DE20319065U1 - Support frame for use with solar energy panels is hinged onto a carrier on ground installed pillars - Google Patents

Abstract

A number of solar energy collection panels [SM] are arranged in parallel in guide rails [QT] that form part of a frame. The frame is hinge mounted [KA,SB] onto vertical pillars [SP] such that it can be optimally positioned relative to the sun. There are as many pillars as solar panels and they are set into the ground [GF].

Description

In solar arrangements with one or The alignment of the module surfaces is essential for several solar modules for the achievable area performance of typically flat modules. The surface normal of the module surfaces points as a rule, at least approximately to the south and is preferably horizontal latitude by one depending on the installation site Angle inclined.

While the module surfaces are typically placed parallel to the roof surface when the solar modules are installed on an inclined roof surface, supporting structures of different designs are used for other installation locations. From the DE 200 08 509 U1 An advantageous embodiment of a supporting structure for the installation of a solar array on a flat surface, in particular a flat roof, is known, in which commercially available concrete blocks are used inexpensively as part of a stable substructure.

The present invention lies the task of having a further advantageous solar arrangement a supporting structure for Specify solar modules.

The invention is described in claim 1. The dependent Expectations contain advantageous refinements and developments of the invention.

The solar arrangement according to the invention draws is characterized by a simple, stable and inexpensive structure. The invention is especially for the outdoor installation is suitable, favorably on the leveling the base area and / or there is no need for concrete foundations or excavations. According to one preferred execution are the first carriers sunk into the ground as straight profiles with a vertical orientation, in particular rammed into the ground without further work on the ground surface.

The use of a is particularly advantageous Guardrail Profile for the side member, because of this on the one hand a standard component is available and on the other hand also inexpensive Guard rails, which are exchanged for safety reasons, over the Used market can be purchased and installed. The guardrail profile also points for use in the solar array according to the invention particularly advantageous static properties, which according to a preferred embodiment the restriction on just a side member, which longitudinal can consist of several sections, allow. Advantageous is also the cable routing in the middle part of such a guardrail profile or a profile similar Shape.

Another aspect of the invention focuses on the possibility the angle of attack of the surface normal the solar modules can be easily changed against the horizontal to do what for an arrangement with exactly one, possibly divided into sections Side members especially is advantageous. It can in particular be provided that Alignment of the cross beams around the longitudinal axis of the Side member changeable to make or preferably the orientation of the side member its longitudinal axis in terms of the first carrier variable to design. The side member can for this too be designed as a tube with a circular cross-section. An alignability the surface normal of the Solar modules can also be relatively rotatable by the cross member to the side member about its longitudinal axis be given.

The invention is based on of a preferred embodiment illustrated in detail with reference to the figures. It shows:

1 an assembly drawing of a first preferred embodiment,

2 a side view too 1 .

3 a cross member profile,

4 an advantageous embodiment with changeable module orientation in side view,

5 an oblique view of an arrangement with variable module orientation.

In the 1 with separate elements before assembly, the solar arrangement is for a module arrangement with five photovoltaic solar modules SM intended. The solar modules SM are typically flat and preferably all have the same dimensions with an extension Mx in the longitudinal direction x and My in the transverse direction y.

In the example outlined, the supporting structure contains first beams in particular SP , a side member preferably made of guardrail profiles LP as well as cross beams QT ,

The first supports serve to anchor the solar array on a base. The first carriers are especially for outdoor installation of the solar system SP advantageously carried out as a straight support post, which are preferably rammed into the ground in a vertical orientation. This can advantageously on a foundation and / or on a special preprocessing of the base, z. B. Leveling can be dispensed with. The solar system can thus advantageously be anchored to the base surface on uneven ground and with minimal intervention.

The first carriers are advantageously through Profiles open on one side, so that through openings in the Fastening elements reaching profile wall, such as screws, bolts and the like are easily accessible from both sides of the wall. The first carriers are preferably from a flat starting material, e.g. B. through a steel sheet Deforming, in particular folding or rolling can be produced and thereby particularly inexpensive. The first porters can especially in a preferred commercial version Have sigma cross-section.

The first beams can also be used as frame constructions with several struts, as a concrete base, as combinations of these accomplished his.

The longitudinal member can be drawn as shown in the longitudinal direction x from several parts be composed, the sections on each other in the longitudinal direction facing ends by a connector or preferably as by the arrow indicated by mutual overlap in the longitudinal direction using joining elements that are not explicitly drawn in, such as screws, Bolts, rivets, etc. are connected.

Advantageously, a first carrier is in each case at least in such a connecting region of adjacent sections and in the end regions of the longitudinal carrier opposite in the longitudinal direction SP for vertical support of the side member. Depending on the length of the sections of the longitudinal beam, first beams can also be used SP be provided at intermediate positions. Due to the high bending stiffness of the guardrail profile, the positioning of the first beams relative to the longitudinal beam in the longitudinal direction is not particularly critical.

To fasten the longitudinal beam on the first beams, connecting elements are advantageously provided which, facing the longitudinal beam, have a fastening surface which is inclined towards the horizontal by the alignment angle desired for the surface normals of the solar modules BF exhibit. The connecting elements can in particular, as outlined, as U-shaped brackets open towards the first carriers VB be formed, which rest with two parallel vertical surfaces on the first supports, in particular encompass them on the outside, and are connected to the support, preferably by means of joining elements such as screws, bolts, rivets, etc.

Between first carriers SP and guardrail profiles LP can additionally stiffening elements, e.g. B. in the form of trapezoidal angled safety clips SB be inserted, which stiffen the guardrail profiles against deformation about their longitudinal axis x parallel to the longitudinal axis. As a result, the sheet metal thickness of the guardrail profiles can advantageously be kept low and the material costs and weight of the side members can be kept low. In contrast, the securing bracket can be designed with a greater wall thickness. The securing bracket can in particular advantageously be welded to the side member.

The safety bracket SB as stiffening elements and the connecting bracket VB as connecting elements can also be combined in a common element. The elements separated in the example outlined are particularly easy to obtain by folding tape-like starting material and are therefore particularly cost-effective. In particular, the desired inclination of the fastening surface is also particularly simple in the case of the connecting bracket BF reachable.

The longitudinal member advantageously has a hat profile in cross section with a first fastening surface BL1 which the first bearers SP or the connecting elements VB and possibly facing the safety bracket and a split second mounting surface BL2 on which the cross member QT be attached to. The two fastening surfaces are preferably parallel and spaced apart in the direction of their surface normal. About the slope of the mounting surface BF of the connecting element VB then the same inclination against the horizontal also results for the second fastening surface and the alignment of the cross members. Advantageously, in the middle section between the partial surfaces BL2 electrical cables KA run ( 2 ).

The longitudinal member advantageously has a hat profile in vertical cross section, the inner flanks of which between the first and the second fastening surface are preferably trapezoidal in relation to the surface normal of the fastening surfaces BL1 . BL2 are inclined. Guardrails advantageously have these features and are therefore particularly suitable as ready-to-use standard components and are also preferred as used goods from an economic point of view. With guardrails, the securing brackets are typically already welded to the side member.

In another version, the first and the second mounting surface of the side member too run inclined towards each other, so that when the mounting surface is horizontal Connection element the inclination of the solar modules against the horizontal is determined by the angle of inclination between the two mounting surfaces of the Longitudinal member. Prefers is for the side member that Hat profile, especially in the form of the guardrail profile, with parallel first and second mounting surfaces and adjustment of the solar module inclination over the Fasteners, because then the side members regardless of the required angle of inclination Solar modules always installed uniformly and kept in stock can be and for different angles of inclination only different connecting elements needed become. In particular can also the first porters anchored to the base in a direction other than vertical be and the angle of inclination the solar modules in turn simply over the Fasteners can be set.

The cross beams QT are on the second mounting surface BL2 attached to the side member, in particular by means of joining elements such as screws, bolts, rivets or combinations thereof. The cross beams QT are preferably linear profits. It is particularly advantageous to design the crossbeams as T-profiles or, in particular, hat profiles with surfaces projecting laterally from a central part, which advantageously serve as contact surfaces for the edges of the solar modules which run in the transverse direction y. at In the preferred embodiment of the crossbeams as hat profiles, the middle part of the profile can serve both for fastening the crossbeams on the second fastening surface of the side member and also for holding holding elements for the solar modules. The solar modules are advantageously held on the cross beams in the direction of the surface normal of the solar modules, so that no special coordination between module-side fastening devices and cross beams has to be carried out. To secure the solar modules against slipping rule along the transverse direction y on the cross members can advantageously at the lower ends of the cross member a securing stop z. B. in the form of the bottom ends of the crossmember in the longitudinal direction x continuously connecting rail or preferably only provided at the lower ends of the individual crossmember securing elements such. B. a bolt, cotter pin, screw, etc. may be provided, which are guided in the x-direction through the central part of the cross member profile and extend over the contact surfaces of the cross member. In 3 is a sectional view through an advantageous embodiment of a cross member as a hat profile, the inner flanks HF secure the solar modules against lateral displacement in the x direction and their laterally protruding surfaces KF as a support for the side edges of the solar modules SM serve. A split pin is used as a securing element ST through the flanks HF inserted, which over the contact surfaces KF runs and so slipping of the solar modules along the cross beams in the to the plane of the 3 vertical y-direction prevented. In the middle part MT the hat profile of the crossmember outlined can advantageously be drilled HB to carry out bolts, screws etc. as joining elements FE for attaching the cross members to the side member and / or for attaching clamping elements KE be provided on the cross member. Threads for screws can also be prepared in the bores in a manner that is easy to assemble, in particular also in the form of inserted nuts, in particular blind rivet nuts. Many different profile cross sections are suitable for the cross beams.

Slipping of the solar modules along the cross members can also be prevented by differently designed anti-slip devices on the cross members and / or on the solar modules. So z. B. in an advantageous embodiment, a section at the lower end of the cross member, for. B. following the vertical side surfaces HF and / or the contact surfaces KF be bent as a tab. In yet another embodiment, stop elements can be provided on the solar modules, which abut the upper end of the cross member and / or the side member.

In the side view after 2 is a preferred arrangement with exactly one side member outlined. The first beams have a vertical orientation due to a flat ground as a base GF rammed into the ground, advantageously the part of the first carrier located below the surface SP a length HU of at least 30% or the section of the length HO lying above the surface a maximum of 70% of the total length HO + HU of the first carrier S P is.

A U-shaped bracket VB is as a connecting element with a downward opening of the U-shape and with at the upper end of the first carrier SP adjacent vertical vertical legs screwed to the first cross member. The mounting surface BF of the connecting element VB as the middle part of the U-shape is inclined against the horizontal. In another embodiment which is not outlined, the connecting element can also have only one leg for attachment to the first carrier.

With the interposition of a stable trapezoidal safety bracket SB is the side member with the central surface of its central part which is open at an angle upwards as the first fastening surface BL1 with the connecting element VB screwed. In the preferred use of guardrails as longitudinal members, the securing brackets are typically already welded to the longitudinal member in finished standard components. The securing bracket supports the outer ends of the side surfaces of the hat profile of the side member, which in the transverse direction y form the second fastening surface and point outwards on both sides. Depending on the expected torsional load on the side member, the securing bracket can be designed to be more or less strong or can even be omitted entirely, so that in the latter case the first fastening surface BL1 of the side member directly on the mounting surface BF of the connecting element VB rests. The stabilizing function of the safety bracket for the side member profile and the fastening function of the connecting element VB can also be united in a single, more complex part.

The cross beams QT are by means of joining elements FEL , in particular screws, on the second mounting surface BL2 attached to the side member. The joining elements FEL are advantageously spaced as far apart from each other in the y direction as possible near the outer edges of the fastening surface which is divided in two in the y direction. The extension of the second attachment surface BL2 in the y direction is advantageously at least 150 mm, in particular at least 180 mm.

The longitudinal beam advantageously lies in the y direction at least approximately in the middle of the extent My of the solar modules with a deviation of at most 0.2 My, in particular at most 0.1 My, from the exact center position. The length of the cross members Qy is advantageously at least 60% of the extension My of the solar modules in the y direction. joining elements FEM for clamping the solar modules SM lie on the cross beams advantage fortunately in the y-direction far apart in the opposite end regions of the crossbeams. Additional intermediate positions in the course of the crossbeams for holding the solar modules can additionally be provided.

At the in 4 In a side view looking in the longitudinal direction x sketched arrangement is a support post SP4 as the first support on L-shaped concrete elements as bases SO for installation on a floor surface BF attached so that such an arrangement on surfaces such. B. flat roofs can be erected. The combination of bases SO and support posts SP4 can itself be replaced by substructures of various types. In the example after 5 are vertical support posts SP5 in bases S05 concreted. When arranging after 4 is the support post SP4 with the bases SP4 screwed.

In the examples, the longitudinal beam is 4 and 5 a pipe R0 provided with a circular cross section. In the sketched example, a combination of mounting brackets is used to connect the first beam and the longitudinal beam HW and pipe clamps SCH intended. The pipe R0 is rotatable in the pipe clamps in various angular positions around its longitudinal axis and can be fixed in a force-locking manner. The cross members can be fixed on the side member in a manner known per se, and in particular can also be attached to the side member with further pipe clamps. The rotatability of the longitudinal member about its longitudinal axis relative to the first carrier advantageously enables the adjustment or change of the orientation angle of the surface normals of the solar modules collectively and at the same time for all modules held on a common longitudinal member. As an alternative or in addition to the rotatability of the side member about its longitudinal axis, it can also be provided that the cross members can be rotated about the longitudinal axis of the side member relative to the latter and can be fixed in different rotational positions. A rotatability of the side member about its longitudinal axis relative to the first members is possible even in the case of a non-circular cross section of the side member, in particular also in the preferred embodiment of the side member as a guardrail profile, in that the connecting elements between the first member and side member are accordingly carried out in a manner known per se to the person skilled in the art are. In 5 is through the arrow V3 the rotatability of the side member R0 around its longitudinal axis LA indicated. Further advantageous setting options are for a variable height above the base by the arrow V1 and for a tilting of the connecting elements by the arrow V2 indicated.

The above and those specified in the claims and the features that can be seen in the illustrations are both individual and can also be advantageously implemented in various combinations. The invention is not based on the exemplary embodiments described limited, but in the context of professional Can s changeable in many ways.

Claims (23)

Solar arrangement with a support structure one over a footprint held module arrangement with one or more solar modules, being the supporting structure  a) several in a longitudinal direction (x) spaced first beams anchored to the base,  b) at least one in the longitudinal direction extending side member, which on the first carriers is attached  c) several longitudinally spaced, transverse to the longitudinal direction and inclined to the horizontal in a transverse direction (y) Crossbeam, which is attached to the side member are  has and wherein the module arrangement is held on the cross members is. Arrangement according to claim 1, characterized in that the first carrier straight metallic profiles included. Arrangement according to claim 1 or 2, characterized in that the first carrier foundation-free under the base area are sunk. Arrangement according to claim 3, characterized in that the first carrier with at least 30% of their total vertical extension below the base area lie. Arrangement according to one of claims 2 to 4, characterized in that that the footprint through the earth is formed and the first carriers are sunk into the ground, especially rammed. Arrangement according to one of claims 1 to 5, characterized in that the attachment of the side member on the first carrier via connecting elements what vertical surfaces to the first carriers surfaces inclined towards and against the horizontal towards the side member exhibit. Arrangement according to claim 6, characterized in that the fasteners down towards the first beams open u-shaped Form stirrups, which is attached to the first supports with two parallel vertical surfaces are. Arrangement according to one of claims 1 to 7, characterized in that that the side member is not even accomplished and a first mounting surface towards the first supports having. Arrangement according to one of claims 1 to 8, characterized in that the longitudinal member has a second fastening surface on which the cross members are attached. Arrangement according to claim 8 and 9, characterized in that the first and second mounting surfaces are parallel to each other and to the longitudinal direction and inclined to the horizontal and spaced apart are. Arrangement according to one of claims 1 to 10, characterized in that that the side member in cross section at least approximated forms a hat profile. Arrangement according to one of claims 1 to 11, characterized in that that the side member from a deformed sheet or an extruded profile. Arrangement according to one of claims 1 to 12, characterized in that that the side member through a guardrail profile is formed. Arrangement according to one of claims 1 to 13, characterized in that that the side member from several in the longitudinal direction successive and preferably overlapping sections assembled is. Arrangement according to claim 14, characterized in that first carrier longitudinal at joints of sections lie. Arrangement according to one of claims 1 to 15, characterized in that that exactly one side member is present is. Arrangement according to claim 16, characterized in that the one side member at least approximately in the middle of the extension of the solar modules in the direction of the cross beams. Arrangement according to one of claims 1 to 17, characterized in that that the length the cross member in the transverse direction at least 60% of the length of the solar modules in the transverse direction is. Arrangement according to one of claims 1 to 18, characterized in that that at least a part of the cross member towards the side member has an open hat profile. Arrangement according to one of claims 1 to 19, characterized in that that solar modules on the cross beams lie on and are held in a clamped manner. Arrangement according to one of claims 1 to 20, characterized in that that on cross beams and / or on solar modules means to prevent slipping by molding are provided in the transverse direction. Arrangement according to one of claims 1 to 21, characterized in that the longitudinal beam ( LT . R0 ) around its longitudinal axis ( LA ) can be rotated and fixed in different rotational positions with respect to the first carrier. Arrangement according to one of claims 1 to 23, characterized in that the cross members around the longitudinal axis ( LA ) of the side member can be rotated relative to this and can be fixed in different rotational positions.