NL1016888C2 - Solar panel assembly for flat roofs, comprises single piece support capable of supporting panel laid flat during transport - Google Patents

Abstract

The assembly (1) comprises a single-piece support (2) with a first support surface for ballast and a second support surface for the solar panel (3) when it is laid flat during transport. The second support surface is preferably recessed. A stand mechanism is provided for supporting the solar panel in an angled position during use. Independent claims are also included for (a) a combination of two of these assemblies, in which the assemblies are positioned opposite each other, and (b) the support.

Description

Assembly of solar panel and carrier

The invention relates to a solar panel and a carrier therefor. The invention relates in particular to such an assembly which is intended for placement on a flat roof.

It is known to place solar panels, in particular PV panels, on a flat roof. An example of this can be found in US patent 4,226,256, in which a solar panel arranged on an inclined support is known, wherein the support comprises two parallel, vertical triangular trusses, which support the solar panel obliquely upwards and transverse one another near the roof surface. are connected, and are also provided with a counterweight. This construction must be built on site or otherwise take up a lot of space during transport.

Dutch patent application 1005204 discloses a plastic container which has a flat bottom and a circumferential wall that is higher at an end edge than at the opposite end edge. The circumferential wall is provided at the top with a circumferential flange located in an inclined plane, which is intended for circumferential support of the solar panel. The container must be placed freely on a flat roof. Ballast weight can then be placed in the container. The solar panel can then be lowered onto the flange. For ventilation of the solar panel, the flange is provided with a transverse profile. This ventilation may be insufficient under certain circumstances. Furthermore, the inclination of the tray is taken at a fixed value, in which the greatest possible density of placement can be achieved without shadow.

Both known arrangements must be adjusted in advance to the desired placement density and / or the latitude of the location of placement for optimum efficiency. Different versions are therefore required.

An object of the invention is to improve on this.

A further object of the invention is to provide an assembly of solar panel and support therefor on a flat roof that is easy to install.

A still further object of the invention is to provide an assembly of solar panel and support therefor on a flat roof that can be adjusted.

Another object of the invention is to provide an assembly of solar panel and support therefor on a flat roof, which can easily be transported as an assembly.

A further object is to provide an arrangement in which cooling of the solar panel is promoted.

At least one of these objects is achieved according to the invention with an assembly of solar panel and support for that solar panel on a flat roof, comprising a panel carrier formed as a whole that has a first support surface for ballast and a second support surface for mounting in a transport position, in particular recessed position, forms holding the solar panel, as well as holding means for keeping the solar panel folded up obliquely in a position of use.

The solar panel can hereby be safely transported in a folded-down transport position on the support, to be folded out onto the roof, so that savings are made on transport volume and packaging material. The installation on the flat roof is very simple compared to the known techniques. In the unfolded 1016888 «3 state, the solar panel can easily be cooled by the ambient air.

It is noted that U.S. Pat. No. 4,421,943 shows an assembly of a container of aluminum or other lightweight material, in which a solar panel can be accommodated lying down, which panel is hingedly attached at the bottom to an added support and folding mechanism, and is hingedly attached at the upper end to an extension rod which forms part of the same support mechanism.

German Utility Model 296.10.516 discloses an assembly of a shallow container made of non-corrosive, impact and pressure-resistant material, such as a light metal, in particular aluminum, or a titanium alloy. Two beams for supporting a solar panel are pivotally attached at their front ends to the sides of the trough, and pivotally attached at their rear end to expansion rods, which are adjustably mounted in adjusting holes.

The enduring means are preferably adjustable, so that the slope of the solar panel can be adjusted to the latitude where one is located, and an optimum angle of incidence can be realized. The panel support is preferably provided with integrated means for hinging an end of the solar panel, the end means being located at a distance from that end, preferably near the opposite end of the solar panel, so that the adjustment can be made easily and effectively. find.

In an advantageous development of the assembly according to the invention, the first and the second supporting surface are substantially parallel to each other, so that in the initial situation the solar panel will be situated (and thus known) parallel to the (flat) roof surface, as before you start with setting the panel angle.

The panel carrier preferably has a baking mold with which a safe receiving space for ballast is formed.

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In some cases it could be decided to apply ballast before transport, without running the risk of the ballast getting out of the box.

The panel support can be formed in a simple manner, in particular by vacuum forming, such as with the baking mold just mentioned.

In a further development the panel support is provided with first coupling means at one end edge, in particular protruding projections or recesses and at the opposite end edge of second coupling means complementary thereto, so that mutual coupling is possible. This can either be coupling in the placed state, but also or alternatively coupling of assemblies located on top of each other during transport, one being inverted on the other. In the latter case, it is preferable for the second supporting surface to be recessed to allow the panel support to reach at least up to the top of the solar panel in the transport position.

The first and second coupling means are preferably directed vertically and form second and first coupling means, respectively, to the opposite vertical side. The same coupling means are preferably diagonally opposite each other, so that two trays can always be placed on and against each other for the aforementioned transport position.

The panel support is preferably provided with horizontal protrusions, preferably in the form of a flange, on which the coupling means are provided.

In the case of the pivotal connection of the solar panel, it is preferably supported on a longitudinal edge where the pivot axis is recessed, by a second support surface on the upper edge of the panel support, the longitudinal edge being exposed horizontally to the outside. This makes it possible to pivot the solar panel outwards and next to the panel support, as a result of which the first supporting surface is easily accessible for placing ballast.

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The invention further provides a support evidently suitable and intended for the assembly according to the invention.

The invention will be explained below on the basis of an exemplary embodiment shown in the accompanying drawings. Shown is:

Figure 1 is a top view of an assembly of panel support and solar panel according to the invention;

Figure 2 shows an end view of the assembly of figure 1;

Figure 3 is a front view of the assembly of Figure 1; and

Figure 4 shows a detail of the hinge connection between panel support and solar panel of figures 1-3.

Figures 1-3 show assembly 1 of an exemplary embodiment according to the invention with a container 2 made of preferably polyethylene and a solar panel 3. The solar panel 3 can be a PV panel, as usual. The plastic molded tray 2 has long walls 4, short walls 5 and a bottom wall of 12 which together define a receiving space 13.

On the short walls 5, the plastic tray 2 is provided with flanges 7a, 7b, which are of stepped design in their longitudinal direction, with raised portions 8a, 8b and lowered portions 10a, 10b. At the location of the raised portions 8a and 8b located in the corners, coupling means 9a, 9b are formed, respectively, formed by recesses 9a and elevations 9b which fit into each other. The flanges 7a and 7b are furthermore suspended downwardly to form receiving spaces 11a, 11b. As can be seen, several bins 2 can be stacked, nesting into each other. In that condition they can be transported to a manufacturer of solar panels 3, where those solar panels 3 can be assembled with associated containers 2, and then transported to a construction site to be placed on a flat roof 30.

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The container 2 is provided on the longitudinal edges with two relatively recessed support edges 23a, 23b.

The solar panel 3 is hinged to one longitudinal edge 22a by means of hinge pins 19a, b in holes 5 on the trough 3 (see figures 1, 2 and 4). At a distance from the hinge pins, the longitudinal edge 22a finds support on edge 23a of the trough 2.

At the other longitudinal edge 22b, the solar panel 3 is pivotally connected at the location of 15 to an expansion rod 14, which is provided with adjusting holes 16, 17 and, in the example of Figure 2, at the position of adjusting hole 17 with adjusting pins 18 attached to the end walls 5 of the trough 2. By choosing the fixing hole 16 the angle of the solar panel 3 relative to the roof 30 can be adjusted, as shown in figure 2 with the position 3 'at angle a of 25 ° and with the position 3 '' at an angle β of 36 °, which is the optimum angle in the Netherlands. Depending on the degree of latitude one is situated - or the placement density one wishes for - one can set the angle ideal for optimum efficiency. It is also possible, if the roof surface is accessible, to adjust the angle according to the season.

As can be seen in figure 2, the solar panel 3 in the expanded position at the bottom can be well ventilated.

In the folded position of the solar panel 3, the trough 2 serves as a support and as a shield from the solar panel 3. In the transport position, the solar panel 3 completely falls in and below the flanges 7a and 7b. The longitudinal flanges 23a and 23b on which the panel 3 is supported can possibly be recessed.

As schematically indicated in figure 3, two assemblies 1 can be placed on each other relatively inverted, the respective flanges 7a and 3b being fitted on each other. In that case a kind of box is provided in which two solar panels 3 can be transported completely shielded. However, after 10108888 · 7 the box itself fulfills the function of supporting the solar panel on a flat roof.

After the assembly 1 has been placed on a flat roof, it is easy to place ballast material 6a, 6b in the tray 2, 5, in particular on the bottom 12 thereof. The open position of the longitudinal edge 23a of the bin 2 makes it possible to further swing the solar panel 3 in direction A, to the position indicated with 3 '' ', in which it is easy to place ballast 6a, 6b in the bin 2.

After placement, adjacent trays 2 can optionally be coupled to each other, by fitting the flanges 7a or the flanges 7b of both trays together.

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Claims (15)

1. Assembly of solar panel and support for that solar panel on a flat roof, comprising a panel support formed as a whole that holds a first support surface for ballast and a second support surface for keeping the solar panel situated in a horizontal transport position, in particular sunk. as well as end means for holding the solar panel tilted up in an operating position. 2. Assembly as claimed in claim 1, wherein the enduring means are adjustable. 3. Assembly as claimed in claim 1 or 2, wherein the panel carrier is provided with integrated means for hinging an end of the solar panel, and wherein the end means are situated at a distance from that end, preferably near the opposite end of the solar panel . Assembly as claimed in claim 1, 2 or 3, wherein at the first and the second supporting surface are substantially parallel to each other. Assembly as claimed in any of the claims 1-4, wherein the panel carrier has a baking pan. Assembly as claimed in any of the foregoing claims, wherein the panel carrier is made of plastic, in particular by vacuum forming. Assembly as claimed in any of the foregoing claims, wherein the panel support is provided on one end edge with first coupling means and on the opposite end edge of second coupling means complementary thereto. Assembly as claimed in claim 7, wherein the first and second coupling means are vertically oriented and form second and first coupling means respectively to the opposed vertical side. f018888 · Assembly as claimed in claim 7 or 8, wherein the panel support is provided with horizontal protrusions, preferably in the form of a flange, on which the coupling means are provided. 10. Assembly as claimed in any of the foregoing claims, wherein the second supporting surface is recessed for allowing the panel carrier to reach at least up to the top of the solar panel in the transport position. 11. Combination of two assemblies as claimed in claim 10, wherein the assemblies are placed opposite to each other. 12. Assembly as claimed in claims 3 and 10, wherein the solar panel is deepened on a longitudinal edge where the hinge axis is located supported by a second supporting surface 15 on the upper edge of the panel support, wherein the longitudinal edge lies horizontally outwards. An assembly according to any one of claims 1-10 or 12, wherein a current converter is placed at the rear of the solar panel. Support apparently suitable and intended for the assembly according to any one of the preceding claims. 15. Assembly provided with one or more of the characterizing measures described in the attached description and / or shown in the attached drawings. -o-o-o-o-o-o-o-o- £ 016888 ·