FR2950421A1 - Installing and fixing system for installing solar modules in e.g. steel roof structure, for producing e.g. own electricity, has fastening element fastening profile to roof structure, where profile and element are connected with each other - Google Patents

Abstract

The system (1) has a framed support plate for solar cells and a profile (3) provided with a holder (5) for accommodating a module with a frame. Another profile (4) is provided with a holder (6) for accommodating a module with the frame. The profiles are separably connected with each other. A fastening element (10) fastens the former profile to a roof structure, where the former profile and the fastening element are separably connected with each other. An adjustment unit (7) is fixed with a screw, clip or hook connection part by a specific distance set between the holders.

Description

This invention relates on one side to a mounting and fixing system for the direct integration of a multitude of solar panels in a roof structure, where each panel is composed of a load-bearing plate for the solar cells and framed by a frame, hereinafter panel with frame, and attached to a first section with a first jaw provided to support a first panel with frame. On the other hand, this invention relates to a mounting system for a mounting and fastening system of the kind.

With the constant increase in energy prices and the limited availability of fossil fuels (coal, natural gas, ...) more and more people are opting for their own solar energy production facility, with which they can produce their own electricity and / or hot water. In the case of solar panels, for the production of electric power, we speak of photovoltaic installations or PV installations.

A PV plant of this type is composed of solar panels, a mounting system and fastening system to fix the panels on / in the roof, the necessary wiring and the inverter or inverters that transform the direct current produced into alternating current. 230 Volts / 50 Hertz that can be consumed for any type of use or injected into the network. In the case of solar thermal panels, this installation includes solar collectors that convert solar energy into heat.

Solar panels consist of a large number of solar cells that turn light into electricity and are mounted on the load-bearing plate. This bearing plate is most often provided with an aluminum frame. The following patent publications: JP 2008 285827, JP 2003 056131, JP 2001 193245, JP 266472, DE 197 00 873 JP 2002 250105 describe a number of possible designs of this kind of frame. These publications are in fact not related to this invention, since this invention relates inter alia to a fastening and mounting system for the integration of a number of panels already provided with a roof structure into a roof structure. frame.

Solar panels are most often placed on a roof with a South, West, or East orientation. The panels can be placed in two ways on the roof, either superimposed or integrated. For superimposition (parallel installation to the roof), the mounting and fixing system is placed above the existing roof. These superimposed mounting and fixing systems are among others described in the German patent publication: DE 20 2008 002346 and the publication of the international patents: WO 2004/079775. This way of working, however, has disadvantages: it is a dangerous job requiring an intense working force and during the placement of the panels exists the risk of deterioration of the tiles that will have to be changed. In addition, a roof with superimposed solar panels is not aesthetically beautiful. In addition, the load of the roof is different with a superimposed system: instead of a steady pressure in the wind shows a peak load on the rafters because of the pressure on the panels themselves. To this, the pressure of the wind is concentrated on the points of support which are most often irregularly distributed on the roof. This contains the risk of a roof break in strong winds (it appears an additional pressure on the rafters that was not originally calculated) and a degradation of the roof in the long term. Added to this is the risk of foam formation under the panels.

Mainly in order to have a better visual rendering and to solve the problems mentioned above, one chooses more and more for the removal of a part of the tiles of the roof to replace them by solar panels in integration or, in case of new construction, use the solar panels as a roof covering. The integration of PV panels, however, has a disadvantage compared to superimposed systems, especially because of the lower ventilation of the system and the higher heating of the panels resulting in lower productivity. Because of the wide variety of tiles, the possibility of integration is quite limited, as the current integration systems are restricted to a particular tile dimension each time. Thus, the company ETERNIT, for example has 5 specific systems for 5 types of solar tiles and the company KORAMIC a system (known under the name Korasun®), which is intended exclusively for a type of well-defined tile.

The aim of this invention is therefore a new mounting and fixing system for integrating any solar panel provided with a frame into a roof (can be a new or existing construction as well), which provides the possibility of working quickly and efficiently. and in addition to ensure a waterproof coating of the roof. The object of the invention is more precisely to provide a standard mounting system for a certain number of types of panels with which it becomes possible over a defined space, to integrate a maximum of cell surface and thus to achieve maximum energy efficiency. on an existing or new roof, to place the panels as efficiently and quickly as possible, while keeping the appearance of a tiled roof.

The object of the invention is achieved by providing a mounting and fixing system for the integration of a multitude of solar panels in direct integration of roofing, where each panel is composed of a bearing plate for solar cells and framed by a frame, and where a 1st profile with a first jaw provided for the maintenance of a first panel with frame, with the characteristic that the named system contains a second profile with a second jaw provided for the maintenance of a second panel with chassis, above, where the 1 st and 2 nd profile are detachable and connectable to each other, and that the named system comprises in its extension a fixing element provided for fixing the 1 st profile on the underlying roof structure, where the 1st profile and the fastening element are detachable and attachable to each other. Thanks to the fact that the second profile and the fastening element are detachable and connectable with the profile, they are movable with respect to themselves, whereby the distance between two mounted panels can be adjusted. one above the other depending on the type of tile that has to be removed to create the space needed to install solar panels or the distance between two slats or fasteners in the case of new construction and can we remedy any collapse of roofing. With such a mounting and fixing system, the solar panels with frames are placed in such a way that the lower part of the upper panel overcomes the upper part of the jaw of the lower panel. In this way, the appearance of a classic tile roof is almost perfectly imitated and in addition a waterproof roof covering is obtained.

In a preferred embodiment of the system according to the invention, the aforementioned system contains means for placing the first and second jaws at a distance from one another. The presence of these means makes it possible to adjust the distance between the and the second jaw (and thus also between different panels) in length and / or in width.

In a more advantageous embodiment of the system according to the invention, the system contains aforementioned means which are adapted to establish the appropriate distance between the first and second jaws. By the presence of these adjustment means, the distance between the first and the second jaw and therefore between the first and the second solar panel fixed above the 1 e.

In a particular application to the system according to the invention, the aforementioned means are adapted to adjust the distance between the first and the second jaw. More particularly, the aforementioned adjustment means are constituted by a grooving, provided on the first and second profile, or where the second profile is crooked above the 1 e and composed of two positioning elements adjustable so that the 1 The jaw can be adjusted to the 2nd. In another preferred application of the system according to the invention, the aforementioned adjustment means contain a screw - or clip connection provided in order to establish the distance between the and the second jaw. The presence of these adjustment means allows a quick and easy placement of the solar panels. By the presence of the adjustment means, it is possible to position the PV panel which is held in the jaw of the second profile vis-à-vis the underlying solar panel.

In a particular application to the system according to the invention, concerning aeration, after the mounting of the first and second solar panels above, between these panels, a day is formed which functions as a natural air inlet, without forcing mechanical movement of air under the panels for ventilation of the latter. The presence of this day ensures the necessary ventilation and cooling of the solar panels. The day is created by the thickness of the second profile. In addition in a preferred embodiment, the first and second profiles are detachable to each other only at the outer edges of the solar panel. In support, a second complementary profile can be provided between the two outer edges of the panel. The first profile extends in other words about the entire length of the solar panels, while the second profile is only present at the outer edges and possibly in one or more intermediate positions (as additional support) of a solar panel.

In another particular application to the system according to this invention (ie by liquid refrigeration), the first profile contains a lengthwise liquid channel for refrigeration of the panels and surroundings. This liquid channel preferably extends over the full length of the first profile. A similar application allows to drive a suitable product through the aforementioned channel to cool the solar panels in this way. This application may be complementary for even better cooling of the solar panels and the heat removed may possibly be usefully used, for example to heat the sanitary water. In the case of liquid refrigeration, this day may be superfluous and may be closed by a profile, or by equalizing the length of the second profile to the first.

According to a more particular application of the system according to this invention, is placed between the solar panels located side by side a sealing profile, provided so that everything is sealed. Thanks to which no water infiltration between the panels can occur.

In a more advantageous embodiment of the system according to this invention, the aforementioned system has positioning means for adjusting the position of the first profile vis-à-vis the fastener. Via this positioning means, a calibration is obtained on the width (transverse), with respect to the first profile and / or the height to the roof structure (height adjustment). The system according to the invention therefore contains the means for moving the first profile in a direction transverse to the direction of the length of the first profile and / or adjusting the height so that roof slumps can be adjusted. Since the fastening element is placed on one side on the underlying roof structure and on the other hand that the first profile is provided with the first solar panel jaw, it can be ensured that by means of of the adjustment, the solar panel is positioned in such a way that its lower part is each time aligned with the lower part of the neighboring tile, in order to preserve the appearance of the roof tile, because the height between the horizontal lines of the tiles of the roof (visible part of the tiles) is aligned with the PV panels. The positioning means in its first application form will preferably be provided on the upper face of the fixing element and on the lower face of the profile and in particular contains a grooving. In a second application possibility, the fixing element comprises a positioning plate and a fixing plate which are connected to each other by means of a rotary linkage arm, and the positioning means are formed by grooves on the 1st profile and the positioning plate of the fastener. This is achieved by swinging the arm of the attachment a height adjustment. In particular, the fastener comprises a fastening plate for fixing the first profile to the underlying roof structure. This underlying roof structure can be either a wooden batten, a steel structure or concrete.

In an alternative application of the system according to this invention, the fastener element contains a fastener for anchoring the first profile to the underlying roof structure. Preferably, the fastener is arranged to be directly attached to the bastaings or rafters of the roof (for example via a threaded screw). Thanks to this the presence of a lathing is superfluous and for this reason, we save for the construction of new buildings tiles and lathing. Instead of fixing the battens to the rafters of the roof, the first profiles can be screwed by means of fasteners directly onto the rafters.

In a more advantageous embodiment of the system according to this invention, the aforementioned system has locking means. Via the locking means, the panel provided in the second jaw can be fixed. In addition, the fastening element attaches the and the second profile together so that they can not move relative to each other. The locking means preferably have a locking element that can be slid between the two panels in the groove provided the second profile, or a clamping element that slides on the profile.

This invention also uses a mounting system for solar panels where each panel is composed of a load-bearing plate for the solar cells and framed by a frame, and attached to a first section with a first jaw provided for holding a first panel with frame, with which the aforementioned mounting system provides a second profile with a second jaw for taking a second solar panel with chassis, and wherein the first and second profile are detachable and attachable to each other, and wherein the mounting system is fixed on the underlying roof structure via a fastener, with which the first profile and the fastener are detachable and can be attached to each other.

The mounting system according to this invention is preferably intended to be used in a fastening system as described above. This invention may also relate to a roof structure provided with a similar mounting and mounting system. In order to create additional refrigeration and ventilation for the solar panels, the roof structure can be provided with ventilation means, particularly by placing fans above the top panels, or centrally, or possibly embedded in a structure provided for this purpose, or in a tile.

In order to specify the features of this invention and to indicate the advantages and additional features, please now follow a more specific description of the mounting system and attachment according to the invention. It must be clear that nothing in the following description can be interpreted as a restriction of the protection claimed in the conclusions.

In this description, reference is made to the number means, the attached drawings with which are represented: FIG. 1: Representation of a first form of application of the mounting and fixing system according to the invention, intended to be fixed to the roof structure existing; - Figure 2: Sectional view (section between a first and second side-by-side panel) of the mounting and fixing system according to this invention; Figure 3: Perspective representation of a roof construction provided with the mounting and fastening system according to this invention; Figure 4: Representation of the mounting and fixing system according to the invention, intended to be fixed to a new roof structure without lathing; Figure 5: Schematic section of the air extraction system located above the top panel with the indication of the air flow; Figure 6: Schematic section of the air inlet and movement below the panels; Figure 7: cross section of the sealing profile provided between two side-by-side panels; - Figure 8: representation of a variant of the mounting system and fixing according to the invention which is intended to be provided with a liquid refrigeration; Figure 9: cross section of the possible embodiment of the mounting and fixing system where the solar panel frame is clearly visible; Figure 10: Detail representation of part of a second embodiment of the possible fastening system provided with a depth adjustment; Figure 11: section of the second embodiment of the possible fastening system according to the invention; Figure 12: representation of a roof provided with the 2nd possible embodiment of the fastening system according to the invention; The fixing and mounting system (1) according to this invention is intended for placing panels, preferably solar panels (2), on a sloped roof (14). The fixing and mounting system (1), and as shown in Figures 1, 2, 9, 11 and 12 also allows to integrate solar panels (2) in existing roofs indefinitely of the kind of roof. The fixing and mounting system (1) shown in FIGS. 4, 10, 11 and 12 is intended to place the solar panels on new constructions.

The fastening system (1) for solar panels (2), in accordance with this invention, contains a first profile (3) with a first jaw (5) for holding a first panel, and a second profile ( 4) with a second jaw (6) provided for maintaining a second solar panel located above. It is important to note that the jaws mentioned (5 and 6), as shown in Figure 1, are provided for the maintenance of a solar panel, including its frame (2). The first profile (3) and second profile (4) are releasable and detachable from each other. The second profile (4) may be a separate profile, but may also be integrated with a solar panel (2). The system (1) further comprises a fastener (10, 12, 23) which is intended to be attached to the existing roof structure and is detachable from the profile.

When the solar panels (2) are intended to be integrated into an existing roof, the tiles on the roof must first be removed so that the underlying structure, in particular the lathing is visible. In order to now easily place the solar panels in the free space, the fixing and mounting system (1) according to the invention contains positioning means (15, 16, 17, 24, 25) for positioning the the profile and the fastener relative to each other, in compensation for the different distance between the lathing (this distance is different depending on the type of tiles (height) that were attached to the lathing). The placement of the fastening and mounting system (1) in question is much easier than mounting the fastening profiles for superimposed panels, because the system only has to be hooked to the batten or screwed on the rafters. On a conventional superimposed system, you have to add a lot of calculations to define the right kind of hooks and the position of the hooks. After that it is necessary to remove the tiles, to fix the hooks, to regulate them, after which it is necessary to saw or to grind the tiles (after the replacement of the possible case tiles), and to replace them.

Also the placement of the solar panels is easier with this system, the panels are just slid into the 1 st jaw and locked with a downward movement of the locking element; or the 2nd jaw is hooked above the 1st profile and then slid around the corners of the panel. Proper positioning and fixing with bolts is no longer necessary. Also in the case where the battens are deteriorated and therefore unusable or that there are collapses of roofing, or in the case of absence of battens (new constructions, industrial or hangars agncoles with breakdowns, ...) one can position and fit the profile with the fastener adjustment system.

The system (1), in accordance with the invention also allows the possibility of positioning the jaw (5) and the 2nd (6) at a defined distance between one and the other. For this purpose, the system contains several possible means and practical applications. In a first possible application, and as shown in the accompanying figures 1, 2 and 4, the positioning means (7) are intended to adjust the distance between the (5) and the 2nd (6) jaw. More particularly, the positioning means (7) mentioned are formed of grooves provided on the first and second profiles. Grooving is particularly provided on the upper face of the profile (3) and the lower face of the second profile (4). The presence of these positioning means offers the possibility of easy mounting of the PV panels, and allows that we can position the panel which is provided in the jaw (6) of the 2nd profile with respect to the PV panel located below. In a second possibility of application, the adjustment means comprise a height-adjustable fastening element (FIG. 10) in which the distance between the first and second jaws can be adjusted thanks to the two components of which the second profile in this second embodiment is made. specific form of application, using a slide and a fastener (preferably a bolt and a nut). Also, the height of the 1 st jaw with respect to the roof structure can be established by means of the adjustable fastening element (see FIG. 10). This fixing element contains a positioning plate (24) and a fixing plate (26) which are connected by means of a rotary connection arm (25), and the positioning means are composed of grooves provided on the 1st profile and positioning plate. By the rotation of the mentioned connecting arm the height can be adjusted.

In another application (not shown), these adjustment means contain a connection by screw or clips to set a distance between the 1st and 2nd jaw. Thanks to the presence of these adjustment means, it is possible, depending on the position of the selected means 30 or its dimensions, to establish the distance between the 1st and 2nd jaws and consequently between a 1st and 2nd panel located one above the other.

It is obvious that other known solutions exist for positioning the 1st (5th) and 2nd (6) jaw at a distance, which also fall within the scope of the patent of this invention.

On existing roofs (see Figure 1 and 2), the first profile (3) is attached to the underlying roof structure, in this case the lathing. Further in Figure 2, in addition to the lathing, there is still the presence of the counter-lathing (18) and a waterproof sub-roof plate (19). The fixing element (10, 12, 23) is responsible for a good fixation.

The distance between the different battens is defined by the size of the tile present. Since there is a large variation in the size and height of the tiles, the distance between the battens will vary depending on the roof to the other (in general, this height can vary between 240mm and 390mm). In order to make up for these differences, the system (1) provides, according to the invention, a width adjustment system. To this, the cited system (1) contains the positioning means (15, 16, 24, 25) mentioned above, which are intended to adjust the position of the profile (3) vis-à-vis the fastening element (10; 12; 23). Thanks to the possibility of adjusting the system, a panel can each time be positioned so as to obtain a staircase shape and where the bottom of each panel aligns with the bottom of the tile of the same row (with a tolerance of about 5mm), so that the visual rendering of a tiled roof persists, and that the distance between the horizontal lines of the tiled roof remains preserved (visible lower part of the tiles).

The positioning means are, as spring, among others, FIGS. 1, 2, 9 and 10, preferably consisting of a series / succession of specific grooves, which are provided on one side on the upper part of the fastening element. (10) or on the positioning plate of the latter (if present) and on the other side on the 1st profile (3). At this succession of grooves, the positioning means may also contain a calle (17), created as an additional adjustment possibility as shown in practice the example of the system (1) and with reference to Figure 1. It is however obvious that other solutions are also known for positioning a profile vis-à-vis another profile, and that they fall within the scope of this invention. The upper part of the solar panel (2) which is placed in the 1st jaw (5) of the first profile (3), is positioned relative to the batten (11) or on the roof structure by means of the element of fixing (10) and the profile (3). In the form of application, the grooves of the positioning means (15,16) are placed at 10mm from each other, whereby one can in principle adjust by 10mm increments. However, by placing the caliper (17) on the front or rear face of the groove, the positioning can be adjusted in 5mm increments. Once the upper part of the solar panel (2) is positioned, the position of the lower face of the panel is automatically fixed (lower face position = upper face position û height of the selected panel). The lower part of the solar panel (2) which is placed is retained by the jaw (6) of the second profile (4). Via the positioning means (7) (in the form of application a succession of grooves, in the second form of application two components of the second profile adjustable one vis-à-vis the other), one can position the panel provided in the jaw (6) of the 2nd profile with respect to the solar panel below. The second jaw (6) is in turn locked by a locking element (13) to slide below between two panels and in the groove provided in the second profile on the jaw (5). In addition to this, the second profile (4) (and consequently also the second jaw (6)) can not slide on the side of the fact that the fastening element (13) between two panels is placed in the groove (20). ) provided in the 2nd profile (4). In the 2nd form of application the 2nd jaw hooks in the profile.

In practice it is used for tile roofs that 3 types of panels that vary only in height. The possible heights of the panels are 240mm, 308mm and 370mm. Other divergent heights are obviously possible, for example for industrial or agricultural roofs, where larger panels are used. Depending on the type of tile used, the most appropriate panel height will be selected so that a maximum of the available area is used for energy production. In practice, we will work as follows: We know the lower border of the tiles. Lower edge of the tile + height of the chosen panel type = position top panel: the position of the fastening element (10) on the rail (the profile) must be chosen in this way, only when the fastening element (10) rests on the batten (11), the first jaw (5) takes the panel just level with its upper part.

Practical: The distance between the lower part of the tile and the upper part of the batten on which it raises to the height of the panel = distance between the back of the jaw (5) and the back (lower part) of the fastening element (10).

The fastening system (1) according to the invention can also be used without the battens being mounted. This is particularly applicable on roofs / new constructions or in the case of deteriorated battens. For this, the fastening element has been designed to fix the first profile to the underlying roof structure, preferably to the rafters by fixing its lower plate, or to the failures of an industrial or agricultural roof. Fixation of the fastening element can take place by means of a screw or nail. This possibility is shown diagrammatically in FIG. 4. The fastening element (12) is like the fixing element (10) mentioned above, provided on the upper part of the positioning means (15). Between the profile (3) and the fastening element (12), it is possible, as stated above, to fix a caliper (17). In the second form of application, the positioning element of the fastening element and the profile are provided with grooves and a height adjustment (via rotary link arm), so that they are positionable relative to each other.

The first profile (3) is preferably applied as a rail that extends over the total length that the solar panels (2) will take on the roof, and where the first jaw (5) is made U-shaped. For practical reasons, the 1st profile can be composed of two parts, which offers the possibility of mounting larger panels more easily. The second profile (4), also with a second U-shaped jaw, is preferably placed in the area where two side-by-side panels (2) are connected. In practice, the first profile (rail) is produced in a standard length of for example 6 or 8 meters. The length of the roof / length of the first profile is obtained by assembling standard lengths combined with a custom-made length, while the second profile is also produced in standard length but is fitted to the length of the panels, in the case of an installation without air intake at the front, or a length of about 100mm in the case where an air inlet is desired. A construction like this has the ability to create an airflow between two panels placed one above (or below) the other (2). The formation of a similar air intake has the advantage that, as explained in FIGS. 5 and 6, a stream of air will be created under the panels which will ensure the necessary cooling of the solar panel. The ventilation of the solar panels can then be improved, as shown in Figure 5, by providing one or more openings above the upper panels or centered under the panels, and which are optionally integrated in a structure or tile provided for this purpose . A greater improvement in ventilation can be achieved by the provision of ventilation means, for example by providing a fan in a structure or tile provided for this purpose.

In order to obtain a fully sealed application, it is possible, as shown in Figure 3, to place between the panels placed side by side (2) a sealing profile (9). Figure 7 is a detailed presentation of a section of a possible sealing profile. This sealing profile is slid between the panels and the jaw, and covers the panels in such a way that water can not flow between the panels. An extra sealing strip may possibly be fastened between the (3) and the second profile (4), in order to prevent a possible backflow of water by the wind coming up through the air passage on the surface ( 7) or ooze via the 1 st jaw (5). In order to protect the fastening and mounting system (1), solar panels (2) included, against external forces (eg high winds), the system contains locking means (13) .30 In place of a cooling by air ventilation, the system (1) according to the invention can be provided, as shown in Figure 8 of a liquid cooling system. For this, the profile (3) preferably contains a liquid channel (21) which by a well-defined means will evacuate the heat created by the panels.

In this case, the airflow may be unnecessary.

This invention is also used in a second embodiment of the fastening system according to the invention which is illustrated by FIGS. 10 to 12. In this form of application, the jaw (5) of the profile (3) can be composed of a sub-profile and a detachable profile (27), which facilitates the mounting that the upper part of the profile is fixed later, the jaw to insert the panel will be more widely open. In addition to this, in mounted condition, only the profile (27) is visible, and we will only have to paint this profile, especially anodize black, instead of having to paint the entire profile, this which is a saving of time and money.

In the second embodiment as explained above, there is a complementary height adjustment (see Figure 10), thanks to which in case of non-regular roofing can perfectly level the system.

Claims (15)

REVENDICATIONS1. The mounting and fixing system (1) for integrating a multitude of solar panels (2) in a roof structure, wherein each panel is composed of a load-bearing plate for the solar cells and framed by a frame, and wherein a first profile (3) with a first jaw (5) for holding a first panel with a chassis, characterized in that the named system (1) contains a second profile (4) with a second jaw ( 6) provided for the maintenance of a second panel with chassis, above, where the (3) and 2nd profile (4) are detachable and pieceable together, and that the named system (1) comprises in its extension an element fastener (10; 12; 23) for attaching the profile (3) to the underlying roof structure, wherein the profile (3) and the fastening element (10; 12; 23) are detachable and attachable between them. 2. The mounting and fixing system (1) according to the conclusion 1, characterized in that the system (1) named comprises means for placing the (5) and the 2nd (6) jaw at a distance from the one of the other. 3. The mounting and fixing system (1) according to the conclusion 2, characterized in that the named means comprise adjusting means (7), which are suitable for adjusting the distance between a 1 (5) and the 2nd jaw (6). 4. The mounting and fixing system (1) according to the conclusion 3, characterized in that the adjustment means (7) named, are formed from grooves on the 1 e (3) and 2nd profile (4), or where the second profile (4) is crooked above the first profile (3) and is composed of two elements adjustable relative to each other, so that the position of the jaw (5) can be adjustable in relation to the 2nd jaw (6) .30 5. The mounting and fixing system (1) according to the conclusion 3, characterized in that the said adjusting means (7) comprise a connection by screw, clip or hook provided to determine the distance between the first jaw ( 5) and the 2nd (6). 6. The mounting and fixing system (1) according to one of the conclusions cited above, characterized in that after the mounting of the and the second panel one above the other, there is a day (8 ) between the profile and the panel above which allows a natural air flow or forced mechanically under the panels for refrigeration panels. 7. The mounting and fixing system (1) according to one of the conclusions cited above, characterized in that the profile (3) can contain a longitudinal liquid cooling system for refrigeration panels and their environment. 8. The mounting and fixing system (1) according to one of the conclusions cited above, characterized in that between solar panels (2) placed side by side, a sealing profile (9) is provided so that everything is waterproof. 9. The mounting and fixing system (1) according to one of the conclusions cited above, characterized in that the named system (1) contains positioning means (15, 16, 17, 24, 25) which are provided to adjust the profile (3) relative to the fastening element (10; 12; 23). 25 10. The mounting and fixing system (1) according to claim 9, characterized in that the fastening element (23) comprises a positioning plate (24) and a fixing plate (26) which are connected to the with the rotary link arm (25), and that the positioning means is formed with grooves provided on the profile (3) and the positioning plate (24). 11. The mounting and fixing system (9) according to the conclusion 10, characterized in that by the rotation of the connecting arm (25) cited, a height adjustment is possible. 12. The mounting and fixing system (1) according to one of the conclusions cited above, characterized in that the fastening element (10) is provided with a holding element for fixing the profile (3) against the underlying roof structure (11). 10 13. The mounting and fixing system (1) according to one of the conclusions cited above, characterized in that the named system contains locking means (13). 14. The mounting system for solar panels (2) consisting of a support plate for the solar cells and framed by a frame, where a profile (3) with a first jaw (5) provided for the maintenance of a first panel with chassis, characterized in that the named mounting system contains a second profile (4) with a second jaw (6) provided for the maintenance of a second panel with chassis, where the (3) and 2nd profile ( 4) are releasable and connectable together, and that the mounting system is fixable to the underlying roof structure via a fastener (10; 12; 23), where the profile and the fastener ( 10; 12; 23) are detachable and connectable with each other. 15. The mounting system according to claim 14, characterized in that the named mounting system is suitable for being part of the fastening and mounting system (1) according to one of the above-mentioned conclusions of 1 to 13 inclusive.