The present application is National Phase of International Application No. PCT/EP2013/051375 filed Jan. 24, 2013, and claims priorities from German Applications No. 20 2012 001 369.6, filed Feb. 13, 2012; and No. 20 2012 004 333.1, filed May 3, 2012.
The invention relates to a device for supporting at least one solar panel.
Such a device is disclosed in WO 2011/054943 A1. The device comprises two support arrangements. Each of the support arrangements has a support bar, on one side of which a first fastening element is provided. The solar panel has a rectangular frame that includes two opposite struts. To set up the solar panel, the one strut is hung on the first fastening elements. Then, a pivoting support wall provided in the area of the other strut is folded out of a transport position into a support position and mounted, for example by means of screws or rivets, to second fastening elements that are also fastened to the support bar. Setting up the conventional solar panel requires fastening elements and a screwing or riveting tool. Apart from that, each type of support wall must have second fastening elements corresponding to it on the support bar. This makes its manufacturing expense relatively high.
The goal of the invention is to eliminate the disadvantages of the prior art. In particular, a device should be specified that allows rapid, simple, and secure support of solar panels on an essentially horizontal base, for example a flat roof. Another goal of the invention is for the device to be universal, i.e., to allow the setup of different commercially available solar panels.
This is accomplished by the features of the present embodiment.
The invention proposes that the support bar has, pivotally mounted on it at a predetermined distance from the first fastening element, at least one support, whose free end has a second fastening element to fasten the other one strut lying opposite the one strut.
It is simple and economical to manufacture the proposed device. It is suitable for setting up many differently designed solar panels.
It is advantageous for the support to be a U-profile. The proposed support can support heavy loads, which can be caused by snow or wind, for example.
According to one embodiment, the U-profile has a base section and two legs opposite one another that extend away from the base section at a distance greater than the width of the support bar, so that when folded the U-profile partially surrounds the support bar. When folded to be transported, the proposed support arrangement has an especially low volume.
According to another embodiment of the invention, the U-profile's base section widens in the direction of its free end. I.e., in the area of the second fastening element the support is wider than it is at the support bar. This makes the device especially universal. In particular, it is also suitable to support solar panels that have a reinforcing element inserted in the corner area of the frame.
It is advantageous for each leg to have a pivot fastening section that extends over the U-profile's base section and that has a first opening. The opposite pivot fastening sections of a support lie against the side walls of the support bars. A fastening element, for example a rivet or something similar, is passed through the first opening, allowing the support to pivot about a pivot axis running through the first openings.
In an especially advantageous embodiment of the invention, the second fastening element is formed of fastening sections that extend over the U-profile's base section, each of which has a recess to engage into the other one strut. It is expedient for the recess to be designed so that it surrounds at least sections of the other one strut.
The struts can be made from an L-profile or of another U-profile and be arranged in such a way that frame legs of the opposite struts face one another, the recess being a slot corresponding to the frame leg. I.e., it is advantageous for the recess to be designed so that when the support swings it engages into the inward-facing free leg of the frame, securing the frame from being lifted off the support. Thus, in this case the solar panel is fastened, both with the first fastening element and also with the second fastening element, exclusively at the free frame legs of the opposite struts. This makes the device especially universal. In particular, no special fastening elements are provided, designed for different frame heights, for example.
It is expedient for one width of the slot to increase in the direction toward the slot opening. It is also expedient for at least one edge of the slot to have a radius. A suitable embodiment of the slot allows the support to latch with the frame leg or to be fastened by wedging it against the frame leg. This allows especially rapid and simple setup of the solar panel. In addition, the free end of the support can have a securing section that extends from the U-profile's base section and that is bent back in the direction toward the recess. The securing section is, e.g., a sheet metal tongue or tab. Bending the securing section back is a simple way to allow the support to be secured to the frame, i.e., it is then no longer possible for the support to be folded back in the direction of the support bar. Apart from this, the securing section can fix the frame or the frame leg of the other strut in the slot of the support's second fastening element.
It is advantageous for the support to have a second opening at its free end, preferably on the securing section. The second opening allows latching or frictional engagement of a second securing section. If the second opening is on the securing section, the securing section can be bent into a securing position simply by inserting a screwdriver, for example.
According to another embodiment, the U-profile's base section has two third openings. It is expedient for the supports of two support bars arranged next to one another to be connected with a connecting wall. It is expedient for the connection wall to have fourth openings corresponding to the third openings to allow fastening elements, in particular rivets, to pass through. The fourth openings can be drill holes and/or elongated holes. It is expedient for each of the third openings to have several fourth openings. This makes it easier to fasten the connection wall, especially if the underlying surface is not completely level.
Instead of the third and fourth openings, the supports' base section can also have, for example, sheet metal tongues, into which corresponding sheet metal tabs or other slots on the connection walls can be frictionally engaged.
The connection wall can have a bent section parallel to its longitudinal edges that points away from the supports in the area of their free ends. It is advantageous for the bent section to form an acute angle with the supports. Consequently, there is a gap between an upper longitudinal edge of the solar panel and the bent section of the connection wall. The gap allows ventilation behind the solar panels, and thus cooling in the summer.
It is expedient for one length of the connection wall to correspond approximately to one length of the solar panel. The connection wall is intended to block wind.
According to another embodiment of the invention, the other side of the support bar facing away from the first side has elastomer elements on it, which are preferably extruded. The elastomer elements can be similar to a U-profile and partially surround the support bar on the sides. The elastomer elements can have an extended tongue on their fastening side. In this case, it is expedient for the support bar to have a groove on the other side to fasten the tongue. The support bar can be a square profile, preferably extruded.
A sample embodiment of the invention is explained in detail below using the drawing. The figures are as follows:
In
Reference numbers S1 and S2 designate support arrangements. Each support arrangement S1, S2 has a support bar 5 formed by a rectangular tube, for example. The top side O of support bar 5 has a first fastening element 6 mounted on it. A support 7 is pivotally mounted on support bar 5 at a specific distance from first fastening element 6. Reference number 8 designates elastomer elements that are mounted on a bottom side U of support bars 5 and are secured by means of an adhesive, for example.
Support 7 is in the form of a U-profile, as is especially apparent in
First fastening element 6, similar to second fastening element 13, has other fastening sections 19, each of which has another slot 20. Fastening element 6 is mounted on the top O of support bar 5 in such a way with respect to support 7 that the other slot 20 opens in the opposite direction to slot 15. Opposite each opening of the other slot 20 there is a support element 21. Reference number 1 designates the first strut.
The function of the device will now be explained in detail, in particular using
To set up a solar panel, first two support bars 5 are oriented parallel to one another at a suitable distance, so that first fastening elements 6 lie next to one another. Supports 7 are folded in, as shown in
After that, second strut 2 of frame R is raised. This makes first strut 1 lie against support element 21. This keeps first strut 1 from moving in the direction in which support bar 5 extends. This is shown in
Swinging support 7 up farther makes slot 15 engage in frame leg 4 of second strut 2. In a suitable embodiment of slot 15, the second fastening element 13 designed in this way latches with the second strut 2. The latching can be secured by bending up the securing tab afterwards.
Finally, the connection wall, designated with reference number 22 in
Instead of first 6 and second fastening elements 13, it is also possible for differently designed fastening elements to be provided, for example clamping, latching, or plug-type elements.
Instead of securing section 16, it is also possible to use a conventional latchable securing element to keep support 7 folded out. Such a securing element can, for example, be inserted into or latched in second opening 17. It can be a synthetic or elastomer element, for example.
It is advantageous for first fastening element 6 and support 7 to be made of laser-cut pieces of sheet metal whose edges are then broken. It is expedient for both first fastening element 6 and support 7 to be made of a single piece.
Especially
Although the figures do not show this, it is possible for several first fastening elements 6 and supports 7 with second fastening elements 13 to be mounted in alternation on one support bar 5. I.e., in this case one support arrangement S1, S2 can be used to support several solar panels one behind the other, further improving the device's efficiency.
Number | Date | Country | Kind |
---|---|---|---|
20 2012 001 369 | Feb 2012 | DE | national |
20 2012 004 333 | May 2012 | DE | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/EP2013/051375 | 1/24/2013 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2013/120678 | 8/22/2013 | WO | A |
Number | Name | Date | Kind |
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8505248 | Leong | Aug 2013 | B1 |
8726897 | Wallgren | May 2014 | B2 |
9038329 | Pelman | May 2015 | B2 |
20070144575 | Mascolo | Jun 2007 | A1 |
20120036799 | Kneip | Feb 2012 | A1 |
20120186169 | Tomaso | Jul 2012 | A1 |
20120186632 | Reinhold | Jul 2012 | A1 |
20120273029 | Bragagna | Nov 2012 | A1 |
20130112248 | McPheeters | May 2013 | A1 |
20140360111 | Kuan | Dec 2014 | A1 |
Number | Date | Country |
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20 2007 008 150 | Dec 2007 | DE |
20 2007 006 094 | Oct 2008 | DE |
20 2010 005 563 | Oct 2010 | DE |
10 2009 022 746 | May 2011 | DE |
WO 2011054943 | May 2011 | DE |
10 2010 022 556 | Jun 2011 | DE |
10 2010 024 514 | Dec 2011 | DE |
102010060154 | Apr 2012 | DE |
202012002547 | Apr 2012 | DE |
2 182 303 | May 2010 | EP |
2 402 679 | Jan 2012 | EP |
WO 2008105296 | Sep 2008 | JP |
02073703 | Sep 2002 | WO |
2011054943 | May 2011 | WO |
Entry |
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PCT, “International Search Report for International Application No. PCT/EP2013/051375”. |
Number | Date | Country | |
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20150340987 A1 | Nov 2015 | US |