NL1006947C2 - Method for insulating roof - Google Patents

Abstract

On the layer of insulation material (12) a water-diverting layer (13) is applied. An insulation material is so used that at some distance from at least the side facing upwards in operation there is embedded at least one layer formed from fibres (19). The water-diverting layer is fixed with screws (14) with a very large thread which engage the insulation material and the at least one layer of fibres. The screws are made of plastic, and the embedded layer can be a net, loose fibres, a non-woven fibre fleece, or a woven material. The insulation material consists of foam plates. The fibres can be of plastic or fibre glass.

Description

Title: Method for insulating a roof and insulating material for a roof.

The invention relates to a method for insulating a roof, in which a vapor-barrier layer is applied to the roof boarding, with a layer of insulating material on the vapor-barrier layer and in which a water-repellent layer is attached to the layer of insulating material. The invention further relates to material for application of the method.

According to a recently developed method, a flat roof is finished at the top with a vapor barrier, which is laid directly on the roof boarding. This can be, for example, a bituminous layer formed from one or more layers, such as commercially available in rolls or, for example, an aluminum layer or a glass fleece layer. An insulating layer 15 is then applied to the vapor-barrier layer, which can for instance consist of sheets of foam material, such as, for example, polyurethane foam, which are provided on the top and / or bottom with a protective layer, for example a thinly sprinkled bitumen layer. Finally, an insulating layer comprising one or more layers of material is applied to the insulating layer, which layer can also consist of, for example, bituminous material or plastic material, such as is commercially available in the form of rolls. According to the known technique, the water-retaining layer is mechanically fastened with the aid of steel bolts, which are screwed into the roof boarding through the water-retaining layer, the insulating layer and the vapor-barrier layer. In addition, fairly large plates of metal or plastic are placed under the wood heads to prevent the bolt head from penetrating into the insulation layer.

This known technique can be applied to all types of roof boarding, such as concrete, wood, galvanized (corrugated) sheet, etc. This also applies to the method according to the invention described in the following. The invention can also be applied both to flat roofs and, if desired, to pitched roofs.

A drawback of the known technique is that the use of steel bolts leads to a thermal bridge through the insulating material. Condensation can form at the points of the bolts reaching in or through the roof boarding, which can lead to damage to the roof construction. The bolts also create openings in the vapor barrier, which is undesirable. Finally, for the installation of the steel bolts it is necessary to drill holes, in particular if the roof boarding is made of concrete or steel. This not only requires a relatively long time and long drills, but also entails the risk of the drill running away, as a result of which considerable damage to the vulnerable insulating material can occur. If galvanized plates are used as a roof boarding, the galvanic layer at the location of the bolt hole is damaged, which can lead to rust formation and a retaining force of the bolt in the roof boarding over time.

The object of the invention is to overcome or at least reduce the drawbacks outlined and in general to provide an efficient method for insulating roofs, which can be carried out with simple means and quickly. According to the invention, a method of the above-described type is characterized in that an insulating material is used which is provided with at least one embedded layer of fibers formed at a distance from at least the side facing upwards in operation and that the water-retaining layer is attached. with 30 screws with a very coarse thread that engages the insulating material and the at least one layer of fibers.

In the following, the invention will be further described with reference to the accompanying drawing.

Figure 1 schematically illustrates the known technique for insulating a roof; Figure 2 schematically illustrates an example of a roof insulated according to the invention; and Figure 3 schematically illustrates an example of a screw to be used in the invention.

Figure 1 shows, by way of example, a galvanized steel corrugated sheet metal roof board 1, 5 on which lies a vapor barrier 2, for instance consisting of a bituminous roofing material available on rolls. A layer of insulating material 3, for example consisting of sheets of foam material, such as polyurethane sheets, lies on the vapor-barrier layer. The sheets of foam material are also commercially available and are usually finished on both sides with a protective layer (not shown), which may for instance consist of sprinkled bitumen material. Finally, the insulating material is covered by a water-repellent top layer 4, which may also consist of roofing material available on the market on 15 rolls. Steel fastening screws 5 with a head 6 and a pressure-distributing follower plate 7 placed under the head reach through the sandwich construction thus obtained. The screws are usually covered again by an overlapping part of the top layer. The screws are screwed into or through the roof boarding 1, which results in damage to all layers of the sandwich construction and of the roof boarding and which results in a thermal bridge. Furthermore, it is necessary to drill holes on the roof, which can lead to additional damage to the insulating material and is time-consuming. It is also sometimes difficult to determine the correct location for drilling a screw hole. For example, it is not inconceivable to place the drill just above the downward facing part of a corrugated sheet.

Figure 2 schematically illustrates an example of a roof insulated according to the invention. A sandwich construction 10 in this example has a similar sandwich construction as in the example of the known technique shown in figure 1. On the roof boarding 10 there is a vapor barrier 11, which, however, in this case must be well adhered to the roof boarding. Likewise, an insulating layer 12 consisting of foam sheets consisting of foam plates 100 is adhered to the vapor barrier layer 11. The foam plates can again be provided with a protective layer on one or both sides. On the insulating layer there is a mechanically attached water-retaining layer 13. According to the invention, the water-retaining layer 5 is attached by means of special screws with a coarse screw thread with a relatively large pitch, steep flanks and a relatively deep screw thread, i.e. a large difference between the outer diameter and diameter of the shaft of the screw. The screws further have a sharp point and a large diameter flat head. The head is provided with an engagement point for a screw tool. The head may, for example, be provided with a hexagonal opening for an Allen key in the center. Suitable screws are commercially available for use in wood wool cement boards. For example, the screw can have a head diameter of ± 50 mm, a length of +75 mm, a largest thread diameter of + 30 mm and a shank diameter of + 10 mm. Figure 3 shows an example of such a screw 14, which can be made of plastic 20. The socket hole is indicated at 18. The sharp point 15 makes it possible to push the screw slightly into the water-resistant layer and the insulating material by hand. Due to the large diameter of the head 16, a follower plate is not necessary.

Since the coarse screw thread 17 of a screw of the type described does not find sufficient grip in the usual foam material, according to the invention special foam plates are used, which are provided with an embedded layer of fibers at some distance from at least the side lying in operation. 19. The layer of fibers 19 may consist of loose fibers, but may also consist of a non-woven fabric or a net. The fibers can include suitable plastic fibers or glass fibers. Suitable fibers of natural material (wool, jute, paper, flax, etc.) can optionally be used, optionally in combination with other types of fibers. The layer 19 must have openings such that the foam can penetrate well through the layer 19 during foaming of the plates 10 0 6 9 4 7 -5- so that the fibers are indeed embedded in the bevel material and the foam material above and below the layer 19 continues to behave essentially as one cohesive mass.

In such a layer of fibers, the screws 14 can find sufficient grip to keep the water-retaining layer firmly fixed, without the need to drill holes into the roof boarding and to use steel screw bolts with follower plates.

It is noted that after the foregoing various modifications are obvious. If desired, the vapor barrier can also be mechanically attached to the roof boarding. The vapor barrier may alternatively integrate with the insulating material or be previously applied thereto. Furthermore, several fiber layers can be arranged at a distance from each other. A woven layer can also be used. These and similar modifications are understood to fall within the scope of the invention.

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Claims (20)

1. A method for insulating a roof, wherein a vapor-barrier layer is applied to the roof boarding with a layer of insulating material on the vapor-barrier layer and wherein a water-repellent layer is attached to the layer of insulating material, characterized in that an insulating material is used which at some distance from at least the upwardly facing side in operation is provided with at least one embedded layer formed of fibers and that the water-retaining layer is fixed with screws with a very coarse thread which engages the insulating material and the at least one layer of fibers. Method according to claim 1, characterized in that screws made of plastic are used. 3. Method according to claim 1 or 2, characterized in that the screws have a sharp point and a flat head with a relatively large diameter. Method according to claim 1, 2 or 3, characterized in that the screws have a large maximum diameter relative to the diameter of the shaft. Method according to one of the preceding claims, characterized in that a net is used as an embedded layer. 6. A method according to any one of claims 1 to 4, characterized in that a layer of loose fibers is used as the embedded layer. A method according to any one of claims 1 to 4, characterized in that a non-woven fiber fleece is used as the embedded layer. 8. A method according to any one of claims 1 to 4, characterized in that a woven material is used as the embedded layer. Method according to one of the preceding claims, characterized in that the vapor-barrier layer is mechanically attached to the roof boarding. 10 0 6 9 4 7 -7- Method according to any one of claims 1 to 8, characterized in that the vapor-barrier layer is adhered to the roof boarding. 11. A method according to any one of the preceding claims, characterized in that plates manufactured from foam material are used as insulating material. Insulation plate for use in a method according to any one of claims 1 to 11, characterized in that the insulation plate is provided with at least one embedded layer of fibers at some distance from at least one of the 10 surfaces. Insulation plate according to claim 12, characterized in that the fibers form an apertured fabric. Insulation plate according to claim 12 or 13, characterized in that the fibers form a net. Insulation plate according to claim 12, characterized in that the fibers are in loose connection. Insulation plate according to claim 12, characterized in that the fibers form a non-woven fleece with openings. Insulation plate according to claim 12, characterized in that the fibers comprise plastic fibers. Insulation plate according to claim 12, characterized in that the fibers comprise glass fibers. Insulation plate according to claim 12, characterized in that the fibers comprise fibers of natural material. 20. Building provided with an insulated roof manufactured according to the method of any one of claims 1 to 11 and / or 30 using insulating plates according to any one of claims 12 to 19. 1006947