DK179674B1 - Window including a climate-shielding transition assembly - Google Patents

Abstract

The invention relates to a window (1) having a supply condition and a mounted condition in a roof construction, comprising a frame (3) adapted to cooperate with a set of transition assemblies in the mounted condition. The distance between the outer sides of two opposite frame members varies overthe depth of the frame, so that an outer dimension of the frame is larger at a first level at the interior side of the frame than at a second level closer to the exterior side of the frame. A transition assembly to form a climate-proofing transition between the window and the roof construction comprises an underfelt collar (7) with a frame engagement section (71) and a roof structure engagement section (72). The frame engagement section is connected to the frame (3) at the second level in the supply condition and the width of the roof structure engagement section (72) in a direction parallel to the corresponding frame member increases gradually with the distance to the frame engagement section at least over a section of the roof structure engagement section.

Description

The present invention relates to a window having a supply condition and a mounted condition in a roof construction of a building, comprising a frame including a plurality of frame members defining a frame opening and a frame plane, said frame being adapted to cooperate with a set of transition assemblies, such as insulation elements, a flashing assembly, mounting brackets, a vapour barrier and/or an underfelt collar, in the mounted condition, and said frame having an interior side adapted to face the interior of the building in the mounted condition and an exterior side adapted to face the exterior of the building in the mounted condition, the distance between the interior side and the exterior side defining a depth of the frame, and each frame member having an inner side facing the frame opening and an outer side facing away from the frame opening, the distance between the outer sides of two opposite frame members varying over the depth of the frame, so that an outer dimension of the frame is larger at a first level at the interior side of the frame than at a second level closer to the exterior side of the frame, said first and second levels being substantially parallel with the frame plane, and in that the window is provided with a transition assembly to form a climate-proofing transition between the window and the roof construction in the mounted condition.

Transition assemblies make it possible to achieve satisfactory connections between the window and the surroundings, namely typically with the interior, the roof construction and the surrounding roofing, from an installation point of view, including constructional, aesthetic and climate-proofing, and weather-tightening considerations.

When installing windows in a roof, the location of the window in the roof entails that special precautions need to be taken in order to ensure a climate-proof transition to the roof construction such that suitable comfort in the building room is achieved.

Transition assemblies of this kind are well-known in the art. Commercially available products include for instance pre-fabricated insulation, vapour barrier and underfelt collars to be sold either with the window, or as separate units for instance during renovation or refurbishing.

During the installation process, that is when bringing the window from its supply condition to its mounted condition, several components need to be handled, and various sizes and positions of the individual components need to be accommodated. In combination with the requirements to satisfactory transitions as regards tightness and accurate positioning, the installation of a window and the connection to the roof structure and other building components, present great challenges.

One prior art document describing a window of the kind mentioned in the introduction is GB 1105712 A.

With this background it is an object of the invention to provide a window, by which the installation is facilitated and more fail-safe than by the prior art.

This and further objects are met by a window of the kind mentioned in the introduction, which is furthermore characterized in that said transition assembly is an underfelt collar with a frame engagement section and a roof structure engagement section, that the frame engagement section is connected to the frame at the second level in the supply condition and in that the width of at least one roof structure engagement section in a direction parallel to the corresponding frame member increases gradually with the distance to the frame engagement section at least over a section of the roof structure engagement section.

Making the window with larger outer dimensions at the interior side allows the provision of insulation material, a lining support arrangement or like transition assemblies in connection with the frame without any considerable reduction of the light admitting area of the frame opening. In some cases this, however, prevents the use of traditional underfelt collars, which are made to fit closely to the outer dimensions of windows having a frame with substantially constant outer dimensions in the depth direction. Using an oversized underfelt collar solves this problem but involves a serious risk that the underfelt collar is not mounted correctly. Providing a collar, which becomes gradually wider with the distance from the frame and which is already connected to the frame in the correct position at the second level in the supply condition means that these potential adverse effects of using a frame with larger dimensions at the interior side are alleviated. The combination of a frame with increased width at the interior side and an underfelt collar specially adapted for this type of frame allows the provision of a window, which may not only be given improved properties, but which is at the same easy to install.

In order to allow adaptation to different installation situations, the underfelt collar may be in a folded or rolled-up state in the supply condition. The underfelt collar may then be unfolded or rolled out during installation to the extent needed in the particular situation. This may also contribute to preventing the underfelt collar from being in the way for other processes during installation of the window in the roof structure.

The frame may be made in any suitable way and from any suitable material, including wood, polymers and metal, as is well known to the skilled person. In one embodiment it is, however, made as a two-part frame including a first sub-frame carrying a sash and a second sub-frame adapted for being connected to the roof construction. The underfelt collar is then preferably connected to the second sub-frame.

The frame and hence the window may in principle have any desired shape, but in many embodiments the frame or each of the first sub-frame and the second sub-frame is substantially rectangular and including a top frame member, a bottom frame member and two side frame members.

As the sash of the window is connected to the first sub-frame, the first sub-frame must be able to absorb the forces transmitted from the sash via the hinges. The second sub-frame on the other hand may not be subject to such local forces, and in such cases it may be made from an insulating material, such as foamed polyurethane, thereby serving as an insulating transitional assembly itself. Alternative, if the second sub-frame is subject to considerable forces it may still be made from insulating material but provided with reinforcing elements, such as wooden strips, metal profiles or members made from relatively strong and stiff polymers.

The provision of an underfelt collar may be supplemented by providing at least one additional transition assembly on the frame chosen from the group consisting of: insulation elements, mounting brackets for interconnectDK 179674 B1 ing the frame to the roof structure, a lining support arrangement, a flashing assembly and a vapour barrier. If using a two-part frame, such additional transition assemblies can be provided on either of the two sub-frames, but if providing all transitions assemblies on the second sub-frame, the first subframe may be dedicated to the functions associated with the operation of the window. This in turn allows the window to be easily customized by combining the first sub-frame with different types of second sub-frames having different transition assemblies and it will of course also be possible to provide different types of first sub-frames.

In one embodiment the window includes a climate-proofing transition assembly in the form of at least one insulation element provided at the top member of the frame. This insulation element may be arranged in direct contact with the frame or on the exterior side of the underfelt collar and may possibly be attached to the underfelt collar.

In one embodiment a lining support arrangement is connected to the frame of the window in its supply condition and adapted to support a window lining in the mounted condition, where said lining support arrangement preferably includes support means allowing variation of the angle between the window lining and the frame, and wherein the lining support arrangement preferably comprises a number of longitudinally extending lining support members to form a frame-shaped structure connected to the frame in the supply condition and the support means of the lining support arrangement is provided by a lining engagement portion of each lining support member, preferably formed as a longitudinal bead having a part-cylindrical cross-sectional shape. This allows for an easy and secure attachment of a lining to the window frame and thus facilitates the installation process.

In one embodiment the window is provided with a transition assembly to form a weather-tight transition between the window and the roof construction in the mounted condition, wherein the transition assembly is a flashing assembly. By integrating at least some of the flashing members used for water-proofing the construction in the window, the installation process is made easier and the risk of errors reduced. A flashing assembly may include not only flashing members in the traditional sense, but also the members sometimes referred to as covering and cladding members as well as gaskets, end plugs etc. associated therewith.

Further embodiments and advantages are set forth in the dependent claims, and will be apparent from the accompanying description of preferred embodiments.

In the following the invention will be described in further detail by means of examples of embodiments with reference to the schematic drawings, in which

Figs 1A and 1B are perspective views of a window in an embodiment of the invention;

Fig. 2 is a view of the window of Figs 1A and 1B, with two tiles indicated schematically;

Figs 3, 4 and 5 are schematic, fragmentary perspective views, on a larger scale, of a window in one embodiment of the invention;

Fig. 6 is a perspective view of details of the window in the embodiment of Figs 3, 4 and 5;

Fig. 7 is a perspective view, on a larger scale, of a detail of Fig. 6;

Figs 8A and 8B are end views, on a larger scale, of the detail of Fig. 7 cooperating with a lining panel in two different installation situations;

Figs 9A to 9B and 10 are schematic perspective views of a window in a further embodiment of the invention;

Fig. 9c is a cross-sectional fragmentary view along the line IX-IX in

Fig. 9A;

Fig. 11 is a schematic perspective view of an alternative window;

Fig. 12A is a perspective view of an underfelt collar of the window of Figs 9A-9B, 10 and 11;

Fig. 12B is a perspective view of a prior art underfelt collar;

Fig. 13 is a perspective view of a flashing arrangement of a still further embodiment of the window according to the invention;

Fig. 14 is an exploded perspective view of the flashing arrangement shown in Fig. 13;

Figs 15 and 16 are further exploded perspective views of details the flashing arrangement of Fig. 14; and

Figs 17 and 18 are perspective views, on a larger scale, of a detail of the flashing arrangement of Fig. 13.

In Figs 1A, 1B and 2, a window generally designated 1 is shown, in a position representing a mounted condition in an inclined roof with an undulated roofing material such as tiles represented by two tiles 10 in Fig. 2. The supporting roof construction is not shown but typically includes rafters, battens and counter-battens.

The window 1 comprises a sash 2 hingedly connected to a frame generally designated 3. The sash 2 carries a pane 4.

The frame 3 is adapted to cooperate with a set of transition assemblies to form a transition to the interior, to the roof construction and to the surrounding roofing, respectively.

According to the present invention, the transition towards the interior of the building below the window is provided in that the set of transition assemblies comprises a first transition assembly in the supply condition to form a climate-proofing transition between the window 1 and the roof construction in the mounted condition as illustrated by the embodiment shown in Figs 1A1B and 2. In the specific embodiments shown in Figs 9A-9C, 10, 11 and 12A, the second transition assembly is an underfelt collar 7 connected to the frame 3 of the window 1 in the supply condition as will described in detail later.

Optionally, the first transition assembly also includes an insulation element 6 as will also be described further below.

The window may also include a second transition assembly in the form of a lining support arrangement 5 connected to the frame 3 and adapted to cooperate with a window lining including a set of lining panels 9 (cf. Figs 8A and 8B) to be described in further detail below with particular reference to Figs 3 to 8B.

Eventually, a weather-tight transition between the window 1 and the surrounding roofing 10 in the mounted condition is provided by means of a third transition assembly in the form of a flashing arrangement 8. This will be described in further detail with particular reference to Figs 13 to 18.

Turning now to Figs 3 to 5 showing a window of one embodiment of the invention in a supply condition, the features of the window 1 will be described in some detail.

The sash 2 is shown with sash members 21, 22, 23 and 24. The hinge connection with the frame 3 is provided at the top of the window 1 and is constituted by sash hinge part 25a cooperating with frame hinge part 25b and interconnected by hinge pin 25c.

In the embodiments shown in the drawing, the frame 3 is provided as a two-part frame including a first sub-frame 3a adjacent the sash 2 and including four first frame members 31, 32, 33, 34, and a second sub-frame 3b including four second frame members 35, 36, 37, 38. Such embodiments are presently considered advantageous as they allow different features of the frame to be associated with either the first or the second sub-frame as will be described in detail below, but it is entirely within the scope of the invention to use a single one-part frame housing all of the features described with reference to the first and second sub-frames.

To operate the window 1 and to position the sash 2 in a ventilating position relative to the frame 3, an opening device 27 is provided. The opening device 27 comprises a guiding console 28a, a first tap 28b, pivot bushing 28c, and a second tap 28d connected to the bottom frame member 32 of the first frame. Connecting member 29a with link 29b is via pivot bushing 28c connected to stay arm 29c. Stay arm 29c is provided with a series of apertures, here two apertures 29d, to cooperate with first tap 28b or second tap 28d in a ventilating position. The sash 2 is opened by handling stay arm 29c, for instance by gripping handle portion 28e, and lifting the stay arm 29c out of engagement with second tap 28d through right-hand aperture 29d, lifting link 29b out of engagement with first tap 28b, swinging sash 2 outwards. A desired ventilating position is provided by re-positioning one of apertures 29d over first tap 28b.

The pane 4 is formed as a two-sheet stepped pane comprising exterior pane sheet 41 and interior pane sheet 42. In the embodiment shown, fitDK 179674 B1 tings 26 at the bottom sash member 22 are positioned in close proximity to the lower edge of the exterior pane sheet 41.

Other components not described in detail form part of the weathershield of the roof and include frame and sash claddings and covers, flashings, roofing felt, insulation and underroof, of which side frame covering 34a is shown.

According to the present invention, bringing the window 1 from a supply condition to a mounted condition in a roof construction, for instance as indicated in Fig. 2, involves connecting the frame 3 of the window 1 to the roof structure.

Referring now to Figs 9A-9C and 10, it is shown how the window is provided with a first transition assembly in the form of an underfelt collar 7 to form a climate-proofing transition between the window and the roof construction. The underfelt collar 7 is provided with a frame engagement section in the form of rim 71 fastened to the frame 3 and a roof structure engagement section 72 extending from the frame engagement section. The frame engagement section 71 may be attached by suitable means, for instance doubleadhesive tape or staples.

In the embodiment shown in the drawing, the frame engagement section 71 is attached to the first frame members 31-34 so that it covers and protects the joint between the first and second sub-frames 3a, 3b, but it could also be attached to the second sub-frame or be attached to the frame by being sandwiched between the first and second sub-frames.

As is best seen in Fig. 12A the underfelt collar 7 in this embodiment is shaped with an exterior collar section adapted for being located at the first sub-frame and including the frame engagement section 71, a bridge collar section and an interior collar section adapted for extending over the second sub-frame in the supply condition and forming the main part of the roof structure engagement section 72. Each of these sections is made from four pieces extending along the top, bottom and side frame members, respectively. The parts of the exterior collar section to be located at the bottom and side frame member are substantially straight, while the part to be located at the top frame member is curved and gradually extending away from the frame opening. All parts of the interior collar section become gradually wider width in a direction parallel to the corresponding frame member with the distance to the frame engagement section, but the interconnections between the top piece and the side pieces are more inclined than the interconnections between the bottom and side pieces.

In Figs 9A, 9B, 10 and 11 the side pieces of the interior section of the underfelt collar 7 are not connected to the top piece over their entire height. This allows the top piece to come down between the lining support members 53, 54 extending along the respective side members of the frame, while the side pieces extend on the outer side of these lining support members. This is particularly useful when the window includes a transition assembly in the form of an insulation element 6 provided at the top member of the frame as may best be seen in Figs 9A, 9B and 10, but may also be used for making room for other transition assemblies or parts thereof.

In Fig. 12A the underfelt collar is shown as being made without a surplus of material, but it will be understood that particularly the roof structure engagement section 72 may be provided with area increasing means such as for instance pleats or folds in a manner known per se and as indicated in the prior art collar 7' of Fig. 8B. It is also possible to make the collar from an elastic material.

As illustrated schematically in Fig. 9c the roof structure engagement section 72 may be folded in the supply condition so that the edge furthest from the frame engagement section 71 is arranged at the bridge section. Ones the window has been positioned in the roof structure, the roof structure engagement section can be unfolded to extend over the roof structure substantially in parallel with the plane of the roof and possibly attached thereto.

The edge of the roof structure engagement section 72 may be attached to the exterior surface of the underfelt collar to keep it in place during transport, handling and installation, using for example an adhesive.

It will be understood that the folding of the underfelt collar may be embodied in many ways for example by bending it several times and that the edge furthest from the frame engagement section does not have to be arranged at the bridge section, but it should of course be possible to get a hold of it when the window has been positioned in the roof structure. Likewise it will be understood that a similar effect may be achieved by rolling the underfelt collar instead of folding it.

In the embodiments shown in the drawing, the window further includes a second transition assembly in the form of lining support arrangement 5 will be described in some detail. The lining support arrangement 5 is connected to the frame 3 of the window 1 in its supply condition and supports the window lining 9 in the mounted condition, cf. Figs 8A and 8B. The lining support arrangement 5 includes support means allowing variation of the angle between the window lining 9 and the frame 3.

In the one embodiment, the lining support arrangement 5 comprises a number of longitudinally extending lining support members 51, 52, 53 and 54 to form a frame-shaped structure connected to the frame 3 in the supply condition. The support means of the lining support arrangement 5 is provided by a lining engagement portion 535 of each lining support member, here represented by lining support member 53, formed as longitudinal bead having a part-cylindrical cross-sectional shape.

In addition, the lining support member 53 comprises a first frame engaging face 531 forming a top surface, a second frame engaging face 532 forming a side surface, a back side 533, a first stepped portion 534 extending between the second frame engaging surface 532 and the lining engaging portion 535, and a second stepped portion 536 extending between the lining engagement portion 535 and a bottom surface 537, the transverse dimension between the second engaging face 532 and the back side 533 being larger than the transverse dimension between the first stepped portion 534 and the back side 533 and between the second stepped portion 536 and the back side 533. The second stepped portion 536 is here inclined such that the transverse dimension between the second stepped portion 536 and the back side 533 is larger at the lining engagement portion 535 than at the bottom surface 537.

In the two-part configuration of the window frame 3 of the embodiment, the lining support arrangement 5 cooperates with the second frame 3538. To that end, the second frame member, here shown as second frame member 38, is provided with a rabbet 380 forming a bottom face 381 and a side face 382 to abut the first and second frame engaging faces 531, 532, respectively, of the lining support members 51-54.

The lining support arrangement is the subject-matter of Applicant’s co-pending patent application filed on the same date as the present application.

In the alternative window shown in Fig. 11, no lining support arrangement 5 is present, just as no insulation element 6 is present.

Eventually, the window is in the embodiment shown provided with a third transition assembly to form a weather-tight transition between the window and the roof construction in the mounted condition, wherein the transition assembly is a flashing assembly 8.

The window 1 according to the invention may be supplied with only the first transition assembly, viz. the underfelt collar 7, and optionally with the second and/or third transition assemblies.

The flashing assembly 8 is the subject-matter of Applicant’s copending patent application filed on the same date as the present application. The contents thereof are incorporated by specific reference, and the flashing assembly 8 will not be described in further detail than the below listing of elements:

gutter element

811 middle piece

812 tile-supporting piece

813 deflector piece

814 left-hand gutter side piece

815 right-hand gutter side piece 82 skirt element

820 apron foam

821 apron piece

822 middle piece

823 left-hand skirt side piece

824 right-hand skirt side piece left-hand water raiser right-hand water raiser left-hand connecting piece right-hand connecting piece screen element

871 first side edge

872 second side edge

873 bent portion

874 flange

875 dimples

The invention should not be regarded as being limited to the embodiments shown in the drawings and described in the above. Several modifications and combinations may be carried out within the scope of the appended claims. Particularly it is noted that the transition assemblies described above are in principle independent of each other and may therefore be use in any desired combination, but that slight adaptations may be needed for certain combinations. For example, the use of insulation elements may necessitate an adaptation of the shape of the underfelt collar and/or a flashing assembly.

Claims (10)

PATENT REQUIREMENTS A window (1) having a supply nature and a mounted nature in a roof structure of a building, the window comprising a frame (3) which includes a plurality of frame parts defining a frame opening and a frame plane, the frame being adapted to cooperating with a set of transitional devices, such as insulating elements, a covering device, mounting brackets, a vapor barrier and / or an underroof collar, in the mounted nature, and wherein the collar has an inner side adapted to face the interior of the building in the mounted nature, and an outer side adapted to face the exterior of the building in the mounted nature, wherein the distance between the inner side and the outer side defines a depth of the frame, and wherein each frame part has an inner side that facing the frame opening, and an outer side facing away from the frame opening, the distance between the outer sides of the two opposite frame parts varying along the depth of the frame so that an outer dimension of the frame is larger at a first level at the inner side of the frame than at a second level closer to the outer side of the frame, the first and second levels being substantially parallel to the frame plane , and the window is provided with a transition device for forming a climate protection transition between the window and the roof structure in the mounted nature, characterized in that the transition device is a sub-roof collar (7) with a frame engaging section (71) and an engaging section (72) for roof construction and the frame engaging section is connected to the frame (3) at the second level of the supply condition, and that the width of at least one engaging part (72) for roof construction in a direction parallel to the corresponding frame part is gradually increased by the distance to the frame engaging part at least along a section of the engagement section for the roof structure. A window according to claim 1, wherein the underroof collar (7) is in a folded or rolled condition in the supply condition. A window according to any one of the preceding claims, wherein the frame is substantially rectangular and includes at least one top frame portion (31; 35), at least one bottom frame portion (32; 36) and at least two side frame portions (33, 34; 37, 38). A window according to any one of the preceding claims, wherein the frame (3) is a two-part frame which includes a first subframe (3a) carrying a frame (2) and a second subframe (3b) which is arranged to be connected to the roof structure, and wherein the underroof collar (7) is connected to the second lower frame. A window according to claim 3 or 4, wherein the second lower frame (3b) is made of an insulating material, such as foamed polyurethane. A window according to any one of the preceding claims, wherein the frame further comprises at least one further transition device selected from the group consisting of: insulating elements (6), mounting brackets for connecting the frame to the roof structure, a covering device (8), a clearance support arrangement (5) and a vapor barrier. A window according to claim 6, when dependent on claim 4, wherein the additional transition device (s) is provided on the second lower frame (3b). A window according to claim 6 or 7, wherein an insulating element (6) is provided at the top part (31, 35) of the frame (3), wherein the insulating element is possibly attached to the underroof collar. A window according to claim 6, wherein a clearing support arrangement (5) is connected to the frame (3) of the window (1) in its supply condition and is arranged to support a window clearing panel (9) in the mounted condition, the clearing support arrangement (5) including a support means allowing variation of the angle between the window lighting panel (9) and the frame (3), and wherein the lighting support arrangement (5) comprises a plurality of longitudinal, lighting support members (51-54) for forming a frame-shaped structure connected to the frame (3); ) in the supply condition, and wherein the support means of the clearing support arrangement (5) is provided by a clearing engagement section (535) of each clearing support part (51-54) formed as a longitudinal bead having a partially cylindrical cross-sectional shape. A window according to claim 6, wherein the window is provided with a transition device for forming a weather-resistant transition between the window and the roof structure in the mounted nature, wherein the transition device is a covering device (8).