ES2333496B1 - FRAME FOR SOLAR PANELS. - Google Patents

Abstract

Frame for solar panels.

The present invention relates to a frame for solar panels that is essentially used as a structure support and fixing of solar panels.

The frame is characterized in that it comprises the minus the following elements:

Surface attachment elements in which is the frame that have joining means about profiles that define planes parallel to the plane of the panels solar.

Profiles defining parallel planes to the plane of the solar panels attached to the elements of union to the surface comprising sliding joining means that allow the sliding of the profiles with respect to the connecting elements to the surface and means for positioning the panels solar.

The panel is formed by profiles metallic that allow the frame to be modular, enabling its adaptation to any dimension of solar panels.

Description

Frame for solar panels.

Object of the invention

The present invention relates to a frame for solar panels. The frame object of the invention is used essentially as a support and panel fixing structure solar.

The frame is characterized in that it comprises the minus the following elements:

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Support elements that comprise joining means to the surface on which the frame is placed and joining means to profiles that define planes parallel to the plane of solar panels.

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Profiles that define planes parallel to the plane of the solar panels attached to the elements support comprising sliding joining means that allow the sliding of the profiles with respect to the support elements and means for positioning solar panels.

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The previous configuration is formed by profiles and generally metallic elements that allow the frame is completely modular, allowing its adaptation to any dimension of solar panels, having means that maximize their performance.

Background of the invention

Racks intended for support and fix solar panels.

These racks are normally formed in base to metal profiles, in such a way that they support Structural solar panel. In addition to their structural function the Racks allow to position the panels with the inclination Suitable to maximize your performance.

However, the racks known until the moment they are manufactured based on the specific type of solar panel that they support and the requirements of optimum performance of the same. What drift in that each frame is made specifically for a type of concrete solar panel and a concrete application of it.

The frame object of the present invention It has a fully modular system, based on profiles, generally metallic, which have joining means that allow its configuration depending on the dimensions of the solar panel or panels to support and its optimum requirements performance. In addition to the above advantages, the fact that it is formed by profiles and metal elements makes its assembly simplify so that it is only necessary to cut the profiles according to the appropriate dimensions and assemble them, decreasing in this way also the transport cost associated with it.

Therefore, it allows to minimize costs, as well as  offer a product fully adaptable to the requirements of solar panels intended to be located on it.

Description of the invention

The frame for solar panels object of the invention is formed by a set of profiles and elements, generally metallic, which are arranged joined together by means of union that allow to provide both modularity as of total adaptability to the dimensions of the panels to be placed on it allowing also to place the solar panels so that their performance is maximized.

The modularity of the frame allows all these operations to be carried out during the on-site assembly of the frame with the advantages that this entails.

The frame object of the invention comprises essentially the following elements:

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Support elements they own surface attachment means on which the frame is placed and that have means for joining profiles that define planes parallel to the plane of the solar panels.

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The different embodiments of the elements union support allow the situation of the frame on different surface types, allowing to reach for all types of surface optimal panel performance conditions solar.

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Profiles that define planes parallel to the plane of the solar panels attached to the elements support comprising sliding joining means that allow the sliding of the profiles with respect to the support elements and means for positioning solar panels.

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In this way it is achieved that the profiles do not have  junction points with surface bonding elements in concrete positions but that the union can be realized in any point of the profiles thus achieving a frame fully modular

Description of the drawings

This descriptive report is complemented, with a set of drawings, illustrative of the preferred example and never Limitations of the invention.

Figure 1 is a schematic representation in  perspective of an embodiment of the frame object of the invention, which allows the situation of at least two panels solar.

Figure 2 is a schematic representation in  a partial side view of the embodiment frame preferred figure 1.

Figure 3 is a schematic section of a possible preferred embodiment of the longitudinal profile corresponding to the embodiment of figure 1.

Figure 4 is a schematic representation in  side view of another preferred embodiment of the frame of the Figure 1.

Figure 5 is a schematic representation in  side view of a preferred embodiment of the invention in the which the frame for solar panels object of the invention is It is located on a forged tile roof.

Figure 6 is a schematic representation in  side view of a preferred embodiment of the invention different from that shown in figure 5 in which the frame for solar panels object of the invention is located on forged on a tile roof.

Figure 7 is a schematic representation in  side view of a preferred embodiment of the invention in the which the frame for solar panels object of the invention is placed on a trapezoidal roof.

Figure 8 is a schematic representation in  side view of another preferred embodiment other than the depicted in figure 7 of the invention in which the frame for solar panels object of the invention is placed on a roof trapezoidal

Figure 9 is a schematic representation in  side view of an embodiment of the invention in which they have means that allow to adjust the angle of inclination Regarding the surface of the solar panels.

Figure 10 is a schematic representation in side view of an embodiment of the invention different from the shown in figure 9 in which means are provided that allow adjust the angle of inclination of the solar panels with respect to the surface.

Figure 11 is a schematic representation of an embodiment of the invention in which means are provided that allow you to adjust the orientation of the solar panels.

Preferred Embodiment of the Invention

An embodiment of the  solar panel rack. The frame can be anchored on a concrete base (1.2), on which they are anchored, with possibility of leveling and plumbing, the support elements (2) of the frame. In this embodiment the support elements (2) they consist of profiles that have means of joining the concrete base (1.2) consisting of perforated plates (2.6).

About the support elements (2) are placed longitudinal profiles (3), on which some are placed cross sections (4) between which the solar panels (5).

The longitudinal profiles (3) comprise sliding attachment means to the support elements (2) that allow longitudinal sliding with respect to them (2) and sliding means longitudinally to the profiles transversal (4).

The cross sections (4) comprise also transversely sliding joining means so that allow transverse sliding thereof (4) with respect to the longitudinal profiles (3) also have means for the positioning of the solar panels (5).

In the embodiment shown in Figure 1 the sliding connecting means between the support elements (2) and the Longitudinal profiles (3) comprise a guide / sliding mechanism. In this embodiment this mechanism is carried out by means of the combination of a guide housing in the longitudinal profile (3) and a sliding element integral with the support elements (2).

In the embodiment shown in the figures the longitudinal profiles (3), see figure 3, have guide accommodations (3.1, 3.2).

The sliding element consists of a plate (6), see figure 2, which can slide in the guide housing (3.2) of the longitudinal profiles (3). This plate (6) is has attached to the corresponding support element (2). In the preferred embodiment this connection is made by screws threaded to the plate (6).

Also the union between the profiles Longitudinal (3) and transverse profiles (4) is sliding both longitudinally and transversely. In the realization This union is preferably performed in the same manner as the union between the support elements (2) and the longitudinal profiles (3), that is, by combining a guide housing (3.1) in the longitudinal profile (3) and a slide integral to the profile transversal (4).

For this, the sliding part is placed in a guide housing (3.1) of the longitudinal profile (3) and the slide it is again a plate (6) that is introduced into the housing guide (3.1) and which is attached to the cross section (4) so which allows the displacement of the latter (4) longitudinally of the longitudinal profile (3).

In addition the cross sections (4) comprise  also means of connection with the longitudinal profiles (3) that allow transverse sliding between both profiles (3, 4).

In the preferred embodiment, these sliding connection means are also carried out by means of a guide / co-mechanism.
watering For this, the transverse profiles (4) comprise on their side walls two guide housings (4.1), see Figures 2 and 4, the slide being in this case an essentially L-shaped piece (7) that has a flange (7.1) that is introduced into the guide housing (4.1). This piece essentially shaped in "L" (7) is arranged attached to the longitudinal profile (3). In the preferred embodiment, this connection is made by means of the intermediate plate (6) through bolted joints.

The cross sections (4) also have of means that allow the location of the ends of the panels solar (5). These means may consist of:

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In the preferred embodiment shown in figure 2 in a "T" shaped extension (4.2) in which the solar panel (5) is housed. This type of profiles transverse (4) has a great advantage in the assembly, since allow solar panels (5) to be fitted between transversal profiles (4) with these positioned and fixed, without need to manipulate any of the unions screwed

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In the preferred embodiment shown in figure 4 the means for positioning the solar panels (5) comprise additional broken parts (4.3, 4.4) that together with the transverse profile (4) perform the positioning and clamping of solar panels (5).

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In figures 5 and 6 two are represented possible embodiments of the object of the invention in which the frame is placed on a floor (1.3) on a tile roof (1.1). In these embodiments the support elements (2) comprise some broken pieces that join the floor (1.3) and that draw and allow the fixing of the tiles (1.1).

This assembly also includes the combination of  longitudinal profiles (3) and transverse profiles (4) by the sliding joining means used in the embodiments described above, comprising the combination of a guide housing in the longitudinal profile (3) and one piece slide attached to the support elements (2). In the realization This connection is preferably made using threaded screws to the sliding piece.

An embodiment is shown in Figure 5 preferred in which the transverse profile (4) has a extension in the form of "T" (4.2) in which it is housed in solar panel (5).

In figure 6 another embodiment is shown in  which the transverse profiles (4) comprise a union to the longitudinal profiles (3) same as those represented in figures above, while the positioning means of solar panels (5) comprise additional broken parts (4.3, 4.4), which in combination with the transverse profile (4), performs positioning and clamping of solar panels (5).

Figures 7 and 8 show other preferred embodiments in which the frame is mounted on a trapezoidal roof (1.4). In this case the support elements (2) of union to the trapezoidal roof (1.4) comprise a piece articulated whose connection means with the trapezoidal roof (1.4) they comprise a perforated plate (2.6).

In these embodiments the profiles that define planes parallel to the plane of the solar panels consist only in cross sections (4). These profiles transversal (4) comprise sliding connecting means for the sliding of the same (4) with respect to the support elements (2). In the preferred embodiment shown in the figures it consists, as in the previous cases in a mechanism guide / slide. Specifically the cross section (4) comprises a guide housing (4.5) in which the slide is introduced which It consists of a head (2.8) of the perforated plate (2.6).

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The transverse profile (4) provides, as in the previous embodiments, of means for fastening the panels solar (5). These means consist of the embodiment shown in Figure 7 in a "T" shaped extension (4.2) or according to the embodiment shown in figure 8, in broken pieces (4.3, 4.4) that in combination with the transverse profile (4) perform the solar panel lift (5).

In the case where the support elements (2) are profiles, as in the cases shown in figures 1, 2 and 4, they may have means that regulate the inclination of the solar panels (5).

For this, the support elements (2) comprise means at their ends that allow to regulate the inclination of the same (2) and therefore the profiles (3, 4) to those who are anchored In the preferred embodiment these means consist of the combination of a "U" shaped piece (8) that hugs the support element (2) joining it (2) so that it (2) can pivot with respect to the piece in the form of "U" (8). The piece, in the form of "U" (8) joins the support element (2) by means of a guide / sliding mechanism, so that in the embodiment preferably the support element (2) comprises at least two guide housings (2.10), in which a plate (6) that is attached to the piece in the form of "U" (8).

These same means can be used for attachment of the support element (2) to the longitudinal profiles and cross sections (3, 4) supporting the solar panel (5).

An embodiment is shown in Figure 10 preference of the support element (2) in which others are represented embodiments that allow the inclination regulation of the solar panels (5). The support element (2) of the embodiment Preferred comprises at least one base profile (2.1) that in position operational is attached to the surface on which it is installed the solar panel (5) and a second inclined profile (2.2) on which the anchorage of the longitudinal profiles would be performed and transverse (3, 4) that support the solar panel (5). Between both base and inclined profiles (2.1, 2.2) at least one bolt is placed (2.3) axis essentially parallel to the floor on which it is placed the frame that has means for joining both the base profile (2.1) as to the inclined profile (2.2) so that a kind of hinge between both elements (2.1, 2.2) that allows to adjust the inclination.

The means that allow the bolt to join (2.3)  both base and inclined profiles (2.1, 2.2) comprise some clamp parts (2.4) that hug the axle pin (2.3) essentially parallel to the floor that have holes through which are introduced asparagus (2.4.1) of union to both base and inclined profiles (2.1, 2.2). These media are presented both for the base profile (2.1) and for the inclined profile (2.2).

In the preferred embodiment shown in the Figure 11 the support element (2) also has means that allow the regulation of the orientation of the profiles longitudinal and transverse (3, 4) solar panel support (5). These means also comprise a bolt (2.5) whose axis is located essentially vertically so that it allows the turn around a vertical axis. The means of union are the same as in the case of tilt adjustment. He essentially vertical bolt (2.5) is attached to bolt (2.3) of axis essentially parallel to the floor by means of pieces clamps (2.4) that hug the essentially vertical bolt (2.5) which have holes through which some are introduced asparagus.

It is also possible as represented in Figure 1 that the support feet have a base profile (2.1) which is inclined with respect to the surface on which it Install the rack.

Claims (30)

1. Frame for solar panels, characterized in that they comprise at least the following elements:

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Support elements (2) that they comprise means for joining the surface on which the  frame and joining means to profiles that define planes parallel to the plane of the solar panels (5).

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Profiles that define planes parallel to the plane of the solar panels (5) attached to the support elements (2) comprising sliding joining means that allow the sliding of the profiles with respect to the support elements (2) and means for positioning the solar panels (5).

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2. Frame for solar panels according to claim 1, characterized in that the means for joining the surface of the support elements (2) comprise an articulated piece whose means for joining with the surface comprise a perforated plate (22.6). 3. Frame for solar panels, according to claim 2, characterized in that the sliding connection means of the articulated part with respect to the profiles comprise a guide / sliding mechanism. 4. Frame for solar panels according to claim 3, characterized in that the profile comprises a guide housing (4.5) into which the slide consisting of a head (2.8) of the plate (2.6) is inserted. 5. Frame for solar panels, according to claim 1, characterized in that the support elements (2) comprise broken pieces that are joined to the floor (1.3) and that draw and allow the fixing of the tiles (1.1). 6. Frame for solar panels according to claim 1, characterized in that the support elements (2) comprise profiles that have perforated plates (2.6) as a means of joining the surface on which the frame is located. 7. Frame for solar panels according to claim 6, characterized in that the support elements (2) comprise means for regulating the inclination of the profiles defining planes parallel to the solar panel (5). 8. Frame for solar panels according to claim 6, characterized in that the support elements (2) comprise a base profile (2.1) which is operatively positioned attached to the surface on which the solar panel (5) is installed and a second inclined profile (2.2) on which the anchoring of the profiles (3, 4) that support the solar panel (5) would be carried out. 9. Frame for solar panels according to claims 7 and 8, characterized in that the means for regulating the inclination of the profiles (3, 4) comprise an axis bolt (2.3) essentially parallel to the floor on which the frame is located which has means for joining both the base profile (2.1) and the inclined profile (2.2) so that a hinge is made between both elements (2.1, 2.2), which allow the inclination to be adjusted. 10. Frame for solar panels according to claim 9, characterized in that the means that allow the union of the shaft bolt (2.3) essentially parallel to the floor on which the frame is placed to both base and inclined profiles (2.1, 2.2) comprise clamp pieces (2.4) that hug the bolt (2.3) that have holes through which studs (2.4.1) are introduced. 11. Frame for solar panels according to claim 7, characterized in that the means for adjusting the inclination of the solar panels (5) comprise the combination of a "U" shaped piece (8) that hugs the support element (2). ) joining it (2) so that it can pivot with respect to the "U" shaped piece (8). 12. Frame for solar panels according to claim 11, characterized in that the "U" shaped part (8) is connected to the support element (2) by a guide / sliding mechanism. 13. Frame for solar panels according to claim 12, characterized in that the support element (2) comprises at least two guide housings (2.10), in which a plate (6) is inserted which is arranged attached to the piece in the form of "U" (8). 14. Frame for solar panels according to claim 6, characterized in that the support elements (2) have means that allow the regulation of the orientation of the support profiles of the solar panels (5). 15. Frame for solar panels according to claims 9 and 14, characterized in that the means comprise a bolt (2.5) located essentially vertically so as to allow rotation about a vertical axis. 16. Frame for solar panels according to claim 15, characterized in that the bolt (2.5) located essentially vertically is connected to the shaft bolt (2.3) essentially parallel to the floor on which the essentially horizontal frame (2.3) is located by means of clamp pieces (2.4) that hug the bolt (2.5) located essentially vertically that have holes through which studs with nuts are introduced. 17. Frame for solar panels according to claim 1, characterized in that the profiles defining planes parallel to the plane of the solar panels (5) comprise longitudinal profiles (3) and transverse profiles (4) with the longitudinal profiles (3) being connected to the support elements (2) by means of sliding joints and the transverse profiles (4) joined to the longitudinal ones (3) by means of sliding joints and having means for positioning the solar panels (5). 18. Frame for solar panels according to claim 17, characterized in that the longitudinal profiles (3) comprise longitudinally sliding joining means that allow the sliding of the longitudinal profiles (3) with respect to the support elements (2) and sliding joining means longitudinally to the transverse profiles (4). 19. Frame for solar panels according to claim 17, characterized in that the transverse profiles (4) comprise transversely sliding joining means such that they allow transverse sliding of the transverse profiles (4) with respect to the longitudinal profiles (3). 20. Frame for solar panels according to claim 17, characterized in that the sliding connection means between the support elements (2) and the longitudinal profiles (3) comprise a guide / sliding mechanism. 21. Frame for solar panels according to claim 20, characterized in that the guide profile is made of longitudinal profiles (3) comprising a guide housing (3.2). 22. Frame for solar panels, according to claim 20, characterized in that the slide comprises a plate (6) that can slide in the guide housing (3.2) of the longitudinal profiles (3) which is arranged attached to the corresponding support element (2) by means of screws that thread on the plates (6). 23. Frame for solar panels according to claim 17, characterized in that the sliding joint between the longitudinal (3) and transverse profiles (4) is carried out by combining a guide / sliding mechanism. 24. Frame for solar panels according to claim 23, characterized in that the guide profile is placed in the longitudinal profile (3) by means of a guide housing (3.1). 25. Frame for solar panels according to claim 24, characterized in that the slide is a plate (6) that is inserted into the guide housing (3.1) and disposed attached to the transverse profile (4). 26. Frame for solar panels according to claim 19, characterized in that the transverse sliding means of the transverse profiles (4) with respect to the longitudinal ones (3) comprise in their side walls a guide housing (4.1). 27. Frame for solar panels according to claim 26, characterized in that the slide comprises a piece essentially shaped in "L" (7) which has a flange (7.1) that is inserted into the guide housing (4.1). 28. Frame for solar panels, according to claim 27, characterized in that the "L" shaped part (7) is arranged connected to the longitudinal profile (3) by means of the intermediate plate (6) through screwed joints. 29. Frame for solar panels according to claim 17, characterized in that the means of the transverse profiles (4) that allow the location of the ends of the solar panels (5) consist of a "T" shaped extension (4.2). in which the solar panel (5) is housed. 30. Frame for solar panels according to claim 17, characterized in that the means of the transverse profiles (4) that allow the location of the ends of the solar panels (5) comprise a broken additional piece (4.4) which in combination with the transversal profile (4) performs the positioning of the solar panels (5).