DE102011017467B3 - Support arrangement for solar modules - Google Patents

Abstract

The support arrangement (1) according to the invention for solar modules comprises an arrangement of supports (2) which are mounted on receptacles. Each carrier (2) is connected to at least one receptacle by an axially displaceable rod segment (4) which can be locked with a clamping sleeve (5). By moving the rod segment (4), a height and / or inclination adjustment of the carrier (2) can be carried out.

Description

The invention relates to a support arrangement for solar modules.

Such arrangements with a plurality of solar modules, in particular photovoltaic modules, form solar systems which can be designed, in particular, as outdoor installations, in which posts are introduced into the ground, in particular driven into place. On these posts, which are typically arranged in one or more rows, support assemblies are fastened via fasteners. Then the solar modules are mounted on it.

Depending on the application, the support of the support assembly must be mounted in different heights or inclinations. In addition, the ramming of the posts is often possible only with limited precision, so that it is necessary to have a Nachjustiermöglichkeit, in particular with respect to the height positions of the carrier available.

A support assembly that provides such adjustment is from the WO 2010/130 736 A2 known. This support arrangement comprises a support arrangement for bar segments with an arrangement of carriers which are mounted on posts. At each post a connecting element is provided which can be fastened in discrete height steps adjustable on the post. For this purpose, the connecting element has two surface sections, each with a perforated grid. With a locking element, the surface segments can be fixed according to the breadboard in discrete, different heights on the post. Furthermore, the connecting element comprises a large-area upper side, which forms a contact surface on which a carrier can be fastened with further fastening means.

An advantage of this arrangement is that an at least partial separation of the height adjustment of the attachment between posts and beams is achieved by the locking element provided in addition to the other fastening elements.

The disadvantage of this arrangement, however, is that with this only a height adjustment of the carrier can be done in narrow, discrete altitude levels, which limits the adjustment undesirable.

Another significant disadvantage is the high design complexity of the support assembly. The individual fasteners represent parts with complex geometries, which must be manufactured as welded parts, which is extremely costly. Furthermore, for the attachment of the connecting elements to the carriers on the one hand and to the post on the other hand more parts needed, which is technically complex and also brings a high assembly cost.

The DE 20 2008 005 020 U1 relates to a mounting system for stands for photovoltaic open space systems. Each stand a support and a diagonal beam and a strut for striving the slanting bar are provided against the support, wherein the support, the inclined beam and the strut can be assembled into a fixed adjustable stand in the form of a triangular truss. For this purpose, a first and between strut and strut a second and between strut and support a third articulated connection is provided between the inclined beam and support. The first articulated connection comprises a first articulation attachment. The second hinge connection comprises a second hinge attachment. The two joint approaches can be arranged longitudinally guided on the inclined beam. The two joint approaches are longitudinally guided non-rotatably on the inclined beam and fixed there at target positions. The support is pivotally connectable to the first hinge extension and the strut to the second hinge extension.

The DE 20 2008 001 010 U1 relates to a support structure for solar modules, which has vertically oriented support profiles and supported by the support profiles incorporating connection elements, substantially horizontal side members and inclined cross member. The longitudinal members are mounted on the cross members by means of slidable receiving shoes along the cross member. The connection elements are formed from the support profiles associated connection claws and connected to the cross bars connection angles, the connection angle are coupled with adjustable inclination adjustable with the connecting claws.

The invention has for its object to provide a support assembly of the type mentioned, which has a high functionality with the least possible design effort.

To solve this problem, the features of claim 1 are provided. Advantageous embodiments and expedient developments of the invention are described in the subclaims.

The support assembly according to the invention for solar modules comprises an array of carriers which are mounted on recordings. Each carrier is connected to at least one receptacle by an axially displaceable and lockable with a clamping sleeve rod segment characterized in that the rod segment at a longitudinal end has a guide element which in a in Longitudinal direction of the carrier extending slot engages. Due to the displacement of the rod segment, a height and / or inclination adjustment of the carrier is feasible.

A significant advantage of the support arrangement according to the invention is that in this a stepless height and tilt adjustment of the carrier is possible, that is, the carrier can be aligned very accurately according to the particular application of a solar system.

The stepless height and tilt adjustment can be performed very easily and quickly by an axial displacement of the respective bar segments and subsequent fixing with the associated clamping sleeves.

Furthermore, it is advantageous that the rod segments fixed with the clamping sleeves can absorb and transmit forces in the axial direction and thus be able to absorb the loads of the carriers arranged above them with solar modules mounted thereon. The rod elements with the clamping sleeves are thus components of the support structure for the carrier. Thus, the support assembly according to the invention can be realized with a small number of parts.

Another significant advantage is that the rod elements in the form of profile bars or the like represent mass goods that can be obtained inexpensively. In particular, it is advantageous that no specially adapted to this welding parts must be used to form the support structure.

The support assembly according to the invention can be used for different applications of solar systems. For example, the support assembly may be formed as a roof system. It is also possible to install the support assembly on carports. Finally, the support assembly can be used for a field system.

Depending on the specific application, the receptacles for mounting the support structure of the support arrangement according to the invention may be designed differently. Thus, the recordings of plates, brackets or other mounts may be formed.

In particular, for use in outdoor facilities, the images of posts may be formed. Advantageously, the longitudinal axes of the posts extend in the vertical direction. In this case, the longitudinal axis of a bar segment coincides with a post parallel to its longitudinal axis or with this.

According to an advantageous embodiment of the invention, each carrier is mounted on at least two receptacles. Each receptacle is connected to the carrier by means of a lockable, axially displaceable rod segment.

In the event that the receptacles are designed as posts, the carrier arrangement thus forms a multi-post system. Advantageously, the heights and inclinations of the carrier are separately adjustable.

In a carrier mounted on two receptacles, the bar segment is connected in an articulated manner to the carrier at a first receptacle. The rod segment is adjustable on the second receptacle in the longitudinal direction of the carrier. In this case, the rod segment on the second receptacle at a longitudinal end of a guide element which engages in a running in the longitudinal direction of the carrier slot.

With the slot in conjunction with the associated rod segment a particularly simple stepless tilt adjustment is possible. Regardless of this, a stepless height adjustment can be carried out by operating the rod segments of both recordings. Instead of a slot several other holes or other guides may be provided.

Furthermore, each carrier can be mounted on a receptacle, wherein this receptacle is connected on the one hand via a lockable by means of a clamping sleeve, axially displaceable rod segment with the carrier. On the other hand, the receptacle is pivotally connected to the carrier with a support arm.

In the event that the receptacles are formed as posts, the support assembly forms a Einpfostensystem having a comparable to a multi-post system functionality.

The clamping sleeves for fixing the rod elements are easy to handle, since the respective rod segment can be locked or released by simply rotating the clamping sleeve.

Advantageously, each clamping sleeve has an external thread which engages in a thread of a bore in a receptacle for locking the rod segment.

The thus formed clamping mechanism has a simple structure and yet ensures, even under a load by the carrier and the solar modules arranged thereon, a secure positional fixation of the rod segments.

The invention will be explained below with reference to the drawings. Show it:

1 : First embodiment of the support assembly according to the invention with a carrier mounted on two posts.

2 : Arrangement according to 1 after a tilt adjustment of the wearer.

3 : Detailed representation of the arrangement according to 1 ,

4 : Sectional view of the arrangement according to 3 ,

5 : Second embodiment of the support assembly according to the invention.

1 shows an embodiment designed as Zweipfostensystem embodiment of the support assembly according to the invention 1 for solar modules not shown there. The support arrangement 1 includes a multiple array of carriers 2 , In the present case, cross members on which the corresponding solar modules are fastened by means of further elements of a supporting structure. 1 shows only one such carrier 2 , The entire support arrangement 1 includes a variety of such carriers 2 which are arranged in a direction perpendicular to the plane at a distance one behind the other.

Every carrier 2 is on two posts 3a . 3b stored, whose longitudinal axes extend in the vertical direction. How out 1 seen, is the first post 3a shorter than the second post 3b , causing the on the post 3a . 3b stored carriers 2 is arranged inclined. The posts 3a . 3b even stand on a base, which may be formed by a roof, carport or the like. In a field installation, the posts 3a . 3b driven into the ground.

The carrier 2 is on the post 3a . 3b height and tilt adjustable. 2 shows the arrangement of the carrier 2 in an arrangement according to 1 inclined position.

To perform the height and tilt adjustment are both posts 3a . 3b each over a bar segment 4 with the carrier 2 connected. The bar segment 4 may be formed by a solid rod or tube and has a constant over its length circular cross-section. The longitudinal axes of the bar segments 4 fall with the longitudinal axes of the respective posts 3a . 3b together. The respective bar segment 4 is in the cavity of the associated, formed by a hollow section post 3a . 3b continuously retractable or retractable from this. In a desired target position, the rod segment 4 with a clamping sleeve 5 be fixed in position.

This mechanism is in the 3 and 4 , the detailed representations of the post 3a show, shown in more detail. As from these representations and also from the 1 and 2 It can be seen on the top of the post 3a . 3b a holding plate 6 applied, which two lateral webs 6a that has with screws 7 at the respective post 3a . 3b are attached.

In the holding plate 6 that the respective post 3a . 3b at its top is a hole 8th incorporated, which is limited by an internal thread. In this hole 8th is the clamping sleeve 5 used with its lower end, this one external thread 5a that is in the internal thread of the bore 8th intervenes. The lower part of the clamping sleeve 5 with the external thread 5a forms a preferably slotted body. The clamping sleeve 5 in turn is penetrated by an axial bore, in which the rod segment 4 is guided.

Is the clamping sleeve 5 loosened, the bar segment can 4 in the clamping sleeve 5 be moved in the axial direction. Is the clamping sleeve 5 attracted, is the bar segment 4 fixed in position. When tightening the clamping sleeve 5 becomes the external thread 5a into the internal thread of the bore 8th the holding plate 6 screwed. The slotted body of the clamping sleeve 5 with the external thread 5a it pulls together and thus clamps the bar segment 4 firmly.

Like from the 1 to 4 can be seen, are the bar segments 4 the two posts 3a . 3b different to the wearer 2 coupled. As in particular from the 3 and 4 can be seen, is the bar segment 4 of the post 3a hinged to the carrier 2 coupled. This is at the upper longitudinal end of the bar segment 4 a headband 9 arranged, the two parallel spaced arms extending arms 9a having. In opposite holes 10 the hanger arms 9a a bolt passes 11 that also holes 12 in the carrier 2 interspersed and by means of a locking element 13 against a detachment from the headband 9 is secured. By thus formed articulated connection of the carrier 2 concerning the bolt 11 be formed pivot axis pivoted.

For coupling the bar segment 4 of the second post 3b is at the top of the bar segment 4 also a headband 9 intended. Also this headband 9 has hanger arms 9a with holes 10 on. These are of a bolt-shaped guide element 14 interspersed. This guide element 14 runs in a slot 15 of the carrier 2 , where the slot 15 in the longitudinal direction of the carrier 2 extends.

Should in the support assembly 1 only one height adjustment are performed, so the rod elements 4 both posts 3a . 3b in the same way in the posts 3a . 3b retracted or extended from this and then by tightening the respective clamping sleeve 5 Position-fixed in the new nominal position.

In contrast, only a tilt adjustment of the support assembly 1 be performed, only the bar segment 4 of the second post 3b retracted or extended. This will be the carrier 2 concerning the through the bolt 11 pivoted defined pivot axis. During this pivoting movement, the guide element moves 14 along the long hole 15 , 1 shows a first pivot position of the carrier 2 in which the guide element 14 on the left edge of the slot 15 lies. 2 shows a second pivot position of the carrier 2 in which the guide element 14 from the left edge of the slot 15 has removed.

The tilt and / or height adjustment of the carrier 2 the support assembly 1 is advantageous in the installation of the appropriate solar system, and that before the solar modules on the carrier 2 are mounted. The carriers 2 are therefore not burdened by the weights of the solar modules and can be easily adjusted.

5 shows an embodiment formed as a one-pillar construction of the support assembly 1 for solar modules. In this case, a carrier 2 only from a pole 3 carried. The training of the post 3 this support arrangement 1 corresponds largely to the formation of the post 3b the support assembly 1 according to 1 , Accordingly, the post points 3 a holding plate 6 for receiving the clamping sleeve 5 and the slidable and positionally fixable rod segment 4 on. The bar segment 4 is again by means of the retaining clip 9 and the guide element 14 in the slot 15 of the carrier 2 runs, to the carrier 2 coupled. In addition, there is between the carrier 2 and the post 3 a support arm 16 intended. The support arm 16 opens at a tilt angle from the post 3 out. The support arm 16 is by articulations 17a . 17b hinged to the post 3 and the carrier 2 connected. For a height and tilt adjustment is again the clamping sleeve 5 solved, leaving the bar segment 4 in the posts 3 retracted or extended from this.

LIST OF REFERENCE NUMBERS

1

support assembly

2

carriers

3

post

3a

post

3b

post

4

rack segment

5

collet

5a

external thread

6

Retaining plate

6a

web

7

screw

8th

drilling

9

headband

9a

bail arm

10

drilling

11

bolt

12

drilling

13

locking element

14

guide element

15

Long hole

16

Beam

17a

articulation

17b

articulation

Claims (9)

Support arrangement ( 1 ) for solar modules with an arrangement of supports ( 2 ) supported on recordings, characterized in that each carrier ( 2 ) with at least one receptacle by an axially displaceable and with a clamping sleeve ( 5 ) lockable bar segment ( 4 ) is connected by the rod segment ( 4 ) at a longitudinal end a guide element ( 14 ) in a longitudinal direction of the carrier ( 2 ) extending slot ( 15 ), whereby the displacement of the bar segment ( 4 ) a height and / or tilt adjustment of the carrier ( 2 ) is feasible. Supporting arrangement according to claim 1, characterized in that the receptacles of posts ( 3a . 3b ) are formed. Support arrangement according to claim 2, characterized in that the longitudinal axes of the posts ( 3a . 3b ) in the vertical direction. Supporting arrangement according to claim 3, characterized in that the longitudinal axis of a bar segment ( 4 ) on a post ( 3a ) runs parallel to its longitudinal axis or coincides with this. Supporting arrangement according to one of claims 1 to 4, characterized in that each clamping sleeve ( 5 ) an external thread ( 5a ), which for locking the rod segment ( 4 ) in a thread of a bore ( 8th . 10 . 12 ) engages in a recording. Support arrangement according to claim 5, characterized in that at the upper end of a post ( 3a ) a holding plate ( 6 ), which has a bore ( 8th ) has a thread. Supporting arrangement according to one of claims 1 to 6, characterized in that each support ( 2 ) is mounted on at least two receptacles, each recording via a by means of a clamping sleeve ( 5 ) arrestable, axially displaceable rod segment ( 4 ) with the carrier ( 2 ) connected is. Carrying arrangement according to claim 7, characterized in that when mounted on two receptacles carrier ( 2 ) the bar segment ( 4 ) hinged to the carrier at a first receptacle ( 2 ) and that the bar segment ( 4 ) on the second receptacle in the longitudinal direction of the carrier ( 2 ) is adjustable. Supporting arrangement according to one of claims 1 to 6, characterized in that each support ( 2 ) is mounted on a receptacle, this recording on the one hand via a clamping sleeve ( 5 ) arrestable, axially displaceable rod segment ( 4 ) with the carrier ( 2 ), and wherein the receptacle on the other hand with a support arm ( 16 ) hinged to the carrier ( 2 ) connected is.

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