FR2966568A3 - Fixing profiles for solar collector, have plate arranged perpendicular to bottom flange, and lower clamping element moving perpendicular to bottom flange, where plate and cover form integrated structure on bottom flange - Google Patents

Abstract

The profiles (1a, 1b) have a plate arranged perpendicular to a bottom flange, and a lower clamping element moving perpendicular to the bottom flange. The plate and a cover form an integrated structure on the bottom flange. The lower clamping element is formed with a threaded hole. A stud is inserted into the threaded hole. The stud comprises a head and a nut that holds the stud in the bottom flange. The bottom flange has two sheets arranged over each other. The lower clamping element comprises another plate.

Description

The present invention relates to a fastening profile for solar collectors, which can be integrated in a support structure, which makes it possible to reduce as much as possible the need to make fastening perforations during assembly.

Various types of support structures for solar collectors, both thermal and photovoltaic, are known which are used as cover. One type of said structures is that described in the Spanish utility model application of the present applicant 200930286. This structure may, during assembly, be adapted simply to different inclinations of the plates to obtain major or minor levels of exploitation of solar radiation depending on the latitude where the installation is located. On the other hand, it also makes it possible to configure a compact cover that is resistant even to rain. Said structure comprises a lattice of metal profiles, among which are profiles for fixing the solar collectors. These profiles support the solar collectors on their lateral parts, or in other words, on their inclined sides. The fixing profiles have a rim that serves as a support for the sensors. Once the sensors are in place, a cover that covers the edge of the sensors is fixed on the profile, allowing protection against rain or any other substance likely to be introduced between the cover and the plates. The fixing of this cover is operated by means of self-tapping screws which are introduced by means of a groove in the upper part of the cover. These screws can exert pressure on the cover, to block the sensors. This type of profile has the disadvantage, when fixing the cover once the sensors in place, a very laborious assembly, especially because the self-tapping screws require a degree of effort to operate the perforation. Moreover, it also has the disadvantage that the fixing of these profiles by means of screws gives an upper surface having irregularities due to the presence of the heads of the screws. The object of the present invention is to overcome the drawbacks mentioned, by developing a fastening profile for solar collectors which allows rapid fixing, which does not require the use of self-tapping screws and which allows a smooth finish, without the presence of said screw. In accordance with this object, the fastening profile of the present invention comprises a lower flange, a core perpendicular to said lower flange, and an upper flange for the upper sealing engagement of said sensor, said flanges of the same side of the web being facing face and substantially parallel, and is characterized in that it comprises at least one lower clamping element movable perpendicularly to the lower flange to a locking position of the sensor against the upper flange, said element coming to rest on the lower flange . This configuration makes it possible not to block the sensors by means of the cover, but by pressing them at the bottom by means of said clamping element or support. This feature has the advantage that the cache does not necessarily have to be placed once the sensors put in place, which avoids fixing by means of self-tapping screws, and the cost in time that assumes. On the other hand, once the assembly finalized, the upper cover remains perfectly smooth, without the presence of the heads of the screws. In particular, this configuration makes it possible, as can be verified in detail below, to integrate the entire mechanism into said profile, without it being visible either from above the structure or pergola obtained, or from the below. Furthermore, preferably the bottom edge, the core and the cover are part of a single piece, which makes it even easier to mount, reducing the number of profiles required.

Advantageously, said lower support comprises a threaded hole, and said means are at least one stud threaded in said hole by one end, and fixed to the lower rim by the other end, said lower support being immobilized in rotation, so that the together is a worm mechanism. This means for moving the support has the advantage of being bulky and the threaded stud is a simple and inexpensive mechanism, which also allows to exert a strong pressure on the sensor, preventing it can be unlocked. In addition, said lower flange may comprise a perforation of a diameter substantially greater than the diameter of the stud, and said stud comprises a head and a nut for fixing said bolt to the lower flange. In this way, the stud can hold the clamping element in a certain position, this one pressing the solar collector or not. It also allows that the direction in which the stud exerts pressure on the clamping element is always perpendicular to the solar collector. More advantageously, said lower flange comprises two blades arranged separately one above the other, the upper blade being one which comprises said perforation, so that said head can be housed between said blades. This configuration allows said stud to be hidden in the fastening profile, so that the cover type structures have a better appearance of the lower face. Finally, said lower clamping member is a hollow body that includes a plate of nonmetallic material for pressing the sensors.

To improve the understanding of what has just been exposed, drawings are used in which, schematically and only by way of non-limiting example, a practical embodiment is shown. Figure 1 is a perspective view of a solar collector support structure in which the profiles of the invention are used. Figure 2 is a perspective view in detail of a section of the profile of the invention. Figure 3 is a cross sectional view of the profile of the invention, on which is observed the worm mechanism for clamping up the solar collector. According to a preferred embodiment, the attachment profile 1 for solar collectors C of the present invention forms part of a sensor support structure E, which can also be used as a cover. In said structure E, the profiles 1 support the sensors C on their lateral parts. These profiles 1 are fixed at their ends to the other two horizontal profiles 11. The profiles 1 have the inclination necessary for good exploitation of solar radiation and ensure the function of junction between consecutive sensors C. The profile 1 of the preferred embodiment comprises a core 3, to which are connected perpendicularly a flange 2 by the lower part and a cover 5 by the upper part. There are two types of profiles 1: those which are in intermediate positions 1a of the structure E, between the consecutive sensors C, and the two which are at the ends lb. The intermediates are symmetrical, so that said flange 2 and said cover 5 protrude from the sides of the core 3, while on the profiles lb of the ends, they protrude only with respect to one side, the other side being smooth. Said lower flange 2 and said cover 5 have smooth outer faces, with a suitable appearance to serve as a cover. The lower flanges 2 are assembled perpendicularly on their sides to second flanges 21, which serve to channel the water that can infiltrate between the sensors and the profile 1. On the other hand, the lower flanges 2 are composed of a upper blade 2a and a lower blade 2b. To fix the sensors C, the profiles 1 comprise a clamping element 4 which is a prismatic block intended to press the sensors C by their lower face against the cover 5. These clamping elements 4 are arranged between the lower edge 2 and the sensor C, so that they remain hidden, even from the bottom of the structure E when it is used as a cover.

The clamping elements 4 are hollow and comprise, on the upper side, a plate 4a of non-metallic material, which makes it possible to exert a pressure on the sensors more uniformly and without damaging them. On the lower part, they comprise a hole in which is disposed a threaded stud 7.

This stud 7 is fixed at the other end to the lower flange 7 by means of a head 7a and a nut 7b threaded into said stud 7. The upper blade 2a of the lower flange 2 comprises an orifice through which the stud passes. , said head being disposed between the two blades 2a, 2b, and said nut 7b on the upper blade 2a. Thanks to this configuration, the stud remains attached to profile 1 while remaining totally hidden. By turning the stud, one can move the clamping element 4 in a direction perpendicular to the lower flange 1 against the sensor C. This sensor attachment means C has several advantages. First, it allows the cover 5 to be integral with the profile 1, which assumes greater ease of construction since fewer elements are necessary for the mounting of the structure E. This feature also avoids fixing the cover 5 to the profile 1 using self-tapping screws. These screws require the presence of a groove in the cover 5 to initiate the perforation. Furthermore, fixing the cover with the screws is very laborious and self-threading of the screws requires a significant effort. On the other hand, by means of the clamping element 4, it is possible to eliminate the presence of screw heads in the upper face as well as in the lower face of the structure E. This characteristic has the advantage, besides the improvement the aesthetic appearance, an absence of perforations that improves the resistance, both mechanical and corrosion, of the profile 1 itself. Finally, although the profile of the invention has been described as particularly suitable for solar collectors, it is obvious that it can also serve as a support for any cover element which has a shape similar to that of a solar collector. sensor.

Claims (6)

REVENDICATIONS1. Attaching profile (1) for solar collectors (C), which comprises a lower flange (2), a core (3) perpendicular to said lower flange (2), and an upper flange (5) for upper sealing of said sensor (C), said flanges on the same side of the core face to face and substantially parallel, characterized in that it comprises at least one lower clamping member (4) movable perpendicular to the lower flange (2) to a sensor locking position (2) against the upper flange (5), said element (6) resting on the lower flange (2). 2. Fastening profile (1) according to the preceding claim, characterized in that the lower flange (2), the core (3) and the cover (5) form a single piece. 3. Fastening profile (1) according to any one of the preceding claims, characterized in that said lower support (4) comprises a threaded hole, and in that said means (6) consist of at least one stud ( 7) threaded into said hole by one end, and fixed to the lower flange (2) by the other end, said lower support (4) being immobilized in rotation, so that the assembly constitutes a screw mechanism. 4. Fastening profile (1) according to the preceding claim, characterized in that said lower flange (2) comprises a perforation (8) of a diameter substantially greater than the diameter of the stud (7), said stud having a head (7a ) and a nut (7b) for fixing said bolt (7) to the lower flange (2). 5. Fastening profile (1) according to the preceding claim, characterized in that said lower flange (2) comprises two blades (2a, 2b) arranged separately one above the other, the upper blade ( 2a) being that which comprises said perforation (8), so that said head (7a) can be housed between said blades (2a, 2b). 6. Fastening profile (1) according to any one of the preceding claims, characterized in that said lower clamping element (4) comprises a plate (4a) of non-metallic material for pressing the sensors (C).