DE202007013325U1 - Mounting device for solar modules - Google Patents

Abstract

mounter for solar modules, the at least one or more support means (3) with a support post (18) and with a support area for supporting the to be supported Solar module (4) and an adjusting device for adjusting the Inclination of the solar module (4) relative to the horizontal, characterized in that the adjusting device is designed as a bearing (5) is, which grid-like adjustable in a predetermined angle grid is.

Description

The The invention relates to a mounting device for solar modules according to the preamble of claim 1.

Out The prior art is a variety of mounting devices known, each consisting of a number of profiles and at least consist of a support. These mounting systems are used e.g. used on flat roofs, the no optimal alignment relative to the preferred sunlight have on the solar modules. For this optimal alignment for the solar modules To reach (both photovoltaic and thermal), are the known Mounting systems diverse adjustable in inclination angle.

The disadvantage here is generally that, despite the large number of known constructions, the assembly effort is still considerable. In particular, the alignment or adjustment of the mounting systems is complicated, since usually adjusted to the supports of the angle of inclination and must be fixed with clamping means. In that regard, be exemplary of the DE 10 2005 040 368 A1 , the DE 199 22 795 A1 or the DE 20 2006 014 047 U1 directed. All these solutions have in common that it is possible only with a relatively large effort, in particular to achieve a uniform alignment of a variety of photovoltaic modules on a substrate such as a flat roof.

The Invention has the task of a mounting device against this background for solar modules of To create solar systems, the inclination angle without great installation effort is adjustable.

The Invention solves this object by the subject matter of claim 1.

she creates a mounting device for solar modules of solar systems, the at least one or more support means with a support post and with a support area for supporting the to be supported Solar module and an adjustment device for adjusting the inclination of the solar module relative to the horizontal, wherein the adjusting device is designed as a storage, which grid-like in a predetermined Angle grid is adjustable.

Preferably is the storage for a structurally simple design with a bearing shell and a bearing eye engaging in the bearing shell provided, which is like a grid in the predetermined angle grid relative are adjustable to each other.

The Load transfer and the angle adjustment is about the storage according to the invention compact and material-saving implemented. The angle of inclination can be gradually adjusted and is without tools and clamping devices easy to position. As a result, the installation effort is significant reduced and simplified.

Especially It is advantageous if the storage for the load transfer of a corresponding part the load of the solar module and the angle adjustment of the solar modules designed relative to the horizontal in the predetermined angle grid is.

It is advantageous if the bearings each support the post and connect the support area grid-like adjustable together.

Preferably For example, the support area has a support angle and more preferably a resting on the support bracket support profile.

It is appropriate if the support facilities height adjustable, are designed in particular telescopic.

To In a particularly preferred embodiment, the bearings a not circumferentially closed bearing shell and an engaging in this Bearing eye on.

there Again, it is in terms of assembly and behavior Operation particularly advantageous when the bearing eye displaceable in the bearing shell with game so led is that by an axial movement of these components relative to each other heat-related Dilatation is compensable.

to Realization of the grid-like adjustment are on the inner circumference of Bearing shell and on the outer circumference the bearing eye preferably circumferentially distributed in a predetermined Angular distance - the Grid size - corresponding Positive locking means arranged. Preferably, the bearing shell is opened so far designed that the bearing eye with the attacking and off the bearing eye projecting support angle in it by axial extraction from the bearing shell and twisting in the screen angle and subsequent re-insertion is adjustable without tools.

Advantageous both load transfer and angle adjustment take place over the Inventive storage. In this case, the bearing shell and the bearing eye are in positive engagement. Such is in a simple way a storage in any angle possible without tools and clamping devices. moreover there is a big one Dilatation compensation and there are large possible mounting tolerances in the axial direction. The storage is also designed to be compact and material-saving.

The Support of the mounting system are preferably telescopically adjustable in height, resulting in a wide range of setting angles.

It is conceivable, the angle adjustment in the given grid on different To realize a way, so by a gearing or by means, so For example, circumferentially distributed recesses in bearing eye and bearing shell and feather keys.

Instead of a gearing could the adjustable form-fit also by projecting radially from the bearing eye, circumferentially distributed projections can be achieved, which in corresponding circumferentially distributed recesses engage the bearing shell. A reverse arrangement of the recesses and projections would be too conceivable.

It would be too conceivable, in an outer, not circumferentially closed polygonal tube insert a corresponding polygonal inner tube, on which preferably the support bracket is attached.

When Solar modules are preferred photovoltaic elements with solar cells used. But there are also solar thermal collectors for energy used.

One Module frame is useful as Connecting element between the front and rear support means.

Montageerleichternde Angle markings on bearing eye and bearing shell are conceivable.

It lends itself to, essential or even all elements, in particular Profiles, the mounting device made of extruded aluminum profiles to manufacture.

Further advantageous embodiments of the invention are the remaining dependent claims remove.

following The invention will be described with reference to the drawing based on embodiments described in more detail. It shows:

1 a side view of a solar system with a mounting device according to the invention;

2 a side view of a mounting device according to the invention; and

3 a storage in different orientations in the adjustable angle grid.

1 shows a side view of a portion of a solar system 1 containing at least one or more solar modules 4 has, which are each designed as a substantially flat structure, which by means of a frame-like mounting device 16 on a surface such as a (not shown here) flat roof are placed.

The mounting device has here as a mounting base at least one or preferably a plurality of mutually parallel aligned carrier 2 on.

The carriers 2 - Preferably formed as metal profiles - preferably have a relatively large length (for example, 6 m or more), so that they are particularly well suited to remove loads and keep the solar system safely on the ground (eg a roof). The carriers 2 can even extend over the entire length of the roof in order to be able to remove the loads on the walls and to offer optimum resistance to wind loads.

The carriers 2 are used for mounting on them preferably arranged at right angles support means 3 for supporting the solar modules or for supporting their weight.

Every carrier 2 supports at least one or preferably more of the support means 3 (In particular, more than four), which results in the advantage of a static load transfer over a large area.

Instead of a carrier 2 for several of the support devices 3 Alternatively, for example, a punctiform carrier such as a ground spike can be used in other installation situations.

2 shows an enlarged view of one of in 1 illustrated support means 3 ,

The support facilities 3 each have at least one support post 18 on. The support posts 18 Here are vertical or perpendicular to the horizontal beams 2 aligned. The support facilities 3 are preferably with the angles 6 and preferably with screws and sliding blocks in the preferably made of extruded aluminum beams 2 attached, which may have grooves for this purpose.

In a further preferred embodiment, the support posts 18 telescopically designed in the vertical direction to the widest possible range of angles of inclination for the solar modules to be supported 4 to be able to adjust. However, it is also conceivable to use non-telescopic support posts, preferably of different lengths (the latter solution not shown here).

The one- or multi-part support posts 18 are preferably at their from the carrier 2 opposite ends each provided with a grid-like adjustment for adjusting the orientation of the solar modules relative to the horizontal.

This adjustment has a storage 5 on, on or in the support areas or devices are arranged here as the support angle 11 are configured by means of storage relative to the support means 3 are arranged angle-adjustable in a predetermined angle grid.

The support angle 11 serve to support the solar modules directly or via intermediate support profiles 14 ,

The support angle 11 has a in the usual mounting position on a flat roof lower support legs 12 and a lateral plant leg 13 on. The thigh 12 . 13 serve for the positive support of the solar module and allow easy installation of the modules. The support profiles 14 and the support angle 11 are here via a screw / Nutnutsteinverbindung 21 connected with each other.

The support profiles 14 extend substantially perpendicular to that through the carrier 2 and the support posts 3 spanned plane, but are in terms of their facing away from the wearer upper bearing surface by means of the support angle in or on the bearings 5 angle adjustable. The support surface has a groove 15 in which fasteners 20 for fixing the solar modules to the support profiles 14 intervention.

Preferably, a solar module at two spaced-apart edge regions in each case on one of the support profiles 14 in turn, each in turn preferably on two mutually spaced support means 3 rest.

By choosing or setting different lengths of support devices 3 at the two opposite edge regions of the solar modules 4 and by a suitable angle adjustment of the support means - support angle 11 and support profiles 14 - at the bearings 5 the orientation of the solar modules relative to the horizontal during installation can be easily adjusted without tools.

Preferably carry at least four preferably vertically oriented support means 3 two of the support profiles 14 on which also a number of solar panels 4 is arranged.

Warehousing 5 serves for load transfer of the load and for angle adjustment of the solar modules 4 relative to the horizontal in the given angle grid.

Warehousing 5 has a here in preferred - but not mandatory - execution circular arc portion-like, not circumferentially closed bearing shell 9 on, on its inner circumference completely or partially with an inner profiling, preferably an internal toothing 9 , is provided.

The bearing shell 9 is preferably on the telescoping with screws and slots support post 18 stated.

In order to realize even more or larger changes in length, the support posts 18 additional sleeve 7 and 8th have, which are also connected via slots and screw connections (see also 1 ). The height of the supports is advantageously set before the roof installation.

bearing shell 9 and bearing eye 10 Here are simply by a corresponding toothing 17 . 19 held against rotation against each other.

The bearing eye 10 sits with sufficient play in the bearing shell 9 , making it easy in the axial direction from the bearing shell 9 can be pulled out to another in the required angle (depending on the tooth position) back into the bearing shell 9 to be used. The bearing shell 9 In this case, in relation to the bearing eye has a width which corresponds here to an advantageous ratio of 2: 1. As a result, the storage is adjustable laterally on a long way, making large mounting tolerances and a large Dilatationsausgleich are possible.

The bearing eye 10 is here with the support bracket 11 combined to form a unit or even a one-piece component.

It would also be possible, in reverse, the bearing shell on the support bracket 11 and to arrange the bearing eye on the support post not shown here).

The solar module 4 , preferably already with the support profile 14 is preinstalled via Schraubnutverbindungen, is in mounting on a roof easiest in the support bracket 11 launched the support of the invention. By locking the support profile 14 at the support angle 11 this is clearly positioned. About the gearing 17 . 19 between the bearing eye 10 and the bearing shell 9 it is always possible to create larger assembly tolerances and a large dilation compensation.

By the simple adjustment of the gearing to a required Angle, the installation of the solar modules is much easier.

As an advantageous additional device, the bearing eye 10 and the bearing shell 9 be provided with angle markings, so that the assembly is further simplified.

3 shows exemplary different angular positions of the storage 5 , which can be realized by simply inserting the teeth in the axial direction. An additional screwing or clamping of the bearing eye 10 not necessary.

Claims (20)

Mounting device for solar modules, the at least one or more support means ( 3 ) with a support post ( 18 ) and with a support area for supporting the solar module to be supported ( 4 ) and an adjusting device for adjusting the inclination of the solar module ( 4 ) relative to the horizontal, characterized in that the adjusting device as storage ( 5 ) is formed, which is grid-like adjustable in a predetermined angle grid. Mounting device according to claim 1, characterized in that the storage ( 5 ) with a bearing shell ( 9 ) and one in the bearing shell ( 9 ) engaging bearing eye ( 10 ) is provided, which are grid-like adjustable in the predetermined angle grid relative to each other. Mounting device according to claim 1 or 2, characterized in that the storage ( 5 ) for the load transfer of a corresponding part of the load of the solar module ( 4 ) and the angle adjustment of the solar modules ( 4 ) is designed relative to the horizontal in the predetermined angle grid. Mounting device according to claim 2 or 3, characterized in that the support area a support angle ( 11 ) having. Mounting device according to claim 4, characterized in that the support area further on the support bracket ( 11 ) attachable support profile ( 14 ) having. Mounting device for solar modules, in particular according to one of the preceding claims, characterized in that the support devices ( 3 ) are designed adjustable in height. Mounting device for solar modules, in particular according to one of the preceding claims, characterized in that the support posts ( 18 ) are designed telescopic. Mounting device for solar modules in particular according to one of the preceding claims, characterized that the bearing shell is not formed circumferentially closed. Mounting device for solar modules according to one of the preceding claims, characterized in that the bearing eye ( 10 ) in the bearing shell ( 9 ) is displaceably guided with play such that by an axial movement of these components relative to each other thermally induced dilatation can be compensated. Mounting device for solar modules in particular according to one of the preceding claims, characterized in that the bearing shell is designed so wide open that the bearing eye with the attacking therefrom and from the bearing eye projecting support angle ( 11 ) in it by axial extraction from the bearing shell ( 10 ) and twisting in the screen angle is adjustable. Mounting device for solar modules in particular according to one of the preceding speech, characterized in that on the inner circumference of the bearing shell ( 9 ) and on the outer circumference of the bearing eye ( 9 ) circumferentially distributed corresponding positive engagement means are arranged. Mounting device for solar modules in particular according to one of the preceding claims, characterized in that the positive locking means as a toothing ( 17 . 19 ) are formed. Mounting device for solar modules in particular according to one of the preceding claims, characterized that the positive locking means as projections and corresponding recesses are formed. Mounting device for solar modules according to one of the preceding claims, characterized in that the bearing eye ( 10 ) or the bearing shell ( 9 ) with the support angle ( 11 ) and that correspondingly the bearing shell ( 9 ) or the bearing eye ( 10 ) with the support post ( 18 ) of the support means is connected. Mounting device for solar modules in particular according to one of the preceding claims, characterized by mounting arrangement on a flat roof lower horizontal support ( 2 ) for mounting the support devices ( 3 ). Mounting device for solar modules, in particular according to one of the preceding claims, characterized in that the supports ( 2 ) have a length adapted to the length of a flat roof length. Mounting device for solar modules according to one of the preceding claims, characterized in that the support profiles ( 14 ) are supported by at least four support means and designed to support at least two solar modules side by side. Mounting device for solar modules according to one of previous claims, characterized in that the storage an outer, not circumferentially closed polygonal tube and a corresponding polygonal inner tube having. Mounting device according to one of the preceding claims, characterized in that the solar module has solar cells Photovoltaic module is formed. Mounting device according to one of the preceding claims, characterized in that the solar module as a solar thermal module for heating a flowing through Fluids is formed.