NL2003092C2 - HOLDER PANEL HOLDER SYSTEM. - Google Patents

Description

P29642NL00 / MVM

Brief indication: Holder system for solar panels

The invention relates to a holder system according to the preamble of claim 1.

It is known to provide stationary holder systems for holding solar panels. These solar panels can comprise one or more solar cells for extracting energy from sunlight. Such holder systems are adapted to be fixed on or to objects, such as roofs of houses, lampposts and the like.

It is important to place the solar panels at a favorable angle with respect to incident sunlight in order to obtain an optimal energy yield. Ideally, the sunlight falls almost perpendicular to the solar panel.

The angle of the sun changes more real during the day. The solar panel 10 should therefore be arranged in an orientation in which the angle with respect to the sun is optimal during the day. Hereby it is important to have both a favorable upward angle of inclination with respect to the horizontal plane in order to place the solar panel at a favorable angle with respect to the height of the sun during the day. In addition, it is important to place the solar panel in a favorable lateral angle of inclination relative to a vertical plane, for example relative to the south.

In the Netherlands, a stationary solar panel produces the highest yield with an upward slope of 30 to 40 degrees relative to a horizontal plane and a lateral angle of about 0 to 10 degrees west of the south.

It is noted that it is known to place one or more solar panels on a holder and to let this holder rotate with the position of the sun. Although such a system could provide a higher yield, such a system is complex and maintenance-intensive.

Various stationary holder systems for solar panels are also known, for example plate-shaped holders for solar panels, in which different solar cells are placed in a common plane from each other. Such holders are, for example, placed flat on roofs of houses. In order to achieve a good efficiency, it is important that the roofs have an orientation suitable for incident sunlight, i.e. a favorable upward angle of inclination and a favorable lateral angle. Alternatively, and often smaller in surface area, these holders are attached to masts, wherein a tripod or the like is provided to adjust the correct orientation relative to the sun. Such holders usually protrude sideways with respect to the mast, which is optically undesirable. Moreover, due to sensitivity to wind, the surface area of solar panels to be used is limited.

It is an object of the invention to provide a stationary holder system for solar panels that is simple and reliable.

The object has been achieved with a holder system for mounting solar panels on an object, comprising: - a plurality of solar panels, and - a holder for holding the solar panels, the holder having a mounting side defining a mounting surface for mounting the holder 10 to an object, characterized in that the solar panels are arranged in a line parallel to the mounting surface, and each of the solar panels, after mounting, is placed in an upward angle of inclination favorable to incident sunlight relative to a horizontal plane, wherein the angle between the mounting surface and the solar panels are between 20 and 70 degrees 15.

The advantage of the holder system according to the invention is that the solar panels are placed in a compact manner relative to each other and yet can be placed at an advantageous orientation relative to the sun. The holder is particularly suitable for being placed on a flat or curved surface that itself does not have a suitable upward angle of inclination with respect to incident sunlight. By placing the solar panels at an angle with respect to the mounting surface, the suitable upward angle of inclination can be obtained, whereby the compact shape is retained since the solar panels lie in a line parallel to the mounting surface.

It is noted that said angle between the mounting surface and the solar panels is determined as the angle between the main surfaces of the solar panels and the mounting surface in the direction of the line parallel to the mounting surface on which the solar panels are mounted.

A further advantage of the holder system according to the invention is that the holder 30 with solar panels as a whole can be mounted on an object. The combination of holder and solar panels can therefore be fabricated at a manufacturing location and then transported to the mounting location. The holder system provides, as it were, modules of a holder with several solar panels that can be placed in a suitable location as required.

All solar panels are preferably placed at the same angle with respect to the mounting surface.

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The holder system is particularly suitable for an object with a substantially vertical or horizontal surface for attaching the holder thereto. With a substantially vertical surface, the angle between the mounting surface and the solar panels is preferably between 50 and 60 degrees, so that the upward angle of inclination of the solar panels after mounting is between 30 and 40 degrees. Accordingly, with a substantially horizontal surface, the angle between the mounting surface and the solar panels is preferably between 30 and 40 degrees, so that the upward inclination angle of the solar panels after mounting is between 30 and 40 degrees.

In one embodiment, the angle between the mounting surface and the solar panels 10 is between 30 and 60 degrees.

In one embodiment, the holder is elongated. Such an embodiment has the advantage that a larger number of solar panels can be placed on a line, while the holder with solar panels is easy to transport. Moreover, such an elongated shape is suitable for being placed on an elongated object, such as a pole or mast, for example a mast of a wind turbine.

In one embodiment the holder can be releasably attached to the object. Such a holder is easy to replace. This is particularly advantageous if the container system is used at locations that are not easy to reach, such as, for example, structures at sea or when placed at a height that is not easily reached.

If maintenance or repair work is to be carried out on such a holder, the entire holder with solar panels can be removed at once and possibly replaced by another holder with solar panels, and the maintenance or repair work can be carried out at a different location.

In one embodiment the holder on the mounting side has a mounting surface that corresponds to the shape of the object to which the solar panel is mounted. In such an embodiment, the shape of the mounting surface will suitably fit the object on which it is placed. For example, the mounting surface can be part-cylindrical and concave to be mounted on a substantially cylindrical object, such as a pole or mast.

Due to such a design, the holder will connect well to the object, as a result of which an optically beautiful whole is created, and whereby moreover the wind has less influence on the stability of the holder and solar panels.

In one embodiment, the holder system further comprises one or more wedge-shaped parts that can be placed between holder and a mounting base, such as a wall, to keep each of the solar panels, after mounting, at a favorable angle with respect to incident sunlight. As discussed, it is not only important that the solar panels are placed at a favorable angle of inclination relative to the horizontal, but also that the solar panels are placed at a favorable angle relative to the south. This can be achieved by placing a wedge-shaped part between the holder and a surface, for example a wall to which the holder system is attached. The wedge-shaped parts can also be used for adjusting the upward angle of inclination of the solar panels.

It is noted that with wedge-shaped parts are meant both elements with a wedge shape and elements that create a wedge-shaped space. For example, two corner bracket elements can be provided which position the holder at an angle with respect to a mounting base.

It is, however, preferred to provide closed wedge-shaped elements because they reduce the influence of the wind on the holder, since the wind cannot then enter the wedge-shaped space between holder and mounting base.

The wedge-shaped parts can be pre-produced parts for certain standard dimensions of the holder and with certain standard angles, for example 5 and 15 degrees. A modular system is then obtained with which a user can purchase the desired combination of wedge-shaped parts and holders with solar panels to mount them in a manner favorable to incident sunlight, for example, on a wall of a house.

It is also possible to use the wedge-shaped parts to change the upward angle of inclination of the solar panels during the 20 years in order to obtain an optimum position of the solar panels relative to the sun for that part of the year.

In one embodiment, the holder is formed by two elongated, preferably saw-tooth-shaped side walls, and plate-shaped parts arranged between the side walls, the solar panels being mounted in or on the plate-shaped parts.

In a further embodiment the plate-shaped parts are provided with an opening in which or behind which the solar panels are placed.

In one embodiment, the holder system may comprise a receiving unit to be fixed to the object for detachably mounting the holder thereon. Such a receiving unit can be arranged to obtain a quick coupling between holder and object, or to simplify the mounting of the holder. For example, a snap connection between holder and receiving unit can be provided which couples the holder completely and reliably, or which holds the holder during the further fixing of the holder, for example with bolts.

In general, it will be desirable to dispose of the electrical energy generated with the solar panels and, for example, to store it in a battery. Such a battery can be provided in the holder itself, but also in the object to which the holder is mounted or at another location. In the latter case it is advantageous in an embodiment with a receiving unit to provide the holder and the receiving unit with an electrical coupling element which, when the holder is placed on the receiving unit, automatically couple to establish an electrical coupling between the receiving unit and the solar panels. 5. In such an embodiment, by placing the holder on the receiving unit, the coupling between solar panels and battery, or possibly another user of the generated energy, is directly established.

The invention further relates to a wind turbine provided with one or more holder systems according to one of the claims 1-13. The advantage of such a construction is as follows. More and more wind turbines are being installed both on land and in the sea to generate wind energy. These wind turbines are usually placed at a certain height in order to obtain an optimum position in relation to the wind. The wind turbines are provided with a mast section for this purpose. The present invention provides for utilizing this mast surface for placing one or more holder systems for solar panels in order to be able to obtain solar energy in addition to wind energy.

The advantage of the invention is that the holder offers a very suitable and reliable arrangement of several solar panels for the shape of the mast section, while the wind also has little influence on the solar panels.

Further details and features of the invention will be further explained below with reference to the accompanying drawing, in which:

Figure 1a is a schematic front view of an embodiment of a holder system according to the invention;

Figure 1b is a schematic side view of the embodiment of Figure 1; Figure 1c is a schematic top view of the embodiment of Figure 1;

Figure 2 shows a schematic top view of an alternative embodiment of a holder system according to the invention; and - Figure 3 shows a schematic view of two holder systems according to the invention mounted on a wind turbine.

30

Figures 1a, 1b and 1c show a first embodiment of a holder system according to the invention, indicated in its entirety by reference numeral 1. The holder system 1 comprises a holder 2 which defines a mounting surface 4 on a mounting side 3 of the holder 2 with which the holder 2 is attach to an object.

The holder 2 can be made of any suitable material, for example metal or plastic.

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The mounting surface 4 can be an actual surface which is formed, for example, by a wall part which is curved in this case, or a number of mounting elements, for example mounting brackets, can be provided which form this mounting surface 4. The term attachment face 4 is used herein to indicate the face 5 defined by the attachment means for attaching the holder 2 to an object.

The mounting surface 4 is concave and partially cylindrical so that the holder 2 is particularly suitable for being placed on a corresponding cylindrical surface of, for example, a pole or mast. After confirmation, the holder 2 connects well to the object, which visually offers a nice view. Moreover, there is no or at least little space 3 between the holder 2 and the object to which the holder 2 is mounted, as a result of which the holder 2 is less sensitive to wind.

In the holder 2 a number of solar panels 5 are arranged which lie in a line parallel to the mounting surface 4. The solar panels are further placed at an angle α relative to the mounting surface 4. According to the invention, this angle α lies between the 20 and 70 degrees, preferably between 30 and 60 degrees, more preferably between 30 and 40 degrees or between 50 and 60 degrees.

The angle α of the solar panels 5 with respect to the mounting surface 4 is approximately the same for all solar panels. In an alternative embodiment, the angle α of the different solar panels can vary slightly, for example variations of a maximum of 5 degrees between the surfaces of the different solar panels.

The embodiment shown in figures 1a, 1b and 1c may, for example, have an angle α of 50 to 60 degrees so that the upward angle of inclination β after a mounting of the holder 2 on a vertical plane, such as for instance shown in Figure 3, in a front position. North latitude of the Netherlands is favorable area of 30 to 40 degrees relative to a horizontal.

The holder 2 comprises two saw-tooth-shaped side walls 6 between which plate-shaped parts 7 are placed. The plate-shaped parts 7 are provided with an opening behind which the solar panels 5 are placed. Alternatively, it is also possible to at least partially manufacture the plate-shaped parts 7 from sunlight-transparent material and to place the solar panels 5 behind the plate-shaped parts. The advantage of such an embodiment is that the solar panels 5 are better protected against external influences, such as weather influences or damage by birds or other animals.

It is furthermore also possible that the solar panels are placed on the plate-shaped parts, or themselves form the plate-shaped parts.

The mounting surface 3 is formed by a closed plate part and at the top and bottom of the holder 2 a top part 8 and bottom part 9 are provided so that the holder 2 together with the solar panels 5 forms a closed whole, so that wind, water and dirt cannot easily enter the interior of the container 2. In addition or alternatively, seals, for example of rubber, can be provided to form a closed whole.

This is not only advantageous for the wind sensitivity of the holder 2, but also, for example, for protecting the electrical equipment (not shown) present in the holder 2, for example batteries and / or cables.

The solar panels comprise one or more solar cells that are suitable for generating energy on the basis of sunlight. This energy can be discharged to a user, for example for storage in a battery. This battery can be provided in the holder 2 itself, but also at another location, for example an object to which the holder 2 is mounted.

In an alternative embodiment, it is possible for the holder to comprise parts that can be connected separately to each other. The mounting surface can for instance be formed by a mounting part on which holder parts with solar panels can be arranged. The solar panels can then be installed as required. A holder part can for instance be a tooth of the saw-tooth shape of the embodiment shown in the Figures, while the fixing part is an elongate element on which a plurality of such teeth can be placed. A possible dividing line between a mounting part and a holder part is indicated by a dotted line 10 in Figure 1a.

It is further noted that the solar panels 5 shown in the Figures are flat. This surface can contain a solar cell or several that are arranged next to each other, for example on a line or as a half-hexagon. Alternatively, it is also possible to apply other shapes that may have been made from several solar cells. The solar panel 25 may, for example, have a convex or concave surface, or any other suitable shape.

Figure 2 shows a top view of an alternative embodiment of a holder system 1 for solar panels 5. The holder 2 is designed in accordance with the holder 2 of Figures 1a, 1b and 1c, unless stated otherwise. A number of solar panels 5 is provided in the holder 2 at the designated holding locations.

The mounting surface 4 on the mounting side of the holder 2 is a flat surface which is particularly suitable for mounting on a flat surface.

The holder system 1 is mounted in Figure 3 on a substantially vertical surface 50, for example a wall or the like. The surface is at an angle with respect to the south, indicated by the arrow Z. If the holder 2 were placed directly on the surface 50, the solar panels 5 would have a less favorable angle with respect to the vertical plane, ie with respect to from the south.

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A wedge-shaped element 20 with an angle Θ is therefore arranged between the holder 2 and the surface 50. Due to this wedge-shaped element 20, the holder takes a favorable angle with respect to the south Z.

The wedge-shaped elements can be presented together with the holders as a modular system 5, wherein wedge-shaped elements with different angles hoeken, for example 5, 10 and 25 degrees, so that by using one or more of these wedge-shaped elements 20 the holder can be made in a simple manner can be placed at a right angle to the south.

It is furthermore also possible to provide wedge-shaped elements which are adapted to adjust the upward angle of inclination of the holder 2. For example, it is possible that the holder is designed such that the solar panels assume an optimum upward angle of inclination if it is placed on a vertical surface. If the angle of a surface now deviates from vertical, use could be made of wedge-shaped parts to create a vertical mounting surface for the holder.

Figure 3 shows a wind turbine 100 to which two holder systems 1 as shown in Figures 1a, 1b and 1c are attached to the mast portion of the wind turbine 100. The holder systems 1 are each electrically coupled to each other and / or the electrical system of the wind turbine. It can clearly be seen that the elongated shape of the holder 2 and the solar panels placed one above the other is very favorable for attachment to the mast part, while at the same time the solar panels are placed in a favorable upward angle of inclination with respect to incident sunlight. In addition, due to its cylindrical shape, the mast section simply offers the possibility of placing the holder at the right angle to the south.

Advantageously, the holders 2 are releasably mounted on the wind turbine 100, so that in the case of repair and / or maintenance work, the holder can easily be removed from the mast part if necessary.

To this end, the wind turbine or lamppost can be provided with receiving units in which the holders 2 can be easily fitted and mounted. During the placement or removal of the holder 2 in or from the respective receiving unit, respectively, an electrical coupling can also be established / disconnected automatically between a coupling element on the holder 2 and a coupling element on the receiving unit.

Claims (14)

A holder system for mounting solar panels on an object, comprising: - a plurality of solar panels, and - a holder for holding the solar panels, the holder having a mounting side defining a mounting surface for attaching the holder 5 to an object, the feature that the solar panels are arranged in a line parallel to the mounting surface, and each of the solar panels, after mounting, is placed in an upward angle of inclination favorable to incident sunlight relative to a horizontal plane, wherein the angle between the mounting surface and the solar panels is between 20 and 70 degrees 10. Holder system according to claim 1, wherein the angle between the mounting surface and the solar panels is between 30 and 60 degrees. Holder system according to claim 1 or 2, wherein the holder is elongated. Holder system according to one of the preceding claims, wherein the holder can be detachably attached to the object. A holder system according to any one of the preceding claims, wherein the holder on the mounting side has a mounting surface that corresponds to the shape of the object to which the solar panel is mounted. 6. Holder system as claimed in claim 5, wherein the mounting surface is part-cylindrical and concave for being mounted on a substantially cylindrical object. 7. Holder system as claimed in any of the foregoing claims, wherein the holder system further comprises one or more wedge-shaped parts that can be placed between holder and a mounting base, such as a wall, around each of the solar panels, after mounting, in a favorable angle with respect to keep out of incident sunlight. A holder system according to any one of the preceding claims, wherein the mounting surface after mounting is substantially vertical or substantially horizontal. 35 -10- 9. Holder system according to one of the preceding claims, wherein the holder is formed by two side walls and plate-shaped parts arranged between the side walls, the solar panels being mounted in or on the plate-shaped parts. 10. Container system according to claim 9, wherein the plate-shaped parts are provided with an opening in which or behind which the solar panels are placed. A container system according to claim 9 or 10, wherein the two side walls are saw-tooth shaped. 12. Holder system according to one of the preceding claims, wherein the holder system comprises a receiving unit to be fixed to the object for detachably mounting the holder thereon. A container system according to claim 12, wherein the receiving unit and holder each comprise an electrical coupling element which, when the holder is placed on the receiving unit, automatically couple to establish an electrical coupling between the receiving unit and the solar panels. 14. Wind turbine provided with one or more holding systems according to one of the preceding claims.