FR2948182A3 - Support structure for use as roof for e.g. thermal collector, has support profiles articulated with profiles, so that support profiles are adapted to inclination of inclined profiles according to distance between profiles - Google Patents

Abstract

The structure has inclined profiles for fixing solar collectors (C), and support profiles (2) placed perpendicularly at ends of the inclined profiles. A profile fixes the structure to a surface by side. Another profile is parallel to the former profile and supported by pillars. Each support profile is articulated with the respective profiles, so that the support profiles are adapted to inclination of the inclined profiles according to distance between the profiles.

Description

BACKGROUND OF THE INVENTION The invention relates to a support structure for solar collectors.

There are various types of support structures for solar collectors, both thermal and photovoltaic, used as roofing. These structures are characterized by their ability to adapt to the different inclinations of the plates to obtain more or less large levels of solar radiation depending on the latitude where the installation is located. Usually these structures are made of metal profiles.

A first type of structure comprises a set of profiles which define a structure with a support intended to be fixed to a wall. Furthermore, they comprise a second set of profiles arranged parallel to each other and inclined relative to the first sections, and linked to the front end of this support and to the upper end of said wall. These structures are usually mounted on roofs, or are raised by means of an additional structure in place of roof.

They have the advantage of being resistant and, the profiles being intersected at the appropriate lengths, they allow to adapt the structure, during assembly, the different inclinations and widths of the solar plates. However, their assembly is laborious, the lengths of the profiles to adapt to the different dimensions of the plates and their different inclinations. In these structures, to adjust the inclination of the sensors it is necessary to adjust the lengths of the different profiles before mounting, this assuming a reduction in mounting flexibility. In addition, they have the following disadvantage: if the plates are very inclined, the structure occupies a considerable volume below these plates, which makes it too important if it is to be arranged at a certain height in the manner of a roof.

On the other hand, they also have the following disadvantage: normally, the solar plates have reduced dimensions and one must resort to a large number of solar plates, arranged adjacent. In this situation, the roof is not continuous and is not waterproof, for example facing the rain. Structures of another type are as described in the Spanish Utility Model Application 1,066,663. In this type of structures, the profiles which hold the plates are subject to guides by means of a connection which allows the rotation between the profiles and the guides. In this way mounting is easier than that of the type of structure described above, although the problem of impermeability still exists.

Therefore, the need for a solar plate support structure that provides a solution to the above-mentioned drawbacks of the present state of the art is obvious. The object of the invention is to solve the disadvantages mentioned, by developing a support structure for solar collectors which has a very simple assembly, and which at the same time provides a compact and rain-resistant roof. In accordance with this objective, the support structure for solar collectors comprises: first panels fixing profiles, second support profiles of these first sections arranged perpendicularly to these same first sections and at their respective ends, a third fastening profile for fastening the structure by one of its sides to a surface, - a fourth fastening section parallel to the third section to be supported by pillars, and characterized by the fact that each of the second support profiles mentioned is articulated with these third and fourth profiles respectively, so that it is possible to adapt the inclination of the first sections according to the difference in height between these third and fourth profiles. In this way, the structure of the present invention offers a very simple assembly, mainly because, once the first and second profiles mounted with the third and fourth profiles, the articulation of the second profiles with the third and fourth profiles makes it possible to change the inclination of the sensors during installation. Therefore, the lengths of the profiles should only be adapted to the dimensions and number of sensors to be supported. Once the structure is placed, the inclination is completely adaptable. This feature makes mounting much more convenient and flexible than in the structures of the current state of the art.

In addition, the first sections may comprise a base provided with at least one tongue and a vertical wall which define a pipe, and this wall comprises a projection intended to support the sensors, and whose vertical projection does not exceed this base , so that the rainwater that infiltrates between the sensors and the first sections leads into the pipe mentioned. The water flowing in this pipe ends by opening into the fourth section, from which it is evacuated by the ends. This feature allows rainwater collected over the entire sensor surface to not drip between the sensors. Thus, the structure can fulfill the role of a roof resistant to rain. Furthermore, the third fastening section may be provided with a base which comprises, perpendicular to one side, a wall provided with a fastener to a surface, and on the other side a hinge with one second profiles mentioned. In this way, the water which could infiltrate the third section would also be channeled towards the ends of the third section mentioned, without dripping from below it. In addition, this fourth fixing profile may comprise a base provided in its lower part with respective tongues intended to fit into the abutments mentioned, and it comprises, bonded perpendicularly to its sides, a first wall intended to hide the front part. of the structure and a second wall, of a height less than that of the first wall, provided with an articulation with one of the second profiles previously mentioned. In this case, the base and the two walls configure a pipe into which the water that flows into the first profiles mentioned in case of rain opens. Since the water flowing over the sensors also opens into the fourth section, drips are avoided both in the sensors and in the front part of the structure. In this way, a large part of the rainwater collected by the sensors ends up coming out of the ends of the fourth section. This also allows this water to be collected, for example in a tank, for reuse. Advantageously, the first sections mentioned comprise a guide, the second sections comprise a pipe, and the first and second sections are connected by means of a first part disposed inside the mentioned pipe and a second part provided with a pipe. a projection which engages with this guide, connected to the first part mentioned by means of a screw connection, so that the mentioned parts make possible the blocking or the relative movement of these sections, when this screwed connection presses or not on the cited parts, respectively. In this way, the mounting of the structure is even easier, because once the profiles three and four are fixed, when the first and second profiles are installed, they can be moved easily and when the position is found that is appropriate for them, they can be blocked simply by screwing and pressing the first and second parts. Advantageously, the first sections comprise, at their upper end, two substantially vertical tongues serving as guide for coupling first cover sections. These cover profiles improve the finish of the upper surface, protect the lateral edges of the solar collectors and prevent soiling from infiltrating inside the first sections. Preferably, the third and fourth subjugation profiles comprise, on their upper sides, second sections serving as longitudinally united covers by means of respective hinges, arranged so as to cover at least a portion of the first mentioned sections. These cover profiles help to improve the finish of the structure, at the same time as they protect the sensors and prevent dirt from entering the third and fourth sections, which would impede the flow of water through these same sections. . Preferably, the first sections each comprise, in their lower part, a channel with a longitudinal opening, and this structure comprises fifth sections arranged suspended perpendicularly to these first sections by means of a part which is articulated to the fifth sections and capable of to be introduced into the mentioned channels and suspended from them.

These fifth profiles are especially useful for supporting a fabric or other type of textile suspended between consecutive profiles. This fabric makes it possible to improve the aesthetics of the lower part of the structure, by hiding any ducts, or any other auxiliary element of the solar installation, in view of the persons who would be under the structure. Preferably, the side wall of the fourth section mentioned has its smooth outer face, so that the front finish of the structure is substantially improved.

Preferably, the first sections disposed at the ends comprise a substantially smooth surface on the outer faces. As for the fourth profile, it improves the finish of the side parts of the structure.

These smooth surfaces also avoid any protruding angles that could be dangerous for people. Preferably, the joints between the second sections and the third and fourth sections allow the inclination of the first sections relative to the horizontal is between 4 and 30 °. These inclinations are optimal for use of the structure as a roof, and also to take advantage of solar radiation in mid-latitudes, especially in summer. Preferably, these first and second cover sections each comprise a groove for facilitating the penetration of a self-tapping screw for fixing the cover profiles on the structure.

First screws are screwed between the second cover profiles and the first cover sections, and second screws are aimed between the first cover sections and the first sections.

The grooves allow the use of self-tapping screws without the need for preliminary drilling. This feature has the advantage of increasing the ease and speed of assembly.

Finally, the fourth sections may preferably be provided internally with a housing of general shape complementary to that of the profile, in this case L-shaped, in which is placed a profile also L-shaped.

For a better understanding of what has been exposed are attached drawings which, schematically and only by way of non-limiting example, represent a practical case of realization. Figure 1 is a perspective view of the structure of the invention. Figure 2 shows the respective sections of the first sections. Figure 3 is a section of the third section. Figure 4 is a section of the fourth section. Figure 5 is a section of one of the cover profiles. Figure 6 is a section of the third section, in which one can see the joints with the cover and the second profiles. Figure 7 is a section of the fourth section.

Figure 8 is a detailed perspective view of the coupling hinged between the third section and the second section, which is joined the first section, and the coupling hinged between the third section and the cover. Figure 9 is a detailed perspective view of the coupling hinged between the fourth section and the second section, which is joined the first section, and the coupling hinged between the fourth section and the cover. Figure 10 is a detail of the sliding connecting piece between the first and second profiles. Figure 11 is a detail of a preferred embodiment of the fourth sections provided with an internal reinforcement. As illustrated in FIG. 1, the support structure E for solar collectors C of the preferred embodiment comprises first inclined profiles 1 which laterally secure a plurality of solar collectors C and give them the proper inclination for better exploitation of the solar radiation. . These profiles 1 are attached to two second support profiles 2 arranged perpendicular to the ends of the first sections 1. The first of the second sections 2 is articulated with a third section 3, and the latter is connected to a wall. The second of the second sections 2 is articulated with a fourth section 4, and the latter is connected to pillars 5 which maintain this section at a certain height above the ground.

This structure E has a compact support for solar collectors C, both thermal and photovoltaic, which in turn act as roofing. The connection system of the first sections 1 with the third sections 3 and the fourth sections 4, which support the structure E, allows the assembly is easier and faster. This is due to the fact that the connections allow the longitudinal translation movements and rotation during assembly and make it possible to adapt the inclination once the profiles mounted. The structure E also allows that we only have to adapt the lengths of the profiles according to the dimensions of all the sensors C and not according to their inclination. For assembly, the profiles are cut to the necessary lengths, the structure E is mounted by fixing the third section 3 to the wall, and in this position the pillars 5 are cut to the height which gives the first sections 1 the desired inclination and they are placed on the proper point. As can be seen in FIG. 2, the first sections 1 comprise a base 1a and a wall 1b. Those of the first sections 1 which are arranged at the ends 1E comprise the wall 1b on one side of the base 1a, and a tab 1c on the other side of the base 1a, so as to configure a pipe. The first profiles 1 remaining include the wall lb mentioned on the central portion of the base lb, and, on the sides of the base, they comprise respective tabs 1c which configure two channels, one on each side of the wall lb. In the upper part of the walls lb, the profiles 1 have projections 1d for supporting the sensors C in the lower part of their edges. The vertical projection of these projections is inside the base, so that the water likely to drip by the projections 1d falls on the base. Furthermore, at the end of said walls lb there are two vertical tongues 1c, which serve to embed first cover sections 9 which are arranged on the first sections 1. These cover sections 9 are provided in their lower part with two tabs 9a which fit into their outer part with the two mentioned tongues of the first sections 1. They serve to cover the first sections 1 and the edge of the sensors C, so that the finishing of the section is improved. structure E and that the entry of dirt is avoided. Another characteristic of the first sections 1 is that the water that infiltrates between the cover sections 1 and the sensors opens into the channels mentioned above defined by the profiles 1. Due to the inclination of the first sections 1, the water circulates easily to the fourth profile 4.

The connections of the first sections 1 with the second profiles 2 are guide connections which allow the blocking or the relative movement of the sections 1 and 2 in the longitudinal directions of the first profiles 1 and the second profiles 2.

On the one hand, the first sections 1 comprise a guide 1g disposed in the lower part of the sides of the profiles 1. This guide 1g is an inclined recess directed towards the center of the section 1 and towards the lower part. The profiles 1 of the ends 1E comprise only one of the guides 1g mentioned, however the other sections 1 comprise two guides 1g, one on each side of the profile 1. On the other hand, the second sections 2 comprise a rectangular pipe 2c with an opening in the upper part of the profile. In this way, the connections mentioned consist of a first prismatic piece 13a disposed inside said channel 2c so that it can not escape through the opening, and into a second prismatic piece 13b which comprises a protruding which fits in the guide 1g. The two parts 13a and 13b are connected by means of a screw. When this screw is released, this makes possible the movement described above; on the other hand, when the screw is tightened, the two parts 13a, 13b exert a pressure in opposite directions on the first and second sections, so that they are fixed. On the other hand, the third profile 3 and fourth section 4 have a base 3a, 4a and a side wall 3b, 4b perpendicularly connected to the base 3a, 4a on the outer part of the structure E. In the third profile 3, this 3b wall is flat except for a central zone, wherein said wall 3b has a deflection 3c projecting on the inner portion of the profile 3. This section 3 is fixed to a wall of a building by support of the wall 3b mentioned by means of screws which press on the cited central zone and attach to the wall by means of perforations with lugs or with any means of attachment suitable for this purpose. On the other side of the base 3a, the profile has the hinge 6 with the second profile 2.

Furthermore, the side wall 4b of the fourth section 4 has a section with a straight portion and a slightly curved portion. This wall 4b has, on its outer face, a smooth surface. This is due to the fact that this surface is the one that is exposed to the view, and the aesthetics and the finish of the structure E are thus improved. For its part, the fourth section 4 mentioned comprises, on the other side of the base 4a, a second wall 4c, of a height less than that of the first wall 4b, which comprises, at its upper end, the articulation 6 with one of the second sections 2. It also comprises two tabs 4d in the lower part of the base 4a, which fit into the pillars 5 and improve the connection of the section 4 with the pillars 5.

In this section 4, the base 4a and the walls 4b and 4c previously mentioned configure a pipe. In this way, the water flowing in the pipes of the first sections leads to the aforementioned pipe of the fourth section 4. This water is distributed through the pipe and finally leaves the ends of the fourth section 4. In these ends can be arranged gutters to collect and even to use rainwater. Optionally, these gutters could also be placed inside the pillars 5, thanks to a perforation in the base 4a. The joints 6 have the same shape as the profiles. The third profile 3 and the fourth profile 4 have a portion 6a which has a cylindrical cavity with a longitudinal opening in its upper part. On the other hand, the second sections 2 have a partially cylindrical projection 6b which fits into the aforementioned cavity. The angle of inclination between these profiles depends on the dimensions of the mentioned opening and the connection zone between the projection 6b and the body of the second profiles 2.

These joints 6 allow, during assembly, the longitudinal displacement of the second sections 2 along the third profile 3 and the fourth section 4. This allows to modify the dimensions of the structure E and adjust the first profiles 1 to the sensors before fix the structure E. The connection of the first sections 1 and second profiles 2 is a double guide connection which allows its relative movement in perpendicular directions in a plane parallel to the sensors C.

On the one hand, the first sections 1 comprise grooves 1g in the lower part of their side walls, in which a piece 13b is introduced which fits slightly to the grooves 1g intended to act as a guide. On the other hand, the second sections 2 above include a pipe 2c with an opening in their upper part. In this pipe 2c there are second parts 13a which comprise a tapped hole and which bind to the parts 13b mentioned by means of a screw. The second parts 13a make it possible to move the first sections 1 in the longitudinal direction of the second sections 2, while the two parts 13b mentioned above and the grooves 1g of the first profiles 1 make it possible to move the profiles 1 longitudinally. these screws, the two parts 13a and 13b block the first sections 1 and the second sections 2, which avoids the relative movement between them. This type of connection greatly facilitates the assembly task, since during this one can easily adjust the relative positions of the different profiles. Once the desired dispositions are obtained, the screws are locked and a rigid structure is obtained. In addition, the third sections 3 and the fourth sections 4 comprise second cover sections 10. The connections of these cover sections 10 with the walls 3b and 4b of the third sections 3 and the fourth sections 4 are joints 11a and 11b equivalent to the joints. 6a and 6b between the second sections 2 with the third sections 3 and the fourth sections 4. The second cover sections 10 above cover the interior space of the third profile 3 and the fourth section 4, and a portion of the upper and lower edges of the sensors. C. With these cover profiles 10, it also improves the finish of the structure E, further avoiding that the dirt is introduced into these spaces, which could hinder the output of water in case of rain.

On the other hand, the first sections 9 and the second cover sections 10 incorporate longitudinal grooves 9a and 10a. In the case of the first cover sections 9, this groove 9a is centered on the upper part of the cover, and, in the case of the second cover sections 10, it is on the opposite side to the hinges 11 with the third profile 3 and the fourth section 4, also in the upper part. These grooves 9a and 10a allow the attachment of the structure E by means of self-tapping screws 12, without the need to perforate beforehand. First screws are screwed between the second cover sections 10 and the first cover sections 9, which are just below. These screws 12 fix the above-mentioned cover sections 9 and 10, while giving rigidity to the structure E. The other screws are screwed on the first cover profiles to the first profiles 1. Optionally, the first profiles 1 respectively comprise, in their lower part, channels 1f each provided with a longitudinal opening. Apart from this structure E comprises a plurality of fifth sections 14 arranged perpendicularly to the first sections 1 above. These fifth sections 14 are suspended from the first sections 1 by means of parts 15 suspended from the first sections 1 through the aforementioned channels 1f and articulated to the fifth sections 14. The fifth sections 14 mentioned are especially useful for supporting a fabric 16 or any other type textile hanging between consecutive profiles. This fabric 16 improves the aesthetics of the lower part of the structure E, hiding any ducts or other auxiliary elements of the solar system in the view of people who would be under the structure E.

In a variant of the invention, the fourth sections 4 are provided internally with a housing of a general shape complementary to that of the profile, in this case in the form of "L", in which is placed a profile of corresponding shape, intended to give it sufficient rigidity. Finally, all the profiles mentioned are preferably aluminum, and obtained by extrusion, and at least the visible parts of these profiles are subsequently covered with a layer of paint. Although reference has been made to a concrete embodiment of the invention, it is obvious to one skilled in the art that the described solar collector support structure is susceptible to many variations and modifications, and that all the details mentioned can be substituted by other technically equivalent ones.

Claims (13)

REVENDICATIONS1. Support structure (E) for solar collectors (C) comprising: first panels (1) for fixing panels (C); second profiles (2a, 2b) for supporting these first sections (1) arranged perpendicularly to these same first profiles (1) and at their respective ends, - a third fastening section (3) intended to fix the structure by one of its sides to a surface, - a fourth fastening section (4) parallel to the third profile (3) intended to be supported by pillars (5), characterized in that each of the second mentioned support profiles (2a, 2b) is articulated with these third and fourth profiles (3, 4) respectively, so that it is possible to adapt the inclination of the first 20 sections (1) according to the difference in height between these third and fourth sections (3, 4). 2. Structure according to claim 1, characterized in that the first sections (1) 25 comprise a base (la) provided with at least one tongue (1b) and a vertical wall (1c) which define a pipe, and in that this wall (1c) comprises a projection (1d) intended to support the sensors (C), and whose vertical projection does not exceed this base, so that the rainwater which infiltrates between the sensors (C) and the first sections (1) opens into the mentioned pipe. 3. Structure according to one of the preceding claims, characterized in that the third fastening section (3) is provided with a base (3a) which comprises, bonded perpendicularly to one side, a wall (3b) provided with a fixing device to a surface, and on the other side a hinge (6a) with one of the second profiles mentioned (2a). 4. Structure according to one of the preceding claims, characterized in that the fourth fastening section (4) comprises a base (4a) provided in its lower part with respective tabs (7) intended to fit into the mentioned pillars ( 5), and comprises, perpendicularly connected on its sides, a first wall (4b) intended to conceal the front part of the structure and a second wall (4c), of a height less than that of the first wall (4b), provided with a hinge (6b) with one of the second profiles (2b) previously mentioned. 5. Structure according to one of the preceding claims, characterized in that the first sections (1) mentioned comprise a guide (1g), the second profiles (2) comprise a pipe (2c), and the first (1) and the second (2) profiles are connected by means of a first piece (13a) disposed inside the mentioned pipe (2c) and a second piece (13b) provided with a protruding which fits with this guide (1g), connected to the first part (13a) mentioned by means of a screw connection, so that the parts mentioned (13a, 13b) make possible the blocking or the relative movement of these profiles (1,2), when this screw connection presses or not on the parts mentioned (13a, 13b), respectively. 6. Structure according to one of the preceding claims, characterized in that the first sections comprise, at their upper end, two substantially vertical tongues serving as a guide for coupling first cover sections. 7. Structure according to one of the preceding claims, characterized in that the third (3) and fourth (4) sections of sujétion comprise, on their upper sides, second sections serving as a cover (10a, 10b) longitudinally united means respective hinges (11a, 11b) arranged to cover at least a portion of the first mentioned sections (1). 8. Structure according to one of the preceding claims, characterized in that the first profiles (1) each comprise, in their lower part, a channel (1f) with a longitudinal opening, and said structure (E) comprises fifth profiles ( 14) arranged perpendicularly to these first profiles (1) by means of a part (15) which is articulated to the fifth profiles (14) and may be introduced into said channels (lf) and suspended therefrom. 9. Structure according to claim 3, characterized in that the side wall (4b) of the fourth profile (4) mentioned has its smooth outer face, so that the front finish of the structure is substantially improved. 10. Structure according to any preceding claim, characterized in that the first sections (1) disposed at the ends comprise a substantially smooth surface on the outer faces. 11. Structure according to claims 3 and 4, characterized in that the joints (6a, 6b) make possible that the inclination of the aforementioned first sections relative to the horizontal is between 4 and 30 °. 12. Structure according to any preceding claim, characterized in that the first sections (9a, 9b) and the second cover sections (11) each comprise a groove for facilitating the penetration of a self-tapping screw for fixing said sections. cover on the structure (E). 13. Structure according to any preceding claim, characterized in that the fourth sections (4) are provided internally with a housing of general shape complementary to that of the profile, in this case in the form of "L", in which is placed a profile (4th), also in the shape of "L".