DE102009054250A1 - Adjustment system for a raised solar system - Google Patents

Abstract

An adjusting system for a raised solar system comprises a slanted support (1), which is attached by means of an adapter device (2) inclined above a support (3) on the same. The adapter device (2) is held vertically adjustable on the support (3) and can be fixed in its final position.

Description

The invention relates to a control system for a raised solar system with a slanted support, which is attached by means of an adapter device inclined above a support at the same.

The DE 20 2006 014 047 U1 discloses a control system for elevated solar systems with a sloped support, referred to as a rafter in a roof construction, having alongside it two parallel corrugated surfaces, for an inclined arrangement above a support. In addition, two clamping cheeks are provided, each having a corrugated surface and are to be fastened to the support, that their corrugated surfaces parallel to each other the corrugation surfaces of the inclined support are opposite, wherein the corrugation surfaces of the clamping cheeks are aligned with the corrugated surfaces of the inclined support, that their corrugations intersect and wherein the corrugated surfaces of the clamping cheeks are pressed by means of several screws with plastic deformation in the corrugated surfaces of the inclined support. The support can stand vertically and centrally under the inclined support and is introduced by ramming or screwing into the ground. In order to enable a height adjustment of the inclined support, which are fixedly mounted by means of a flange on the front side of the support clamping cheeks elongated holes, in which the screws are inserted. The nuts associated with the screws are rotatably received in along the oblique carrier ersteckenden T-slots. To produce the flange connection between the support and the two angle-shaped clamping cheeks, a U-profile with its two legs crosses the support and with its web connecting the legs on the front side of the support resting on the support screwed by means of screw in the leg. On the web of the U-profile are legs of the clamping cheeks. Accordingly, this positioning system comprises a large number of individual parts in the connection region between the support and the inclined bolt, which are always expensive to assemble. To adjust an altitude of the inclined support this is supported until the side screws are tightened in the clamping cheeks. Here, however, there is the problem that the slant carrier at this time additionally aligned in its inclination and must be prefixed, which turns out to be relatively difficult to handle when handling large components on a construction site in practice.

In the following describes the DE 20 2008 005 020 U1 a mounting system for stands for photovoltaic open space systems, each stand with a support and a slanted support and a strut for striving the slanting beam against the support, wherein the support, the slanting beam and the strut can be assembled into a fixed adjustable stand in the form of a triangular truss and a first and between strut and strut a second and between strut and support a third articulated connection is provided and the first articulated connection comprises a first articulation approach and the second articulation comprises a second articulation approach and the two joint approaches are longitudinally arranged on the oblique carrier can be arranged. An assembly comprises the oblique carrier and the two joint approaches, wherein the two joint approaches on the oblique carrier are longitudinally guided undriven 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 first articulated connection comprises a platform fastened to the support, a clevis displaceably arranged on the platform with a joint axis, and a joint projection tiltably mounted over the articulation axis, which in turn is displaceably attached to the inclined support. The platform is a T-section extruded section having a central land with cavities and a flat top surface providing a horizontal support for the clevis at the head of the support. The attachment of the platform to the support by means of two screw connections, which pass through corresponding holes in the side walls of the support and in the central web of the platform. The fork head produced as an extrusion has a foot with a flat bottom, which acts as a sliding partner to the top of the platform, so the clevis can be moved and rotated on the platform, wherein for attachment and guidance in the platform two transverse to the inclined support aligned slots and in the two sides of the foot also two slots are provided which extend parallel to the inclined carrier. The elongated holes in the foot and the slots in the platform are arranged so that they each form a crossing pair of holes, each hole pair is a screw. In this way, the fork head on the platform relative to the support transversely and also moved longitudinally to a row of columns by a small amount and then found.

It is an object of the invention to provide a control system of the type mentioned, the inclined support is attached by simple means adjustable to the support.

According to the invention the object is achieved in that the adapter device is held vertically adjustable on the support and can be fixed in its final position.

Due to this measure, in contrast to the prior art, the relatively simple and lightweight adapter device itself arranged height-adjustable on the support and it does not have to be handled with an adjustable in several degrees of freedom inclined carrier, as proposed in the prior art. In addition, the low-cost manufacturable from a few items adapter device with a relatively simple structure is initially adjustable in height to be arranged on the support and secure in its final position. The support is usually a component that is determined by ramming or concreting in the ground. Of course, the support may also have at its foot a flange plate to be attached to a foundation or other component, for example by means of screws. On the inclined support can either directly a solar system, in particular a photovoltaic module, or at least one other carrier for arranging a plurality of solar modules are attached. For fixing a plurality of solar modules usually many supports are anchored in at least one row in the ground and the oblique carrier connected by a series of supports connected to each other by means of at least one module carrier for holding the solar modules.

In order to provide additional degrees of freedom for aligning the slanted support in relation to the support, the adapter device preferably supports the slanted support in its longitudinal and / or transverse direction tiltable with respect to the support, the slant support being fastened in its final position to the adapter device. Sonach the adapter device is suitable to align the oblique carrier in a solar energy favorable inclination to the south and determine. In particular, in the adjacent arrangement of several columns with slanted beams that communicate with each other via module carrier, the possibility for azimuthal alignment is advantageous because with precisely aligned slanted carriers no unnecessary stresses are introduced by positional deviations in the module carrier attached thereto. The inclined carriers can be aligned in an almost optimal position for fixing the module carrier and then screwed tight.

In an embodiment, the adapter device comprises a holding tube, which is provided on the one hand with a portion which is held by means of a preferably releasably secured to the bracket clamp in a shape of the support force and / or positive fit, and on the other a polygonal approach, in particular Shape of a square, having associated with the oblique carrier. The holding tube may be a standardized component made of a stainless material, which in the initial state has a cylindrical tube cross-section and is provided in regions with a formed Vielkant-, in particular square approach. The support, which is preferably designed as a ramming profile of a galvanized or stainless material, is provided by appropriate forming process, such as drawing or rolling, with a corresponding geometry, which includes a formation for the peripheral area encompassing the support. The protruding over the shape of the support peripheral portion of the holding tube of the adapter device is acted upon by the clamp to be determined on the support.

Conveniently, the portion associated with the support is cylindrical in cross-section or flattened-cylindrically shaped, and the shape of the support is designed as a circular segment. Is the support of the associated cylindrical portion of the holding tube of the adapter device flattened, then only a limited rotation of the holding tube in this section is possible, whereas in a cylindrical shape of the corresponding held in the circular section shape of the support portion of the holding tube any rotation of the holding tube to his Longitudinal axis is ensured. The circular section-shaped formation of the support is preferably designed such that the retaining tube slightly protrudes circumferentially, so that it can be clamped in sections of the clamp in the formation.

In an embodiment, the holding tube comprises in its section held in the shape of the support at least partially a toothing, in particular in the form of saw teeth, or a plurality of superimposed grooves, and the clamp has at least one embossing, which engages in the toothing or grooves. Through the grooves or the toothing, both a frictional connection and a positive connection is produced together with the embossing, which may be designed, for example, in the form of a protruding tongue in the direction of the holding tube. Furthermore, this design has an effect on a not completely fixed clamp insofar positive as the holding tube can indeed be adjusted in height along its longitudinal axis, but after releasing assumes a slight tilt and the teeth or grooves is held by the embossing such that a Slipping is prevented. Accordingly, a fitter can make a height adjustment of the holding tube, this release without slipping, for example, to adjust more holding tubes, and then tighten the screws of the clamp, so that the holding tube is finally attached to the support, of course releasably.

Preferably, the holding tube of the adapter device in the region of the polygonal projection on a transverse bore for a through-bolt, which projects through legs of a U-bracket, in the region of its rounded, connecting the legs Bar has a bore for a screw connection with the oblique carrier. Accordingly, the bracket fixing the oblique carrier is pivotable about the longitudinal axis of the through-bolt on the holding tube and allows an orientation of the inclined carrier perpendicular to its longitudinal axis by displacing the inclined carrier over the rounded web.

In order to provide a statically stable structure, the inclined carrier is expediently connected via a further U-bracket to one end of a strut whose other end is coupled via a bracket with a convex web to the support in order to form a triangular connection in the mounted state. The inclined girder and the strut can be delivered pre-assembled at the construction site in order to reduce assembly work there. In the transport state, the strut sets in parallel to the inclined support and the unit is relatively easy to handle.

The support has in cross section two parallel and spaced apart aligned legs, which merge at its one end in a common web with the circular portion-shaped formation and at its other end in each case in a opposite to the web extending flange, wherein the clamp in the area of the web is fastened by means of screws. The support has a stable, torsionally rigid cross-section, which can be manufactured for example by rolling, drawing, or bending.

To create adjustment and mounting options, the oblique carrier has longitudinally extending grooves which on the one hand serve for screwing to the U-bracket and on the other hand for fastening at least one module carrier oriented substantially perpendicular to the inclined carrier.

It goes without saying that the features mentioned above and those yet to be explained below can be used not only in the respectively specified combination but also in other combinations. The scope of the invention is defined only by the claims.

The invention will be explained in more detail below with reference to an embodiment with reference to the accompanying drawings. It shows:

1 a perspective view of a erfindungemäßen positioning system,

2 an enlarged partial perspective view of the detail II after 1 .

3 a further enlarged partial perspective view of the detail II after 1 .

4 an enlarged partial perspective view of the detail IV after 1 .

5 a representation of a holding tube of the actuating system according to 1 in partial section,

6 a perspective view of the holding tube of the actuating system according to 1 in an alternative embodiment,

7 an enlarged perspective view of an item of detail IV after 1 and

8th an enlarged perspective view of an item of detail II after 1 ,

The positioning system for an elevated solar system comprises a slanted carrier 1 by means of an adapter device 2 inclined above a column 3 attached to the same. The tubular inclined carrier 1 is on his support 3 facing bottom and on its bottom diametrically opposite top with grooves 4 provided, which extend along its longitudinal axis, wherein the upper-side groove for fixing a plurality of parallel and spaced from each other, perpendicular to the longitudinal axis of the inclined support 1 arranged module carrier is used, which are not shown. The lower side groove 4 of the oblique carrier 1 serves for a determination of the adapter device 2 and for securing one end of a strut 5 whose other end is to form a triangle composite on the column 3 is fixed.

The support 3 has seen in cross-section at their free ends in each case a flange 6 on the right angle into a thigh 7 merges, wherein the parallel and spaced apart aligned legs 7 over a parallel to the flanges 6 running bridge 8th connected to each other. In the footbridge 8th is located approximately in the middle of a circular section-shaped formation 9 into which a holding ear 10 the adapter device 2 is used, on the one hand a circular cross-section 11 with circumferentially encircling grooves 12 and on the other a polygonal approach 13 in the form of a square 14 having. The circular section 11 of the holding ear 10 is in the circular section-shaped formation 9 the prop 3 used and of a clamp 15 spanned by means of two screws 16 in the footbridge 8th the support for non-positive and / or positive retention of the holding tube 10 is attached. Of course, the screws can 16 either nuts 17 or thread in the web 8th be assigned. The clamp 15 is with one in the direction of the holding ear 10 above stamping 18 provided in the determination of the holding ear 10 with the clamp 15 with the grooves 12 engages.

In the area of the polygonal approach 13 has the holding tube 10 in opposite areas 19 the adapter device 2 a transverse bore 20 for a through-bolt 21 on, the thighs 22 a U-bracket 23 protruding, the two by a rounded bridge 24 connected leg 22 of the U-bracket 23 are spaced so that they the polygon approach 13 of the holding ear 10 overlap on the outside. In the thighs 22 of the U-bracket 23 are slanted oblong holes 25 for the through-bolt 21 let in and more slots 26 extend in their length in the web 24 from the one leg 22 to the other thigh 22 and serve to determine the oblique carrier 1 by means of at least one screw 27 inserted into the corresponding lower groove 4 of the oblique carrier 1 intervenes. In the bottom groove 4 of the oblique carrier 1 is also the strut 5 with one end by means of the U-bracket 23 hinged, with the other, the support 3 associated end of the strut 5 over a hanger 28 with a convex bridge 29 with the prop 3 is coupled to form a triangular composite in the assembled state. Here are the two thighs 30 of the temple 28 the free end of the strut 5 cross-bolted with the same and the convex web 29 lies in the circular section-shaped formation 9 the prop 3 and is also bolted.

According to 3 has the holding tube 10 in an alternative embodiment, a continuous cylindrical cross-section. In a further alternative embodiment according to 5 is the cylindrical section 11 of the holding ear 10 partially flattened and points in this flattened area 31 a sawtooth-like toothing 32 on, in which the coinage 18 the clamp 15 intervenes. Of course, the gearing 32 also be designed circumferentially and the grooves 12 replace.

When setting up the positioning system is first a support 3 fixed vertically in the ground, in particular by ramming, and then the clamp 15 set loose. The factory pre-assembles an assembly, which is the inclined carrier 1 , the adapter device 2 with the holding tube 10 and the strut 5 includes. The holding tube 10 gets into the shape 9 the prop 3 used and in height and its rotational position about the longitudinal axis of the support 3 aligned. After releasing the slanted carrier 1 jammed the holding tube 10 due to its geometry in the area of its cylindrical section 11 with the imprint 18 the clamp 15 , Accordingly, it is possible to have a neighboring slant carrier 1 at a corresponding further support 3 to align in its height. Subsequently, the clamp 15 by means of the appropriate screws 16 tightened to a positive and positive fastening of the holding tube 10 on the prop 3 to effect. By the subsequent determination of the strut 5 on the prop 3 becomes the inclination of the longitudinal axis of the slanted carrier 1 certainly. To the inclined carrier 1 continue to align, is its rotation transverse to its longitudinal axis due to the rounded ridge 24 of the U-bracket 23 possible.

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

• DE 202006014047 U1 [0002]
• DE 202008005020 U1 [0003]

Claims (9)

Adjustment system for a raised solar system with a slanted support ( 1 ), which by means of an adapter device ( 2 ) inclined above a support ( 3 ) is attached to the same, characterized in that the adapter device ( 2 ) height adjustable on the support ( 3 ) and is definable in its final position. Adjusting system according to claim 1, characterized in that the adapter device ( 2 ) the oblique carrier ( 1 ) in its longitudinal direction and / or transverse direction relative to the support ( 3 ) inclinable, wherein the oblique carrier ( 1 ) in its final position on the adapter device ( 2 ) is to be attached. Adjusting system according to claim 1 or 2, characterized in that the adapter device ( 2 ) a holding tube ( 10 ), which is provided with a section ( 11 ) provided by means of a preferably with screws ( 16 ) on the support ( 3 ) detachably mounted clamp ( 15 ) in a shape ( 9 ) of the support ( 2 ) is held positively and / or positively, and on the other a polygon approach ( 13 ), in particular in the form of a square ( 14 ), which the oblique carrier ( 1 ) assigned. Adjustment system according to claim 3, characterized in that the support ( 3 ) associated section ( 11 ) in cylindrical or flattened-cylindrical cross-section and the shape ( 9 ) of the support ( 3 ) is designed circular section. Adjusting system according to claim 3, characterized in that the holding tube ( 10 ) in its shape ( 9 ) of the support ( 3 ) section ( 11 ) at least in sections a gearing ( 32 ), in particular in the form of saw teeth, or a plurality of superimposed grooves ( 12 ), and the clamp ( 15 ) at least one coinage ( 18 ), which in the toothing ( 32 ) or the grooves ( 12 ) intervenes. Adjusting system according to one of claims 1 to 5, characterized in that the holding tube ( 10 ) of the adapter device ( 2 ) in the area of the polygonal approach ( 13 ) a transverse bore ( 20 ) for a through-bolt ( 21 ), the legs ( 22 ) of a U-bracket ( 23 protruding in the area of its rounded, the thighs ( 22 ) connecting bridge ( 24 ) a bore for a screw connection with the oblique carrier ( 1 ) having. Actuating system according to one of claims 1 to 6, characterized in that the oblique carrier ( 1 ) via another U-bracket ( 23 ) with one end of a strut ( 5 ), the other end being connected via a bracket ( 28 ) with a convex web ( 29 ) with the support ( 3 ) is coupled to form a triangular composite in the mounted state. Actuating system according to one of claims 1 to 7, characterized in that the support ( 3 ) in cross-section two parallel and spaced apart aligned legs ( 7 ), which at one end in a common web ( 8th ) with the circular section-shaped formation ( 9 ) and at the other end in each case opposite to the bridge ( 8th ) extending flange ( 6 ), with the clamp ( 15 ) in the area of the bridge ( 8th ) by means of screws ( 16 ) is attached. Actuating system according to one of claims 1 to 7, characterized in that the oblique carrier ( 1 ) longitudinally extending grooves ( 4 ), on the one hand for screwing to the U-bracket ( 23 ) and on the other hand for fixing at least one substantially perpendicular to the oblique carrier ( 1 ) aligned module carrier serve.

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