NL1035720C2 - Roof plate and roof construction. - Google Patents

Description

5

ROOF PLATE AND ROOF CONSTRUCTION

The invention relates to a roof plate for use in a roof construction. Such roofing sheets are often used in new construction to quickly provide a frame of purlins and trusses with a covering construction, on which subsequently, for example, roof tiles can be fitted. Such roof plates usually consist of a top plate and a uniform bottom plate, which is arranged at a distance and parallel from the top plate. The space between this top plate and bottom plate 15 is filled with an insulating material, such as, for example, polyurethane foam or polystyrene foam.

It is also becoming increasingly common to consider alternative energy sources when constructing new buildings. A commonly used means is a solar collector. Such a solar collector is then mounted on top of the roof and connecting lines for the solar collector are then brought in through the roof plates.

The solar collectors can be either absorption solar collectors or photovoltaic solar collectors. With photovoltaic solar collectors, use is made of the photovoltaic effect whereby electrical energy can be obtained directly from sunlight. In an absorption solar collector a heat-exchanging liquid is heated with the aid of the sunlight, with which spaces can be heated with a heat exchanger arranged in the building, tap water can be heated, or by means of a conversion by 1035720 2 for example sterling motor electric energy can be generated.

These usual constructions, in which a solar collector is placed on top of an already existing roof, entail high costs and have a long payback period. This limits the acceptance of solar collectors on a roof.

It is now an object of the invention to reduce the costs of installing a solar collector on the roof in order to be able to accelerate the acceptance of such solar collectors. This object is achieved according to the invention with a roofing plate comprising a substantially box-shaped structure with an upper surface, a uniform bottom surface which is arranged parallel and at a distance from the top surface, and which extends along the circumference of the top surface and bottom surface and between them. extending peripheral edge, wherein the upper surface is formed by the upper surface of an absorption solar collector and the cavity of the box-shaped structure is filled with an insulating material.

Because the solar collector forms part of the roof plate and forms at least the upper surface thereof, the roof plate with integrated solar collector can easily be applied to a new building to be built. The roof plates are placed in a usual manner on a frame of trusses and purlins, after which only the solar collector needs to be connected. Since the solar collector forms the upper surface of the roof plates, there is no longer any need for additional protection, such as for example roof tiles. These can thus be omitted. The advantage of such a roofing sheet according to the invention is that the costs can thereby be reduced considerably.

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In an embodiment of the roofing sheet according to the invention, the insulating material is a cured foam, such as, for example, polyurethane foam or polystyrene foam. Such foams have an advantage that they provide considerable strength to the roof plate, while the weight remains relatively low.

In a preferred embodiment of the roof plate according to the invention, a photovoltaic foil is provided on the upper surface of the absorption solar collector. Such a photovoltaic film is particularly thin, usually less than 1 mm thick, as a result of which the heat from the solar radiation easily passes through the photovoltaic film and ends up at the absorption solar collector. The sunlight itself is converted into electricity by the photovoltaic film. As a result, sunlight is optimally used because both the heat and the light are made usable by the solar collector and photovoltaic film.

In another preferred embodiment of the roof plate according to the invention, the absorption solar collector comprises a flat plate forming the upper surface and a bottom plate provided on the underside of the flat plate, such that between the flat plate and the bottom plate channels are formed. The embossed bottom plate preferably comprises a padded relief.

Such a construction is simple to manufacture by spot-welding a relatively thin steel plate on a relatively thick steel plate, after which a medium is pressed between the two layers, such that the relatively thin plate is deformed and a relief of channels is created. In addition, this construction has the advantage that a solid surface is created for the roof plate, that the upper surface is flat, whereby the photovoltaic foil 4 can be easily applied and that a good heat-conducting capacity is obtained with such a construction of steel plates.

In another embodiment of the roof plate 5 according to the invention, the supply and discharge of the absorption solar collector open into the cavity of the box-shaped structure. As a result, the supply and discharge are hidden from view.

Preferably, connecting lines extend from the supply and discharge of the absorption solar collector through the peripheral edge. In this way the supply and discharge can be easily connected while the pipes remain largely hidden from view.

In yet another embodiment of the roof plate 15 according to the invention, the electrical connections of the photovoltaic foil are arranged on the peripheral edge of the roof plate.

In yet another preferred embodiment of the roofing sheet according to the invention, it comprises coupling means on at least two opposite circumferential sides for coupling two adjacent roofing sheets and optionally coupling connecting lines. As a result, the roof sheets can easily be fitted against each other and a roof-sealing unit can thus be obtained quickly.

The invention further comprises a roof construction comprising a frame of purlins and trusses and roof plates according to the invention arranged on the frame, wherein the roof plates are arranged lying against each other.

In a preferred embodiment of the roof constructions according to the invention, it further comprises filling plates for filling out the roof plates, in order to completely cover the framework. Preferably connecting lines are provided in the spacer plates for the absorption solar collectors and the photovoltaic foils of the roof plates. By using filler plates it is possible to manufacture roof plates of fixed dimensions with standardized connections for the solar collector 5 and the films. In the case of a roof construction according to the invention, these roof plates are placed against each other and preferably coupled, and the spacer plates ensure that the roof is completely covered. In addition, the filler plates ensure that the supply and discharge lines 10 to and from the roof plates are largely hidden from view and the connections can be easily made.

The upper surface of the spacer plates is also preferably provided with a photovoltaic foil. In this way optimum use is made of the available surface area and there is no color difference between the roof plates and the filler plates.

These and other features of the invention are further elucidated with reference to the accompanying drawings.

Figure 1 shows in cross-sectional view a part of a first embodiment of a roofing sheet according to the invention.

Figure 2 shows a second embodiment of a part of a roof plate according to the invention in cross-sectional view.

Figure 3 shows a top view of an embodiment of a roof construction according to the invention.

Figure 4 shows a cross-sectional view of the roof construction according to Figure 3.

Figure 5 shows a stand-alone application of a roofing sheet according to the invention.

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Figure 6 shows in cross-sectional view a special application of a roofing sheet according to the invention.

Figure 1 shows a first embodiment 1 of a roofing plate according to the invention with a filling plate 2 coupled thereto. The roofing plate 1 has an absorption solar collector consisting of a thick top plate 3 and a thin padded bottom plate 4. On the bottom plate 4 there is a drain connection 5 fitted. The solar collector 3, 4 forms the upper surface of the roof plate 1.

A wooden bottom plate 6 is arranged at a distance from the flat plate 3. With a roof construction, this wooden plate 6 forms the ceiling of the roof.

The space between the solar collector 3, 4 and the bottom plate 6 is filled with an insulating material 7. Further, in this insulating material 7, a connecting line 8 runs, which is connected to the connection 5.

The connecting line 8 extends to the side face of the roof plate 1 and is there connected by means of a coupling piece 9 to a supply or discharge line 10, 20 which is arranged in the filler plate 2. This filler plate 2 is also provided with an upper plate 11 and a wooden bottom plate 12, with preferably an insulating material 13 between them. Supply pipes 10 and 14 are arranged in this filling plate 2. Furthermore, a channel 23 is provided, through which, for example, the connecting wires for the photovoltaic layer can be provided. This photovoltaic layer is not visible in the figure but is arranged on the flat plate 3 of the absorption solar collector 3, 4.

The peripheral edge of the roof plate 1 is provided with a protrusion 15, which falls into a groove 16 of the fill-in plate 2 or with an adjacent roof plate 1. This provides a coupling between the roof plate 1 and the fill-in plate 2, so that in any case the top surface 3 and the top surface 11 are in line. For a good seal, a rubber string and / or a kit can be provided in this coupling 15, 16.

Figure 2 shows a second embodiment of a roofing plate 20. This roof plate 20 has great similarities with the roof plate 1 according to figure 1 and equal parts are therefore provided with the same reference numerals.

The roof plate 20, unlike the roof plate 1 according to Figure 1, does not have a wooden bottom plate, but is provided with a steel bottom plate 22. In this case, this steel bottom plate 22 is bent over, so that this plate 22 forms part of the peripheral edge, and is it provided with of coupling means 15, which falls into the groove 16 of the filler plate 21.

It is clear from Figure 2 how two roof plates 20 can be coupled to each other by means of a filling plate 21.

Figure 3 shows a top view of a roof construction 30 according to the invention. The roof construction 30 consists of a number of roof plates 1, which are coupled in a usual manner. See, for example, figure 1. Filling plates 2 are arranged between and on both sides of the roof plates 1. Arranged in these filler plates 2 are the lines 10, 14, which connect the liquid for the absorption solar collector 3, 4 to each other. The pipes 10, 14 go via a connection point 31 to, for example, an installation for storing, using or converting the heat.

Figure 4 shows a cross-sectional view of the roof construction 30 according to figure 3. The roof construction 30 has a number of purlins 32 on which the roof plates and filler plates 1, 2 are arranged. The pipes 10, 14 enter 8 via the point 31 where they can be connected to an installation 33 not shown in further detail.

This installation 33 processes the heat obtained from the absorption solar collectors 3, 4. The heat can thereby be stored, used to heat up a room or to heat tap water, or to generate electricity from the heat.

In addition, this installation 33 can be adapted to properly heat up the liquid from the absorption solar collectors 3, 4. In case the roof plates are covered with ice and snow, the roof can easily be made ice-free by letting the absorption solar collectors flow through with warm liquid.

Figure 5 shows a stand-alone application of a roofing plate 1 according to the invention. Although the roof plates 1 are in principle intended for use as a roof, these plates 1 can also be used as a separate solar collector. To this end, the roof plate 1 is placed on a frame of rods 40, 41 so that the roof plate 1 makes a desired angle with respect to the incident solar radiation. Since the roof plate 1 is only used as a solar collector, the insulation layer 42 can optionally be reduced in thickness. As a result, the connections 43, 44 of the solar collector protrude on the underside 25 of the roof plate 1. The connections 43, 44 are then connected to an installation 45.

Figure 6 shows a special application of a roofing sheet 1 according to the invention. The roof plate 1 is placed vertically here and forms part of a cavity wall consisting of an outer leaf 50 and an inner leaf 51. The roof plate 1 is arranged at the height of the inner leaf 51. An insulating pane 52 is provided at the height of the outer leaf 50. This creates a space 53 between the 9 pane 52 and the roof plate 1. Incoming solar radiation will heat the air in the space 53. This heat can then be used by the solar collector 3 in the roof plate 1.

Ventilation grilles 54, 55 and valves 56 and 57 are provided on the top and bottom of the roof plate 1. With these valves 56, 57 it is possible to circulate indoor air through the space 53 and directly use part of the incoming heat. for 10 heating of the building.

Ventilation grilles 58, 59 are furthermore arranged on the outside, which allow air circulation from outside. Due to the correct position of the valves 56, 57, it is therefore possible to allow fresh outside air to flow through the space 53, as a result of which this fresh air heats up and subsequently flows into the inside space.

1035720

Claims (12)

5 A roofing plate comprising a substantially box-shaped structure with a top surface, a uniform bottom surface which is arranged parallel and at a distance from the top surface, and a circumferential edge extending along the circumference of the top surface and bottom surface, and the top surface forming therebetween is filled by an insulating material through the upper surface of an absorption solar collector and the cavity of the box-shaped structure. 2. Roof plate according to claim 1, wherein the insulating material is a cured foam, such as for instance polyurethane foam or polystyrene foam. 3. Roof plate as claimed in claim 1 or 2, wherein a photovoltaic foil is arranged on the upper surface of the absorption solar collector. 4. Roof plate as claimed in any of the foregoing claims, wherein the absorption solar collector comprises a flat plate forming the top surface and a bottom plate arranged on the underside of the flat plate, such that between the flat plate and the flat plate bottom plate channels are formed. Roof plate according to claim 4, wherein the embossed bottom plate comprises a padded relief. 6. Roof plate as claimed in any of the foregoing claims, wherein the supply and discharge of the absorption solar collector open into the cavity of the box-shaped structure. 1035720 7. Roof plate as claimed in claim 6, wherein connecting pipes extend through the peripheral edge from the supply and discharge of the absorption solar collector. Roof plate according to one of claims 3 to 7, wherein the electrical connections of the photovoltaic foil are arranged on the peripheral edge of the roof plate. 9. Roof plate as claimed in any of the foregoing claims, wherein at least two opposite circumferential sides comprise coupling means for coupling two adjacent roof plates and optionally coupling connecting lines. 10. Roof construction comprising a frame of purlins and trusses and roof plates arranged on the frame according to one of the preceding claims, wherein the roof plates are arranged against each other. 11. Roof construction as claimed in claim 10, comprising filling plates for filling out the roof plates, in order to completely cover the frame. 12. Roof construction as claimed in claim 11, wherein connecting pipes are provided in the spacer plates for the absorption solar collectors and the photovoltaic foils of the roof plates. 1035720