), and wherein the closure element ( 28 ) in the second position the frame on one of the first side ( 35 ) opposite fourth side ( 38 ) holds. Fastening device according to claim 2, wherein the closure element ( 28 ) a holding section ( 30 ), which in the second position the frame portion ( 20 ) on the fourth page ( 38 ) engages behind. Fastening device according to claim 3, wherein the closure element ( 28 ) at least one resilient tongue ( 50 ), which on the support bracket ( 15 . 16 ) is fixed and resiliently the holding section ( 20 ) wearing. Fastening device according to one of claims 2 to 4, wherein on the closure element ( 28 ) an abutment ( 32 ) is arranged such that the Rahmenab section ( 20 ) when inserted into the recess ( 18 ) against the abutment ( 32 ) of the closure element located in the second position ( 28 ) and pushes this in the first position, whereupon the frame section ( 20 ) in the recess ( 18 ) is insertable such that it makes contact with the abutment ( 32 ) loses and the closure element ( 28 ) springs back to the second position. Fastening device according to claim 5, wherein at the abutment ( 32 ) a leading edge ( 33 ) connects, with which the frame section ( 20 ) in the first position of the closure element ( 28 ) from the fourth page ( 38 ) is feasible. Fastening device according to claims 3 and 4, wherein the closure element ( 28 ) has a multiply angled spring leaf which the holding portion ( 30 ), the abutment ( 32 ) and the leading edge ( 33 ). Fastening device according to claim 6, wherein the spring leaf at one of the leading edge ( 33 ) opposite edge ( 27 ) and in a groove ( 26 ) of the support bracket ( 15 . 16 ) is held. Fastening device according to one of claims 2 or 3, wherein the closure element ( 28 ) pivotable on the support bracket ( 15 . 16 ) and a spring mechanism ( 61 ), with which it in the second position against pivoting on the support bracket ( 15 . 16 ) is firmly held. Fastening device according to claim 8, wherein the support bracket ( 15 . 16 ) two legs ( 56 ), between which the closure element ( 28 ), wherein the legs ( 56 ) each have a recess ( 18 ) for receiving the frame section ( 20 ), and wherein the support bracket ( 15 . 16 ) about a pivot axis ( 58 ) perpendicular to the legs ( 56 ) is pivotable. Fastening device according to claim 9, wherein the closure element ( 28 ) at least one spring-loaded pin ( 65 ), which against at least one of the legs ( 56 ) and in the second position on this leg ( 56 ) snaps. Fastening device according to one of the preceding claims, wherein the support bracket ( 15 . 16 ) is formed by a profile with a constant cross-sectional shape. Fastening device according to one of the preceding claims, wherein at least one of the support bracket ( 15 . 16 ) at one about a horizontal axis ( 17 ) pivotable carrier ( 14 ) is attached.