NL2018308B1 - Prefab roof system and roof panel - Google Patents

Abstract

The invention relates to a prefab roof system for a building comprising at least one roof panel provided with a cover plate, a first air cavity, a first insulating layer, a roof boarding, a second air cavity, a second insulating layer and an inner plate, wherein the roof panel is provided with a vapor-permeable moisture-resistant foil between the cover plate and the first insulation layer.

Description

Patent center

2018308

(21) Application number: 2018308 © Application submitted: 3 February 2017 @ Int. CL:

E04B 7/22 (2017.01) E04D 3/35 (2018.01) E04D 12/00 (2018.01) E04D 13/17 (2018.01) H02S 20/23 (2018.01)

@ Application registered: (73) Patent holder (s): August 28, 2018 A & T Prefab B.V. in Oss. (43) Application published: - (72) Inventor (s): Antonius Gerardus Peter Thissen (47) Patent granted: in Sarnen (CH). August 28, 2018 (45) Patent issued: (74) Agent: October 3, 2018 ir. M.F.J.M. Ketelaars et al. In The Hague.

© Prefab roof system and roof panel © The invention relates to a prefab roof system for a building comprising at least one roof panel provided with a cover plate, a first air cavity, a first insulating layer, a roof boarding, a second air cavity, a second insulating layer and an inner plate, the roof panel is provided with a vapor-permeable moisture-resistant foil between the cover plate and the first insulation layer.

NL Bl 2018308

This patent has been granted regardless of the attached result of the research into the state of the art and written opinion. The patent corresponds to the documents originally submitted.

Prefab roof system and roof panel

The invention relates to prefab roof system and a roof panel.

The known prefab roof system comprises, for example, two roof panels which together form a roof that can be placed on the top floor of a building or residential home. The roof panels are manufactured in a production hall and transported as a complete product to a building site of the building or residential home.

FIG. 1 shows a section of a known prefab roof system 3, wherein two roof panels 5 together form a roof. The roof is placed on a floor 2 of a building or dwelling 1.

FIG. 2 shows a cross-section of a known roof panel 5 perpendicular through the roof panel. The known roof panel comprises, viewed from the top, tile battens 21, a first air cavity 25, a composite insulating foil 27 with a reflective layer, e.g. BreatherQuilt, as supplied by Yorkshire Building Services, Great-Britain, a roof boarding 29, a second air cavity 31 , a layer of insulating material 33, for example mineral wool or glass wool, and ridges 35 and inner cladding 37.

After mounting, the roof panels can be fitted with tiles, cover plates or zinc cladding.

Nowadays, photovoltaic panels are also often used on roofs of buildings because the prices of the photovoltaic panels are so low that they can be used on a large scale to supply electricity. In the known building flow the photovoltaic panels are mounted on the roof after the roof panels have been fitted.

A drawback of the current state of the art is that condensation can occur on the inside of the cover plates or zinc plating in the prefab roof system.

It is an object of the present invention to provide a prefab roof system that eliminates or reduces the aforementioned disadvantages.

According to a first aspect of the invention this object is achieved by a prefab roof system for a building comprising at least one roof panel provided with a cover plate, a first air cavity, a first insulating layer, a roof boarding, a second air cavity, a second insulating layer, and an inner plate, wherein the roof panel is further provided with a vapor-permeable moisture-resistant foil between the cover plate and the first insulating layer. It has been found that, for example, when a zinc plate or a photovoltaic panel is used as the cover panel, condensation forms on the inside of the cover panel. This occurs when the cover plates have a high thermal conductivity, as a result of which a thermal bridge is in contact with the outside world and condenses moisture. The use of the vapor-permeable moisture-proofing film improves the drainage of condensed water that condenses on the side of the cover plate facing the first insulating layer and prevents the condensed water from reaching the interior of the first insulating layer.

In an embodiment of the prefab roof system, the vapor-permeable moisture-proof film is integrated in the first insulating layer. This has the advantage that the mounting of the vapor-permeable layer and the first insulating layer can be mounted as a single component during the production of the roof panel.

In an embodiment of the prefab roof system, the vapor-permeable and moisture-resistant film on the first insulating layer is directed towards the cover plate.

In an embodiment of the prefab roof system, the first insulating layer comprises a multi-composite film, for example BreatherQuilt, as supplied by Yorkshire Building Services, Great Britain. The vapor-permeable moisture-resistant film on the first insulation layer faces the cover plate.

In an embodiment of the prefab roof system, the multiple composite film comprises a reflective film which is arranged on a side of the multiple composite film remote from the cover plate. This reflective layer reflects heat radiation.

In an embodiment of the prefab roof system, the second insulating layer comprises polyisocyanurate, PIR, or mineral wool. This can be, for example, glass wool or rock wool.

In one embodiment, the cover plate comprises a photovoltaic panel.

The invention further relates to a roof panel in a prefab roof system according to claims 1 to 7.

The invention further relates to a building provided with a prefab roof system according to one of claims 1 to 7.

Although the invention will be described with reference to a number of preferred embodiments, the invention is not limited thereto. The embodiments to be discussed are merely examples of possible interpretations of the invention and it will be apparent to those skilled in the art that the advantages of the invention can also be achieved in other ways.

The invention will be further described with reference to the accompanying drawings, in which:

FIG. 1 shows a prefab roof system;

FIG. 2 shows a known roof panel for use in a prefab roof system;

FIG. 3 shows a section of a roof panel according to a first embodiment;

FIG. 4 shows a section of a roof panel according to a second embodiment; and

FIG. 5 shows a cross-section of a multiple composite film.

In the figures, the same reference numerals correspond to corresponding elements.

FIG. 1 schematically shows a known prefab roof system 1 which comprises two known roof panels 3 mounted on a building layer 5 of a building or house

1. The enclosed angle between the two roof panels forms the roof with a ridge.

FIG. 2 shows a section of a known roof panel. The known roof panel 5 comprises tile slats 21, battens 23, a first, preferably weak, ventilating air cavity 25, a first insulating layer 27, a roof boarding 29, a second unventilated air cavity 31, a second insulating layer 33. The roof panel can further be provided with ridges 35 and inner plate 37 on the side of the second insulation layer remote from the first insulation layer.

The upper side of the roof panel can be provided with tiles 22. Cover plates, for example zinc plates, can also be refined or a plate made of another waterproof material.

The first insulating layer 27 has a thickness of, for example, 40 mm. And can consist of, for example, BreatherGuilt. The second unventilated air cavity 31 is at least 25 mm.

The second insulating layer 33 may comprise, for example, polyisocyanurate, PIR, glass wool or mineral wool. The thickness of the second insulating layer is, for example, 70 mm.

FIG. 3 shows a cross section of a roof panel 30 of a prefab roof system according to a first embodiment of the invention.

The roof panel 20 according to the first embodiment comprises a cover plate 39, tile battens 21, a first air cavity 25, a first insulation layer 2, a second air cavity 32, a second insulation layer 33, and an inner plate 37.

In one embodiment, the cover plate 39 comprises one or more photovoltaic panel or panels. In this description, a photovoltaic panel means a panel provided with photovoltaic cells.

In one embodiment, the roof panel 20 is provided with a vapor-permeable moisture-proof foil 41 between the cover plate 39 and the first insulating layer 27. This vapor-permeable moisture-resistant foil 41 is, for example, a vapor-permeable spin fleece film.

Furthermore, a vapor-inhibiting film 43 can be provided between the second insulating layer 33 and the inner plate 37.

The first insulating layer 27 comprises, for example, a multi-composite film.

FIG. 5. shows an example of a multi-composite film 27 that can be used in the roof panel. The multi-composite film 27 comprises, for example, eleven alternating layers 53, which are provided with a metal film 51, a separating layer and polyester wool. The first, upper layer consists of a waterproof vapor-permeable membrane 55, the inner layers of metal foil are perforated. The first insulation layer as a whole has good water vapor permeability. An example of a multi-composite film is, for example, BreatherQuilt, as supplied by Yorkshire Building Sendees, Great Britain. The thickness of the first insulating layer is, for example, 40 mm.

The multiple composite film is arranged in the roof panel, the metal film of the first insulating layer 27 pointing in a direction away from the cover plate 39.

Furthermore, the roof boarding 21 can be formed by chipboard of 12 mm thickness.

The second insulation layer 33 in the roof panel is, for example, polyisocyanurate, PIR, glass wool, MWG or mineral wool. The thickness thereof is, for example, 50 mm.

In one embodiment, the roof panel can be provided with a vapor barrier foil 43 between the second insulating layer 33 and the inner plate 37.

Furthermore, ventilation openings can be provided in the roof panel which connect the first air cavity with the outside air for obtaining light ventilation in the first air cavity.

FIG. 4 shows a section of a roof panel 30 in a prefab roof system according to a second embodiment of the invention.

The roof panel 20 according to the second embodiment comprises the cover plate 39, the tile slats 21, the first air cavity 25, the first insulating layer 27, the roof boarding 29, the second air cavity 31, the second insulating layer 33, and the inner plate 37.

Further In this embodiment, the roof panel 20 is provided with a vapor-permeable moisture-resistant foil that is integrated in the first insulating layer 27.

The first insulating layer 27, as shown in FIG. 5 comprises a multi-composite film of, for example, eleven alternating layers 53, comprising a metal film, a separating layer and polyester wool. The first layer consists of a watertight vapor-permeable membrane 55, the inner layers of metal foil are perforated. In this embodiment, the vapor-permeable membrane 55 comprises a vapor-opening nonwoven film.

The first insulating layer is further provided with a reflective foil 51 which is arranged in a direction away from cover plate 39. The structure of the roof panel 20 according to FIG. 4 is furthermore similar to the roof panel 20 described with reference to FIG. 3.

In one embodiment, the cover plate 39 comprises one or more photovoltaic panel or panels.

In an embodiment of the prefab roof system, the roof panel can be provided with ventilation openings (not shown). The first ventilation openings provide a connection between the first air cavity and the outside air so that the first air cavity can be lightly ventilated.

Claims (9)

Conclusions A prefab roof system (1) for a building comprising at least one roof panel (20) provided with a cover plate (39), a first air cavity (25), a first insulating layer (27), a roof boarding (29), a second air cavity (31 ), a second insulating layer (33), and an inner plate (37), wherein the roof panel (20) is further provided with a vapor-permeable moisture-resistant foil (41) between the cover plate (39) and the first insulating layer (27). Prefab roof system according to claim 2, wherein the vapor-permeable moisture-resistant film (41) is integrated in the first insulating layer (27). A prefab roof system according to claim 4, wherein the vapor-permeable moisture-resistant film (41) on the first insulating layer (27) faces the cover plate (39). Prefab roof system according to one of the preceding claims, wherein the first insulating layer (27) comprises a multiple composite film. A prefab roof system according to claim 5, wherein the composite film comprises a reflective film (51) which is directed in a direction away from the cover plate. A prefab roof system according to any of the preceding claims, wherein the second insulating layer (33) comprises polyisocyanurate, PIR, or mineral wool. A prefab roof system wherein the cover plate (39) comprises a photovoltaic panel 8. Roof panel in a prefab roof system according to one of the claims 1-7. 9. Building provided with a prefab roof system according to one of the claims 1- 7.