DE202009011434U1 - profile support - Google Patents

Abstract

Profile support for a support structure (10) in particular for supporting solar panels (12), with
a stand profile (32) for at least partial contact with a sub-carrier (16),
a support profile (34) for at least partial contact with a component to be supported, in particular solar panel (12) and
a fastening profile (36) provided for transmitting power from the support profile (34) to the upright profile (32) for at least partial contact with a connection profile (18) for connecting the sub-support (16) to the profile support (14),
characterized in that
between the mounting profile (36) and the stand profile (32) an angle α <90 ° is provided.

Description

The The invention relates to a profile carrier for a support structure, with the aid thereof in particular supported solar panels can be.

Around To support solar panels, it is known a C-shaped one-piece profile support to use, the lower stand profile and an upper support profile having, wherein the upright profile and the support profile as identical to each other Shaped straight stretches are formed and parallel to each other are arranged. The stand profile and the support profile are over perpendicular to the profile and the support profile extending fastening profile connected. The profile carrier is used as a cross member over the stand profile bolted to a side member. The solar panel comes with the support profile connected. Since the solar panels exposed to relatively high wind forces are, in addition an angle iron with one flank bolted to the side member and with the another flank over two screw connections screwed to the mounting profile.

adversely in such a profile carrier, that to achieve sufficient mechanical stability for the support structure a high installation cost is required. Furthermore, there is a constant need the mechanical stability to improve.

It the object of the invention is an alternative profile carrier for a support structure to create, with the help of a sufficient mechanical stability is possible without increasing the assembly costs.

The solution The object is achieved with the features of claim 1. Preferred Embodiments of the invention are specified in the subclaims.

Of the Profile carrier according to the invention for a support structure, especially for supporting of solar panels, has a stand profile for at least partial Attachment to a subcarrier, a support profile for at least partial contact with a component to be supported, in particular Solar panel, and one for power transmission from the support profile provided for stand profile attachment profile for at least partially Attachment to a connection profile for connecting the sub-carrier with the profile carrier on. According to the invention is between the mounting profile and the stand profile an angle α <90 ° is provided.

Thereby that the angle α between the mounting profile and the stand profile less than a right Angle is at a caused by sudden wind pressure elastic yielding of the fastening profile and / or the connection profile achieved that the stand profile not only frictionally but also form-fitting from a connecting element, over which the stand profile can be connected to the sub-carrier is held. This increases the mechanical stability without increasing the assembly costs. Here, the knowledge is exploited that in a screwing and / or riveting the stand profile with the subcarrier something Game is present transversely to the mounting direction and a positive connection occurs only when an inner edge of a through hole of the Stand profile on the screw and / or the rivet strikes. By the reduction of the angle α to <90 °, would at a sudden Loading the fastening profile and / or the connection profile as a result of a gust of wind try the stand profile to lift off the subcarrier and thus immediately at the beginning of the load on the fastener used attacks. The resilience of the support structure with the profile carrier according to the invention is reduce and an additional Stiffening achieved. An additional one Material use is not required. In particular, that can Stand profile, the support profile, the fastening profile and / or further profiles which are part of the profile carrier, be designed as a pure flat profiles. Stamped and / or are bent out of the respective profile plane out bracket not mandatory. It is sufficient only through holes for fasteners provided. Furthermore, it is possible the respective passage opening by attaching a firmly connected to the respective profile To produce a punch nut. The profile carrier can thereby a particularly have simple geometry that is simple and inexpensive in particular by Cold forming process can be realized. Further enable the large flat Areas a particularly large overlap between the stand profile and the sub-carrier, between the support profile and the one to support Component, in particular solar panel, and / or between the fastening profile and the connection profile, in particular formed as an angle iron is. This will be great contact surfaces for forwarding high forces created. additionally can over the huge contact surfaces a high frictional force are provided, whereby the mechanical integrity and stability elevated. In particular, the contact surfaces be chosen so big that the profile beam alone over its own weight provides such a high frictional force that the profile carrier without additional Holding devices even at an inclination angle γ of 5 ° to 35 °, in particular 20 ° and preferably 30 ° safely stands on the subcarriers without slipping. The assembly of the profile carrier with the multiple sub-carriers can then by a fitter alone without the help of another person done, which can reduce the installation costs.

Especially is the angle α 45 ° ≤ α ≤ 89 °, in particular 55 ° ≤ α ≤ 85 °, preferably 60 ° ≤ α ≤ 80 ° and especially preferably 65 ° ≤ α ≤ 75 °. In such Angles for α can be with comparatively low material usage for the profile carrier sufficiently large Distance between the solar panel and the subcarrier reach. simultaneously can that Mounting profile and / or the connection profile at different Inclination angles γ against the Downhill force of the to be supported Be inclined component and safely remove the corresponding forces without doing so to be deformed elastically or plastically.

Preferably is the mounting profile over a Return profile with the support profile is connected, so that at an inclination angle γ of the support profile to the horizontal of 5 ° ≤ γ ≤ 35 °, in particular 15 ° ≤ γ ≤ 25 °, preferably γ = 20 ° ± 2 °, the weight force the center of gravity of the support profile in a direction away from the stand profile direction to one of the Stand profile groundbreaking back the fastening profile is spaced, wherein the return profile is particularly dimensioned such that the weight in the Essentially through an attachment point of the connection profile with the subcarrier runs. The resultant of the support profile absorbed forces extends essentially outside of the substantially C-shaped Cross section of the profile carrier. this makes possible it the occurring forces not only from the profile carrier but also of other components, such as in particular the connection profile to be removed. The return profile may in particular be designed as an angle, which has two partial profiles, which are shaped in particular as pure flat profiles. Especially exists the return profile from exactly two at an angle connected flat profiles. The upper part profile, in particular directly, with the support profile is preferably substantially perpendicular with the support profile be connected. The lower part profile, in particular directly, with the fastening profile is connected, may preferably substantially be connected at right angles to the mounting profile. By the lower part profile and the mounting profile can be a bag formed in particular adapted to the contour of the connection profile can be. imprecise Aligned connection profiles are easier on this and can be corrected more easily. This facilitates the assembly and the quality control the mounted support structure. Furthermore, with an elastic deformation of the return profile in a gust of wind, the lower part of the profile at the front of the Attach connection profile and thus automatically stiffened become.

Preferably, the stand profile to the support profile at a distance H and an extension H _{E1 of} the return profile between the upright profile and the support profile is H _E1 ≤ H / 3, in particular 0.2 H to 0.45 H. This means that the height of the return profile one-third of the overall height of the profile carrier is limited, it is possible to connect the connecting profile with the fastening profile essentially at half the height.

In a preferred embodiment is the support profile on a side facing away from the mounting profile side with a support extension connected and between the support profile and the supporting lug an angle β is provided, wherein the angle β is substantially corresponds to the angle α and / or angle β 45 ° ≤ β ≤ 89 °, in particular 55 ° ≤ β ≤ 85 °, preferably 60 ° ≤ β ≤ 80 ° and especially preferably 65 ° ≤ β ≤ 75 °. This allows it for the transport two profile beams with the open side of the substantially C-shaped profile on each other to push and so put the two profile beams into each other. As a result, the required transport volume is significantly reduced. The support approach of a profile carrier can in the collapsed state substantially parallel to Be arranged mounting profile and in particular on the mounting profile issue. Furthermore, thereby the end ridge of the profile carrier in Area of the support profile in have the interior of the substantially C-shaped cross section of the profile carrier, so that the risk of injury to the end ridge is reduced.

In particular, the stand profile is connected via an intermediate profile with the fastening profile, wherein in particular between the upright profile and the intermediate profile an angle δ of δ = 90 ° ± 2 ° is provided and preferably the stand profile to the support profile has a distance H and an extension H _E2 of Intermediate profile between the upright profile and the support profile H _E2 ≤ H / 3, in particular H _E2 ≤ H / 4 and preferably H _E2 ≤ H / 10. The intermediate profile ensures that the slightly inward-pointing fastening profile begins at a higher height. As a result, more volume remains within the substantially C-shaped cross-section of the profile carrier in order to actuate with a tool, for example an open-end wrench, a fastening means for connecting the stand profile to the sub-carrier. At the same time, the height of the intermediate profile is not so high that the contact area between the connection profile and the fastening profile is unnecessarily reduced.

Preferably, exactly one first connection means for connection to the respective sub-carrier, exactly one second connection means for connection to the respective connection profile and in particular exactly one third connection means, a maximum of two third connection means for connection to the respective component to be supported, in particular solar panel provided. Maximum three Connecting means in the region of a connection profile are sufficient for a secure attachment. In particular, it is not necessary for the connection of the connection profile with the fastening profile to provide two or more fastening means in order to avoid buckling under load. In this case, it is exploited that a better removal of force is possible by a non-perpendicular orientation of the fastening profile to the upright profile and the support profile, can be avoided by the maximum bending moments in the region of the fastening profile. This effect is reinforced by return profile, as this additional bending points can be provided, which lead to an additional stiffening of the profile carrier. By reducing the number of fasteners assembly can be accelerated and the production costs can be reduced.

Especially is preferred as part of connecting agents for the compound of profile support with the subcarrier and / or the connection profile and / or the to be supported Component, in particular solar panel, a rotatably connected to the profile carrier Nut, in particular a punch nut and / or rivet nut provided. Because the mother for one Screw connection already firmly connected to the profile carrier is, it is not necessary when mounting the screw connection to hold both the screw and the nut with a tool. Especially in hard to reach places the assembly is facilitated and / or a second person for the assembly not necessary.

In a preferred embodiment is a third spring-loaded connection means for connection of the support profile with the one to support Component provided, in particular a spring force in the fastening direction to provide a clamping force or a spring force the fastening direction provided for limiting the fastening force becomes. Due to the additional clamping force For example, the solar panel already with some spring force be held so that the solar panel during assembly is not slipping down on the particular inclined against the horizontal profile carrier can. By the spring force against the mounting direction is gradually increased the resistance when tightening a screw connection, so that intuitively too much holding force acting on the solar panel is avoided. The risk of damage to the solar panel is thereby reduced. In particular, you can For example, using two different springs, in particular have a different spring constant, both variants be provided simultaneously.

Especially is a third connection means for connecting the support profile with the one to support Component is provided and the third connection means has a through a passage opening of the support profile passing through hook for engaging in a support bracket in particular for solar panels on. The hook can in particular also by a passage opening of the Support carrier through run. In particular, a plurality of solar panels with Assistance of the support beams pre-assembled be and as a common structural unit on in particular at least two profile beams be filed. The hook can already be spring loaded and through the spring force the support profile hold on to afterwards with the help of another third fastening means, as a screw connection or Rivet can be configured, the actual mechanical Connection to the transmission of forces between the support profile and the support beam. Further Is it possible First, the hook through the through openings of both the support profile as well as the support wearer and bring about a first positive fit before the hook with the third fastening means is attached. The third connected to the hook Fastening means is in particular connected to the return profile.

Preferably is a third connection means for connecting the support profile with the one to support Component provided and the third connecting means has at least a holder for abutment against a gravity facing surface of the to be supported Component, in particular solar panel on. Alternatively, the holder connected to the support beam be. Through the holder can with the help of the particular spring-loaded third connecting means a holding force on the substantially upward facing surface of the solar panel on the profile carrier and / or applied to the support beam become. At the same time is avoided by the holder through Wind pressure from below can lift a solar panel. Through the holder can in particular a channel can be formed between two solar panels, to drain rainwater and / or connecting cables to the individual solar panels take.

Especially preferred is the support profile arranged substantially parallel to the stand profile. This allows several Profile carrier superimposed which makes stock keeping easier and less Storage room needed becomes.

In a particularly preferred embodiment, the profile carrier is produced in one piece from strip material, in particular by cold bending method, preferably cold profiling, press bending and / or cold rolling. The raw material of the profile carrier can be supplied as a coil and can only be produced by forming processes as continuous material, wherein the continuous material on the benö Taken length can be separated.

Especially is the profile carrier made of aluminum or coated, in particular galvanized steel produced. As a result, the profile support is weatherproof and light.

The The invention further relates to a support structure, in particular for Support of solar panels, with a sub-carrier used in particular as a side member, a especially as a cross member used profile carrier, which can be trained and educated as described above, the profile carrier directly with the subcarrier is connected, and one in particular designed as an angle iron Connection profile, wherein the connection profile directly with the sub-carrier and is directly connected to the mounting profile of the profile carrier. As a result of that the angle α between the mounting profile and the stand profile less than a right Angle is at a caused by sudden wind pressure elastic yielding of the fastening profile and / or the connection profile achieved that the stand profile not only frictionally but also form-fitting from a connecting element over which the stand element with the sub-carrier can be connected. This increases the mechanical stability without the Increase assembly costs.

Especially is with the support profile of the profile carrier a solar panel or a support connected to a solar panel connected. The support structure can thereby generate energy through solar thermal energy and / or photovoltaics.

Preferably is the connection profile over exactly an attachment point connected to the sub-carrier. Because of the geometric design of the profile carrier the risk of rotation the connection profile is at least reduced by the attachment point is, it is not necessary the connection profile over two To connect attachment points with the sub-carrier. By the reduced number of fasteners, is the assembly cost reduced.

Especially preferred is the subcarrier by an inclination angle γ to Horizontal of in particular 5 ° ≤ γ ≤ 35 °, preferably 15 ° ≤ γ ≤ 25 °, especially preferably γ = Inclined 20 ° ± 2 ° and the fastening profile is contrary to the downhill force of to be supported component, in particular solar panels, inclined. The downhill force of the supporting Component at one opposite of the horizontal inclined arrangement, as is usual with solar panels, can over it removed the fastening profile and the connection profile to the sub-carrier become.

Especially the connection profile is substantially vertically aligned is. this makes possible It's another component, usually vertically or horizontally aligned over the connection profile with the support structure connect to. Furthermore, the vertical alignment of the aesthetic Impression improved. Furthermore, a mechanic with the help of his sense of balance Easily detect the direction of gravity and a non-vertical orientation Detect connection profile without difficulty. The non vertical Connection profile indicates an incorrect alignment of the support structure in this area and facilitates fault finding and error correction while the assembly.

following the invention with reference to the accompanying drawings using preferred embodiments explained by way of example.

It demonstrate:

1 FIG. 1 is a schematic sectional view of a support structure, FIG.

2 : A schematic sectional view of a profile carrier of the support structure 1 .

3 : A schematic sectional view of two collapsed for transporting profile carriers 2 .

4 FIG. 2 is a schematic sectional view of a second embodiment of the profile carrier, FIG.

5 FIG. 2: a schematic sectional view of a third embodiment of the profile carrier, FIG.

6 FIG. 2: a schematic sectional view of a fourth embodiment of the profile carrier, FIG.

7 : A schematic perspective view of the support bracket 6 and

8th : A schematic perspective view of a connectable to the profile carrier support.

In the 1 illustrated support structure 10 has a solar panel 12 on, over the profile beam used as a cross member 14 with sub-carriers used as longitudinal members 16 connected is. The profile beams 14 are each about a formed as an angle iron connection profile 18 with the respective subcarrier 16 connected. Furthermore, the profile carrier 14 in each case via exactly one first connection means 20 with the respective subcarrier 16 connected, wherein the first connecting means 20 may be formed in particular as a screw connection and / or as a rivet connection. About a second one connecting means 22 , in particular can be designed as a screw connection and / or as a rivet connection, is the profile carrier 14 with the respective connection profile 18 connected. The respective connection profile 18 is about exactly one attachment point 24 with the subcarrier 16 connected. In the illustrated embodiment, the solar panel 12 and thus also the profile beams 14 and the subcarriers 16 opposite to a horizontal 26 tilted by an inclination angle γ = 20 °. The geometry of the profile carrier 14 is designed such that a resultant 28 the top of the respective profile carrier 14 acting forces in the direction of gravity 30 essentially on a back 29 of the profile carrier 14 past the attachment point 24 of the connection profile 18 runs. As a result, an elastic rotation of the connection profile 18 around the attachment point 24 by sudden wind loads on the solar panel 12 avoided.

As in 2 has shown the one-piece profile carrier produced by cold profiling 14 a stand profile 32 on to the profile beam 14 flat on the subcarrier 16 to be able to sit down. Essentially parallel to the stand profile 32 is a support profile 34 provided at a distance H, the surface of the part to be supported, in particular the solar panel 12 , is applied in order to be able to remove the occurring forces. For attachment to the connection profile 18 is a fastening profile 36 provided at an angle α = 75 ° to the stand profile 32 is arranged. The fastening profile 36 can be flat on the connection profile 18 issue. The fastening profile 36 is via a return profile 40 with the support profile 34 connected to an excessive offset of the support profile 34 to the stand profile 32 to avoid. In the illustrated embodiment, the return profile 40 designed angled and has an extension between the stand profile 32 and the support profile 34 of H _E1 = 0.3 H. The return profile 40 has an upper part profile 42 and a lower sub-profile 44 on. The upper part profile 42 is substantially perpendicular to the support profile 34 connected while the lower part profile 44 is connected substantially at right angles to the mounting profile. With the stand profile 32 is a stand approach 46 connected substantially at right angles, leaving a lower end burr 48 of the profile carrier substantially in the interior of the substantially C-shaped cross section of the profile carrier 14 has. Corresponding with the support profile 34 a support approach 50 connected such that an upper end burr 52 of the profile carrier 14 pointing inwards. In the illustrated embodiment, the support approach 50 arranged at an angle β = 75 ° to the support profile, so that the angles α and β are equal.

As in 3 shown, due to the same angle α and β two profile carrier 14 for transport in a space-saving manner particularly easy to be plugged into each other. The support approach 52 can be flat on the mounting profile 36 issue. To save even more space, the stand approach 46 be shortened or omitted in comparison to the illustrated embodiment.

At the in 4 illustrated embodiment of the profile carrier 14 is compared to the in 2 illustrated embodiment of the profile carrier 14 between the stand profile 32 and the fastening profile 36 an intermediate profile 54 provided, which is substantially perpendicular to the stand profile 36 is arranged. The intermediate profile 54 has an extension between the stand profile 32 and the support profile 34 of H _E2 = 0.09 H on.

At the in 5 illustrated embodiment of the profile carrier 14 is with the lower part profile 44 of the return profile 40 a screw connection 56 with a punch nut 58 and a screw 60 where the screw 60 with the help of a spring 62 spring loaded. By the spring force can over a with the screw connection 56 connected hooks 64 a force on the solar panel 12 or one with the solar panel 12 connected support beams 66 be exercised, for example, the solar panel 12 and / or the support beam 66 provisionally clamped until a firm connection was made. The punching nut 58 is rotatable with the hook 64 fixed, so it is not necessary the punch nut 58 when screwing with a tool hold. Instead of the punch nut 58 may also be provided a rivet nut or another prefixed nut.

At the in 6 illustrated embodiment of the profile carrier 14 is about a bolt 68 a holder 70 with the profile carrier 14 connected. Between the profile beam 14 and the holder 70 is a spring 72 provided to a clamping force of the holder 70 on one between the holder 70 and the support beam 66 arranged solar panel 12 to be able to exercise.

As in 7 shown has the holder 70 two pioneering approaches 74 on, between which a channel 76 in the holder 70 is trained. About the Ansätz 74 can be applied to the gravity-facing surface of the solar panel 12 a holding force to be exercised.

As in 8th can be displayed instead of in 6 and 7 illustrated embodiments of the profile carrier 14 a support beam 66 be used. The support beam has, for example, a substantially Σ-shaped cross section ("Sigma profile"). With the help of several support beams 66 In particular, a variety of solar panels 12 pre-assembled and as a pre-assembled module as a whole with a suitable number of Profilträ gladly 14 get connected. In this case, in particular the in 5 illustrated embodiment of the profile carrier 14 used.

Claims (19)

Profile support for a support structure ( 10 ) in particular for supporting solar panels ( 12 ), with a stand profile ( 32 ) for at least partial attachment to a subcarrier ( 16 ), a support profile ( 34 ) for at least partial contact with a component to be supported, in particular solar panel ( 12 ) and one for transmitting power from the support profile ( 34 ) to the profile ( 32 ) provided fastening profile ( 36 ) for at least partial attachment to a connection profile ( 18 ) to connect the subcarrier ( 16 ) with the profile carrier ( 14 ), characterized in that between the fastening profile ( 36 ) and the profile ( 32 ) An angle α <90 ° is provided. profile support according to claim 1, characterized in that the angle α 45 ° ≤ α ≤ 89 °, in particular 55 ° ≤ α ≤ 85 °, preferably 60 ° ≤ α ≤ 80 ° and especially preferably 65 ° ≤ α ≤ 75 °. Profile carrier according to claim 1 or 2, characterized in that the fastening profile ( 36 ) via a return profile ( 40 ) with the support profile ( 34 ) is connected, so that at an angle of inclination γ of the support profile ( 34 ) to the horizontal ( 26 ) of 5 ° ≦ γ ≦ 35 °, in particular 15 ° ≦ γ ≦ 25 °, preferably γ = 20 ° ± 2 °, the weight force ( 28 ) of the center of gravity of the support profile ( 34 ) in one of the stand profile ( 32 ) pioneering direction to one of the standing profile ( 32 ) groundbreaking backside ( 29 ) of the fastening profile ( 36 ) spaced, wherein the return profile ( 40 ) is dimensioned in particular such that the weight ( 28 ) essentially by an attachment point ( 24 ) of the connection profile ( 18 ) with the subcarrier ( 16 ) runs. Profile carrier according to claim 3, characterized in that the stand profile ( 32 ) to the support profile ( 34 ) identifies a distance H and an extension H _{E1 of} the return profile ( 40 ) between the stand profile ( 32 ) and the support profile H _E1 ≤ H / 3, in particular 0.2 H to 0.45 H. Profile carrier according to one of claims 1 to 4, characterized in that the support profile ( 34 ) at one of the fastening profile ( 36 ) groundbreaking page with a support approach ( 50 ) and between the support profile ( 34 ) and the support approach ( 50 ) is provided, wherein the angle β substantially corresponds to the angle α and / or angle β 45 ° ≤ β ≤ 89 °, in particular 55 ° ≤ β ≤ 85 °, preferably 60 ° ≤ β ≤ 80 ° and particularly preferred 65 ° ≤ β ≤ 75 °. Profile carrier according to one of claims 1 to 5, characterized in that the upright profile ( 32 ) via an intermediate profile ( 54 ) with the fastening profile ( 36 ), in particular between the stand profile ( 32 ) and the intermediate profile ( 54 ) an angle δ of δ = 90 ° ± 2 ° is provided and preferably the upright profile ( 32 ) to the support profile ( 34 ) has a distance H and an extension H _{E2 of} the intermediate profile ( 54 ) between the stand profile ( 32 ) and the support profile ( 34 ) H _E2 ≦ H / 3, in particular H _E2 ≦ H / 4 and preferably H _E2 ≦ H / 10. Profile carrier according to one of claims 1 to 6, characterized in that exactly one first connecting means ( 20 ) for connection to the respective subcarrier ( 16 ), exactly one second connecting means ( 22 ) for connection to the respective connection profile ( 18 ) and in particular exactly a third connecting means ( 56 ; 70 ), a maximum of two third connecting means ( 56 ; 70 ) for connection to the respective component to be supported, in particular solar panel ( 12 ), is provided. Profile carrier according to one of claims 1 to 7, characterized in that as part of connecting means ( 20 . 22 . 56 . 70 ) for connecting the profile carrier ( 14 ) with the subcarrier ( 16 ) and / or the connection profile ( 18 ) and / or the component to be supported, in particular solar panel ( 12 ), one rotatably with the profile carrier ( 14 ), in particular a pierce nut and / or rivet nut, is provided. Profile carrier according to one of claims 1 to 8, characterized in that a third spring-loaded connection means ( 56 ; 70 ) for connecting the support profile ( 34 ) is provided with the component to be supported, in particular a spring force in the fastening direction for providing a clamping force or a spring force against the fastening direction for limiting the fastening force is provided. Profile carrier according to one of claims 1 to 9, characterized in that a third connecting means ( 56 ; 70 ) for connecting the support profile ( 34 ) is provided with the component to be supported and the third connecting means ( 56 ; 70 ) one through a passage opening of the support profile ( 34 ) passing through hooks ( 64 ) for engaging in a support beam ( 66 ) especially for solar panels ( 12 ) having. Profile carrier according to one of claims 1 to 10, characterized in that a third connecting means for connecting the support profile ( 34 ) is provided with the component to be supported and the third connecting means at least one holder ( 70 ) to rest against gravity white send surface of the component to be supported, in particular solar panel ( 12 ), having. Profile carrier according to one of claims 1 to 11, characterized in that the support profile ( 34 ) substantially parallel to the standing profile ( 32 ) is arranged. Profile carrier according to one of claims 1 to 12, characterized in that the profile carrier ( 14 ) is made in one piece from strip material, in particular by cold bending process, preferably cold profiling, press bending and / or cold rolling. Profile carrier according to one of claims 1 to 13, characterized in that the profile carrier ( 14 ) is made of aluminum or coated, in particular galvanized steel. Supporting structure, in particular for supporting solar panels ( 12 ), with a sub-carrier used in particular as a side member ( 16 ), in particular used as a cross member profile carrier ( 14 ) according to one of claims 1 to 14, wherein the profile carrier ( 14 ) directly with the subcarrier ( 16 ) is connected, and a particular configured as an angle iron connection profile ( 18 ), where the connection profile ( 18 ) directly with the subcarrier ( 16 ) and directly with the fastening profile ( 36 ) of the profile carrier ( 14 ) connected is. Support structure according to claim 15, characterized in that with the support profile ( 34 ) of the profile carrier ( 14 ) a solar panel ( 12 ) or one with a solar panel ( 12 ) connected support beam ( 66 ) connected is. Support structure according to claim 15 or 16, characterized in that the connection profile ( 18 ) via exactly one attachment point ( 24 ) with the subcarrier ( 16 ) connected is. Support structure according to one of claims 15 to 17, characterized in that the subcarrier ( 16 ) by an inclination angle γ to the horizontal ( 26 ) of, in particular, 5 ° ≦ γ ≦ 35 °, preferably 15 ° ≦ γ ≦ 25 °, particularly preferably γ = 20 ° ± 2 °, and the fastening profile (FIG. 18 ) against the downgrade force of the component to be supported, in particular solar panels ( 12 ), is inclined. Support structure according to one of claims 15 to 17, characterized in that the connection profile ( 18 ) is oriented substantially vertically.