FR3108811A3 - Solar tracker - Google Patents

Abstract

Solar tracker The invention relates to a solar tracker (1) which comprises: a main axis (3) supported by a plurality of supports (6); two rows of photovoltaic panels (2) or more; wherein at least two of said rows of photovoltaic panels (2) are placed in the direction of the main axis (3) and on opposite sides thereof; and in which the photovoltaic panels (2) are electrically connected in series, forming connection lines (4a, 4b, 4c, 4d). Advantageously, in the tracker (1), the photovoltaic panels (2) are grouped together on at least four connecting lines (4a, 4b, 4c, 4d), the panels (2) of each of said lines (4a, 4b, 4c, 4d) being placed at the same height relative to the main axis (3). Fig. 3

Description

Solar tracker

FIELD OF THE INVENTION

The present invention relates to solar energy production technologies. More particularly, the invention relates to a photovoltaic energy production installation, of the solar tracker type with a main torsion axis, designed to orient a group of photovoltaic solar panels towards the sun.

BACKGROUND OF THE INVENTION

Over the past decades, the design and improvement of renewable energy sources have assumed great importance, especially in terms of sustainable development policies. Among said sources, photovoltaic solar energy constitutes an efficient and economical alternative for the production of electrical energy of renewable origin, obtained directly from solar radiation by semiconductor devices, commonly called "cells" or "photovoltaic cells. ". Said cells are electrical mechanisms or devices designed to transform light energy into electrical energy. Thus, said cells or photovoltaic cells are generally grouped together in the form of solar panels (also called “photovoltaic panels”), with a view to their installation as power or production sources, in buildings or solar installations, among others. .

In photovoltaic solar power plants, it is common to use trackers (or, in English, "trackers"), made up of structures of photovoltaic panels placed on the ground, and which can be oriented in relation to the position of the sun. . In this way, it is possible to keep the plane of said panels perpendicular to the sun (or as perpendicular as possible), which improves the performance of said panels and, thus, of the solar power plant as a whole. Among the possible configurations of the photovoltaic panels of a solar tracker, mention may be made of single-axis structures, with which the panels are arranged on an axis of rotation (or torsion axis). Said axis is connected to a motor, by programmable means, being configured to pivot on an angled arc so that the position of the panels changes throughout the day, in order to use the solar resource more efficiently.

Typically, the arrangement of photovoltaic panels on a single-axis solar tracker has a rectangular shape along the main axis thereof. In addition, depending on the vertical or horizontal orientation of each of said panels with respect to said main axis, the solar tracker is designated respectively as being of type “V” or “H”. This nomenclature is generally associated with the number of panels on each side of the axis, per slice on the tracker. So, for example, there are photovoltaic trackers of type 1V, 2V, 2H, 3H, 4H, etc. In this field, the present invention preferably relates to 2V type trackers.

In addition to the orientation of the panels in relation to the sun, other factors influence the energy efficiency of photovoltaic trackers, such as the architecture of the electrical connection between the panels. This factor is particularly critical for large trackers, configured with multiple rows of more than twenty panels per tracker, and axes several tens of meters long. In this context, said architecture determines the number of panels connected in series within each tracker, which configures one or more groups of these panels, called “lines” (or, more generally, “strings” in English). Thus, depending on its type (1V, 2V, 2H, etc.), a follower can be configured with one or more lines of panels connected in series, each line being connected, subsequently, in parallel within the network of connection of the tracker and / or the solar power plant itself, until one or more converter (s) responsible for transforming the direct current energy which comes from the photovoltaic panels into alternating current.

As already indicated, the specific choice of lines within a tracker can have a significant impact on their generation efficiency, but also on their installation, maintenance or repair costs. It is therefore necessary, in the present technical context, to find architectures for connecting panels, thanks to configurations of lines or strings in photovoltaic trackers, which improve the architectures known in the state of the art.

The present invention provides a solution to said need, for 2V type photovoltaic trackers, although its approach is also applicable to other tracker configurations, equipped with two or more rows of photovoltaic panels.

DESCRIPTION OF THE INVENTION

In the light of the problems of the state of the art exposed in the previous section, an object of the present invention relates mainly to a solar tracker comprising:
- a main axis supported by a plurality of supports;
- two or more rows of photovoltaic panels;
wherein at least two of said rows of photovoltaic panels are disposed in the direction of the main axis and on opposite sides thereof; and
in which the photovoltaic panels are electrically connected in series, forming connection lines.

Advantageously, in the solar tracker of the present invention, the photovoltaic panels are grouped together on at least four connection lines, the panels of each of said lines being placed at the same height relative to the main axis.

In a preferred embodiment of the invention, two of the connecting lines are found with their panels placed at the same height with respect to the main axis.

In another preferred embodiment of the invention, the other two connecting lines are found with their panels placed at the same height with respect to the main axis.

In another preferred embodiment of the invention, the connecting lines placed at the same height are interconnected by cables.

In another preferred embodiment of the invention, the panels form a 2V type structure. Alternatively, in other preferred embodiments of the invention, the panels form a 2H, 3H or 4H type structure.

Another object of the invention is a solar power plant which comprises two or more trackers according to any of the embodiments described in this document.

In a preferred embodiment of the solar plant of the invention, two of the connecting lines of two followers of said plant are connected by cables, so that said lines are found with their panels placed at the same height as their axes. main.

As has been described, the previous embodiments are considered to be a more efficient alternative to known photovoltaic trackers. In the particular case of state-of-the-art 2V type photovoltaic trackers, intended for use in solar power plants, the connection architecture of their panels generally consists of three lines, as indicated on the diagram. above. Said figure illustrates the architecture of a 2V type tracker (1), equipped with 84 photovoltaic panels (2) (42 for each row on each side of a main axis (3)). In this configuration, the panels (2) are connected by forming three lines (4a, 4b, 4c), preferably by cables (5a, 5b, 5c) which connect the different panels (2) on each line (4a, 4b , 4c). In addition, the main axis (3) is supported by a plurality of supports (6) or posts, planted, anchored or cemented in the ground.

As shown on the , the configuration of the lines (4a, 4b, 4c) for this type of follower (1) is asymmetrical as regards the choice of the rows which are incorporated therein. Thus, for example, a first row (4a) incorporates twenty-eight panels (2) of a single row on one side of the main axis (3), a second row (4b) incorporates twenty-eight panels (2 ) of a single row on the other side of the first row (4a), and a third row (4c) incorporates twenty-eight panels (2) of two rows on both sides of the axis (3). main follower, each of said rows comprising fourteen photovoltaic panels (2).

The configuration shown on (which is generally adopted on known type 2V trackers) causes a difference in electrical production within the third line (4c), due to the connection of panels (2) located at different heights (since, as a rule , the row located on one side of the axis (3) is at a different height from the row located on the other side). This difference causes, in practice, a decrease in the efficiency of power generation on the third row (4c) of panels (2), since the whole of said row (4c) will produce power at the end. the most unfavorable location of said row which, in this case, corresponds to the row which has the lowest solar radiation captured among the two rows which form the third row (4c) of panels (2).

Thanks to the improved configuration proposed by the present invention, it is possible to isolate each generation line at the same location within the same row of the tracker, ensuring that all the photovoltaic panels of said line capture the same radiation. solar energy and, consequently, to maintain an optimal energy production, and to reduce the energy losses due to the differences in the collection of the radiation caused by the different heights of the panels.

The architecture of the connection lines proposed by the present invention also makes it possible to more easily connect the successive trackers, while maintaining the optimum position of said lines in terms of production, by connecting the rows located at the same height on said trackers (for example, on a 2V type follower, by connecting the upper lines of each follower to each other, and the lower lines to each other). Said architecture according to the invention is described in more detail in the following section, in the form of a preferred embodiment. Furthermore, the configuration of the lines according to the embodiments of the invention makes it possible to considerably reduce the total length of the cables used for the connection of the panels, which consequently implies a significant saving in material and labor. works for the installation, and a reduction in the risk of breakdown and therefore of the maintenance or repair needs of the tracker.

In addition to the energy saving due to the advantageous configuration of the connection lines as described above, significant savings can be made in terms of the construction of the solar power plants and the maintenance of the trackers during their lifetime, since , thanks to the configuration according to the invention, the complete installation needs a reduced number of start-up and control systems.

In the context of the present invention, the expression “substantially” is understood to mean “identical to or within a range of ± 15%”.

DESCRIPTION OF THE DRAWINGS

The characteristics and advantages described above will be better understood from the detailed description of the invention and from the examples illustrated in the accompanying figures, and described in the following paragraphs.

The illustrates a schematic view of a 2V type solar tracker, known for its architecture composed of three connection lines of its photovoltaic panels, according to an embodiment of the state of the art.

The illustrates a schematic view of a 2V type solar tracker according to the invention, according to a preferred embodiment thereof which is based on an architecture with four connection lines of its photovoltaic panels.

The illustrates a schematic view of the solar tracker of the , on which two of its connecting lines are connected according to the height of both sides of the main axis.

References used on drawings:
(1) Solar tracker (2) Photovoltaic panels (3) Main axis of the solar tracker (4a, 4b, 4c, 4d) Connection lines for photovoltaic panels (5a, 5b, 5c, 5d) Line connection cables (6) Follower brackets or posts (7a, 7b) Connecting cables between consecutive lines
DESCRIPTION OF A PREFERRED EMBODIMENT OF THE INVENTION

A detailed description of the invention is given below, and refers to a preferred embodiment of the invention, on the basis of Figures 2 to 3 of this document. Said description is provided by way of illustration, and not limitation, of the claimed invention.

As an alternative to state-of-the-art trackers, which rely on connecting line architectures such as those illustrated in , the present invention proposes a 2V type follower architecture (1), equipped with a plurality of photovoltaic panels (2) arranged on at least one row on each side of a main axis (3). In said configuration, illustrated on , the panels (2) are connected by forming four connecting lines (4a, 4b, 4c, 4d), preferably using corresponding cables (5a, 5b, 5c, 5d) which connect the different panels (2) on each row (4a, 4b, 4c, 4d). Advantageously compared to known 2V tracker architectures, each line (4a, 4b, 4c, 4d) connects the panels (2) arranged at the same height on the main axis (3). In addition, said main axis (3) is supported by a plurality of supports (6) or posts, planted, anchored or cemented in the ground.

Thus, in the example of , a first connecting line (4a) consists of twenty-eight panels (2) arranged in a single row on one side of the main axis (3), and a second line (4b) consists of twenty-eight panels (2) arranged in a single row opposite to the first row (4a), on the other side of the main axis (3). In addition, and contiguously to said first (4a) and second (4b) lines, the follower (1) according to the invention has a third (4c) and a fourth (4d) lines, arranged symmetrically along the axis (3) main.

In another preferred embodiment of the invention, illustrated in of this document, it is possible to connect the four connection lines (4a, 4b, 4c, 4d) two by two, for example using corresponding cables (7a, 7b), so that each pair of lines connected has panels (2) located at the same height. Advantageously, this also makes it possible to connect consecutive followers (1), taking into account the optimal position of their connection lines (4a, 4b, 4c, 4d) in order to obtain a better energy generation efficiency.

Thanks to the configuration according to the invention, it is possible to isolate each of the four production lines (4a, 4b, 4c, 4d) in a single place within the same row of follower (1), ensuring that that all the photovoltaic panels (2) of each line (4a, 4b, 4c, 4d) capture the same solar radiation and thus optimize the efficiency of the tracker (1). In addition, the configuration according to the invention reduces energy losses due to differences in radiation pick-up caused by the different heights at which the panels (1) are located on the known trackers (1).

Finally, although the preferred embodiments described relate to 2V type trackers (1), the architecture according to the invention also applies to other types of architectures which are based on at least one row of panels (2 ) on each side of the main axis (3), such as 2H, 3H, 4H architectures, etc.

Claims (8)

Solar tracker (1) which includes:
- a main axis (3) supported by a plurality of supports (6);
- two or more rows of photovoltaic panels (2);
wherein at least two of said rows of photovoltaic panels (2) are disposed in the direction of the main axis (3) and on opposite sides thereof; and
in which the photovoltaic panels (2) are electrically connected in series, forming connection lines (4a, 4b, 4c, 4d);
said follower (1) being characterized in that:
- the photovoltaic panels (2) are grouped together on at least four connection lines (4a, 4b, 4c, 4d), the panels (2) of each of said lines (4a, 4b, 4c, 4d) being placed at the same height relative to the main axis (3). Solar tracker (1) according to claim 1, in which two connecting lines (4a, 4c) are located with their panels (2) placed at the same height with respect to the main axis (3). Solar tracker (1) according to the preceding claim, in which the other two connecting lines (4b, 4d) are located with their panels (2) placed at the same height as the main axis (3). Solar tracker (1) according to any one of claims 2 to 3, wherein the connecting lines (4a, 4b, 4c, 4d) placed at the same height are interconnected by cables (7a, 7b). A solar tracker (1) according to any preceding claim, wherein the panels (2) form a 2V type structure. A solar tracker (1) according to any one of claims 1 to 4, wherein the panels (2) form a 2H, 3H or 4H type structure. Solar power plant characterized in that it comprises two or more trackers (1) according to any one of the preceding claims. Solar plant according to the preceding claim, wherein two of the lines (4a, 4b, 4c, 4d) for connecting two trackers (1) of said plant are connected by cables (7a, 7b), so that said lines (4a , 4b, 4c, 4d) are found with their panels (2) placed at the same height with respect to their main axes (3).