BE1019376A5 - COMPOSITION OF A PANEL-SHAPED ELEMENT AND A WEAR STRUCTURE. - Google Patents

Abstract

This invention relates to an assembly (1) of a panel-shaped element (2) and a support structure (3) for the panel-shaped element (2) provided for placement on a flat roof construction, said support structure (3) being provided around the panel-like element ( 2) to be held in an oblique position with respect to the roof construction, and wherein said support structure (3) further comprises a rear wall (4) which is inclined with respect to the roof construction and comprising at least one opening (5) creating a venturi effect is created, creating an underpressure under the panel-shaped element (2), which increases the downward pressure.

Description

COMPOSITION OF A PANEL-shaped ELEMENT AND ONE

BEARING STRUCTURE

This invention relates to an assembly of a panel-shaped element, in particular a solar panel, and a support structure for the panel-shaped element provided for placement on a flat roof construction, said support structure being provided to hold the panel-shaped element in an inclined position with respect to the roof construction

Nowadays, more and more people are opting for their own solar energy installation, also called photovoltaic installations or PV installations, with which they can produce their own electricity and / or hot water.

Such an installation consists of solar panels, a mounting or mounting system to mount 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 solar panels are usually placed on roofs with a south, west or east orientation. Since the panels are best placed at an angle of at least 30 °, a flat roof is most suitable for such a solar energy installation because with a flat roof it is possible to decide at what angle and in which direction the panels are best placed. However, many roofs (such as those of company buildings) are not designed to withstand much extra weight.

The currently known flat roof mounting systems support the panels on the short side and consist of oblique elements or an (aluminum) construction (frame) that is placed on the roof and to which the solar panels are mechanically mounted at an angle (eg 35 °) .

In order to minimize the influence of the wind on the system, the known support structures are provided with a wind catcher. Such a wind trap prevents the wind from coming under the system and subsequently lifting it. However, in order to prevent such mounting systems from blowing off the roof in strong winds, they have the disadvantage that either the supporting structure itself or the wind trap must be heavily weighted with ballast (e.g. full concrete blocks). Due to this ballast, however, the potential on roofs is greatly limited.

Another way to prevent wind from coming under the system is to - and as described in one of the following patent publications: WO 2009/137809, DE 20 2008 014274 or DE 20 2007 016366, make the rear wall fully closed to run on that way to prevent the wind from coming under the system.

The known mounting systems further have the disadvantage that placing them takes a great deal of time because it is necessary to determine in advance where the bearing structures must be placed and at which intermediate distance they must be placed.

It is therefore an object of the present invention to provide an assembly for panel-shaped elements, in particular solar panels, and a supporting structure therefor whose ballast can be greatly reduced and is also resistant to strong wind, so that the potential for roofs on which solar energy installations are placed can be strong can rise.

This invention further has the additional object of providing such an assembly for panel-shaped elements that can be mounted easily and quickly without unnecessary operations or a large number of fastening materials, while maintaining the stability and sturdiness of the system.

The object of the invention is achieved by providing an assembly of a panel-shaped element, in particular a solar panel, and a support structure for the panel-shaped element provided for placement on a flat roof construction, wherein said support structure is provided around the panel-shaped element. to maintain an inclined position with respect to the roof construction, and wherein said bearing structure further comprises a rear wall arranged obliquely with respect to the roof construction, which wall comprises at least one opening provided to create an underpressure under the panel-shaped element. The wind has a favorable influence on such an assembly. At higher wind speeds, a large downward pressure is created, which benefits stability. In addition, a venturi effect is also created through the provided opening, as a result of which an underpressure is created under the panel-shaped element, which increases the downward pressure and whereby the heat under the panel-shaped element is even better ventilated away.

In a preferred embodiment of the assembly according to the present invention, the said rear wall comprises at least two longitudinally extending openings. This opening must be bent outwards at an angle of 30 °, the width of the opening is of secondary importance.

In a more preferred embodiment of the assembly according to the present invention the support structure comprises at least two mounting rails which are provided for receiving the rear wall. The mounting profiles are available in different lengths, so that every possible set-up can be realized with it. This avoids having to carry out additional operations during assembly in order to obtain everything at the correct length.

According to a special embodiment of the assembly according to the invention, the said bearing structure comprises male and female coupling means that fit into each other to fix the rear wall to the bearing structure. The male coupling means are preferably formed by cams and the female coupling means are formed by slots. In particular, the cams are provided on the rear wall and the corresponding slots are provided on the mounting rails. By making use of a cam system, there is less use to be made of other fasteners, so that assembly can be done much faster.

By providing the mounting profiles with slots according to a fixed pattern for the cams provided on the rear wall, it is clear to the user where the parts must be placed, both in length and width direction. This also fixes the distance for a subsequent panel-shaped element in the mounting profiles, as a result of which the expansion of the laying plan becomes much simpler so that mounting of the assembly can take place much faster.

In a more special embodiment of the assembly according to the present invention, the assembly further comprises a plastic tile profile, which is provided with raised edges suitable for receiving a mounting profile. Such a tile profile prevents the substrate on which the assembly is placed from being damaged. The placement of such a tile profile on the underside of the mounting profiles will also ensure a guaranteed drainage so that no precipitation water remains against these profiles.

Said tile profile preferably comprises a receiving space which is provided for receiving ballast. This ballast may be necessary for the stability of the assembly.

In a particularly advantageous embodiment of the assembly according to the present invention, the said assembly comprises clamping elements for clamping the panel-shaped element against the support structure. The assembly preferably comprises two first clamping elements which are suitable for receiving (clamping) the front edge of the panel-shaped element and which are each provided on a mounting rail. The assembly further comprises a second clamping element which is provided for clamping the rear edge of the panel-shaped element. The second clamping element is provided for being placed on the rear wall.

In order to further clarify the features of this invention and to indicate additional advantages and details thereof, a more detailed description of the mounting system according to the invention now 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 perspective representation of a solar energy installation built up of various assemblies according to the invention; Figure 2 is a perspective view of the assembly according to the present invention; Figure 3: is a detailed representation of the rear wall of the support structure, provided with three longitudinally extending openings; Figure 4 is a schematic representation of the placement of two assemblies according to the present invention; Figure 5 is a top view of a mounting profile; Figure 6 is a representation of the clamping element provided for receiving the front edge of a panel-shaped element; Figure 7 is a schematic representation of the manner in which the panel-shaped element is received by the clamping element shown in Figure 6; Figure 8 is a perspective view of the clamping element provided for clamping the rear side of a panel-shaped element; Figure 9 is a representation of a plastic tile profile; figure 10: a perspective representation of a coupling piece suitable for mutually connecting mounting profiles.

This invention relates to an assembly (1) (see Figure 2) of a panel-shaped element (2) and a bearing structure (3) for the panel-shaped element (2) provided for placement on a flat roof construction (not shown in the attached figures), wherein said supporting structure (3) is provided for holding the panel-shaped element (2) in an inclined position with respect to the roof construction and wherein the supporting structure (3) further comprises a rear wall (4) arranged obliquely with respect to the roof construction. Such an arrangement (see e.g. Figures 2 and 4) has the advantage that a large downward pressure is created at higher wind speeds, as a result of which the need to provide a lot of extra ballast will be greatly reduced.

The ballast can be further reduced by providing one or more (air) openings (5) in the sloping rear wall (4). The illustrated assembly comprises in its rear wall (4) three openings (5) extending in the longitudinal direction (of the rear wall). These openings (5) create an additional venturi effect, as a result of which an underpressure is formed under the panel (2). This underpressure, on the one hand, increases the downward pressure on the assembly (1) and, on the other hand, ensures better ventilation so that the heat generated during use under the panel (2) will disappear more quickly, which results in a better efficiency of the panel (2) cares.

With the assembly (1) according to the invention, a solar energy installation as shown in Figure 1 can be formed by placing different assemblies in rows next to each other.

The support structure (3) further comprises at least two mounting rails (3) which are provided for receiving the rear wall (4). In principle, when constructing a solar energy installation it will be opted to place a number of mounting profiles (6) of a certain length next to each other, so that it is possible to place several assemblies on the same mounting rails (6). To achieve even greater lengths, two mounting profiles (6) can be connected to each other via a coupling piece (15) (see figure 10).

To now attach the rear wall (4) to the support structure (3), this comprises mutually fitting male and female coupling means. In the illustrated figures (see Figure 3), the male coupling means are formed by cams (7) provided on the underside of the rear wall (4) and the female coupling means are formed by slots (8) arranged in the mounting profiles (see Figure 5). ). By making use of a cam system, there is less use to be made of other fasteners, so that assembly can be done much faster.

By providing the mounting profiles (6) with slots (8) at fixed distances for the cams (7) provided on the rear wall (4), it is clear to the user where the parts must be placed, both in length and width direction . The distance for a subsequent panel-shaped element (2) is hereby also fixed in the mounting profiles, as a result of which expanding the laying plan becomes much simpler so that mounting of the assembly (1) can take place much faster.

The panel-shaped element (2), in this case a solar panel, rests, as can be seen from Figure 2, with its rear edge on a projecting edge that forms part of the rear wall (4). In order to prevent the panel (2) from blowing away, on the one hand the rear edge of the panel is clamped against the rear wall (4) by means of. a second clamping element (14). The second clamping element (14) (see Figure 8) can for instance be fixed against the rear wall by means of bolts (e.g. M6). On the other hand, the front edge of the panel (2) is clamped at its both ends by a first clamping element (13) (see figures 6 and 7) which is provided for being placed on the mounting profile (6). The first clamping element (13) comprises a protrusion (pin) (16) that fits into a fixed hole (17) provided in the mounting profile (6), this first clamping element (13) can only at specific places on the mounting profile (6) being placed. By making use of pre-clamping of the first clamping element in the mounting profile, it will become fixed after the panel has been placed, as a result of which it is again prevented that additional vibrations arise on the assembly.

Figure 9 is an illustration of the plastic tile profile (9) on which the entire assembly (1) comes to rest. This profile comprises raised edges (10) suitable for receiving the mounting profiles (6). The tile profile (9) also comprises a receiving space (11) which is provided for receiving ballast (12), in particular a tile-shaped ballast. This ballast (12) may be necessary for the stability of the assembly. This ballast (12) also prevents building vibrations from forming on the assembly (1). These vibrations have an adverse effect on the stability of the assembly. The water can be easily drained by providing additional passage openings in the tile profile (9).

The assembly (1) according to the invention makes it possible to minimize the weight of the supporting structure, this due to the aerodynamic design, so that the wind has less influence on the whole, by using the panel (2) itself mounted on the support structure (3), gives the assembly (1) the final strength, and the presence of the openings in the rear wall (4) which, due to the venturi effect, will increase the downward pressure on the assembly (1).

Claims (8)

An assembly (1) of a panel-shaped element (2), in particular a solar panel, and a support structure (3) for the panel-shaped element (2) provided for placement on a flat roof construction, said support structure (3) being provided for maintaining the panel-shaped element (2) in an inclined position with respect to the roof construction, characterized in that said bearing structure (3) further comprises a rear wall (4) arranged obliquely with respect to the roof construction, which wall has at least one opening (5) ) provided to create an underpressure under the panel-shaped element (2). An assembly (1) according to claim 1, characterized in that said rear wall (4) comprises at least two longitudinally extending openings (5). Assembly (1) according to claim 1 or 2, characterized in that the support structure (3) comprises at least two mounting rails (6) which are provided for receiving the rear wall (4). An assembly (1) according to any one of the preceding claims, characterized in that said bearing structure (3) comprises male and female coupling means that fit into each other to attach the rear wall (4) to the bearing structure (3). Assembly (1) according to claim 4, characterized in that the male coupling means are formed by cams (7) and that the female coupling means are formed by slots (8). Assembly (1) according to one of the preceding claims, characterized in that the assembly (1) further comprises a plastic tile profile (9), which is provided with upright edges (10) suitable for receiving a mounting profile (6) . An assembly (1) according to claim 6, characterized in that said tile profile (9) comprises a receiving space (11) provided for receiving ballast (12). An assembly (1) according to any one of the preceding claims, characterized in that said assembly (1) comprises clamping elements (13,14) for clamping the panel-shaped element (2) against the support structure (3).