NL2012070C2 - PREFABRICATED ROOF ELEMENT WITH AT LEAST ONE SOLAR PANEL, CONSTRUCTION WORK AND METHOD. - Google Patents

Description

Brief indication: Prefabricated roof element with at least one solar panel, structure and method

Description

The invention relates to a roof element with at least one solar panel, the roof element comprising: a substantially rectangular, plate-shaped insulating unit; and a mounting system for a solar panel mounted on the insulating unit. Solar panels refer to photovoltaic as well as photothermal panels. The invention further relates to a building with such roof elements and a method for placing solar panels on a building.

Such a roof element is known from EP 2 138 647 A1, which describes a mounting system for photovoltaic panels, which is provided on an insulating plate. The mounting system comprises a raised edge that is glued to the insulation plate.

It has been found that placing the known prefabricated roof elements on a building is relatively cumbersome, due to the relative vulnerability of the roof elements.

The present invention has for its object to provide an improved roof element with at least one solar panel, which is preferably easy to handle and can be placed on a roof.

To this end, the present invention provides a roof element according to claim 1. The roof element according to the present invention is a prefabricated roof element with at least one solar panel. The roof element comprises a substantially rectangular, plate-shaped insulating unit and a mounting system for a solar panel mounted on the insulating unit. The mounting system comprises an elongated main profile attached near an edge of the insulating unit, as well as a further elongated main profile secured near a further edge of the insulating unit located opposite the edge. The mounting system comprises at least one traverse profile extending between the main profile and the further main profile. The main profile comprises a support profile part and the further main profile comprises a further support profile part. The support profile part and the further support profile part define a panel support surface. The roof element further comprises one or more solar panels placed on the panel support surface and fixed with the mounting system. The main profile comprises a fastening profile part extending along the edge of the insulating unit with a profile leg extending substantially transversely of the panel support surface in a direction towards the insulating unit. The further main profile comprises a further fixing profile part extending along the further edge of the insulating unit with a further profile leg extending from the further main profile transversely of the panel support surface in a direction away from the insulating unit.

The profile leg and the further profile leg are substantially similar to each other, and adapted to each other, so that they can be used for attaching roof elements placed side by side to each other. The further profile leg extends substantially in a similar but opposite direction to the profile leg. During the placement of a first and a second roof element according to the invention next to each other, these are aligned relative to each other by means of the uniform profile legs. The profile leg of the main profile of the first roof element, which is already present on the roof, for example, is brought into engagement with the further profile leg of the further main profile of the second roof element by bringing it into contact with each other. By placing the profile parts of the roof element next to each other, the roof elements are aligned relative to each other. A simple alignment of the roof elements is hereby possible, which leads to a quick and simple placement of the prefabricated roof elements with at least one solar panel on a building. In addition, the adjacent roof elements according to the invention form such a seal of the roof of the building. It has further been found that the sturdiness of a roof element including the solar panel according to claim 1 is relatively great, in particular so strong that the roof element as a whole can be lifted and placed on a building structure. The roof element can hereby be prefabricated in advance, and then simply be placed on the structure, such as a roof, whereby a minimum of additional work is required on the roof. The roof element according to the present invention is therefore easy to place on a building. The object of the present invention has thus been achieved.

The profile leg preferably forms an end of the fixing profile part and the further profile leg forms an end of the further fixing profile part for a simple engagement.

The profile leg preferably extends substantially parallel to the further profile leg. When a further profile leg of a second roof element and a profile leg of a first roof element extend in parallel directions, a simple alignment of the second roof element with respect to the first roof element becomes possible. In particular, the further profile leg of a second roof element can be brought into direct contact with the profile leg of a first roof element during placing roof elements on a structure for a simple alignment of the roof elements. The further profile leg and the profile leg are preferably elongated for providing a simple, mutual engagement, as well as for a relatively large contact surface for a simple alignment and sturdy construction. The profile leg and the further profile leg preferably extend over the full length of the insulating unit.

In one embodiment, the profile leg and / or the further profile leg extends substantially at an angle with respect to the normal of the panel support surface. This angle is in particular between 0 and 20 degrees. This angle results in a limited tilt of the (further) profile leg relative to the normal on the surface of the panel support surface. This angle allows a simple alignment of the main profile of a first roof element with respect to the further main profile of a second roof element. During its placement, the roof elements are so self-aligning relative to each other due to their angle.

In an alternative embodiment, the profile leg extends substantially at an angle with respect to the normal of the panel support surface, which angle is between 0 and 20 degrees, the further profile leg extending substantially transversely of the panel support surface. The further profile leg is substantially L-shaped. The L-shape makes it easy to place and attach roof elements to each other. The L-shape of the further profile leg is preferably square.

In an advantageous embodiment, the fixing profile part and the further fixing profile part have a tapered shape. Gravity can be used to align the main profiles of different roof elements. It is possible to design the main profiles in such a way that when the roof elements are placed they are self-aligning. Due to the tapered shape of the fixing profile parts, the roof elements are pulled towards each other as it were when they are placed on a sloping roof. For this purpose, the profile leg can form part of a tapered part of the main profile. The tapered shape thus corrects any irregularities and tolerances that are present in the isolation unit.

In one embodiment, at least one of the profile leg or the further profile leg extends beyond the edge or the further edge of the insulating plate element. In the condition of the roof elements placed on a building, the further profile leg of a second roof element slopes in the direction of the main profile of a first roof element and / or the profile leg in the direction of the further main profile. The profiled leg and the further profiled leg are thus inclined in each other's direction. When a roof element is placed, the profile leg of this roof element can thus engage the further profile leg of a roof element that has already been placed.

In one embodiment, the insulating unit comprises an insulating core element, as well as a plurality of stiffening elements surrounding the core element. The core element is formed from an insulating material, preferably expanded polystyrene (EPS), rock wool, glass wool or other types of stiffened insulation elements, and provides thermal and acoustic insulation to the roof element. The stiffening elements can be in the form of stiffeners integrated in the insulating unit, such as elongated beams of, for example, wood. The stiffening elements are preferably provided on edges of the core element. The stiffening elements increase the strength of the insulating unit, making it easy to handle and tilt without the risk of damage. Such an insulating unit is sturdy and the mounting system can easily be mounted on it.

In one embodiment the insulating unit comprises two plates provided on either side of the core element, which plates extend substantially parallel to the panel support surface. One plate is preferably formed from chipboard with, for example, green foil and / or diamond pattern and the other plate from a plasterboard. Other known embodiments of insulating units can also be used in combination with the roof element according to the present invention. Such an insulating unit is generally known per se.

The main profile and / or the further main profile comprises and / or comprise, in an embodiment seen in cross-section, a U-shaped gutter profile part, wherein the gutter profile part is placed under the panel support surface for draining off moisture. In a further embodiment the cross-sectional profile comprises a U-shaped channel section part viewed in cross-section. The trough profile part is preferably integrally formed with the (further) main profile or the traverse profile. After placement on a structure, moisture from, for example, condensation and / or rain water, which can penetrate into the roof element in the event of possible problems, can easily be drained off through the gutter profile parts. In particular, the gutter profile parts in the (further) main profile and the traverse profile are adapted to cooperate to drain water.

An aspect of the invention relates to a building structure, comprising a first roof element according to the present invention, as well as a second roof element according to the present invention, placed next to it, wherein the profile leg of the second roof element is placed on or near the further profile leg of the first roof element and, in particular, is in contact with it. A first and second roof element can be simply aligned with respect to each other by engaging the further profile leg of the further main profile of the second roof element with the profile leg of the main profile of the first roof element.

The profile leg is preferably connected to the further profile leg by means of a fastening member. In a further embodiment, the fixing member is also connected to a purlin of the building. In particular, the fastening member is designed as a screw for fast and simple fastening of the main profiles.

In one embodiment, each of the insulating units of the two adjacent roof elements of a building are in contact with each other. During the placing of the roof elements on the building structure, the insulating unit of the first roof element is preferably placed in the longitudinal direction next to the insulating unit of the second roof element, wherein the profile leg and the further profile leg engage for a simple alignment of the roof elements.

In addition, the insulating units form such a continuous, insulating layer, which increases the insulation value of the building.

Preferably, an insulating, elastic sealing element is provided between the insulating units of the two adjacent roof elements of a structure. The closing element preferably forms an airtight connection between the insulating units. For a simple placement of the closing element, it can be designed as a foam tape, in particular a self-adhesive foam tape. Such a closing element makes it easy to connect the insulating units to each other in an airtight manner. In addition, the presence of the closing element increases the insulation value of the building. The closing element is such that it is able to absorb any expansion and shrinkage of at least the insulating unit.

In one embodiment, a cover element is provided between the solar panels of the two adjacent roof elements. The cover element protects the panels. In addition, the cover element closes off any opening between the panels, as a result of which no moisture or dirt can end up between the panels.

An aspect of the invention relates to a method for placing solar panels on a building, which comprises the steps of: providing a first roof element according to the present invention; providing a second roof element according to the present invention; placing the first roof element on the structure; placing the second roof element on the structure next to the first roof element. The profile leg of the second roof element is placed on or near the further profile leg of the first roof element, and is in particular in contact with it. Such a building can be provided with roof elements with solar panels in a simple and effective way. The profile leg and the further profile leg thereby engage each other for a simple alignment of the roof elements.

The invention will be explained in more detail below with reference to a few figures, in which:

Figure 1 shows a cross section of a roof element placed on a building structure according to an embodiment of the present invention;

Figure 2 shows a cross-section of a series of roof elements placed on a building structure according to a further embodiment of the present invention;

Figure 3 shows a cross section of a main profile (a) according to an embodiment of the present invention and a further main profile (b) according to a further embodiment of the present invention;

Figure 4 shows a cross-section of the traverse profile according to the present invention with (a) and without (b) solar panels;

Figure 5 shows a cross-section of a roof element (a) and the traverse profile (b) provided with a hoisting element according to the present invention.

Figure 1 shows a cross-section of a roof element 1 according to the present invention placed on a building structure 2. In FIG. 1, only the left and right sides of the roof element 1 are shown and the middle part of the roof element 1 is not shown for the sake of clarity. In reality, the left and right sides of the roof element 1 are placed at a greater distance from each other and the middle part of the roof element 1 extends between them. The shape of the middle part can be deduced by the horizontal lines that intersect the dotted lines perpendicularly through the area that is between the left and right side of the roof element 1 in Figs. 1 is located.

The roof element 1 in FIG. 1, seen from the bottom up, comprises an insulating unit 3, a mounting system 6 placed thereon with main profile 11a and a further main profile 11b, and solar panels 4 placed on mounting system 6. These components are explained in more detail below.

The insulating unit 3 comprises a core element 31 formed of an insulating material, preferably expanded polystyrene (EPS), rock wool, glass wool or other types of stiffened insulating elements. The insulating unit 3 is provided in an embodiment as a rectangular plate shape. Stiffening elements 33 are provided on the edges of the core element 31 for reinforcing the insulating unit 3. Preferably, an insulating unit 3 comprises four reinforcing elements 33. The reinforcing elements 33 can be designed as beam-shaped elements 33, for example of wood. Plates 35 are provided on either side of the core element 31. The lower plate 35 in FIG. 1 is formed from a plasterboard board in one embodiment, while the top board comprises chipboard. In addition, it is possible to apply additional materials, such as films or thin layers, to the plates 35 for additional protection of the core element 31 or improved insulation. When two of such insulating units 3 lie next to and against each other, an opening is provided between the insulating units 3, into which an insulating, elastic sealing element 40 can be placed. A part of the opening and the closing element 40 are visible on the right-hand side of the insulating unit 3 in FIG. 1. The closing element 40 is preferably designed as a self-adhesive foam tape 40.

On the upper plate 35 of the insulating unit 3 in FIG. 1, battens 70a, 70b are provided for mounting the mounting system 6 for a solar panel 4. The mounting system 6 comprises an elongated main profile 11a secured near an edge R of the insulating unit 3, as well as a further edge R 'located adjacent an edge R furthermore elongated main profile 11b of the insulating unit 3. The main profile 11a and the further main profile 11b are supported on the upper plate 35 of the insulating unit 3 with a U-shaped channel section part 24a, 24b for draining off moisture. The support profile parts 20a, 20b are in contact with the battens 70a, 70b of the insulating unit 3 and can be connected thereto by means of a further fixing member 63, such as, for example, the one shown in FIG. Screw 63 shown in 5a.

The height of battens 70a, 70b can vary based on the requirements of the structure 2. A greater batt height, as shown for example in Figs. 2 leads to better ventilation of the panels 4. An additional advantage of a higher height of the battens is that the roof element 1 becomes stronger. In addition, the structure 2 can also be made more aesthetic in that the panels 4 come to lie at approximately the same height as the roof tiles around them. This makes any connections easier to apply and a more aesthetic finish.

In FIG. 1, it can be seen that the U-shaped gutter profile 24a, 24b is connected to a support profile part 20a or a further support profile part 20b in the main profile 11a and the further main profile 11b, which in turn are connected to the fixing profile part 28a and the further fixing profile part 28b, respectively. The latter extend along the edge R and edge R "of the insulating unit 3, respectively. The support profile part 20a and the further support profile part 20b define a panel support surface 22 on which the solar panels 4 support.

The mounting profile part 28a comprises the profile leg 29a and a connecting profile part 27a. The substantially L-shaped connecting profile part 27a of the fixing profile part 28a is shown in FIG. 1 connected to the support profile 20a, and extending at an angle with the normal from and away from the panel support surface 22. The angle with the normal is such that the connecting profile part 27a tilts in the direction of the further main profile 11b. In FIG. 1, a part of the connecting profile part 27a, which runs parallel to the panel support surface 22, is located above the opening in the insulating unit 3, in which the closing element 40 is received.

The connecting profile part 27a is connected to a profile leg 29a extending from the main profile 11a substantially transversely of the panel support surface 22 in a direction towards the insulating unit 3. In FIG. 1, it can be seen that the connecting profile part 27a and the profile leg 29a form an inverted U-shape. The legs of the U-shape in FIG. 1 widen in the direction of the opening of the U-shape.

The U shape is shown in FIG. 1a formed by the fixing profile part 28a and the further fixing profile part 28b. The dimensions of the fixing profile parts 28a, 28b are preferably such that standard solar panels fit into the roof element 1 with their standard profiles. In particular, the width of the U-shape is formed by the fixing profile parts 28a, 28b 985 to 1001 mm. However, other widths are also possible

The further main profile 11b comprises a further fixing profile part 28b extending along the further edge R 'of the insulating unit 3. The mounting profile part 28b comprises a further profile leg 29b extending from the further main profile 11b transversely of the panel support surface 22 in a direction away from the insulating unit 3. When a plurality of roof elements 1 are placed side by side on a structure 2, the further profile leg 29b of a first roof element 1 will be located along the profile leg 29a of a second roof element 1.

In FIG. 1, above the part of the connecting profile part 27a, which runs parallel to the panel support surface 22, a cover element 50 is placed on the solar panels 4. A fixing member 60, in particular a screw 60, connects the cover element 50 with the L-shaped connecting profile part. With such a fastening member 60 the roof element 1 can be fastened to building 2 quickly and easily. The width of the cover element 50 can vary based on the width of the fixing profile parts 28a, 28b.

In one embodiment an elastic band 50d is placed between the panels 4 and the cover element 50, in particular an EPDM band 50d. The elastic band 50d leads to a good connection between the cover element 50 and the panels 4.

Furthermore, in FIG. 1, that additional channel elements 44 are supported on the U-shaped channel section part 24a, 24b, which cooperate with channel profile parts 24a, 24b for draining water.

The solar panels 4 in FIG. 1 rest on the panel support surface 22. The panels 4 in FIG. 1 are provided with a substantially flat and plate-shaped panel part 4a, as well as a panel frame 4b, which is shown in FIG. 1 extends substantially perpendicular to the plane of the panel part 4a. Such a panel frame 4b is part of the panel 5, for example in the form of an aluminum frame, which is generally provided around standard solar panels 4. It is furthermore possible to use frameless and frameless panels in a roof element 1 according to the present invention. Such frameless and frameless panels are known under the name "laminate", as well as glass-glass panels.

In an embodiment, a relatively small elevation strip (not shown) is provided between the possible panel frame 4b and the panel support surface 22. The use of such an elevation strip means that moisture or water, which may possibly penetrate the roof element 1, can be drained off via the gutter profile parts 24a, 24b and not remain stuck between the panel frame 4b and the panel support surface 22 for a long time and cause corrosion. The elevation strip is attachable by means of screws, glues, nuts and bolts and other well-known fixing techniques.

FIG. 1 illustrates a single roof element 1 according to the present invention placed on a structure 2. When placing a plurality of roof elements 1 on a structure 2, a second roof element 1 will be placed next to this first roof element 1 on the further profile leg 29b of the first roof element 1 (on the left-hand side in Fig. 1). The second roof element 1 is positioned such that the further profile leg 29b of the first roof element 1 is received in the U-shape, which is formed by the fastening profile part 28a of the second roof element 1. The second roof element 1 is then aligned by the profile leg 29a of the second roof element 1 along the further profile leg 29b of the first roof element 1. Subsequently, a cover element 50 is placed above the opening between the panels 4, after which a fastening member 60 is inserted into a roof element 1. The fastening member 60 is preferably inserted at the fastening profile part 28a into a purlin 2a of the structure 2. When the fastening member 60 is arranged between two adjacent roof elements 1, the fixing member 60 can protrude through the insulating unit 3 into the purlin 2a. At a free end of a roof element 1, such as on the right-hand side of FIG. 1, the fixing member 60 can be provided by the fixing profile part 28a along the insulating unit 3 into the purlin 2a. The roof element 1 according to the present invention can be used for new construction, but also for renovation of a building 2. During renovation it is possible to remove the roof tiles and tile battens already present on the building 2, so that the roof elements 1 between any remaining roof tiles on the building roof can be fitted. The roof elements 1 can be used in such a way as renovation elements, wherein the roof elements 1 according to the present invention are placed as prefabricated on a structure 2, and can also be used as post-insulation elements for homes and utility buildings and factory buildings.

FIG. 2 shows a series of roof elements 1 after placement on a structure 2 according to an alternative embodiment of the present invention. The series of roof elements 1 in FIG. 2 is formed by a left roof element 1, of which only the right side is shown in FIG. 2, a middle roof element 1, of which in FIG. 2 are shown on the left and right and whose center part has been removed for better perspective, as represented by the vertical dotted lines, and a right roof element 1, of which only the left is shown in FIG. 2. All roof elements 1 in Fig. 2 are identical. The main profile 11a is essentially designed as in FIG. 1, with the exception of a vertically running part of the fixing profile part 28a, as can be seen in the inserted magnification at the bottom right in FIG. 2. The mounting profile part 28a The further main profile 12b is provided with a further profile leg 29b, which is L-shaped (and shown in the enlargement inserted at the bottom left in Fig. 2). One leg of the L-shape of the further profile leg 29b extends transversely to the panel support surface 22, the other leg of the L-shape extending parallel to the panel support surface 22. Both the fastening element 28a and the further fastening element 28b comprise such a part that is parallel to the panel support surface 22 for a simple fastening of the main profile 11a with the further main profile 11b by means of the fastening member 60.

FIG. 3a shows a cross section of a main profile 11a according to the alternative embodiment of the present invention shown in FIG. 2 and FIG. 3b shows a further main profile 11b according to the alternative embodiment of the present invention shown in FIG. 2. In FIG. 3a shows the angle α which the profile leg 28a makes with the normal of the panel supporting surface 22. As already described, other forms of the fixing part 28a are also conceivable, such as, for example, a U-shape, in particular a widening U-shape, as shown in Figs. 1.

FIG. 3b shows a further main profile 11b according to an embodiment according to the present invention, which is shown, for example, in FIG. 2. Herein, the further fixing profile 28b is embodied as a right-angled L-shape. This L-shaped embodiment makes it possible to accommodate relatively wider panels 4 in the roof elements 1.

In FIG. 4a and b, a cross-section of the cross-section profile 12 according to the present invention can be seen. The cross-sectional profile 12 comprises a U-shaped channel section part 55, viewed in cross-section, which runs substantially in one direction, transversely of the longitudinal direction of the main profiles 11a, 11b. The traverse profile side parts 12a of the U-shaped channel section part 55 in FIG. 4a and 2b are L-shaped. Such a traverse profile 12 can easily be manufactured by means of, for example, extrusion and forms a sufficiently strong support for the panels 4.

In FIG. 4a, the traverse profile side parts 12a are included in the solar panels 4. The panels 4 can be pre-mounted on the traverse profile 12 for forming the prefabricated roof element 1. Particularly advantageous of a roof element 1 according to the present invention is that the panels 4 after placement of the roof elements 1 on a building 2 are replaceable and removable for possible repair and inspection.

In the middle of the trough section part 55 a cross-sectional section part 12b is provided, which extends substantially perpendicularly from the bottom of the trough section part 55. The traverse profile part 12b in FIG. 4a and 4b can be in the form of an elongated beam 12b or a tube 12b. After the cross-section profile part 12b has been mounted on the gutter profile part 55, they are attached to the insulating unit 3 by inserting a screw or other fixing element through the cross-section profile part 12b and the gutter profile part 55 into the battens 70a, 70b and the stiffening elements 33. Such it is possible to hoist the roof element 1 with the insulating unit 3 by connecting the traverse profile parts 12b to a hoisting element 80. On either side of the traverse profile part 12b, FIG. 4a panels 4 provided. The panels 4 are provided on their opposite sides with a further panel frame 4d. These further panel frames 4d are at least partially included in the U-shaped channel section part 55.

A further cover element 50a is provided on the panel 4 and above the cross section profile part 12b. The further covering element 50a is held on the panels 4 by means of a fastening means 65, for example a screw 65. It is possible to glue the further cover element 50a with the panels 4, in particular with the further panel frame 4d, as represented by the adhesive layer 50c in FIG. 4a. In addition, an elastic band 50b, such as an EPDM band, can be provided between the further cover element 50a and the panels 4. The panels 4 are held between the cover element 50a and the U-shaped channel section part 55 in such a way. It is further conceivable, where cover elements 50, 50a intersect or overlap, to provide such a kit on the cover elements 50, 50a and optionally the panels 4 for providing a watertight seal. The cross-section profile part 12b is preferably made so sturdy that it is possible to hoist the roof elements 1 by means of an engagement of the cross-section profile parts 12b. A hoisting element 80 provided for this purpose is shown in FIG. 5.

In FIG. 4b a traverse profile 12 can be seen without panels 4.

FIG. 5a shows a roof element 1 provided with a hoisting element 80. The roof element 1 according to the present invention is so sturdy that it can easily be placed in its entirety on a structure 2. By means of hoisting elements 80 which are provided releasably on the roof element 1, it is possible to transport the roof element 1 simply and quickly to the roof of a building 2. In FIG. 5b, it can be clearly seen that the hoisting element 80 engages in the cross-section profile 12, in particular in the cross-section profile part 12b. A rod 80b of the hoisting element 80 extends substantially perpendicular to the panel support surface 22 and ends in a hoisting eye 80a. Preferably a plurality of hoisting elements 80 are provided on the roof element 1 for increased security during hoisting of the roof element 1. The roof element 1 is furthermore so strong that it can also be hoisted by means of other techniques, such as for instance hoisting with suction cups on the glass , which is common when lifting and placing glass. This robustness is achieved by the combination of main profiles 11a, 11b and traverse profiles 12 according to the present invention. In one embodiment, it is possible to secure the hoisting element 80 during hoisting.

It will be apparent to those skilled in the art that the invention has been explained above with reference to a few preferred embodiments. However, the invention is not limited to these embodiments. The requested protection is determined by the following claims.

Claims (21)

A prefabricated roof element (1) with at least one solar panel, the roof element (1) comprising a substantially rectangular, plate-shaped insulating unit (3), and a mounting system (6) for a solar panel (4) mounted on the insulating unit, the mounting system (6) comprises an elongated main profile (11a) secured near an edge (R) of the insulating unit (3), as well as a further elongate (R ') of the insulating unit (3) located adjacent an edge (R) opposite the edge (R) main profile (11b), wherein the mounting system (6) comprises at least one traverse profile (12) extending between the main profile (11a) and the further main profile (11b), the main profile (11a) comprising a support profile part (20a), and wherein the further main profile (11b) comprises a further support profile part (20b), the support profile part (20a) and the further support profile part (20b) defining a panel support surface (22), the roof element (1) furthermore one or more on the panel support The solar panels (4) are located in the surface (22) and fixed with the mounting system (6), the main profile (11a) comprising a mounting profile part (28a) extending along the edge (R) of the insulating unit (3) the main profile extending substantially transversely to the panel support surface (22) in a direction to the insulating unit (3), and wherein the further main profile (11b) is a profile leg (3) extending along the further edge (R ') of the insulating unit (3) extending further mounting profile part (28b) having a further profile leg (29b) extending from the further main profile (11b) transversely to the panel support surface (22) in a direction away from the insulating unit (6). Roof element (1) according to claim 1, wherein the cross-sectional profile (12) comprises a U-shaped channel section part (55) viewed in cross-section. Roof element (1) according to one of the preceding claims, wherein the cross-section profile (12) comprises at least one, preferably hollow and beam-shaped, cross-section profile part (12b) for hoisting the roof element (1) by means of a hoisting element (80 ). Roof element (1) according to one of the preceding claims, wherein the profile leg (29a) extends substantially parallel to the further profile leg (29b). Roof element (1) according to one of the preceding claims, wherein the profile leg (29a) and / or the further profile leg (29b) extend substantially at an angle (a) with respect to the normal of the panel supporting surface (22), which angle (a) is between 0 and 20 degrees. Roof element (1) according to one of claims 1 to 3, wherein the profile leg (29a) extends substantially at an angle (a) with respect to the normal of the panel supporting surface (22), which angle (a) is between 0 and 20 degrees, and wherein the further profile leg (29b) extends substantially transversely to the panel support surface (22). Roof element (1) according to one of the preceding claims, wherein the further profile leg (29b) is substantially L-shaped, preferably as a right-angled L-shaped. Roof element (1) according to one of the preceding claims, wherein at least one of the profile leg (29a) or the further profile leg (29b) extends beyond the edge (R) or the further edge (R ') of the insulating unit (3) extends. Roof element (1) according to one of the preceding claims, wherein the insulating unit (3) comprises an insulating core element (31) and a plurality of reinforcement elements (33) surrounding the core element (31). Roof element (1) according to claim 9, wherein the reinforcement elements (33) are provided on edges of the core element (31). Roof element (1) according to claim 9 or 10, wherein the insulating unit (3) comprises two plates (35) provided on either side of the core element (31), which extend substantially parallel to the panel support surface (22). Roof element (1) according to claim 11, wherein one or more of the plates (35) is a chipboard or a plasterboard. Roof element (1) according to one of the preceding claims, wherein the main profile (11a) and / or the further main profile (11b), viewed in cross-section, comprises a U-shaped gutter profile part (24a, 24b), respectively, wherein the gutter profile part ( 24a, 24b) is placed under the panel support surface (22) for draining moisture. Building (2), comprising a first roof element (1) according to one of the preceding claims, as well as a second roof element (1) placed next to it according to one of the preceding claims, wherein the profile leg (29a) of the second roof element (1) is placed on or near the further profile leg (29b) of the first roof element (1), and in particular is in contact with it. The structure (2) according to claim 14, wherein the profile leg (29a) is connected to the further profile leg (29b) by means of a fixing member (60). The structure (2) according to claim 15, wherein the fixing member (60) is also connected to a purlin (2a) of the structure (2). The structure (2) according to one of claims 14 to 16, wherein each of the insulating units (3) of the two adjacent roof elements (1) are in contact with each other. The structure (2) according to one of claims 14 to 17, wherein an insulating elastic closing element (40) is provided between the insulating units (3) of the two adjacent roof elements (1). The structure (2) according to one of claims 14 to 18, wherein the insulating elastic closing element (40) is attached to the fastening profile parts 28a, 28b placed alongside each other by means of an additional fastening member (60) for an additional connection of the mounting profile parts 28a, 28b. The structure (2) according to one of claims 14 to 19, wherein a cover element (50) is provided between the solar panels (4) of the two adjacent roof elements. A method for placing solar panels (4) on a building (2), comprising the steps of: - providing a first roof element (1) according to one of claims 1 to 13; - providing a second roof element (1) according to one of claims 1 to 13; - placing the first roof element (1) on the structure (2); - placing the second roof element (1) on the building (2) next to the first roof element (1); wherein the profile leg (29a) of the second roof element (1) is placed on or near the further profile leg (29b) of the first roof element (1), and in particular is in contact with it.