BE1020464A5 - ROOF PLATE, METHOD FOR INSTALLING, ROOF COVER, ROOF AND BUILDING. - Google Patents

Description

Roof plate, method for placing this, roof covering, roof and building

The invention relates to a roof plate, in particular a roof plate provided with a mounting for solar cells. The function of roofing sheets is to cover the roof of a building, so that protection is provided against wind and rain. This particularly concerns pitched roofs.

It is known from practice to use roof tiles for covering a roof. For this purpose, a roof boarding is placed on a supporting part of the roof, for example purlins or rails, for windproof sealing of the roof. Above the roof boarding are the pan battens on so-called battens. Roof tiles are placed on the battens by hooking them behind, the roof tiles being held in place by their own weight.

A disadvantage of roof tiles is that it is very labor intensive to install. It is not only placing the roof tiles themselves that is labor-intensive, but it also takes a lot of time to place the substructure, such as the roof boarding, the battens and panes. Moreover, these different activities are often carried out by different companies, which means that it costs relatively much time and money.

An object of the invention is to remedy or reduce the above problem and to provide an effective and efficient roofing sheet.

This object is achieved with the roof plate according to the invention, with a first end that can be attached to a first profile and a second end that can be placed on a first end of an adjacent roof plate resting on a second profile, in which the roof plate is provided with a fastener for solar cells.

For example, the first end is attachable by means of a nail, screw or bolt and nut. In a presently preferred embodiment, the first end is attachable by means of a clamp attachment. With a clamping fixation, no holes need to be made in the roof plate. Moreover, the attachment is easy to release.

Because the roof plate is in use attached with a first end to a first profile, blowing up of the roof plate is prevented. It is noted here that this differs from roof tiles which, although hung on the battens, are not attached and can therefore blow up.

Moreover, the mounting makes it possible to cover roofs with a steep roof with the roof plate according to the invention. An additional advantage is that the roof plate can be of relatively light construction, since the roof plate is not only held in place by its own weight due to the mounting.

The fact that the roof plate can be made relatively light has particular advantages during renovations. The underlying construction is not always calculated on the weight of add-on insulation material, roof plans and / or solar cells. The roof plate according to the invention can be of light design, so that it is possible to use the existing construction. This is particularly advantageous for the addition of solar cells with the aid of the attachment for solar cells.

A further additional advantage of the roof plate according to the invention is that it can be pre-mounted on a roof, such as a hinged roof or hinged roof. The confirmation makes this possible. For comparison: roof tiles must always be mounted on a roof afterwards, which is labor intensive and expensive.

The roof plate according to the invention can be prefabricated. This is efficient and cost effective.

In a further preferred embodiment, the first end comprises an angle that fits on an angle of the first profile.

Because the first end comprises an angle that fits at an angle of the first profile, it is ensured that the roof slab cannot in use be moved in the direction of the first profile. In that case, a pressure exerted on the roof plate is absorbed by the profile. This allows the roof plate to be securely attached.

For example, the first end comprises a substantially perpendicular angle; that is, the first end comprises a substantially vertical portion and a substantially horizontal portion. In use, the substantially horizontal part rests on a horizontal top side of the first profile and the substantially vertical part rests against a substantially vertical part of the first profile.

The roof plate is preferably asymmetrical, such that it can only be placed in the correct manner. This simplifies the installation.

The roof plate is preferably made of a light material, such as a suitable plastic. This provides a weight saving. Moreover, production can make use of the reuse of plastic from waste. In addition, recycling of the plastic is possible during demolition.

In a preferred embodiment according to the invention, the first end comprises a recess for receiving a clamping attachment.

By providing a recess for receiving a clamping attachment, it is prevented in use that the roof plate can be moved in a direction from the first profile to the second profile. This makes a robust attachment possible.

This is particularly advantageous in combination with the technical measure that the first end comprises an angle that fits on an angle of the first profile. In use, pressure forces on the roof plate are transmitted to the profile through the angle, while a clamping fixture arranged in the recess absorbs tensile forces exerted on the profile. This results in a sturdy and robust fixing of the roof plate, which is locked in both directions in this way.

The clamping attachment is preferably designed as a single element, such as a clamping spring. For example, the clamping spring has a substantially U-shaped cross-section.

In a preferred embodiment according to the invention, the roof plate comprises a seal for retaining wind or rain.

For example, the roof plate comprises a compressing seal. For example, the seal is provided on the first end, such that in use the seal seals the space between the first end of a first roofing sheet and the second end of a second roofing sheet placed thereon.

In a preferred embodiment according to the invention, an insulation block is attached to the underside of the roof plate.

The underside of the roof plate is the side that faces the building in use. The insulation block is preferably integrated with the roof plate; that is, the roof plate and the insulation block form a whole.

Because an insulation block is attached to the underside of the roof plate, it is achieved that both the insulation and the roof covering can be applied in one go with the roof plate according to the invention. It is noted that the construction of the roofing sheet according to the invention makes it possible to dispense with an air layer between the insulation and the roofing sheet, as is used with roofing tiles. As a result, the entire space between roofing sheet and roof boarding can be filled with insulating material, which leads to better insulation.

In particular, providing an insulation block is advantageous in the case of renovating a building. Many existing buildings have no or poor insulation. By using the roof plate according to the invention, such a building can be provided with a new roof covering, without having to remove the roof boarding. In addition, the installation of the roof slab will better insulate the building. This also means that extra insulation on the inside of the building can be dispensed with. This prevents the ceiling of the living space under the roof from being lowered by the extra insulation. Moreover, installing roofing sheet with insulation layer in one go is less labor-intensive.

In a further embodiment, the insulation block can be received at least in part by at least one of the first and the second profile.

Because the insulation block can be received by the first and / or the second profile, it is achieved that the insulation material occupies as large a volume as possible. This leads to a high degree of insulation. Moreover, it reinforces the strength of the attachment of the roof plate to the profile.

With a roof to which the invention is applied, the insulating material is located on the roof instead of under the roof boarding, as usual. This has the advantage that condensation in or under the roof boarding is prevented. In addition, the risk of rotting the roof boarding is reduced, since it is located within the insulated shell of the roof. In addition, it ensures that the usable content of the home is increased.

In a preferred embodiment according to the invention, the roof plate comprises a wavy surface.

By providing the roof plate with a wavy surface, it is achieved that, in a roof constructed with roof plates according to the invention, the sliding of the roof plates in a direction following the corrugation is blocked. The peaks and troughs of the wavy surface are preferably perpendicular to the profiles. This prevents shifting in a direction parallel to the profiles. This is particularly advantageous in combination with the above-mentioned technical features for confining the roof slab in a direction perpendicular to the profiles. This is because in this way the roof plate is locked in every direction and is therefore firmly attached.

The undulating surface also ensures greater rigidity of the roofing sheet. The invention thus provides a robust and sturdy roof plate. Furthermore, a wavy surface has the advantage that it is architecturally sound. The wavy surface also prevents annoying reflections.

The wavy surface preferably has a shape that corresponds to a known roof tile standard. The roof plate therefore looks like a standard roof tile covering. In addition, this has the advantage that the roof plate according to the invention can be combined with existing roof tiles. In particular, the roof plate according to the invention can be combined with existing ridge tiles, corner tiles, facade tiles and trousers. For example, the distance between wave peaks of the roof slab is approximately 25-40 cm. Preferably, the wave pattern is continuous, that is, the wave pattern comprises an integer number of full waves.

According to the invention, the roof plate is provided with a fastener for solar cells.

The fixing means preferably comprises a U-shaped profile at an end of the roof plate, which is suitable for receiving a solar cell. In addition or alternatively, a bracket, band or clamping strip may be provided at one end of the roof plate.

The solar cell can be placed behind this, so that the bracket, band or clamping strip keeps the solar cell in place. The width of said fastening means is preferably equal to or smaller than the inactive edge surface of the solar cell. This optimally utilizes the active surface of the solar cell. It also prevents the active surface of the solar cell from being damaged by the mounting.

The roof plate according to the invention is preferably provided with a solar cell and the above-mentioned insulation layer. In this way a roof tile, insulation and a solar cell are integrated into one product. This allows a roof to be quickly and easily equipped with an insulated roof with solar cells. This also results in a weight saving.

In a further preferred embodiment, the roof plate is provided with at least one solar cell that follows the shape of the roof plate.

This has the advantage that the solar cell is fully supported. This provides a robust fixation of the solar cell.

This is preferably applied to a roof plate that comprises a wavy surface. The use of a solar cell with a wavy surface firstly has the advantage that the surface that receives sunlight is enlarged. As a result, more energy can be generated per roof plate than with a flat surface. Secondly, at least part of the sunlight that reflects on the surface of the solar cell is still captured by another part of the surface of the solar cell. This increases the efficiency of the solar cell.

In a preferred embodiment according to the invention, the dimensions of the roof slab correspond to a whole multiple of the dimensions of a roof tile standard.

Because the dimensions correspond to a whole multiple of the dimensions of a roof tile standard, it is achieved that the roof plate is easy to use in combination with roof tiles according to this standard.

For example, the roofing sheet according to the invention has a length corresponding to the length of one roof tile according to the roof tile standard, such as approximately 25-40 cm, for example 30 cm, and a width corresponding to nine roof tiles according to the roof tile standard, for example nine times a roof tile standard of approximately 25-35 cm, for example nine times 25 cm. Such a roof plate is suitable for replacing nine adjacent roof tiles of a roof covering.

In addition, this allows the roof plate to be combined with roof tiles, corner tiles, ridge roofs, etc., according to the roof tile standard. It is noted that the roof plate can be designed as a single roof tile, a row or column of roof tiles or as a collection of rows or columns of roof tiles.

The invention further relates to a roof covering comprising at least two profiles that can be attached to a roof and at least one roof tile as described above.

For such a roof covering the same advantages and effects as described for the roof plate apply.

In a preferred embodiment, the roof covering comprises a solar cell and a passage for passing through a medium for heat transfer, such that the solar cell is cooled by the medium.

By cooling the solar cell, the efficiency of the solar cell is increased. Typically, the yield of one solar cell increases by 2% for every 10 ° C cooling. In addition, the heat transferred to the medium can be usefully used, for example with the aid of a heat exchanger.

The invention further relates to a roof, comprising a roof covering, as described above, a building comprising such a roof.

For the roof and the building according to the invention, the same advantages and effects as described for the roof slab and roof covering apply.

In an advantageous embodiment according to the invention, a sun side of the building comprises roof covering provided with solar cells.

Other sides of the building may also be equipped with solar cells. It is noted that it is possible to provide a building on each side of the roof with roof plates according to the invention, wherein on the sun side of the building the roof plates are provided with solar cells.

The invention further relates to a method for placing a roofing sheet, as described above on a building, which comprises the following steps: - arranging at least two profiles on the building; and - placing the roof plate over the at least two profiles.

The same advantages and effects apply to the method as to the above-mentioned roof slab, roof covering, roof and building.

In a preferred embodiment the method comprises the following steps: - applying at least one solar cell to the roof plate; - arranging a passage for a heat transfer medium such that the medium cools the at least one solar cell; - placing a storage tank and / or heat exchanger at the highest possible point in the building; and - connecting the feed-through to the storage vessel and / or the heat exchanger to utilize the heat that is removed from the at least one solar cell.

A dual effect is achieved with such an installation. First, the solar cell is cooled by the medium that flows through the feed-through. Secondly, the absorbed heat can be usefully applied by means of the heat exchanger and / or the storage vessel. In short, this results in a double energy gain.

The storage vessel and / or heat exchanger is positioned as high as possible, so that optimum use can be made of the thermosiphon effect. The cold medium is supplied at a low point of the roof and flows upwards along the solar cells. The medium is heated by cooling the solar cells and this heating will cause a circulation of the medium, whereby the warm medium rises and the cold medium falls. At the top, the hot medium is supplied, for example, to the heat exchanger which utilizes the heat and subsequently returns the medium cooled thereby to the underside of the roof covering. This process can in principle take place without the need for additional pumps, due to the thermosiphon effect. Alternatively or additionally, the medium can be stored in a storage vessel at the highest point. The stored heat can be used at a desired time.

Further advantages, features and details of the invention are elucidated on the basis of preferred embodiments thereof, wherein reference is made to the accompanying drawings.

Figure 1A shows a roof plate and roof covering according to the invention in a drawn drawing in side view; Figure 1B shows the roof plate and roof covering from Figure IA in an assembled drawing; Figure 2 shows a number of side-by-side roofing sheets according to the invention in side view; Figure 3 shows a perspective view of the fixing means for fixing a solar cell on a roofing plate according to the invention; Figure 4 shows a front view of roof covering according to the invention.

Roof plate 2 (Figure IA) is a deep-drawn plastic mold plate. Roof plate 2 is on profiles 4, 6 (figure 1B). On a first side, roofing plate 2 comprises an angle 8 that fits with an angle 10 of profile 6. On this side, roofing plate 2 is fixed to profile 6 by means of clamping spring 12. Clamping spring 12 has two ends which are located in recesses 14 and 16 of roof plate 2 and profile 6 respectively.

Roof plate 2 comprises two ribs 17, 19 between which a compressing seal 18 is arranged. Compressing seal 18 prevents rain and wind from moving toward clamping spring 12.

The other end of roof plate 2 comprises an edge 20.

Insulation layer 22 is present between profiles 4 and 6 and under roof plate 2. A protruding part 24 of insulation layer 22 is located in profile 4.

A solar cell 26 is arranged at the top of roofing plate 2. The solar cell 26 follows the surface of roof plate 2. In this case, that is a wavy surface, the peak of the wave pattern being indicated by 28 in the figure.

In direction A, roof plate 2 is prevented from moving because it rests against profile 6. In the direction B

movement is prevented by means of clamping spring 12. By the wave pattern 28, movement is prevented in direction C.

Roof plate 2 is used in roof covering 29 (Figure 2). Roof plates 30, 34 also form part of roof covering 29. In addition to profiles 4 and 6, profiles 38 are also present. Roof covering 29 is continued even further, but this is not shown in Figure 2.

It can be clearly seen in this figure that compressing seal 18 of roofing plate 2 connects to the subsequent roofing plate 30, whereby air or water can be prevented from catching spring 12. Edge 20 is also provided on roof plate 30 for improved water drainage.

Roof plate 40 (Figure 3) is provided with solar cell 42 which is attached by means of a U-shaped edge 44 under which solar cell 42 is slid. On the other side of solar cell 42, it is attached by means of bracket 46.

Sunlight that is incident on a solar cell will partly be reflected. With a wavy surface, part of the reflected sunlight is again captured by another part of the wavy surface. This is also shown schematically in Figure 3. Sunlight 48 is incident on a slanted portion of the wavy surface of roofing sheet 40. A portion 50 of sunlight 48 is reflected in a direction toward the second peak in the wave pattern of roofing sheet 40. This causes the efficiency of solar cell 42 increased.

Roof plate 52 (Figure 4) has a wave pattern that corresponds to the wave pattern of a roof provided with roof tiles. Other wave patterns are also conceivable.

The present invention is by no means limited to the above described preferred embodiments thereof. The requested rights are determined by the following claims within the scope of which many modifications are conceivable.

Claims (16)

A roofing plate with a first end that can be attached to a first profile and a second end that can be placed on a first end of an adjacent roofing plate resting on a second profile, wherein the roofing plate is provided with a fastening means for solar cells. 2. Roof plate as claimed in claim 1, wherein the first end comprises an angle that fits on an angle of the first profile. 3. Roof plate as claimed in claim 1 or 2, wherein the first end comprises a recess for receiving a clamping attachment. 4. Roof plate as claimed in claim 1, 2 or 3, which comprises a seal for retaining wind or rain. Roof plate according to at least one of claims 1-4, wherein an insulation block is attached to the underside of the roof plate. 6. Roof plate as claimed in claim 5, wherein the insulation block can be received at least partially by at least one of the first and second profile. 7. Roof plate according to at least one of claims 1-6, which comprises a wavy surface. 8. Roof plate according to at least one of claims 1-7, which is provided with at least one solar cell that follows the shape of the roof plate. Roofing sheet according to at least one of claims 1-8, the dimensions of which correspond to a whole multiple of the dimensions of a roofing tile standard. 10. Roof covering comprising at least two profiles that can be attached to a roof and at least one roof plate according to one of claims 1-9. 11. Roof covering as claimed in claim 10, comprising a solar cell and a passage for passing through a heat transfer medium, such that the solar cell is cooled by the medium. 12. Roof comprising a roof covering according to claims 9 or 10. A building comprising a roof according to claim 12. 14. Building as claimed in claim 13, wherein a sun side of the building comprises roof covering provided with solar cells. Method for placing a roofing sheet according to at least one of claims 1-9 on a building, which comprises the following steps: - applying at least two profiles to the building; and - placing the roof plate over the at least two profiles. Method according to claim 15, comprising the following steps: - applying at least one solar cell to the roof plate; - arranging a passage for a heat transfer medium such that the medium cools the at least one solar cell; - placing a storage tank and / or heat exchanger at the highest possible point in the building; - connecting the feed-through to the storage vessel and / or the heat exchanger for utilizing the heat that is removed from the at least one solar cell.