NL1012125C1 - Solar panel, mounted on spatial support with solid vertical walls separating top and bottom sides, and secured to roof by strip of film applied to these vertical walls - Google Patents

Abstract

The solar panel (2) is mounted on a spatial support (1) with top and bottom sides (1a, 1b) separated by solid vertical walls (1c). A cover film strip (5) applied to the vertical walls is used to secure the support to the roof (4). A solar energy system comprises a support which can be placed on a surface such as a roof and which has at least one solar panel mounted on it. The support has a spatial construction with top and bottom sides separated by solid vertical walls. A strip of cover film is applied to the vertical walls and this strip has a free end (5b) close to the top or bottom side of the support, which is used to secure the support to the surface.

Description

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Title: Solar energy system.

The invention relates to a solar energy system, composed of a chassis and at least one solar panel mounted on the chassis, wherein the chassis can be placed on a surface, such as a roof.

Such solar energy systems are generally known and are placed on roof structures for the generation of electricity or heat from sunlight. In a known embodiment of such a solar energy system, the chassis is designed as a frame of horizontal and vertical beams, wherein one or more solar panels are mounted on the frame at a certain angle, depending on the solar incidence.

Such a frame is complicated in construction and therefore expensive due to the many separate parts, moreover mounting on the roof is time-consuming and labor-intensive. Furthermore, the solar panels mounted on such a frame cannot always be arranged at an ideal angle of incidence, which results in a reduced energy yield and an unfavorable efficiency.

The object of the invention is to overcome the above drawbacks and to provide a solar energy system which is not only simple and inexpensive in construction, but which can moreover be mounted on a roof in a simple manner and at any desired angle of incidence. According to the invention, the solar energy system is characterized for this purpose in that the underframe has a spatial construction, consisting of a bottom and top surface, which are spaced apart from each other by means of closed, upright walls, and a strip against the upright walls. cover foil is provided, which cover foil is provided near the bottom surface with a free end for fixing the underframe to the surface. The solar energy system can be integrated in a roof by this construction, which not only provides an aesthetically more attractive appearance, but also provides a quick and simple installation. Furthermore, the frame can be manufactured inexpensively and in large numbers by 101 21 25 Λ 2.

In order to obtain a good additional protection against weather influences, the strip of cover foil can also be applied on the top surface and / or the peripheral edges of the solar panel. Furthermore, the strip of cover foil can be arranged along one or more upright walls between the top surface and the solar panel, in order to create a good sealing and drainage of rainwater along the solar panel to the roof drainage system.

In an embodiment of the solar energy system according to the invention, the bottom and top surfaces of the base are parallel to each other. This embodiment is particularly suitable for rapid mounting on sloping roof structures. In another embodiment, the bottom and top surfaces of the base are angled relative to each other. This makes it possible to place the solar panel on a roof construction at a predetermined angle of incidence, whereby an optimum energy yield and an improved efficiency can be obtained.

For an improved drainage of the rainwater, the closed upright walls of the underframe according to the invention are placed at an angle.

Preferably, the solar panel is mounted on the top surface of the base by means of an adhesive.

In one embodiment of the solar energy system, it is characterized according to the invention in that the upright walls and the two surfaces or parts of the two surfaces of the chassis are provided with fire-resistant material all around. This prevents the frame from being affected by the heat during the placing of the solar energy system on the substrate by, for example, burning the free ends of the covering foil.

In particular, the base of the solar energy system according to the invention is made of foamable plastic, such as polystyrene, polyurethane or polyvinyl chloride. These materials are not only cheap and light, it also makes it possible to manufacture the base in 1012125 3 large numbers in different sizes and angles.

In particular, the frame can be made of a fire-resistant or fire-retardant foamable plastic, such as resol or mineral wool.

In another embodiment, the solar energy system according to the invention is characterized in that at least one of the upright walls is provided with a reinforcing partition on which connectors and peripherals 10 for the solar panel can be mounted. Slots and / or bores can optionally be provided in the chassis for the passage of connecting cables from the solar panel to the reinforcement bulkhead or through the bottom surface in the direction of the substrate. These facilities make it possible to connect or loop through the different solar panels after installation of the solar energy system.

The invention will now be explained in more detail with reference to a drawing, which drawing successively shows in: figure 1a a schematic cross-section of an embodiment of a solar energy system according to the invention; Figure 1b shows the top view of the cross-section shown in Figure 1a; figure 2 shows another embodiment of a solar energy system according to the invention; figure 3 is yet another embodiment of a solar energy system according to the invention.

The embodiment of a solar energy system according to the invention shown diagrammatically in Figure 1a is composed of a solar panel 2, which is mounted on a base 1. The chassis 1 is characterized by a spatial construction, consisting of closed upright walls 1c and a spaced bottom surface 1a and top surface 1b. The base is preferably made of a foamable plastic, for example polystyrene, polyurethane or polyvinyl chloride. The frame can optionally be made of a fire-resistant or fire-retardant foamable plastic, such as resol or 1012125 4 mineral wool. The solar panel 2 is applied to the top surface 1b of the base 1 by means of a layer of adhesive 3, schematically shown here. The functionality of this composite solar energy system lies in the fact that the solar panel 2 and the base 1 can be mounted on a surface, for instance a roof 4, in a very efficient, fast and simple manner. For this purpose a strip of cover foil 5 is provided against the upright walls 1c, which is provided with a free end 5b near the bottom surface 1a. This free end 5b can be fixed to the roof 4 with known fastening techniques, such as melting or burning. Bitumen, EPDM or any other suitable roofing material can be used as the material for the covering foil 5.

Due to this construction, the solar energy system according to the invention can be integrated in the roof in a simple, fast and less labor-intensive manner. In order to prevent the frame 1 from being attacked by fire during burning of the free ends 5b on the roof 4, the upright walls 1c and the parts of the bottom and top surfaces 1a and 1b are provided with a fire-resistant layer 6. In another embodiment, the frame 1 may optionally be provided with such a fire-resistant layer 6.

In order to sufficiently protect the solar energy system against weather influences, the cover foil 5 is also provided with an end 5a, which is arranged on the top surface 1b and / or the peripheral edges of the solar panel 2. Thus, with the aid of a suitable sealing adhesive 3, any leaking of rainwater to the interior of the solar energy system is prevented.

In this embodiment, the two surfaces 1a and 1b are parallel to each other, which makes the solar energy system shown particularly suitable for mounting on roofs 4 already at an angle.

Figure 1b shows the top view of the embodiment of the solar energy system according to the invention which is schematically shown in figure 1a.

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The solar energy system according to the invention is suitable for all kinds of solar panels, for example for photovoltaic solar panels. Such a solar panel 2 is built up from a large number of solar cells 2a. Otherwise, the reference numerals in Figure 1b refer to the corresponding parts of Figure 1a.

Figure 2 shows another embodiment of a solar energy system according to the invention. Here, the corresponding parts are designated with the same reference numerals. The upright walls 1c have been placed at an angle to promote good drainage of rainwater. Furthermore, in this embodiment the solar panel 2 is also applied by means of an adhesive layer 3 to the top surface 1b of the frame 1, while the upright walls 1c and parts of both surfaces 1a and 1b are provided with a layer 6 of fire-resistant material, this is to prevent damage to the frame 1 during burning of the free ends 5b of the cover foil 5. The frame 1 can optionally be completely surrounded by the fire-resistant layer 6.

In contrast to figure 1a, where the edges 5a of the cover foil 5 are arranged around the edges of the solar panel 2, in the figure 2 the cover foil 5 is completely applied over the solar panel 2. This provides additional protection against weather influences and prevents any damage to the solar panel 2.

In figure 3, yet another embodiment of a solar energy system according to the invention is shown. Here, too, the corresponding parts are designated with the same reference numerals. In this embodiment, the bottom and top surfaces 1a and 1b are at a certain angle α relative to each other, resulting in an oblique arrangement of the solar panel 2. Because the base 1 is manufactured from an inexpensive and easy-to-process foamable plastic, the angle α between the planes 1a and 1b can be easily created during the production process. This offers the possibility to very easily produce solar energy systems with a predefined angle of incidence, depending on the latitude on earth, where the respective solar energy system will be placed. Analogously to the embodiments in Figures 1a and 2, here too the end 5a of the cover foil 5 is adhered with a suitable adhesive 3 on the top surface 1b and on the edge of the solar panel 2. For a good sealing of the interior of the solar energy system against rainwater runoff, the edge 5a 'of the cover film 5' is arranged between the top surface 1b and the solar panel 2 on the downward side lc 'of the frame 1.

Figure 3 also shows a further feature of the solar energy system according to the invention. Between the frame 1 and the cover foil 5, a reinforcing partition 7 is placed against the upright wall 15 lc, which can for instance be manufactured from a hard plastic, epoxy resin, metal or wood. Connectors 7a or peripheral equipment for solar panel 2, not shown, can be mounted on this reinforcement bulkhead. The connector 7a is connected to a connecting cable 2a 20, which is led from the solar panel 2 through a bore or slot 8a arranged in the base 1. This makes it possible to connect the various solar panels on the roof in a simple way or to loop them through. By using a bore 8b, where a connecting cable 2b can be led from the solar panel 2 to the roof 4, the presence of peripherals and connecting cables on the roof can be completely omitted.

As mentioned above, the frames 1 are preferably made of a foamable plastic, such as polystyrene, polyurethane or polyvinyl chloride, or of a fire-resistant or fire-retardant foamable plastic, such as resol or mineral wool. These easy to process and inexpensive materials make it possible to produce the frames 35 quickly and in large numbers and in different sizes and angles between the surfaces 1a and 1b. Furthermore, the solar energy system according to the invention can also be composed of several solar panels, which may or may not be coupled together, which are mounted on one frame.

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Claims (13)

1. Solar energy system composed of a chassis and at least one solar panel mounted on the chassis, wherein the chassis can be placed on a surface, such as a roof, characterized in that the chassis has a spatial construction, consisting of a , by means of closed, upright walls at a distance from each other, bottom and top surface and wherein a strip of cover foil is arranged against the 10 upright walls, which cover foil is provided near the bottom surface with a free end for fixing the underframe to the surface. 2. Solar energy system according to claim 1, characterized in that the strip of cover foil is also arranged on the top surface and / or the peripheral edges of the solar panel. 3. Solar energy system according to claim 1 or 2, characterized in that the strip of cover foil is arranged along one or more upright walls between the top surface and the solar panel. Solar energy system according to one or more of the preceding claims, characterized in that the bottom and top surfaces are parallel to each other. Solar energy system according to one or more of claims 1 to 3, characterized in that the bottom and top surfaces are situated at an angle to one another. 6. Solar energy system according to one or more of the preceding claims, characterized in that the closed upright walls are placed at an angle. Solar energy system according to one or more of the preceding claims, characterized in that the solar panel is mounted on the top surface of the chassis by means of an adhesive. Solar energy system according to one or more of the preceding claims, characterized in that the upright walls and the two surfaces or parts of the two surfaces of the frame are provided with fire-resistant material all around. 1 0 1 21 25 Solar energy system according to one or more of the preceding claims, characterized in that the frame is made of foamable plastic, such as polystyrene, polyurethane or polyvinyl chloride. Solar energy system according to one or more of Claims 1 to 8, characterized in that the frame is made of fire-resistant or fire-retardant foamable plastic, such as resol or mineral wool. Solar energy system according to one or more of the preceding claims, characterized in that at least one of the upright walls is provided with a reinforcement partition on which connectors and peripherals for the solar panel can be mounted. Solar energy system according to one or more of the preceding claims, characterized in that slots and / or bores are provided in the chassis for the passage of connecting cables from the solar panel to the reinforcement bulkhead or through the bottom surface in the direction of the surface. Solar energy system according to one or more of the preceding claims, characterized in that two or more solar panels are arranged on the base. 1012125