FR2974164A1 - Solar or thermal installation for attaching to inclined support structure e.g. roof structure of building, has clamping units juxtaposed to profiles for supporting and clamping solar panels juxtaposed in direction of slope - Google Patents

Abstract

The installation has a set of photovoltaic solar panels (2) or modules, and a set of profiles (4) comprising inverted T-shaped clamping units (5). Each clamping unit is arranged with bearing surfaces (24d', 24d'') that are located in a same plane and separated by a central web (25) extending upwardly. The profiles are arranged in two rows in the profiles, and the set of clamping units juxtaposed to the profiles is utilized for supporting and clamping the solar panels of a same column juxtaposed in the direction of slope. The solar panels are in the form of rectangular parallelopipedic structure.

Description

The present invention relates to the general field of laying rigid solar panels of the photovoltaic or thermal type on a sloping support structure, in particular a building roof. In general, photovoltaic solar panels, also called photovoltaic solar modules, consist of electric generators consisting of a set of photovoltaic cells interconnected electrically. These solar panels constitute the basic units for photovoltaic solar installations. Most of the current solar panels are in the form of parallelepipedic rigid plates, of rectangular general shape, whose surface is of the order of 1 m2 to 3 m2. Depending on the receiving support structure, these panels can be placed with their long length in the direction of the slope (type "portrait" pose), or with this great length oriented transversely to the slope (this is called 'a pose of the "landscape" type). In some cases, it is planned to mount the photovoltaic panels in the same plane. In other cases, the assembly is carried out with a slight overlap of the upper edge of the panels 20 by the lower edge of the panels directly upstream (it is called a montage said in the manner of tiles or slates). In any case, the mounting on the support structure is carried out by means of suitable fastening devices, for example I-section longitudinal sections, as described in document JP-2002-004526. However, the structure of these sections is not optimal to allow easy installation and correct positioning of the panels. The present invention provides means making the installation of solar panels simple, fast and efficient, while also allowing easy removal of these panels. In addition, the corresponding means can very simply be adapted to accommodate solar panels of different thicknesses. The installation according to the invention, intended to be attached to a sloping support structure, in particular a roof structure, is of the type comprising: a set of solar panels each delimited by a top face, a bottom face , and a parallelogram peripheral edge, composed of two lateral edges, each having a side edge, oriented in the direction of the slope, and two longitudinal edges, one upper and the other lower, each having a longitudinal edge, and oriented perpendicularly to the slope, and - a device for fixing said solar panels on said support structure, consisting of a set of parallel sections oriented in the direction 1 o of the slope, at a distance from each other, allowing the reception of the lateral edges of said solar panels; and in accordance with the present invention, said fastening profiles comprise wedging members which each comprise a first bearing surface, and a second bearing surface, located in the same plane, separated by a central core extending towards the top, which central core is able to come between the longitudinal edge of one of the solar panels whose underside comes to rest on the first of said bearing surfaces, and the longitudinal edge of another solar panel , juxtaposed in the direction of the slope, whose bottom face comes to rest on said second bearing surface, each of said profiles comprising two parallel lines of wedging members, and the wedging members of two lines facing two juxtaposed profiles used to support and wedging solar panels of the same column of panels juxtaposed in the direction of the slope. According to a particularly interesting embodiment, the installation comprises inserting members, provided with means for their attachment to the support profiles, which wedging members are in the general form of inverted T, comprising a base provided with said first and second bearing surfaces, between which extends upwards said central core comprising, on either side, two parallel surfaces, perpendicular to said first and second bearing surface, intended to come, for one, in look at the upper longitudinal edge of one of the associated solar panels, and for the other, facing the lower longitudinal edge of the other associated solar panel.

According to another preferred embodiment, the fastening profiles are generally I-section, having two longitudinal housings open in opposite directions to each other, each intended to receive one of the two lateral edges oriented in the direction of the slope of said solar panels, which two housings are defined by a base having a top face from which extends a central leg whose upper end is terminated by two lateral extensions arranged at the square and from and other said central foot, which lateral extensions each comprise a bottom face provided 1 o optionally a longitudinal seal; said base further comprises a bottom face intended to be fixed on said sloping support structure, and it is provided with means for receiving the above mentioned inserting members. These means provided on the base of the profiles for the reception 15 of said wedging members advantageously consist of two longitudinal side grooves, U-section, open upwards. On the other hand, these inserting members preferably comprise means for fitting them into said grooves for receiving the profiles. These casing means advantageously consist of at least one flexible flange (forming a clip) cooperating with longitudinal inner returns formed opposite the inner faces of the lateral flanges of the U-shaped receiving grooves. According to another feature, the wedging members are each fixed in their receiving groove by means of at least one screw 25 extending through a through hole formed on the height of their central core and their base. According to a preferred embodiment, the lateral extensions of the central foot of the profiles are of different length, and the wedging members which are arranged at the longitudinal housing having the prolongation of greater length comprise means for the retractable lateral locking of the associated solar panels. Preferably, these retractable locking means consist of at least one flexible lateral wing, extending from the base of the wedging member, in the direction of the central foot of the fastening section, which flexible wing is provided with an end return, oriented upwards, able to cooperate with the side edge of the associated solar panels. In an improved embodiment, this end return is equipped with a monobloc tensile tongue, extending upwards, opposite the central core, the free end of which constitutes an operating / traction handle for assist in the correct positioning of the flexible wing lock relative to the associated solar panel (s). This pull tab may comprise a removable hooking element on said central core, for its setting security position. 1 o The invention also relates to reported setting members for a solar installation as defined above. The invention will be further illustrated, without being limited in any way, by the following description of a particular embodiment, given solely by way of example and shown in the accompanying drawings, in which: FIG. 1 is a general view , in perspective, an installation according to the invention comprising a juxtaposition of rectangular photovoltaic solar panels, maintained in the same plane by the fixing device according to the invention; FIG. 2 is an enlarged sectional view illustrating the maintenance of the lateral edges of the solar panels by the fixing device with wedging members according to the invention; - Figure 3 is a partial view, in exploded perspective, showing the support of a solar panel on one of the lateral wedging members; FIG. 4 is a partial view, in exploded perspective, illustrating the support of a solar panel on another wedging member equipped with a lateral locking device; FIG. 5 is a perspective view of a possible variant embodiment of the wedging members with lateral locking device and pull tab; FIG. 6 is a view from above of the wedging member illustrated in FIG. 5; FIG. 7 is a side view of the wedging member of FIGS. 5 and 6; - Figures 8 to 10 are cross-sectional views on a support section of the solar panels, which illustrate the implementation of the pull tab of the wedging member illustrated in Figures 5 to 7. The photovoltaic system 1 illustrated in FIG. 1 comprises a set of solar panels 2, mounted in the same plane on a sloping support structure 3, by means of a fixing device comprising sections 4 oriented in the direction of the slope, equipped with wedging members 5, 6. The support structure 3 consists for example of a building roof. It consists of a frame 7 completely covered by a juxtaposition of sealing plates 8, for example made of galvanized steel thermo-lacquered. The sealing plates 8 may, as here, comprise monobloc structures of chevrons, extending projecting upwards, parallel to each other and in the direction of the slope. To simplify the rest of the description, with respect to a given point, the high and low sides of the slope are designated respectively by "upstream" and "downstream". The solar panels 2 are each in the form of a rectangular parallelepipedal structure having for example a surface of the order of 1 m2, or 1.5 m2. They consist of a frame-shaped frame 2a surrounding a body 2b which integrates a set of photovoltaic cells. These panels 2 comprise a top face 2 'and a bottom face 2. The sides of the frames 2a constitute the four peripheral edges of the solar panels, namely upper longitudinal edges 2a1 and lower 2a2 (intended to be positioned respectively side upstream and downstream of the support structure 3), connected by two lateral edges 2a3 (oriented in the direction of the slope).

The upper longitudinal edge 2a1 comprises a longitudinal edge 2a1 '; the lower longitudinal edge 2a2 has a longitudinal edge 2a2 'and the lateral edges 2a3 each have a side edge 2a3'. The solar panels 2 are fixed on the sealing plates 8 via the profiles 4 which are interposed between the lateral edges 2a3 of the panels 2, oriented in the direction of the slope.

In the embodiment illustrated in Figure 1, the profiles 4 are fixed on the sealing plates 8 by means of jumpers 9 and transverse profiles 10 (oriented perpendicular to the slope). It will be noted that the lower and upper edges of the photovoltaic installation 1 are associated with suitable stop and / or recovery means, which are not shown. The fastening profiles 4 are detailed in Figure 2. These profiles 4 are advantageously made in one piece, aluminum or galvanized steel for example; they are reported in the 1 o direction of the slope of the roof, parallel and at a distance from each other, to allow the positioning of columns of photovoltaic panels 2 between them. For this, the profiles 4 comprise two longitudinal housings 11 and 11 ', open in opposition, intended to each receive one of the side edges 2a3 of the panels 2, oriented in the direction of the slope. These housings 11 and 11 'open on the sides are defined by a base 12 of the section 4, having a top face 12a from which extends a central foot 13, in the form of double wall (with a recess between them) , whose upper end comprises two lateral extensions 14 and 15. These lateral extensions 14 and 15 extend at right angles to the central foot 13, parallel to the base 12. Practically at their free end, the underside 14 ', 15' of these extensions 14, 15, which is oriented towards the base 12, comprises a longitudinal groove 16 25 for the positioning of a longitudinal seal 17. Note that the extension 14 (Housing side 11) has a shorter length than that of the extension 15 (housing side 11 '). The two longitudinal edges 18 of the base 12 are each extended at right angles by a groove 19 U-section, open upwards. Note that the interior volume of the grooves 19 is separated into two housings, one lower 19a and the other upper 19b, by longitudinal returns 20 oriented vis-à-vis. These returns 20 are made in one piece with the wings 19 'of the grooves 19; they are separated from each other by an opening 21 providing communication between the lower housing 19a and the upper housing 19b.

The two parts of the base 12 which extend from the central foot 13 have a greater length than that of the lateral extensions 14 and 15 directly superimposed. The length of the base portion 12 located on the side of the small lateral extension 14 (housing side 11) is less than the length of the base portion 12 located on the side of the lateral extension 15 of greater length (housing side 11 ' ). Thus two housings 11 and 11 'are delimited by a groove 19, a base portion 12, the central foot 13 and a lateral extension 14, 15. In FIG. 2, the screws 22 used for fixing 1 are still visible. o the bottom face 12b of the base 12 of the profiles 4 on the transverse profiles 10, themselves fixed on the support riders 9 integral with the sealing plates 8 (Figure 1). It will be understood that two profiles 4 suitably fixed at a distance and parallel to each other allow reception, in their housings 11 and 11 'opposite each other, of lateral edges 2a3 of a photovoltaic panel 2 or more often, a column of panels 2. The profiles 4 are fixed on the support structure 3 so that the distance separating the facing faces of their central feet 13 is slightly greater than the distance separating the two lateral edges 20 2a3 panels 2. The additional game preserved is a function, in particular, the mounting mode of the panels 2, as explained below. The grooves 19 of the fastening profiles 4 are intended to receive the aforementioned wedging members 5, 6 adapted to ensure proper support and positioning of the solar panels 2. These wedging members 5, 6, visible in Figures 1 and 2 are detailed in Figures 3 and 4. Each section 4 comprises two lines of wedging members 5, 6 (arranged in the grooves 19); and the wedging members 5, 6 of two lines facing two juxtaposed sections 4 serve to support and wedge solar panels 2 of the same column of panels juxtaposed in the direction of the slope. As described below, the corresponding wedging members are here of two kinds: with and without means for locking the panels 2.

The wedging members 5 are devoid of locking means; they are arranged within the receiving grooves 19, on the side of the housing 11. The wedging members 6 have a structure identical to that of the wedging members 5, but they also include means for lateral locking of the solar panels. 2; they are arranged in the gorges home 19, the housing side Il '. These wedging members 5, 6 are regularly distributed in the reception grooves 19 so, each, to be positioned between two solar panels 2 juxtaposed in the direction of the slope. 1 o As can be seen in Figure 3, the wedging members 5 comprise a base 24 of generally elongate parallelepipedal shape, comprising two side faces 24a, two end faces 24b, a bottom face 24c and a top face 24d. Its width, corresponding to the distance separating the two lateral faces 24a, is identical, with play, to the distance separating the internal faces of the wings 19 'of the reception grooves 19. Its top face 24d comprises a central core 25 , extending upwards, delimited by two lateral faces 25a which extend in the extension of the lateral faces 24a of the base 24, a front face 25b and a rear face 25c. Its front faces 25b and rear 25c are parallel to each other and perpendicular to the side faces 25a. The top face 24d of the base 24 has a first bearing surface 24d 'and a second bearing surface 24d "situated in the same plane and separated by the central core 25. These two bearing surfaces 24d and 24d "extend perpendicular to the front 25b and rear 25c of the central core 25. The central core 25 is centered on the top face 24d of the base 24. The base 24 and the core Central 25 and have a general shape of inverted T. The bottom face 24c of the base 24 comprises one or more flexible wings 26 for its fitting in the lower housing 19a of the grooves 19, through the longitudinal opening 21 (after positioning the base 24 in the housing 19b ).

These flexible wings 26 have lateral lugs adapted to be positioned under the inner returns 20 to obtain the desired casing, as shown in Figure 2. In Figure 2, there is shown wedging members 5, 6 with two wings flexible tubes 26 arranged back to back, each cooperating with one of the returns 20. In FIG. 3, the wedging member 5 is illustrated with a single wing 26 (able to cooperate with one of the returns 20), so as to to facilitate the casing in the receiving groove 19. In Figure 3, there is still the presence of a through hole 27, formed on the height of the central core 25 and the base 24, which allows to lock the positioning of the wedging member 5 in its receiving seat 19, by means of a screw 28. This screw 28 is adapted to penetrate into the opening 21 of the grooves 19 and to press the lateral lugs of the wings 26 under the internal returns 20.

As illustrated in FIG. 4, the wedging members 6 have a structure identical to that just described for the wedging members 5, but they also comprise a flexible lateral wing 29, which extends as a door on the upper edge of one of the lateral faces 24a of the base 24, and which has an end return 30 directed upwards (that is to say on the side of the central core 25). The side wing 29 is made in one piece with the base 24; it is flexible in a direction perpendicular to the bearing surfaces 24d ', 24d "and in a direction parallel to the front and rear faces 25b, 25c of the central core 25 (i.e. in a vertical or substantially vertical direction) vertical when the wedging member 6 is in position on its support profile 4), in the rest position, the end return 30 of the wing 29 extends above the plane of the bearing surfaces 24d 'and 24d ". On the other hand, this lateral flange 29 is centered on the median plane of the wedging member 6 passing through the orifice 27, and it projects laterally with respect to the front 25b and rear 25c faces of the central core 25, view of the first and second bearing surfaces 24d 'and 24d "of the base 24. The wedging members 6 are fixed in the receiving groove 19, housing side 11', by the casing means 26 and by the locking screw 28 in the same way as the wedging members 5. The flexible wing 29 is oriented on the side of the central foot 13 of the support profile 4, as illustrated in FIG. its end return 30 comes close to the face facing the central foot 13. After correct positioning, the bearing surfaces 24d 'and 24d "of the wedging members 5, 6 are intended to support the solar panels 2 (FIG. through their underside 2 "and close to their angles); interlocks 25 wedging members 5, 6 are intended, for their part, to be positioned between two panels 2 juxtaposed in the direction of the slope, to form spacers wedging between the longitudinal edges 2a1 'and 2a2' of said panels 2 juxtaposed. 1 o The flexible wing 29, with its end return 30, wedging members 6 constitutes a lateral stop ensuring the retractable lateral locking of the panels 2 on their fastening section 4, as explained below. The installation of the solar installation according to the invention is carried out in the following manner: - chucks 5, 6 are chosen which are adapted to the thickness of the solar panels 2, so that once in place, the distance between the plane of the bearing surfaces 24d ', 24d "of the wedging members 5, 6, and the plane of the underside of the extensions 14, 15 of the profiles 4 corresponds, with the game, to the thickness of the panels 2 (i.e., the distance between their top faces 2 'and bottom 2 "). - Fixing members 5, 6 on the profiles 4, by fitting into the grooves 19 (by means of the flexible wings 26), and locking by means of the screws 28. The wedging members 5 are fixed in the lateral groove 19 located on the side housing 11 (under the small extension 14 of the section 4), and the wedging members 6 are fixed in the lateral groove 19 located on the housing side 11 "under the large extension 15); on each profile 4, the wedging members 5 and 6 are positioned vis-à-vis, and they are spaced, on each line, so that the distance between the front face 25b of the base 25 of one of members 30 5, 6, and the rear face 25c of the base 25 of the wedging member 5, 6 vis-à-vis in the direction of the slope, corresponds, with the game, to the distance between the songs 2. For the wedging members 6, the flexible wing 29 is oriented on the side of the central foot 13 of the associated profile 4. the profiles 4 are fixed to the support structure 3, parallel to each other by means of the screws 22. Then, two lines of wedging members 5, 6 are facing each other on two sections 4 facing each other, receiving a column of solar panels. And the distance between the inner face of the return 30 of the flexible wing 29 of the wedging members 6, and the opposite face of the central foot 13 of the profile 4 located vis-à-vis, corresponds, with the game, to the distance separating the side edges 2a3 'of the solar panels 2. Note that the fixing operation of the wedging members 5, 6 on the profiles 4 can be performed on the ground (before fixing the profiles 4 on the roof), or directly on the roof (after fixing the profiles 4 on the roof). - Next, the mounting of each solar panel 2 is performed, as illustrated in Figure 1, after inclination (in accordance with the directional arrow 31), inserting one of its side edges 2a3 in the longitudinal housing 11 'of the section 4 which is equipped with wedging members 6 with locking means 29; this operation is performed between two bases 25 of the wedging members 6, and to the bottom of said housing 11 ', over the returns 30 of the two wings 29 concerned (one upper and the other lower), thanks to the vertical flexibility of said wings 29, which fold as shown in dashed lines in Figure 2. Then, the opposite side of the panel 2 (in accordance with the directional arrow 32) is lowered to position it facing the longitudinal housing 11 of the other section 4 vis-à-vis. Finally, the operator carries out a lateral translation of the panel 2, in accordance with the directional arrow 33 of FIG. 1, so that one of its lateral edges 2a3 comes into abutment, or almost in abutment, against the central foot 13 of the housing. 11, and so that its other side edge (at the housing 11 '), exceeds the level of returns 30 flexible locking wings 29; the two wings 29 concerned by each panel 2 then return, by their flexibility, in the locking position (as shown in solid lines in Figure 2), and the solar panel 2 is properly blocked laterally. The bottom face 2 "of the panel 2 is then resting on the bearing surfaces 24d 'and 24d" of the four wedging members 5, 6 concerned; and the front faces 25b and rear 25c of the central webs 25 of said wedging members 5, 6 are positioned facing the upper longitudinal edges 2a1 'and lower 2a2' of each panel 2; it is more particularly the front face 25b of the central core 25, facing upstream, which serves as a stop for the panels 2, because of the slope of the support structure 3. The central cores 25 of the wedging 5, 6 ensure the separation between the panels 2 juxtaposed in the slope; the thickness of this central core 25 (and therefore the approximate distance of separation between two solar panels 2 juxtaposed in the direction of the slope) may be of the order of 15 mm. In this locked position, the seals 17 of the lateral extensions 14, 15 are crushed against the top face 2 'of the solar panels 2. Suitable profiles (not shown) can be reported transversely, to mask and possibly seal the spaces between the longitudinal edges 2a1 and 2a2 of the panels 2 juxtaposed in the direction of the slope. As illustrated in Figure 2, after the correct positioning of the panels 2, one or more locking screws 34 may be implanted through the lateral extensions 15, to project into the housing 11 'underlying, facing the side edge 2a3 'of said panel 2 facing; these screws 34 may include a so-called "antitheft" head to limit the possibility of disassembly. The disassembly of the panels 2 is carried out in an inverse manner, possibly removing the "anti-theft" screws 34, and then disassembling the panels 2 out of the fastening profiles 4, by pressing down on the flexible wings 29, using any tool (such as a screwdriver for example). As illustrated in Figure 1, the profiles 4 may each be made of several sections connected by clipping. This operation is performed by means of a metal plate 35 fitting into the recess of the central feet 13 of the two opposite sections and fixed by means of screws 36. A variant embodiment of the wedging member 6 with wing locking 29 is illustrated in FIGS. 5 to 10.

Here, the end return 30 of the wing 29 has a one-piece extension 37 in the form of a pull tab. As can be seen in FIGS. 5 to 7, this pull tab 37 extends upwardly from the free end of the end return 30, and towards the central core 25.

This pull tab 37 extends on the median plane of the wedging member 6 and the width of the central core 25. It has a flexible character. This tongue 37 has a first part 38 extending upwards, followed by a second descending portion 39, oriented towards the central core 25 and beyond the level of the latter, which is extended by a handle 40 going upwards, and by a hooking element 41, provided with an end hook 42, returning towards the central core 25. As can be seen in FIGS. 5 and 8 to 10, the lateral face 25a 15 of the central core 25, which is located opposite the flexible wing 29, comprises one or more grooves 43, intended to cooperate with the end hook 42 of the attachment element 41. As illustrated in FIG. 8, and as previously explained, during a phase of their assembly, the panels 2 bear on the end return 30 of the flexible wing 29. Then the pull tab 37 extends between the two panels 2 juxtaposed in the direction of the slope, and its handle 40 made s above the plane corresponding to the top face 2 'of said panels 2. The operator can then pull on the tongue 37 while carrying out the translation of the panel or panels 2 in the direction of the profile 4 opposite, as illustrated by the orientation arrows of FIG. 9, so as to assist the correct locked positioning of said panels 2. Then, the end hook 42 is inserted into its reception groove 43 formed in the central core 25, as illustrated on FIG. 10, to obtain the safety position of the tongue 37 by avoiding that it protrudes above the upper plane of the solar panels 2. It is understood that such a solar installation is relatively simple structure and can be mounted / disassembled very quickly.

This installation also allows the mounting of solar panels 2 of different thickness, this by using wedging members 5, 6 having a base height 24 adapted.

Claims (11)

1. Photovoltaic or thermal installation intended to be reported on a sloping support structure (3), in particular a roof structure, which installation (1) is of the type comprising: - a set of solar panels (2) delimited each by a top face (2 '), a bottom face (2 "), and a parallelogram peripheral border, composed of two side edges (2a3), each having a side edge (2a3'), oriented in the direction the slope, and two longitudinal edges, one upper (2a1) and the other lower (2a2), each having a longitudinal edge (2a1 ', 2a2'), and oriented perpendicular to the slope, and - a device fastening said solar panels (2) to said support structure (3), consisting of a set of parallel sections (4) oriented in the direction of the slope, at a distance from one another, allowing the reception of the lateral edges (2a3 ) said solar panels s (2), characterized in that said profiles (4) comprise wedging members (5, 6) which each comprise a first bearing surface (24d '), and a second bearing surface (24d "), located in the same plane, separated by an upwardly extending central core (25), which central core (25) is able to be interposed between the longitudinal edge (2a2 ') of one of the solar panels ( 2) whose bottom face (2 ") rests on the first of said bearing surfaces (24d '), and the longitudinal edge (2a1') of another solar panel (2), juxtaposed in the direction of the slope, whose bottom face (2 ") rests on said second bearing surface (24d"), each of said profiles (4) having two parallel lines of wedging members (5, 6), and the members of wedging (5, 6) of two lines facing two profiles (4) juxtaposed, used to support and wedging solar panels (2) of the same column of panels (2) juxtaposed in the direction of e the slope. 2.- Installation according to claim 1, characterized in that it comprises setting members (5, 6) reported, provided with means (26, 27) for attachment to said profiles (4), which wedging members ( 5, 6) are in the general shape of an inverted tee, comprising a base (24) provided with said first and second bearing surfaces (24d ', 24d "), between which extends upwards said central core (25) comprising , on either side, two parallel surfaces (25b, 25c), perpendicular to said first and second bearing surfaces (24d ', 24d "), intended to come, for one, facing the upper longitudinal edge (2a1 ') of one of the panels (2) associated, and for the other facing the lower longitudinal edge (2a2') of the other associated solar panel (2). 3.- Installation according to claim 2, characterized in that it comprises sections (4) of general section I having two longitudinal housings (11, 11 ') open in opposite directions from one another, intended each receiving one of the two lateral edges (2a3) oriented in the direction of the slope of said solar panels (2), which two housings (11, 11 ') are defined by a base (12) having a top face ( 12a) from which extends a central foot (13) whose upper end is terminated by two lateral extensions (14, 15) arranged at right angles and on either side of said central foot (13), which lateral extensions (14, 15) each comprise a bottom face (14 ', 15') optionally provided with a longitudinal seal (17), which base (12) further comprises a bottom face (12b) intended to to be fixed on said sloping support structure (3), and which base (12) is provided with means (19) for receiving said attached timing members (5, 6). 4.- Installation according to claim 3, characterized in that the base (12) of the profiles (4) comprises two grooves (19) longitudinal side, U-section, open upwards, for receiving said setting members (5, 6). 5.- Installation according to claim 4, characterized in that the wedging members (5, 6) comprise means (26) for their engagement in said grooves (19) of the profiles (4). 6.- Installation according to claim 5, characterized in that said engaging means consist of at least one flexible flange (26) cooperating with longitudinal inner returns (20) formed opposite the inner faces of the lateral flanges (19 ' ) U-shaped receiving grooves (19). 7.- Installation according to any one of claims 3 to 6, characterized in that the wedging members (5, 6) are each fixed in their receiving groove (19) by means of at least one screw (28) extending through a through hole (27) formed on the height of their central core (25) and their base (24). 8.- Installation according to any one of claims 2 to 7, characterized in that the lateral extensions (14, 15) of the central foot (13) of the profiles (4) are of different length, said wedging members (6) disposed at the longitudinal housing (11 ') having the extension (15) of greater length, comprising means (29, 30) for the retractable lateral locking of the associated solar panels (2). 9.- Installation according to claim 8, characterized in that said retractable locking means consist of at least one flexible side wing (29), extending from the base (24) of the organ 1 o wedging (6), towards the central foot (13) of the profile (4), which flexible wing (29) is provided with an end return (30), directed upwards, adapted to cooperate with the lateral edge ( 2a3) of the associated solar panel (s) (2). 10.- Installation according to claim 9, characterized in that the end return (30) of the flexible wing (29) comprises a monobloc traction tongue (37), extending upwards, facing the central core (25), the free end (40) constitutes a maneuver / traction handle to assist the setting in the correct locking position of said flexible wing (29) relative to the (x) solar panel (s) (s) associated. 20 11.- Stalling member (5, 6) for an installation according to any one of claims 1 to 10.