ITAN20090012U1 - PROFILE JOINT FOR THE COUPLING OF SOLAR PANELS - Google Patents

Description

DESCRIPTION

attached to a patent application for UTILITY MODEL entitled: PROFILED JOINT FOR THE COUPLING OF SOLAR PANELS

DESCRIPTION OF THE INVENTION

The object of the present invention is a joining means for the installation of solar panels.

The invention is part of the exploitation of solar energy for civil and industrial uses through the use of solar panels, in particular photovoltaic, to be installed on the roof or on the walls of buildings.

Solar panels, most of the time, are mounted on the roofs above the roof covering, or on the walls outside the infill surface, leaving the pre-existing wall structures with the role of waterproofing against rainwater.

Generally, the assembly takes place by means of frames and trusses connected to the building structure with rather complicated brackets. Mounting means are also provided that provide for the integration of the panels into building structures: in these cases, the function of waterproofing the surface on which they are placed is also entrusted to the solar panels and their frames.

All these assembly methods must include at least:

- rapidity of installation of the support structure of the panels;

- ease of assembly, disassembly, maintenance of the panels;

- modularity;

- waterproofing.

The installation of these solar panels takes place with methods and means by now standardized, which implies little possibility of adaptation to the needs of the specific case. The problem arises above all in the case of installation on curved or irregular roofs, for which ad hoc modifications to the usually used installation means must be made, under penalty of poor architectural integration with the roof or, worse, waterproofing problems in the fixing points of the panel.

The purpose of the present invention is to indicate improved means to quickly and easily install the solar panels, integrating them with the roof of the building and ensuring Γ impermeability of the roof and the correct flow of rainwater.

Another object is to indicate means for facilitating the installation of the solar panels on curved or irregular surfaces.

A further purpose is to provide a system to ensure the tightness and bonding of the flexible solar panels to the laminates over time.

These and other objects, which will become clear in the following, are achieved with a profiled joint conforming to the provisions of claim 1.

Other objects can also be achieved by means of the additional features of the dependent claims.

Further characteristics of the present invention will be better highlighted by the following description of some preferred embodiments, according to the patent claims and illustrated, purely by way of non-limiting example, in the attached drawing tables, in which:

Figure 1 shows in lateral section a first joint according to the invention;

Figure 2 is a side sectional view of a variant of the joint according to the invention;

Figure 3 schematically shows a first possibility of operational use of the joint according to the invention;

Figure 4 schematically shows a second possibility of operational use of the joint according to the invention;

figure 3 is a perspective view of the variant of the joint of fig. 2; figure 6 shows in lateral section a second joint according to the invention;

figure 7 is a side sectional view of a possibility of operational use of the joint in fig. 6.

The characteristics of the invention are now described, using the references contained in the figures.

From here on, the term "panel" will refer to a photovoltaic solar panel. Photovoltaic panels can consist of rigid or flexible modules, the latter are very thin films glued on an adhesive support, which can in turn be glued to a support plate, for example a rigid and flexible sheet of metal. Nothing prevents, however, that the present invention can also be used for the installation of other types of solar panels having similar structural and dimensional characteristics, such as photothermal solar panels or, simply, substantially flat sheets of glass or other material.

With particular reference to fig. 1, 1 indicates the joint suitable for receiving the edges of two panels 3. Said joint 1 consists of a profiled element, which can be made of metal or other material suitable for exposure to air and other atmospheric agents.

Taking as reference the inclination of the pitch of the roof from the ridge line to the gutter line and, consequently, the installation direction of the joint 1, it has a support surface 10 divided into an upstream portion and a downstream portion.

Reference 10.M indicates said upstream portion, bounded externally by a reinforcing rib 102 and provided with through holes 101 for fixing the joint 1 to the underlying pitch of the roof of the building. Said reinforcing rib 102 can also be used as a resting point for an external fixing bracket, to be used for positioning said joint 1 as an alternative to the through holes 101.

103 indicates a further rib having the function of both reinforcement but, above all, of margin for a portion 100 designed to act as a channel for the outflow of rainwater that may have crept into said joint 1.

10.V indicates the downstream portion of the joint 1, consisting of a profile which forms two cavities 11 and 12 placed on mutually parallel planes; more precisely, the cavity 11 is open towards the valley while the cavity 12 has the opening towards the mountain.

Preferably, but not necessarily, for reasons of compactness of said joint 1, cavity 12 overhangs cavity II and said downstream portion 10.V has a substantially S-shaped section.

Said cavities 11 and 12 are suitable for housing the edges of two panels 3 installed in sequence; always taking as reference the slope of the roof pitch from the ridge line to the gutter line, the cavity 12 of the joint 1 houses the edge of the panel 3 upstream, while the cavity 11 houses the edge of the panel 3 to be installed downstream.

Therefore, as more clearly illustrated in FIG. 3, the same solar panel 3 is installed on the pitch of the roof by placing its upper and lower edges respectively in the cavity 11 of an upstream joint 1 and in the cavity 12 of another joint 1 downstream.

Each joint 1, as anticipated above, is bound to the pitch of the roof by means of a common fixing means, for example a screw, inserted in the through hole 101, which is protected from infiltration of rainwater as it is covered by the solar panel above. 3, the lower edge of which is housed in the cavity 12. Alternatively, as previously mentioned, the positioning of the joint 1 can also take place by means of an external fixing bracket to the upstream portion 10.M, using the reinforcing rib as a support point 102.

The positioning of several joints 1 in sequence, placed at a distance from each other substantially equal to the longitudinal dimension of the solar panels 3, allows the installation of said panels in the quantity necessary to cover the desired roof surface, starting from the valley upstream according to the following operations:

a) fixing of a first joint 1 to the roof,

b) inserting the lower edge of a first panel 3 into the upstream cavity 12 of said first joint 1,

c) inserting the upper edge of said first panel 3 into the downstream cavity 11 of a second joint 1 resting on the roof,

d) fixing of said second joint 1,

e) repetition of operations b), c) and d) until the installation of the panels is completed 3.

The first and last joint, i.e. joint 1 placed further upstream and joint 1 located further downstream of said sequence, will have one of the two cavities not engaged by the edges of the palmelli 3: in particular, joint 1 placed further downstream upstream will remain with cavity 12 empty, while joint 1 located further downstream will have cavity 11 free. However, this does not represent a disadvantage in any way since said free cavities can easily be used to connect tiles, bent tiles or other bricks 4 (of the same type used for covering the remaining roof of the building), using known mouldable materials, such as, for example, bituminous sheaths, lead sheets, galvanized sheets.

However, it is possible to provide a variant of the joint that can be used as a joint further upstream. Figs. 2 and 3 show said variant, in which the joint 2 substantially reproduces the profile of the joint 1 with the exception of being devoid of the cavity 12. Therefore, also the support surface 20 to the flap of said joint 2 is divided into a portion a upstream and in a downstream portion.

Reference 20.M indicates said upstream portion, while 20. V indicates the downstream portion of the joint 2, consisting of a substantially C-shaped profile, through which a cavity 21 open downstream and adapted to house the upper edge of the panel 3.

The upstream portion 20.M and the relative through holes 101 can be covered directly, without the need for malleable connecting material, with tiles, bent tiles or other bricks 4, in order to ensure Γ impermeability of said through holes 101 to rainwater, since said upstream portion 20.M, in this case, is not sheltered by an overlying panel 3 as occurs in the case of joint 1.

In both joint variants, any rainwater that has infiltrated inside them is collected by the portion 100, allowing it to slide along the entire length of said joints 1, 2 and convey it onto the surrounding roofing elements. Again in order to facilitate the outflow of rainwater and the impermeability of the roof pitch, special drainage holes 121 can be made at the bottom of the cavity 12 of joint 1.

So far we have talked about the use of joints 1, 2, for Γ installation of panels 3 on the pitch, inclined or not, of a roof of a building. But obviously these joints can also be used for the vertical installation of panels 3 on the external walls of the building.

In figs. 6 and 7 show a variant of the joint particularly suitable for the vertical installation of the solar panels 3.

This joint 5 is always provided with a support surface 50 suitable for being fixed adjacent to the building wall. Similarly to the other variants of the joint described above, taking the verticality of the wall as a reference this time, said support surface has a first portion 50.M (provided with one or more reinforcing ribs 504 and through holes 501, protected from infiltration of rainwater once installed, as will be explained later) and a second portion 50.V consisting of a substantially C-shaped profile, through which a cavity 51 suitable for housing the edge of the panel 3 is made .

The joint 5 is equipped with special coupling means 502, 503 for mutual interlocking by plastic deformation with the coupling means 503, 502 of an identical joint 5 ', positioned overturned as shown in fig. 7 and adapted to house the edge of a further panel 3, to be installed above the first.

Said coupling means 502, 503 (respectively made on the end of the portion SO.M and on the upper external corner of the C-shaped profile of the cavity 51) each comprise a groove 5021, 5031 and a rib 5022, 5032: the groove 5021 is able to couple with the rib 5032 of the overturned joint 5 ', while the rib 5022 is able to couple with the groove 5031 of said overturned joint 5'.

Ultimately, each pair of joints 5-5 ', considered as a whole, provides two opposing cavities 51, 51', in which the panels 3 to be installed vertically on the building wall can be inserted. The joint 5, fixed to the wall through the through holes 501, supports the joint 5 'above and, in a sequence of joints for the installation of several panels 3, performs both the function of joint positioned at the top of said sequence and as a joint positioned at the base: in the latter case, said joint 5 is fixed to the wall in the opposite direction, ie with the cavity 51 open upwards and with the portion 50.M directed downwards.

This variant of joint 5 can also be used on horizontal roofs or roofs with sloping pitches, and allows the panels to be installed coplanar with each other, as an alternative to the installation as a tile allowed by joint 1.

From the above description it is easy to see how the main advantage of the present invention consists in the speed and simplicity of installation of the panels 3 through the use of joints 1, 2 and 5, in a way that can be architecturally integrated with the roof of the building.

A second order of advantages can be found in the total impermeability of the fixing points 101 to the pitch of the roof or to the external wall of the building, either because they are sheltered by the panel 3 above, or because they can be covered with tiles, slates or other bricks 4, of the same type used for the covering of the remaining surface of the roof of the building. The fixing points 501 of the joint 5 are, on the other hand, repaired by the rib 504 and by the above joint 5 '.

A further advantage lies in the possibility of using said joints 1, 2, to install the panels 3 on curved or irregular surfaces, an event that can so far only be overcome with the use of special fixing means or those manufactured for the occasion. In fig. 4 shows this particular way of installing the flexible panels glued to a sheet of metal. By placing two joints 1 opposite each other at the ends of the irregular surface to be surmounted (or, more simply, in the opposite pitches of the roof, on the sides of the ridge line), it is possible to insert the panel 3 inside the cavities 12 of said joints 1 opposed. The cavity 11 of each joint 1 can then be used as previously described, ie by housing the upper edge of a further panel 3, and so on until completion of the installation of the panels.

Another advantage allowed by the present invention, always associated with the type of flexible panel glued to a sheet of metal, is found in the fact that the cavities 11, 12, 21, 51, of the joints 1, 2, 5 ensure a firm positioning of the edges of said flexible panels 3, even in the case of their detachment from the underlying sheet metal. Among other things, the upper internal profiles of the cavities 11, 12, 21 can be provided with special bosses 110, 120, 210 designed to accommodate the thickness of the diodes present on the panels 3.

Claims (9)

CLAIMS Rev. 1) Profile joint (1; 2; 5, 5 ') for housing one or more panels (3) to be installed on the roof or on the external walls of a building, comprising: a support surface (10; 50) provided of through holes (101; 501) for fixing to the pitch of said roof or to said external walls, a profile making at least one cavity (11, 12; 51, 5Γ) suitable for housing the edge of said one or more panels (3 ), characterized by the fact that said profile creates two cavities (11, 12; 51, 51 '): - a cavity (11; 51) open towards the valley and adapted to house the upper edge of a panel (3) to be installed downstream, - a cavity (12; 5Γ) open upstream and suitable for housing the lower edge of a panel (3) to be installed upstream. Rev. 2) Profile joint (1; 2; 5, 5 ') according to the previous claim, characterized in that said two cavities (11, 12) are placed on mutually parallel planes, the cavity (11) open towards the valley being dominated by the cavity (12) open towards the mountain. Rev. 3) Profile joint (1; 2; 5, 5 ') according to the previous claim, characterized in that the panel (3) housed in said cavity (12) open towards the mountain protects the underlying through holes (101) from infiltration of rainwater. Rev. 4) Profile joint (1; 2; 5, 5 ') according to any previous claim, characterized in that on the bottom of said cavity (12) open upstream there may be a drain hole (121) for rainwater that may have crept into said joint (1). Rev. 5) Profile joint (1, 2; 5, 5 ') according to claim 1, characterized by the fact that said two cavities (SI, 5Γ) are placed on the same plane, said joint (S, 5 ') being composed of the coupling of a first joint (5) with a second joint (5') positioned overturned above said first joint (S ). Rev. 6) Profile joint (1, 2; S, 5 ') according to the previous claim, characterized in that said coupling between the first (S) and the second joint (5 ') occurs through interlocking by plastic deformation of reciprocal coupling means (502, 503) consisting of a groove (5021) and a rib (5022) of said first joint ( 5) adapted to couple respectively with a rib (5032) and a groove (5031) of said second joint (5 '). Rev. 7) Profile joint (1, 2; 5, 5 ') according to claims 5 and 6, characterized in that the through holes (501) are protected from rainwater infiltration by a rib (504) and the second joint above (5 '). Rev. 8) Profile joint (1, 2; 5, 5 ') according to any previous claim, characterized by the fact of be provided with portions (100; 500) acting as drainage channels for the collection and conveyance of rainwater that may have crept into said joint (1, 2; 5, 5 '), said portions (100; 500) being between the profile forming the cavities (11, 12; 21; 5, 5 ') and a rib (103; 504). Rev. 9) Profile joint (1; 2; 5, 5 ') according to any previous claim, characterized in that in a sequence of joints (1) placed at a distance from each other substantially equal to the longitudinal dimension of the panels (3) to be installed, the upstream joint (2) can consist of a joint provided with a single cavity ( 21) open towards the valley and able to house the upper edge of a panel (3) to be installed downstream, the through holes (101) of said joint (2) further upstream being covered with the covering elements (4) covering the remaining parts of the roof.