BE1018889A5 - CONFIRMATION SYSTEM FOR SOLAR PANELS AND CONFIRMATION PROFILE FOR SUCH SYSTEM. - Google Patents

Abstract

This invention relates to a mounting system (1) for panels (2), in particular for solar panels, comprising a first profile (3) with a first holder (5) provided for receiving a first solar panel, said system (1) comprises a second profile (4) with a second holder (6) provided for receiving a second superimposed solar panel, and wherein the first (3) and second profile (4) are detachably connectable to each other. And a third profile (10,12), wherein the first (3) and third profile (10,12) are releasably connectable to each other. By making the first profile (3), second profile (4) and third profile (10,12) detachably connectable to each other, they can be moved relative to each other, so that the distance between two solar panels (2) placed one above the other can be set. depending on the type of roof tile.

Description

FIXING SYSTEM FOR SOLAR PANELS AND FIXING PROFILE FOR A PERFORMANCE SYSTEM

This invention relates on the one hand to a mounting system for building in a plurality of solar panels, wherein each solar panel is enclosed by a frame, comprising a first profile with a first holder provided for receiving a first panel with frame. On the other hand, this invention relates to a mounting profile for such a mounting system.

Due to the ever-increasing energy prices and the limited availability of fossil fuels (coal, natural gas, etc.), more and more people are opting for their own solar energy installation, also called photovoltaic installations or PV installations, with which they themselves produce electricity and / or hot water.

Such an installation consists of solar panels, a mounting or mounting system for mounting the panels on or in the roof, the necessary cabling and inverters that convert the generated direct current into alternating current of 230 Volt / 50 Hertz that can be used for all kinds of applications or in the net can be fed. In the case of thermal solar panels, the installation also includes solar collectors that convert the solar energy into heat.

The following patent publications: JP 2008 285827, JP 2003 056131, JP 2001 193245, JP 10 266472, DE 197 00 873 and JP 2002 250105 describe a number of possible embodiments of frames of the solar panels themselves. However, these publications are not relevant to this invention since this invention relates, inter alia, to a mounting system for incorporating into a roof structure a plurality of solar panels that are already provided with a frame.

The solar panels are usually placed on roofs with a south west or east orientation. Panels can be placed on existing roofs in two ways, namely by construction or by installation.

When mounting, the mounting or fixing system is placed on top of the existing roof. Such a fastening system for so-called surface panels is described inter alia in the German patent publication DE 20 2008 002346 and the International patent publication WO 2004/079775. However, this way of working has several disadvantages: it is dangerous work, labor intensive and when attaching the system there is a risk that the pans will be damaged and must be replaced. A roof with built-up roof panels is also not aesthetically attractive. In addition, the roof load changes with surface-mounted systems: instead of an even wind load, a point load is created on the roof presses due to the extra pressure on the one hand of the panels themselves. On the other hand, the wind pressure is concentrated on the support points, which are usually unevenly distributed over the roof. This involves the risk of roof damage in strong winds (there is additional pressure on the roof presses that were not calculated for such a load) and for deformation of the roof in the longer term. Moreover, moss can occur under the panels placed.

Mainly for the better view and to solve the aforementioned problems, it is increasingly opted to remove part of the existing roof tiles and to install the panels in the roof or, in the case of new construction, to use the solar panels as a roof covering. However, the installation of PV panels also has a disadvantage compared to surface-mounted panels, namely because of the reduced ventilation there is a higher heating of the panels, as a result of which the panels lose efficiency. Moreover, due to the wide variety of roof tiles, installation is only possible to a very limited extent, since the existing installation systems are always limited to one specific size of roof tiles. For example, the Etemit company has five separate systems for five types of roof tiles and the Koramic company has one system (known as Korasun®) that is only suitable for a specific type of roof tile.

It is therefore an object of the present invention to provide a new fastening system for installing solar panels in a roof construction (can be either an existing or new roof construction), which makes it possible to work quickly and efficiently. A further object of the invention is to provide a standard fastening system for a number of types of solar panels with which it is possible to realize the maximum cell surface area at the provided location and thus a maximum of energy yield on existing or new roof constructions, in order to place solar panels quickly and efficiently. , and also maintain the appearance of the tile roof, regardless of the type of roof tile.

The object of the invention is achieved by providing a mounting system for building in a plurality of solar panels, each solar panel being enclosed by a frame, comprising a first profile with a first holder provided for receiving a first panel with frame, wherein said system comprises a second profile with a second holder provided for receiving a second upper panel with frame, wherein the first and second profile are releasably connectable to each other and wherein said system further comprises a third profile provided for mounting the first profile on attach an underlying roof structure, wherein the first and third profiles can be releasably connected to each other. By making the second and third profiles releasably connectable to the first profile, they can be moved relative to each other, as a result of which the distance between two superimposed solar panels can be adjusted as a function of the type of roof tile that had to be removed in order to take up space. for the solar panels to be placed or depending on the distance between the battens or holders in the case of new construction.

In a preferred embodiment of the system according to the invention, the said system comprises means for placing the first and second holder at a certain distance from each other.

In a more preferred embodiment of the system according to the invention, the said means comprise adjusting means which are suitable for adjusting the distance between the first and second holder. Due to the presence of these adjusting means, depending on the position of the selected adjusting means or the size thereof, the distance between the first and second holder and therefore between a first and second superimposed solar panel can be fixed.

In a particularly preferred embodiment of the system according to the invention, the said means comprise control means which are suitable for controlling the distance between the first and second holder. More in particular, said control means are formed by a tongue / groove connection provided on the first and second profile. In another preferred embodiment of the system according to the invention, the said control means comprise a screw or snap connection provided for permanently adjusting the distance between the first and second holder. The presence of these control means allows a quick and easy installation of solar panels. Due to the presence of control means, the panel that is provided in the holder of the second profile can be positioned relative to the underlying solar panel.

In a special embodiment of the system according to the present invention, in particular in the case of air cooling, an air gap is formed between these panels after mounting of the first and second superimposed solar panel. The presence of this air gap provides the necessary ventilation and cooling of the solar panels. The air gap is created by the thickness of the second profile. Moreover, in a preferred embodiment, the first and second profile are only releasably connected to each other at the level of the outer edges of the solar panel. For support, an additional second profile can be provided between the two outer edges of the panel. In other words, the first profile extends or almost the full width of the whole of solar panels, while the second profile is only present at the height of the outer edges and possibly in one or more intermediate positions (as extra support) of a solar panel.

In another special embodiment of the system according to the present invention (namely in the case of liquid cooling), the first profile comprises a liquid channel extending in the longitudinal direction. Such a fluid channel preferably extends over the full length of the first profile. Such an embodiment makes it possible to send a suitable medium through the said channel in order to cool the solar panels in this way. This embodiment can additionally be provided to achieve even better cooling of the solar panels and the dissipated heat can optionally be used for useful purposes, for example for heating the sanitary water. In the case of liquid cooling, the air gap can be superfluous and closed by a sealing profile or by making the length of the second profile equal to the first profile.

According to a more special embodiment of the system according to the present invention, a sealing profile is provided between adjacent solar panels, so that no water ingress can occur between the panels.

In a more advantageous embodiment of the system according to the present invention, the said system comprises positioning means which are suitable for controlling the position of the first profile relative to the third profile. Via these positioning means a control is obtained according to the width direction (transverse direction), seen with respect to the first profile. The system according to the invention therefore comprises means for moving (moving) the first profile in a direction transverse to the longitudinal direction of the first profile. Since on the one hand the third profile is placed on the underlying roof structure and on the other hand the first profile is provided with the first holder for a solar panel, one can by means of the positioning means ensure that the solar panel is positioned such that its lower edge almost always corresponds to the lower edge of the connecting pan, so that the view of the tile roof is preserved, because the width between the horizontal lines of the tile roof (visible part of the tiles) preserved. The positioning means are preferably provided on the upper sides of the third profile and the underside of the first profile and in particular comprise teeth and grooves.

The third profile in particular comprises a clamping element for clamping the first profile against the underlying roof structure. This underlying roof structure can be either the battens or a wooden or an iron or concrete roof structure.

In an alternative embodiment of the system according to the present invention, the third profile comprises a fixing piece for fixing the first profile to the underlying roof structure. Preferably, the fastening piece is suitable for being fastened directly onto the roof press by the bottom plate (e.g. via a screw connection). As a result, the presence of pan battens is superfluous and therefore particularly suitable for new construction, whereby pans and pan battens are saved. Instead of fixing the battens to the rooftops, the first profiles can be installed there by means of screw in the fixing pieces.

In a more advantageous embodiment of the system according to the present invention, said system comprises locking means. The panel provided in the second holder can be secured via the locking means. The locking means preferably comprise a locking element that is slidable between the two panels and in a slot in the second profile. The locking element will moreover clamp the first and second profile together, so that they cannot move relative to each other.

This invention also relates to a mounting profile for solar panels enclosed by a frame comprising a first profile with a first holder provided for receiving a first solar panel with frame, said mounting profile providing a second profile with a second holder for receiving comprising a second solar panel with frame, and wherein the first and second profile are releasably connectable to each other, and wherein the fixing profile further comprises a third profile provided for fixing the first profile to an underlying roof structure, wherein the first and third profile are releasably can be connected to each other.

The mounting profile according to the present invention is preferably suitable for use in a mounting system as described above.

This invention further relates to a roof construction which is provided with such a fastening system. In order to create additional cooling and ventilation of, inter alia, the solar panels, the roof construction can be further expanded with ventilation means, in particular a fan which is preferably placed above the upper panels, optionally built into a support provided for this or which is built into a pan. .

In order to further clarify the features of this invention and to indicate additional advantages and details thereof, a more detailed description of the fixing profile on the one hand and the fixing system on the other hand according to the invention follows. It is clear that nothing in the following description can be interpreted as a limitation of the protection claimed in the claims.

In this description reference is made to the accompanying drawings by reference numerals, in which: figure 1 is a representation of the fixing system according to the invention suitable for being placed on an existing roof construction; Figure 2 is a side view (section between a first and second adjacent panel) of the mounting system according to the present invention; Figure 3: is a perspective representation of a roof construction provided with the fastening system according to the present invention; Figure 4 is a representation of the fixing system according to the invention suitable for being placed on a new roof construction without tile battens; Figure 5 is a schematic sectional view of the air extraction system above the upper panel indicating the air flow; Figure 6 is a schematic sectional view of the air flow inlet and movement under the panels; figure 7; a cross-section is provided with a sealing profile between two adjacent panels; figure 8: is a representation of a variant of the fixing system according to the invention that is suitable for being provided with liquid cooling.

The fastening system (1) according to the present invention is intended to place panels, preferably solar panels (2) on a sloping roof construction (14). The fastening system (1), and as shown in figures 1 and 2, also makes it possible to install solar panels (2) in existing roofs, regardless of the type of roof covering, in particular if a type of roof tile is present. The fastening system (1) shown in figure 4 is suitable for placing solar panels on newly built houses.

The mounting system (1) for solar panels (2), according to the present invention, comprises a first profile (3) with a first holder (5) provided for receiving a first solar panel, and a second profile (4) with a second holder (6) ) provided for receiving a second upper solar panel, wherein the first (3) and second profile (4) are releasably connectable to each other. The second profile (4) can be a separate profile, but can also already be integrated on a solar panel (2). The system (1) further comprises a third profile (10, 12) which is suitable for being attached to the existing roof construction and which can be releasably connected to the first profile (3).

When solar panels (2) are to be installed on an existing roof construction, the existing roof tiles must first be removed so that the underlying roof construction, in particular the battens, becomes visible. To now easily install solar panels in the vacated space, the fastening system (1) according to the present invention comprises positioning means (15, 16, 17) for positioning the first and third profiles with respect to each other to compensate for the different distance between the battens ( this distance depends on the type or type (length) of roof tiles that were attached to the tile battens .. Placing such a fixing system (1) is much easier than placing the mounting rails for surface-mounted panels, since this fixing system is simply hooked over the tile battens. With a traditional mounting system, a lot of calculation work is already needed to determine the correct type and position of the roof hooks, after which tiles must be removed, hooks fixed, and adjusted, after which the tiles must be sawn and (after replacement of the inevitable broken pans) must be replaced.

Placing the solar panels is also much easier with this system, the panels are simply pushed into the holders and fixed with one downward movement of the clamping element. Correct positioning and fixing with screws is no longer necessary.

The system (1) according to the invention also makes it possible to place the first (5) and second (6) holder at a certain distance from each other. To this end, the system comprises means and various practical embodiments are possible. In a first possible embodiment and as shown in the attached figures 1, 2 and 4, the said means comprise control means (7) which are suitable for controlling the distance between the first (5) and second (6) holder. More in particular, said control means (7) are formed by a tongue / groove connection provided on the first and second profile. The tongue / groove connection is particularly provided on the top side of the first profile (3) and the bottom side of the second profile (4). The presence of these control means allows a quick and easy placement of solar panels and allows the panel that is provided in the holder (6) of the second profile to be positioned relative to the underlying solar panel.

In another embodiment (not shown), these control means comprise a screw or snap connection provided to fix the distance between the first and second holder. Due to the presence of these control means, depending on the position of the selected means or the size thereof, the distance between the first and second holder and therefore between a first and second superimposed solar panel can be set.

It is evident that other known solutions for placing the first (5) and second (6) containers at a certain distance from each other also fall within the scope of this invention.

With existing roof constructions (see figures 1 and 2), the first profile (3) is attached to the underlying roof structure (11), in this case the tile battens. In addition, in figure 2, besides the pan slats, there are also counter slats (18) and a sealing roof plate (19). The third profile (10; 12) ensures a good attachment.

The distance between the different tile battens is determined by the design of the existing roof tile. As there is a large variation in the length of tiles, the distance between the battens will therefore differ from roof to roof (by default the distance between battens can vary between 240 mm and 390 mm). To compensate for these differences, the system (1) according to the invention provides a width control. To this end, said system (1) comprises the aforementioned positioning means (15, 16) which are suitable for controlling the position of the first profile (3) relative to the third profile (10; 12). Due to the control possibility of the system, a panel can be positioned in such a way that a step shape is obtained and that the bottom edge of the panels almost always corresponds to the bottom edge of the pan (with a tolerance of about 5 mm.), So that the view of the tile roof remains, and the distance between the horizontal lines of the tile roof (visible bottom edge of the tiles) is maintained.

The positioning means are, as is apparent from, inter alia, Figures 1 and 2, preferably designed as a sequence of a specific tooth shape which is provided on the one hand on the top side of the third profile (10) and on the other hand on the bottom side of the first profile (3). In addition to this succession of teeth and grooves, the positioning means further comprise a clamping pin (17) to create an additional control option, as will be apparent from the practical example of the system (1) below and with reference to Figure 1. However, it is evident that other known solutions for positioning a profile relative to another profile are also part of this invention.

The top side of the solar panel (2) that is placed in the first holder (5) of the first profile (3) is positioned relative to the pan batten (11) by means of. the clamping element (10) and the first profile (3). The teeth of the positioning means (15, 16) are at 10 mm. placed apart from each other, which in principle means 10 mm. can arrange. However, by placing the clamping pin (17) on the front or back of the teeth, one can change every 5 mm. arrange for. Once the top of the solar panel (2) is positioned, the position of the bottom is automatically fixed (position bottom = position of top - width of the selected panel). The underside of the solar panel (2) that is placed is covered by the holder (6) of the second profile (4). Via the control means (7) (in this case a succession of teeth and grooves) it is possible to position the panel which is provided in the holder (6) of the second profile relative to the underlying solar panel. The second holder (6) is in turn locked by sliding a locking element (13) downwards between two panels and provided in the slot in the second profile on the first holder (5). Moreover, the second profile (4) (and consequently also the second holder (6)) cannot shift laterally because the locking element (13) fits between the panels in the slot (20) provided in the second profile (4).

In practice, use is made of 3 types of panels that only differ in width. Possible widths of panels are for example 240 mm., 308 mm. and 370 mm .. Other widths deviating from this are of course possible. Depending on the type of roof tile that must be removed from the roof in which the solar panels are to be installed, the panel with the most suitable width will be chosen, so that a maximum of the available space is used as the energy-producing surface. In practice, the procedure is as follows: the bottom edge of the pans is known. Bottom edge pan + width selected panel type - position top panel: the position of the clamping element (10) on the rail (first profile) must be chosen such that if the clamping element (10) rests on the pan batten (11), the first holder ( 5) correctly covers the top of the panel (2)

Practical: the distance between the bottom of the pan and the top of the pan slat on which it rests - the width of the panel = the distance between the rear of the first holder (5) and the rear (on the bottom) of the clamping element ( 10).

However, the fixing system (1) according to the present invention can also be mounted without the presence of tile battens. This is mainly applicable for new construction. To this end, the third profile is suitable for fixing the first profile to the underlying roof structure, preferably to the roof presses, through the bottom plate. The confirmation can be done by means of a screw or nail connection. This possibility is schematically represented in figure 4. The attachment piece (12) is, just like the above-mentioned clamping element (10), provided with positioning means (15) on its upper side. A clamping pin (17), as discussed above, can also be provided between the first profile (3) and the fixing piece (12).

The first profile (3) is preferably designed as a rail that extends over the full length that the solar panels (2) will occupy on the roof, and wherein the first holder (5) is U-shaped. The second profile (4), which also has a U-shaped second (6) holder, is preferably only placed in the zone where two adjacent panels (2) substantially connect to each other. Practically, the first profile (rail) is produced in standard lengths of, for example. 6 meters. The roof length / length of the first profile is obtained by assembling standard lengths combined with a cut-to-size length, while the second profile is also produced at standard lengths but is sawn to the length of the panels; in the case of an installation without front air intake, or at a length of approximately 100 mm. in case an air gap is desired. Such a construction has the possibility of creating an air gap between panels (2) placed above (or below) each other. The formation of such an air gap has the great advantage that, as shown in Figs. 5 and 6, an air flow will occur under the solar panels that will provide the necessary cooling for solar panels. The ventilation of the solar panels can be further improved by providing one or more openings above the upper panels or below the lower row of panels, which can be built into a support or pan provided for this purpose, as shown in figure 5. A further improvement of the ventilation can be achieved by providing ventilation means, such as for instance a fan, in a carrier or pan provided for this purpose.

In order to make the whole watertight, a sealing profile (9) is provided between solar panels (2) placed next to each other, as can be seen, inter alia. Figure 7 is a detailed representation of a cross-section of a possible sealing profile. This sealing profile is slid between the panels and into the first holder (5), and covers the two panel edges so that no water can seep between the panels. An additional sealing tape can optionally be clamped between the first (3) and second (4) profile, in order to allow any rain water that has been blown up that would end up on the surface (7) via the air inlet or to trickle through the first holder (5). flow.

To protect the fastening system (1), including the solar panels (2) against external forces (eg strong wind), the system comprises locking means (13).

Instead of an air cooling, the system (1) according to the invention as represented in figure 8 can be equipped with a liquid cooling. For this purpose, the first profile (3) preferably comprises a liquid channel (21) for a specific medium that will absorb and dissipate the heat emitted by the panels. In this case the air gap may be superfluous.

Claims (13)

A mounting system (1) for installing a plurality of solar panels (2), each solar panel being enclosed by a frame, comprising a first profile (3) with a first holder (5) provided for receiving a first panel with frame , characterized in that said system (1) comprises a second profile (4) with a second holder (6) provided for receiving a second upper panel with frame, the first (3) and second profile (4) being releasable are connectable to each other and said system (1) further comprises a third profile (10; 12) provided for mounting the first profile (3) on an underlying roof structure, the first (3) and third profile (10; 12) ) are releasably connectable to each other. Fixing system (1) according to claim 1, characterized in that said system (1) comprises means for placing the first (5) and second (6) holder at a certain distance from each other. Fastening system (1) according to claim 2, characterized in that said means comprise control means (7) which are suitable for controlling the distance between the first (5) and second (6) holder. Fastening system (1) according to claim 3, characterized in that said control means (7) are formed by a tongue / groove connection provided on the first (3) and second profile (4). Fixing system (1) according to claim 3, characterized in that said control means (7) comprise a screw or snap connection provided for fixedly adjusting the distance between the first and second holder. Fixing system (1) according to one of the preceding claims, characterized in that after mounting of the first and second upper solar panel, there is an air gap (8) between these panels. Fastening system (1) according to one of the preceding claims, characterized in that the first profile (3) comprises a longitudinal liquid channel. Fixing system (1) according to one of the preceding claims, characterized in that a sealing profile (9) is provided between adjacent solar panels (2). Fixing system (1) according to one of the preceding claims, characterized in that said system (1) comprises positioning means (15, 16, 17) which are suitable for the position of the first profile (3) relative to the third profile (10; 12). Fixing system (1) according to one of the preceding claims, characterized in that the third profile comprises a clamping element (10) for clamping the first profile (3) against the underlying roof structure (11). A mounting system (1) according to any one of the preceding claims, characterized in that said system comprises locking means (13). 12. Mounting profile for solar panels (2) enclosed by a frame comprising a first profile (3) with a first holder (5) provided for receiving a first solar panel with frame, characterized in that said mounting profile has a second profile ( 4) with a second holder (6) provided for receiving a second solar panel with frame, wherein the first (3) and second profile (4) are releasably connectable to each other, and that the fixing profile further comprises a third profile (10; 12) provided for mounting the first profile (3) on an underlying roof structure, the first (3) and third profile (10; 12) being releasably connectable to each other. A mounting profile according to claim 12, characterized in that said mounting profile is suitable to form part of a mounting system (1) according to one of claims 1 to 11.