DK201970038A1 - Insulating frame and method for installing the same - Google Patents

Abstract

An insulating frame for a roof window mounted in an inclined roof structure of a building, comprising a set of roof connector brackets adapted for connecting the insulating frame to the roof structure is disclosed. Each of the roof connector brackets comprises a first connecting section and a second connecting section. The first connecting section is adapted for connecting to an attachment section of the insulating frame. The second connecting section is adapted for connecting to the roof structure and extends away from the inner opening of the insulating frame and beyond the outer side of the frame member to which the roof connector bracket is attached. The attachment section(s) allow attachment of each roof connector bracket at several different positions depending on the design of the roof structure. A method for installing an insulating frame in a roof structure is also disclosed.

Description

DK 2019 70038 A1 1 The present invention relates to an insulating frame for a roof window mounted in an inclined roof structure of a building, comprising top, bottom and side frame members, each including an insulating member and a support member, and a plurality of connector brackets, said insulating frame defining an inner opening adapted to surround a frame of the roof window and said insulating frame having an interior side intended to face the interior of the building and an exterior side intended to face the exterior and each frame member having an inner side facing the inner opening and an outer side fac- ing away from the inner opening, said insulating frame further defining a base plane at the interior side of the insulating frame members which is substantial- ly parallel with the inner opening.

Such insulating frames have found wide use and considerably im- proved the insulating properties of inclined roofs with roof windows, as well as the ease with which a window may be installed in an inclined roof structure.

As is known to the person skilled in the art, installing a roof window in an inclined roof structure is a challenging task, particularly in windy, rainy or snowing conditions. This sometimes results in the insulating frame not being mounted correctly, which may consequently result in difficulties during the subsequent mounting of the window and other associated components such as a lining panel or an underroof collar. This may have a negative impact on the installation process and the insulating properties and thus the optimum performance of the insulating frame and associated window components is not realised.

In EP2677092A1 flanges on the support members are used for con- necting the insulating frame to the roof structure and since they extend over substantially the entire length of the insulating frame members this insulating frame can easily be connected to virtually any roof structure. The insulating frame is simply inserted in the pre-made opening in the roof structure and the flanges on the support member will then automatically come into abutment with portions of the roof structure, such as battens, to which they may be at- tached.

The material consumption when making this insulating frame is,

DK 2019 70038 A1 2 however, relatively high and there has been some concern that support members made from metal might form thermal bridges. It is therefore an ob- ject of the invention to provide an insulating frame that is at the same time easy to install and reduces the consumption of material, which is relatively expensive and/or having a relatively high environmental impact. It is a further object to provide an insulating frame with improved insulating properties.

In a first aspect of the invention at least one of these objects are met by an insulating frame as described above, where the insulating frame com- prises a set of roof connector brackets adapted for connecting the insulating frame to the roof structure and at least one attachment section on an insulat- ing member or a support member, wherein each of the roof connector brack- ets comprises a first connecting section and a second connecting section, where the first connecting section is connected to an attachment section in the assembled state of the insulating frame, and where the second connect- ing section is adapted for connecting to the roof structure and extends away from the inner opening of the insulating frame in the assembled state in paral- lel with the base plane and beyond the outer side of the frame member to which the roof connector bracket is attached, and where said attachment sec- tion(s) allow attachment of each roof connector bracket at several different positions depending on the design of the roof structure.

With this insulating frame, roof connector brackets can be attached at the positions fitting the design of the specific roof structure in which it is to be used, thus providing high versatility with a minimum material consumption.

Throughout this text the terms "top", "bottom" and "side" are used to indicate the intended position of different parts in the mounted position even though these parts may be located differently during for example storage and transportation or prior to assembly of the insulating frame. Likewise, the term "interior" and "exterior" are used to indicate that something is intended to face the interior or exterior of the building in which the roof window is mounted, respectively, and the terms "inner" and "outer" that something is intended for facing towards or away from the inner opening of the insulating frame, re- spectively, in the mounted state.

DK 2019 70038 A1 3 The roof connector brackets having a first connecting section adapted for connecting to the at least one attachment section may have the effect of improving handling and transportation as the connector brackets and the insulating frame members may be provided separately so that the insulat- ing frame can be assembled in-situ.

One or more of the roof connector brackets may be adapted for dis- placeable attachment to the attachment section such that the one or more connector brackets may be moved along the length direction of the attach- ment section after being attached. This may have the effect of improving the ease of installation of the roof window as the position of the roof connector brackets may be adjusted once mounted e.g. by moving one or more roof connector brackets to a desired position e.g. a position where the roof con- nector bracket is located over a batten of the roof structure and may be con- nected thereto. This has the further effect that the risk of roof connector brackets being lost or forgotten is reduced compared to embodiments where they are to be attached by the installer.

The term “displaceable attachment” may be understood as being able to be moved along an attachment section in the length direction of an insulating frame member after being attached, without substantially damaging the connector brackets and/or attachment section and/or support member and/or insulating member and/or frame member and/or insulating frame e.g. by pushing or pulling the connector bracket.

The roof connector brackets as such may be of different shapes, lengths, widths and/or heights. Likewise, the first connecting sections and/or second connecting sections of the roof connector brackets may be of different shapes lengths, widths and/or heights. This may have the effect that it allows the insulating frame to be adapted to a given roof structure by using the ap- propriate types of roof connector brackets.

The roof connector brackets may be made of wood, steel, stainless steel, aluminium, other metals, polymers, ceramics, glass fibre, composites and/or combinations thereof.

The roof connector brackets may comprise a support section. The

DK 2019 70038 A1 4 support section may engage with the attachment section and/or support member and/or insulating member and/or insulating frame member. This may have the effect of improving the connection between the roof connector bracket and the insulating frame member and thus improving the strength and stability of the insulating frame. The support section may be in the form of a plate that is pressed into engagement.

The attachment section may be a separate element or be an inte- grated part of an insulating member or a support member. The attachment section may be made from a material different from the insulating and/or sup- port member. This may have the effect that materials of the different compo- nents of the insulating frame may be optimised to the specific purpose such as thermal properties, strength, cost and/or ease of manufacture.

The attachment section may comprise interconnecting means for in- terconnecting with roof connector brackets. The interconnecting means may be in the form of channels or grooves adapted for engaging with first connect- ing sections of the roof connector brackets. The interconnecting means may be in the form of rivets, screws, nails, spikes, or the like.

The interconnecting means may for example engage by snap- locking, barbed sections, and/or press fitting.

A barbed section can include lugs, pins or other protrusions looking like semi-pierced fingernail detent formed into the connector bracket or guide member e.g. by punching or stamping. The barbed section may facilitate snap-locking.

The term “snap-locking” may be understood as the connector bracket mechanically fastening itself to the attachment section once it is brought into the correct position.

The length of the attachment section may be of substantially the same length as the insulating frame member and/or insulating member and/or support member. The length of the attachment section and/or the support member may be less than 3/4, 1/2, 1/3, 1/4, or 1/5 of the length of an insulat- ing frame member. The insulating frame member may also comprise several attachment sections.

DK 2019 70038 A1 The attachment section being of substantially the same length as the insulating frame member may improve the ease of installation of the insulat- ing frame as the connector bracket may then be placed at virtually any de- sired location on the attachment section e.g. at a location where the connect- 5 or bracket will be proximal to a batten of the roof structure such that it may be connected thereto.

The attachment section may be a separate part of the insulating frame. This may have the effect that the attachment section may be selective- ly arranged at a desired location, such as near the battens of the roof struc- ture. This may also have the effect that the insulating frame may be tailored to a certain roof structure by varying the number and location of the at least one attachment section.

The attachment section may be a different material to the rest of the insulating frame member. The attachment section may be a high density foam where the insulating member is a low density foam.

In an embodiment, the attachment section is located at an exterior side of an insulating frame member. This may have the advantage that it im- proves the ease with which roof connector brackets may be attached to the attachment section, thus improving the ease of installation of the insulating frame.

In an embodiment, the attachment section is made from a material chosen from the following group: wood, metal, polymer, high rigidity polymer foam such as EPS (expanded polystyrene) or combinations thereof, where the material may comprise perforations.

The attachment section may be made from the same material as the support member and vice versa. In one embodiment, the support member is made from a rigid insulating material, such as a non-elastic foamed polymer. The attachment section may then be a part of the support member.

The attachment sections may be adapted to interconnect with one or more other attachment sections, for example via a mortise joint or the like. In this way, it is for example possible to establish a continuous series of attach- ment sections extending along the entire insulating frame, and it is of course

DK 2019 70038 A1 6 also possible to provide one continuous attachment section extending all the way around the insulating frame.

In an embodiment the first connecting section of the roof connector brackets is adapted for detachable attachment.

The term “detachable attachment” may be understood as being able to be removed by non-destructive mechanical action where neither the insu- lating frame, attachment section or connector bracket is substantially dam- aged and the connector bracket is able to be reattached to the attachment section. For example, by pulling the connector bracket off.

The roof connector brackets being detachable may have the effect of improving the ease of installation of the insulating frame as a wrongly placed roof connector bracket may be detached and reattached at the required loca- tion. It may also improve the ease of transportation of the insulating frame as the roof connector brackets may be transported, packaged and/or shipped pre-attached to the insulating frame in a position optimal for packaging and transportation and then moved during installation. It may also improve maintenance, should it be required, as a potentially damaged roof connector bracket may simply be removed and replaced. It may also provide a greater flexibility of installation as the insulating frame may be adapted to different installation scenarios by varying the number and/or types of roof connector brackets used in-situ.

In an embodiment, the first connecting section extends over half or less than half the length of an insulating frame member.

In an embodiment, the first connecting section of the roof connector brackets are adapted for attachment via snap-locking.

This may have the advantage of improving the installation process as the roof connector brackets may simply be snap-locked onto the required lo- cation on the attachment section.

The first connecting sections may alternatively be adapted for being attached to the attachment section by screws, bolts, spikes or the like.

The first connection section may comprise a tab for releasing the roof connector bracket from the attachment section.

DK 2019 70038 A1 7 The first connecting section may comprise interconnecting means in the form of a barbed section. The barbed section can include lugs, pins or other protrusions looking like semi-pierced fingernail detent formed into the connector bracket or guide member e.g. by punching or stamping. The barbed section may facilitate snap-locking.

In an embodiment, the second connecting section of the roof con- nector brackets comprises means for attachment to a roof structure such as holes for screws, spikes, nails and the like.

The second connecting section may be in the form of one or more flanges extending over at least a part of the length of the roof connector bracket and projecting from the frame away from the opening in the mounted state. The flange may comprise a series of holes and/or recesses and/or openings adapted for allowing a screw, nail, rivet or spike to pass through for securing the connector bracket to a roof structure.

In an embodiment of the invention the insulating frame is provided as a kit for making an insulating frame according to one or more embodiments of the first aspect of the invention, comprising a plurality of insulating frame members and a plurality of roof connector brackets.

In a second aspect of the present invention, the above mentioned ob- jects are met by a method for installing an insulating frame in a roof structure, comprising the steps of: - providing top, bottom and side members of the insulating frame each includ- ing an insulating member and a support member, said insulating frame defin- ing an inner opening adapted to surround a frame of the roof window and said insulating frame having an interior side intended to face the interior of the building and an exterior side intended to face the exterior and each frame member having an inner side facing the inner opening and an outer side fac- ing away from the inner opening, said insulating frame further defining a base plane at the interior side of the insulating frame members which is substantial- ly parallel with the inner opening, where the insulating frame comprises at least one attachment section, and - providing a plurality of roof connector brackets, said roof connector brackets

DK 2019 70038 A1 8 being adapted for connecting the insulating frame to the roof structure, and where each of the roof connector brackets comprises a first connecting sec- tion and a second connecting section, where the first connecting section is adapted for connecting to an attachment section, and where the second con- necting section is adapted for connecting to the roof structure and extends away from the inner opening of the insulating frame in parallel with the base plane and beyond the outer side of the frame member to which the roof con- nector bracket is attached in the mounted state, - connecting the roof connector brackets to the insulating frame member(s) or the roof structure via the first connecting section or second connecting section, respectively, - connecting the roof connector brackets to the other of the insulating frame and roof structure via the first connecting section or second connecting section, respectively.

This may have the advantage of improving the ease of installation of the insulating frame, whilst also providing an insulating frame that is more versatile and easily adaptable to a given roof structure.

In a development of the previous embodiment a method for installing the insulating frame: - the roof connector brackets are first connected to an attachment section via the first connecting section, and - the insulating frame is subsequently connected to the roof structure via the second connecting section of the roof connector brackets.

It is within the scope of the invention to connect some roof connector brackets first to the insulating frame member(s) and then to the roof structure, while other roof connector brackets used for installing the same insulating frame are connected first to the roof structure and then to the insulating frame member(s). For example, roof connector brackets at one side of the insulating frame may be connected first to the corresponding side insulating frame member while roof connector brackets at the opposite side of the insulating frame are connected first to the roof structure, so that the insulating frame can be swung into place in the opening in the roof structure.

DK 2019 70038 A1 9 In the following, embodiments of the invention will be explained in more detail with reference to the schematic drawings, in which: Fig. 1 is a perspective view of an insulating frame according to the invention, Fig. 2 is an enlarged view of the detail BB in Fig. 1, Fig. 3 corresponds substantially to Fig. 2 but seen from a slightly dif- ferent angle and where the roof connector bracket has been removed, Fig. 4 is an enlarged view of the roof connector bracket as seen from the direction of arrow IX in Fig. 1, Fig. 5 is a perspective view of a side insulating frame member of the type used in Fig. 1 with a different embodiment of a roof connector bracket, Fig. 6 is an enlarged perspective view of the roof connector bracket in Fig. 5, Fig. 7 is a perspective view of a corner of different embodiment of an insulating frame according to the invention, Fig. 8 is a cross-sectional view of the side insulating frame member in Fig. 7 and a roof connector bracket, and Fig. 9 is a cross-sectional view of another embodiment of a side insulating frame member and a roof connector bracket according to the invention.

An insulating frame 100 according to the invention will now be de- scribed in reference to Fig. 1. An insulating frame 100 like this is typically in- stalled in a suitable opening in a roof structure (not shown). The insulating frame provides an insulating barrier at the interface between a roof window (not shown) and the roof structure, and facilitates easier mounting of the roof window by providing a predefined space adapted for the window. The frame 100 can be delivered as a complete kit for assembly including a plurality of insulating members 112, a plurality of support members 114 and a plurality of roof connector brackets 200, providing a convenient solution for the installer. The insulating frame 100 has an exterior side adapted to face away from the interior of the building (facing upwards in Fig. 1), and an interior side adapted for facing towards the interior of the building (facing downwards in Fig. 1). An insulating frame 100 like this, that can be efficiently assembled and adapted

DK 2019 70038 A1 10 to a given window in-situ and is highly advantageous to the installer as the installer doesn’t need to leave the installation site to undertake modifications to the insulating frame 100 that may be required to install the insulating frame. The insulating frame 100 may also be delivered in a partly or completely as- sembled state.

The insulating frame 100 comprises top 110c, bottom 110d and side insulating frame members 110a and 110b, which refer to their location when mounted, support members and a plurality of connector brackets 200 as will be discussed in more detail below. The insulating frame members 110a-110d define an inner opening 3. The insulating frame members comprise a ledge 120 projecting towards the inner opening 3, which is intended to project un- derneath a frame of a roof window, which the insulating frame 100 is intended to receive. The outer side of the insulating frame 100 is intended to face the opening in the roof structure.

The insulating members 112, which make up the majority of the vol- ume of the insulating frame 100, are made from a material of a dimensionally stable nature having good thermal insulating properties. The insulating mem- bers of the side insulating frame members 110a, 110b further comprise a softer material on the outer side, which is compressible so as to allow it to yield and adapt to the shape of the opening in the roof structure. Further de- tails of this are described in the applicants granted patent EP2677092B1. In this embodiment the insulating members of the side insulating frame mem- bers 110a, 110b are made from two types of polymer foam. It is, however, also possible to make them from a single material, and/or for the insulating members of the top and bottom insulating frame members 110c, 110d to be made from different materials or combinations of materials.

In this embodiment two different types of roof connector brackets 200a and 200b (which may be collectively referred with reference number 200) are used. The connector brackets 200 are attached to the attachment sections 500 of the insulating frame members 110d and 110a via their re- spective first connection sections 220 best seen in Fig. 4. It is noted, that the insulating frame 100 need not be attached to battens (not shown) or other

DK 2019 70038 A1 11 parts of the roof structure, but may simply rest on top of these as the subse- quent fastening of the roof window will also secure the insulating frame 100. However, to keep the insulating frame 100 in place before and during the in- stallation of the window frame therein, it may be advantageous to attach at least some of the roof connector brackets 200 to the roof structure. For this purpose and for easing the later fastening of the window mounting brackets, holes 213, which allow a clamp, nail, spike or screw to pass, are provided in the second connecting sections 210. The features here described in relation to the bottom insulating frame member 110d and one of the side insulating frame member 110a also apply to the other side insulating frame member 110b and the top insulating frame member 110d, which are substantially the same.

The first type of roof connector bracket 200a used at the corners is an angular L shaped bracket having two legs, where each leg comprises a first connecting section 220, a second connecting section 210 and a support section 250 best seen in Fig. 4. The angular L shape allows the roof connect- or bracket 200a to be attached to two insulating frame members 110 such as shown in Fig. 1. This roof connector bracket 200a also acts as a corner or frame con- nector bracket interconnecting the two insulating frame members with the ad- ditional advantages of the second connecting section 210 of a roof connector bracket 200. To this end, the first connecting section 220 of each leg of the roof connector bracket 200a comprises interconnecting means in the form of a barbed section, as shown in Fig. 4, which engage with the interconnecting means 130 (see Fig. 3) of attachment sections 500. Once the roof connector bracket 200a is attached to the attachment sections 500 via the first connect- ing sections 220, the support sections 250 are pressed and/or bent into en- gagement with the exterior side of the attachment sections 500. This im- proves the stability and strength of insulating frame 100. When the roof con- necter bracket is interconnected with the two adjacent insulating frame mem- bers 110 it envelopes a corner of the insulating frame 100 as shown in Fig. 2. To improve the stability of the insulating frame 100, the attachment sections

DK 2019 70038 A1 12 500 are adapted to join together at the corners of the insulating frame 100 by a mortise joint 140. The attachment sections in this embodiment are made from EPS foam, but other dimensionally stable materials might also be employed.

The second type of roof connector bracket 200b also attaches direct- ly to the attachment section 500 and may be attached at any desired location along the attachment section 500. Although not shown in the figures, the sec- ond connecting section 210 of this roof connector bracket 200b may also comprise holes, openings and/or recesses allowing screws, spikes, nails and the like to pass through to secure the insulating frame 100 to a roof structure. Fig. 5 shows a roof connector bracket 200b of the second type at- tached to an attachment section 500 via the brackets 200b first connecting section 220. The first connecting section 220 of this roof connector bracket 200b is better seen in the enlarged close-up view of the bracket 200b in Fig.

6. The first connecting section 220 of the bracket 200b comprises two barbed sections which engage with corresponding grooves in the attachment section 500 (best seen in Fig. 5) and snap-lock thereto. Even though the bracket in Figs 5-6 is shorter than those shown in Fig. 1 it is to be understood that it serves the same purpose and has substan- tially the same features as described with reference to Fig. 1, and vice versa. In the embodiment shown in Figs. 7 and 8, the insulating frame members 110 comprise an attachment section 600 that is a separate part to the insulating member 112 and which comprises one or more grooves or tracks 510 located at an exterior side of the insulating frame. Here, the at- tachment section 600 is arranged within a channel in the insulating frame member. The one or more grooves or tracks 510 of the attachment section 600 enables a roof connector bracket 200 adapted for displaceable attach- ment to be displaceably attached to an insulating frame member 110. This may have the advantage that the connector brackets 200 may be moved once it has been connected to the attachment section 600 and so allows for in-situ adjustment of the connector bracket 200 location, for example, to move it to a better suited mounting position near a batten of the roof structure. It

DK 2019 70038 A1 13 provides the further advantage that the connector brackets 200 may be pre- connected to the insulating frame 100 e.g. for packaging, shipping and/or op- timisation of installation process efficiency, and then still be adapted in-situ to a specific roof structure on-site.

Attachment section 600 may be made from any suitable material such as for example foamed ABS, EPS, PP, GF, stainless steel, metals, pol- ymers and/or combinations thereof.

In another embodiment, the attachment section 500 comprises a number of channels for connecting and supporting roof connector brackets 200 as seen in Fig. 9. In this embodiment the attachment section 500 is made of a high rigidity foam, which is substantially non-elastic, and the insulating member 112 is made of a lower rigidity foam. This allows the insulating frame 100 to retain its adaptability thanks to the lower rigidity foam that may be easi- ly manipulated to fit a given opening in a roof structure, whilst the high rigidity foam provides the necessary strength and support to ensure adequate stabil- ity of the insulating frame as well as a secure connection of the connector bracket 200, while at the same time having insulating properties. In this em- bodiment, the connector brackets 200 may be connected to the attachment section 500 by sliding them into the channels of the attachment section 500.

In the embodiment shown here, the attachment section 500 is made of an EPS foam. It is, however, also possible to make the attachment section 500 and/or the roof connector bracket 200 from a material, which has/have suffi- cient elasticity to allow the roof connector bracket to snap onto the attachment section.

It should also be noted that the support members 114 need not be separate parts to the attachment section as shown in Fig. 8, but may be an integral part of the attachment section 500, 600.

The roof connector brackets 200 may be adapted for detachable at- tachment such that they may be attached and detached from the attachment section 500, 600, for example to adapt the insulating frame 100 to a specific roof structure. This may be achieved by the connector bracket 200 being adapted for snap-locking, for example through a barbed section engaging

DK 2019 70038 A1 14 with a complimenting interconnecting section on an attachment section such as in Figs. 4 and 6.

The connector brackets 200 may be made of a material chosen from the following group: wood, steel, stainless steel, aluminium, other metals, pol- ymers, ceramics, glass fibre, composites and combinations thereof, but are preferably made of aluminium.

In the above, the inventive concept has been described with refer- ence to a few embodiments. However, as is readily appreciated by a person skilled in the art, other embodiments than the ones disclosed above are equally possible within the scope of the inventive concept, as defined by the appended claims.

List of references 100 Insulating frame 110 Insulating frame member 112 Insulating member 114 Support member 120 Ledge 130 Interconnecting means 140 Mortise joint 200 Roof connector bracket 210 Second connecting section 211 Holes 213 Openings and/or recesses 220 First connecting section 230 Interconnecting means 240 Interconnecting means 250 Support section 300 Frame connector bracket 500 Attachment section 510 Groove or track

DK 2019 70038 A1 15 600 Attachment section

Claims (11)

DK 2019 70038 A1 16 PATENT CLAIMS

1. An insulating frame for a roof window mounted in an inclined roof structure of a building, comprising top, bottom and side frame members, each including an insulating member and a support member, and a plurality of con- nector brackets, said insulating frame defining an inner opening adapted to surround a frame of the roof window and said insulating frame having an inte- rior side intended to face the interior of the building and an exterior side in- tended to face the exterior and each frame member having an inner side fac- ing the inner opening and an outer side facing away from the inner opening, said insulating frame further defining a base plane at the interior side of the insulating frame members which is substantially parallel with the inner open- ing, characterized inthatthe insulating frame comprises a set of roof connector brackets adapted for connecting the insulating frame to the roof structure and at least one attachment section, that each of the roof connector brackets comprises a first connecting section and a second connecting section, where the first connecting section is adapted for connecting to an attachment section, and where the second con- necting section is adapted for connecting to the roof structure and extends away from the inner opening of the insulating frame in parallel with the base plane and beyond the outer side of the frame member to which the roof con- nector bracket is attached, and that said attachment section(s) allow(s) attachment of each roof con- nector bracket at several different positions depending on the design of the roof structure.

2. The insulating frame according to any one of the preceding claims, wherein the first connecting section of the roof connector brackets is adapted for detachable attachment to an insulating frame member.

3. The insulating frame according to any one of the preceding claims, where the attachment section is located at an exterior side of a frame mem- ber.

4. The insulating frame according to any one of the preceding claims, wherein the roof connector brackets are adapted for displaceable attachment

DK 2019 70038 A1 17 to the attachment section.

5. The insulating frame according to any one of the preceding claims, wherein the first connecting section of the roof connector brackets is adapted for attachment via snap-locking.

6. The insulating frame according to any one of the preceding claims, wherein the attachment section is a made from a material chosen from the following group: wood, steel, stainless steel, aluminium, other metals, poly- mers, foamed polymers, ceramics, glass fibre, or combinations thereof, where the material may comprise perforations.

7. The insulating frame according any of one of the preceding claims where the support member is made from a rigid insulating material, such as a non-elastic foamed polymer.

8. The insulating frame according any of one of the preceding claims where the second connecting section of the roof connector brackets compris- es means for attachment to a roof structure such as holes for screws, spikes, nails and the like.

9. A kit for making an insulating frame according to one or more of claims 1-8, comprising a plurality of insulating frame members and a plurality of roof connector brackets.

10. Method for installing an insulating frame in a roof structure, com- prising the steps of: - providing top, bottom and side members of the insulating frame each includ- ing an insulating member and a support member, said insulating frame defin- ing an inner opening adapted to surround a frame of the roof window and said insulating frame having an interior side intended to face the interior of the building and an exterior side intended to face the exterior and each frame member having an inner side facing the inner opening and an outer side fac- ing away from the inner opening, said insulating frame further defining a base plane at the interior side of the insulating frame members which is substantial- ly parallel with the inner opening, where the insulating frame comprises at least one attachment section, and - providing a plurality of roof connector brackets, said roof connector brackets

DK 2019 70038 A1 18 being adapted for connecting the insulating frame to the roof structure, and where each of the roof connector brackets comprises a first connecting sec- tion and a second connecting section, where the first connecting section is adapted for connecting to an attachment section, and where the second con- necting section is adapted for connecting to the roof structure and extends away from the inner opening of the insulating frame in parallel with the base plane and beyond the outer side of the frame member to which the roof con- nector bracket is attached in the mounted state, - connecting the roof connector brackets to the insulating frame member(s)and/or the roof structure via the first connecting section or second connecting section, respectively, - connecting the roof connector brackets to the other of the insulating frame and roof structure via the first connecting section or second connecting section, respectively.

11. Method for installing an insulating frame in a roof structure ac- cording to claim 10, where - the roof connector brackets are first connected to an attachment section via the first connecting section, and - the insulating frame is subsequently connected to the roof structure via the second connecting section of the roof connector brackets.