EP2843148A1 - Einbausystem für ein Dachfenster in eine Dachfläche - Google Patents

Einbausystem für ein Dachfenster in eine Dachfläche Download PDF

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Publication number
EP2843148A1
EP2843148A1 EP14182387.2A EP14182387A EP2843148A1 EP 2843148 A1 EP2843148 A1 EP 2843148A1 EP 14182387 A EP14182387 A EP 14182387A EP 2843148 A1 EP2843148 A1 EP 2843148A1
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EP
European Patent Office
Prior art keywords
window
roof
situated
sash
window frame
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP14182387.2A
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English (en)
French (fr)
Other versions
EP2843148B1 (de
Inventor
Tomasz Gruca
Wac aw Majoch
Henryk Musial
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Fakro PP Sp zoo
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Fakro PP Sp zoo
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Publication date
Application filed by Fakro PP Sp zoo filed Critical Fakro PP Sp zoo
Publication of EP2843148A1 publication Critical patent/EP2843148A1/de
Application granted granted Critical
Publication of EP2843148B1 publication Critical patent/EP2843148B1/de
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04DROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
    • E04D13/00Special arrangements or devices in connection with roof coverings; Protection against birds; Roof drainage ; Sky-lights
    • E04D13/03Sky-lights; Domes; Ventilating sky-lights
    • E04D13/0305Supports or connecting means for sky-lights of flat or domed shape
    • E04D13/031Supports or connecting means for sky-lights of flat or domed shape characterised by a frame for connection to an inclined roof
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04DROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
    • E04D13/00Special arrangements or devices in connection with roof coverings; Protection against birds; Roof drainage ; Sky-lights
    • E04D13/14Junctions of roof sheathings to chimneys or other parts extending above the roof
    • E04D13/147Junctions of roof sheathings to chimneys or other parts extending above the roof specially adapted for inclined roofs
    • E04D13/1473Junctions of roof sheathings to chimneys or other parts extending above the roof specially adapted for inclined roofs specially adapted to the cross-section of the parts extending above the roof
    • E04D13/1475Junctions of roof sheathings to chimneys or other parts extending above the roof specially adapted for inclined roofs specially adapted to the cross-section of the parts extending above the roof wherein the parts extending above the roof have a generally rectangular cross-section

Definitions

  • the invention relates to an installation system for a roof window in a layered structure of a roof, the structure consisting of structural components and layers of thermal and damp insulations.
  • An installation system pertains to a window opened at least as a pivot window, it may also pertain to a dual-action window opened as a pivot window or as a tilt window.
  • Patent description No. PL 214536 discloses a roof window, having a window frame fixed by runners penetrating the roof structure basically perpendicularly to its surface, the runners being covered on the side with a thin layer of thermal insulation. Significant part of the window frame protrudes above the roof's surface, causing escape of heat from the attic outwards through the window frame; moreover, the fixing runners form thermal bridges, facilitating escape of heat from the attic.
  • roof windows being opened as pivoting, called also pivot windows, hinges, in which the sash is mounted, usually made of metal, are immersed into the window between the side members of the window frame and of the sash, forming thermal bridges.
  • a system for window installation in a roof with a layered structure comprising a roof window with a glazing unit seated in the sash, being opened particularly through its rotation in the window frame around a horizontal axis, characterised in that when the window is closed, the glazing unit in the window sash is immersed in the roof structure, so as to at least a half of thickness of the glazing unit is situated in the structure of the roof deeper than the surface called a "sub-cover surface".
  • sub-cover surface when used in this description of the invention, is to be understood as either the surface of structural elements of the roof, on which the external roofing is seated, such as: roof tiles, profiled sheet or flat sheet; or the bottom surface of the roofing layer, separating in prefabricated roofing panels, the layer of thermal insulation from the environment, at least in direct neighbourhood of the window, the bottom surface of the roofing layer in a collar filled with an insulating material, protruding above the main surface of the roof.
  • the structural elements of the roof, on which the roofing and thermal insulations are seated in the roof structure reach the window frame for a distance not longer than the required installation play.
  • installation play means play necessary for introduction of the roof window to the opening cut in the supporting structure and thermal insulations of the roof, together with any additional thermal insulation around the window, being introduced together with the window during its installation in the roof.
  • the additional thermal insulation in the gap around the window may be seated by push-in.
  • installation play does not pertain to hollows in the roof structure formed around the window and intended for, for instance drainage of precipitation flowing on the roof plane, as there are no such hollows in the window installation system according to the invention.
  • the window installed in the roof and being opened by rotation of its sash in the window frame around a horizontal axis is particularly a window opened at least as a pivot window, or by rotation in hinges situated at both side edges of the sash, slightly above the middle of the height of the sash and the window frame.
  • the window sash, both in a closed window and in a window opened as a pivot window is situated in the clear opening of the window frame; in an open window, a part of the sash, usually the lower situated below the pivoting hinges, protrudes above the roof's surface, while the other part of the sash, is located in the attic.
  • the window may be also a dual-action window, that is, apart from pivoting hinges, it has a second pair of hinges, called “tilting hinges" and situated at the top of the window.
  • the tilting hinges enable to open the window in the tilting mode, by rotation of the whole sash towards the outside, around a horizontal axis located at the top edge of the window.
  • centres of mass of elements of these hinges connected with the sash are situated above the external surface of the glazing unit, when the window is closed.
  • the other elements of the pivoting hinges including those which in a single-action window - a pivot window - are connected with the window frame, have preferably centres of mass situated above the external surface of the glazing unit, when the window is closed.
  • the centre of mass of elements of a pivoting hinge connected with the sash, or with the window frame should be understood as a common centre of mass of all these elements of the pivoting hinge, which are fixed, respectively, to the sash, or to the window frame, and their fastening elements, as well as other elements belonging to one or the other subset of the hinge,
  • both the elements of the pivoting hinge connected with the sash, and the elements of the second subset of this hinge, which is connected with a tilting hinge through an intermediate arm have centres of mass situated above the external surface of the glazing unit.
  • centres of mass of these elements are situated preferably above the external surface of the glazing unit when the window is closed.
  • the structure of the roof comprises rafters, constituting structural components of the roof framework.
  • a layer of thermal insulation is placed between the rafters, and the layered structure of the roof comprises also a breathing membrane, laid on the rafters, above thermal insulation, while a vapour barrier is placed under thermal insulation.
  • the roof structure contains cover panels from the side of the attic, fixed to the rafters from below.
  • the window frame rests on the sub-cover surface with at least one of its structural elements connecting it with the roof, and the pivoting hinges are situated above this surface, on the external side of the window.
  • the element of the window frame connecting it with the roof rests on the external surface of the window frame members, on the external side of the window, and it protrudes beyond the outline of the window frame members and the clearance of the roof opening for a window, at least in two opposite directions.
  • the window frame rests on the sub-cover surface of the roof with its support flashing protruding at least sideways beyond the outline of the window frame members and the clearance of the roof opening for the window.
  • the sub-cover surface being the support for the structural element of the window frame, connecting the frame with the roof, is the external surface of battens, laid horizontally above the rafters, and having the roofing tiles mounted. At least 90 % of thickness of the glazing unit is situated in the roof structure deeper than the external surface of the battens.
  • the sub-cover surface being the support for the structural element of the window frame, connecting the frame with the roof, is the external surface of battens, laid horizontally above the rafters, and having the roofing profiled sheets mounted. At least 90 % of thickness of the glazing unit is situated in the roof structure deeper than the external surface of the battens.
  • the sub-cover surface being the support for the structural element of the window frame, connecting the frame with the roof, is the external surface of boarding, on which the flat roofing is seated. At least 90 % of thickness of the glazing unit is situated in the roof structure deeper than the external surface of the boarding.
  • the window is seated in the layer of thermal insulation of the roof, which at least in direct neighbourhood of the window is situated close to the external surface of the roof and is separated from the environment with a layer of covering, protecting from the influence of precipitations, and the sub-cover surface jest is the lower surface, or from the side of thermal insulation, the covering layer surface.
  • These layered structure of the roof is formed particularly by prefabricated layered roofing panels, consisting of a metal mantle and filling made of an insulating material, and the window is seated in a prefabricated layered panel.
  • the sub-cover surface is the bottom surface of the hollows in the covering layer.
  • the roof window may be also seated in a collar protruding above the main surface of the roof, the collar being filled with insulating material and shielded by the detailing of the roof, which reaches the window frame.
  • the collar is filled with insulating material and it may be used in roofs with various supporting structures and various systems of thermal insulation of the main surface of the roof.
  • the window installed in the roof is a window being opened as a pivot window, or is a dual-action window, being opened as a tilt window or a pivot window.
  • Placement of the pivoting hinges, and also the tilting hinges, if present, in relation to the glazing unit in the sash, is identical as in the first aspect of the invention.
  • centres of mass of elements of these hinges connected with the sash are situated above the external surface of the glazing unit, when the window is closed.
  • the other elements of the pivoting hinges, including those which in a single-action, pivot window, are connected with the window frame have preferably centres of mass situated above the external surface of the glazing unit.
  • both elements of the pivoting hinges connected with the sash, and the other parts of these hinges, as well as the tilting hinges and the intermediate arms have centres of mass situated above the external surface of the glazing unit.
  • the window frame connected with the roof by at least one structural element, protruding beyond the outline of the window frame members and the clearance of the roof opening for the window, rests on the surface of the roof, that is either on the external surface of prefabricated layered roofing panel, or on the detailing of the window, placed on the collar protruding from the main roof plane.
  • the window frame rests on the roof with its support flashing, resting on the external surface of the window frame members, and protruding beyond these members at least sideways.
  • the pivoting hinges are situated above the surface of the roof and the support flashing, as a whole on the external side of the window.
  • a roof window has a window sash 1 with a glazing unit 11, seated in a window frame 2 using pivoting hinges 3 situated at side members 21 of the window frame and at side edges of the sash, slightly above the middle of length of the members and height of the sash.
  • the window frame 2 has a support flashing 22 being a structural element connecting it with the roof.
  • the support flashing 22 is placed on the side members 21 and on the top member of the window frame, on the external side of the window, and it protrudes beyond the outline of the indicated members, and beyond the clearance of the roof opening for the window.
  • the protruding part of the support flashing 22 rests on the roof structure 4 at least on the sides of the window frame 2, specifically on the surface defined in this description as a "sub-cover surface” PP, being the external surface of battens 41, laid horizontally in the roof structure, the battens having roofing tiles 42 mounted.
  • the window is being opened as a pivot window, that is by rotation of the sash 1 in the pivoting hinges 3, around an axis located approximately in the middle of the window height.
  • the window sash 1 is situated within the clearance of the window frame 2, while in an open window, the lower part of the sash, situated between the pivoting hinges and the bottom window frame members when the window is closed, is located outside the roof, and the upper part of the sash situated between the pivoting hinges and the bottom window frame members when the window is closed, is located in the attic.
  • the window sash 1 with its glazing unit 11 is situated in parallel to the window frame 2, and the glazing unit 11 is immersed in the roof structure, so as to at least 90 % of thickness G of the glazing unit 11 of the sash 1 is situated deeper than the sub-cover surface PP on the battens 41, and thus at least a half of thickness G of the glazing unit is situated in the roof deeper than the sub-cover surface.
  • the side members 21 and top and bottom members of the window frame 2 are situated in the layered structure of the roof deeper than the sub-cover surface PP.
  • the pivoting hinges 3 are placed so as to centres of mass of movable elements 31 of these hinges, connected with the sash 1, are situated above the glazing unit 11 when the window is closed.
  • Stationary elements 32 of the pivoting hinges 3, connected with the support flashing 22 of the window frame 2 are placed above the support flashing.
  • the battens 41 rest on counter battens 43, laid longitudinally on the rafters 44, being the basic supporting elements of the roof structure. Spaces between the rafters 44, as well as below the rafters, are filled with thermal insulation 45 made of mineral wool, a above the insulation, directly on the rafters 44, a breathing membrane 46 is placed. Layout of the battens 41 on the counter battens 43 provides a clearance between the battens 41 and the breathing membrane 46, facilitating drying of the top surface of the membrane. Below thermal insulation 45, there are a vapour barrier and cover panels 47, fixed to the roof structure from the side of the attic. The side walls of the window opening in the roof structure, are shielded with a lining 48.
  • the battens 41 reach the window frame 2 for a distance not longer than the installation play necessary for introduction of the window into the structure of the roof.
  • the gap between the structure of the roof, including ends of the battens 41, and the window frame 2 is filled with additional thermal insulation 23 around the window frame 2, the insulation being seated in the roof at the same time when the window frame is being installed.
  • the window installed in the roof has also a set of shields 5, covering the gaps between the window frame 2 and the sash 1 placed in it.
  • the shields 5 situated above the side members 21 of the window frame and fragments of the sash 1 corresponding to them, are divided into two sections: top sections situated between the pivoting hinges 3 and the top member of the window frame 2, and bottom sections situated between the pivoting hinges 3 and the bottom member of the window frame.
  • the top sections of these shields are fixed immovably onto the window frame, and the bottom sections of the shields are fixed onto the sash, thus, during opening of the window, these sections move together with the lower part of the sash towards the exterior of the roof.
  • the pivoting hinges 3 are placed as a whole under these shields.
  • Equipment of the window includes also its detailing 51, with a shape adapted to tiled roofing, the purpose of the detailing being to seal the connection of the window with the roof.
  • the shields 5 of the window overlap the window-neighbouring part 52 of the detailing 51, situated perpendicularly to the roof.
  • a roof window (drawing, Fig. 3 ) has a window sash 1 with a glazing unit 11, seated in a window frame 2 using pivoting hinges 3 situated at side members 21 of the window frame and at side edges of the sash, slightly above the middle of length of the members and height of the sash.
  • the window frame 2 has a support flashing 22, being its structural element connecting the window frame with the roof, which is placed on the side members 21 and on the top member of the window frame, on the external side of the window, and protrudes beyond the outline of the members and beyond the clearance of the roof opening for a window.
  • the indicated features are identical as in the first embodiment of the invention.
  • the protruding part of the support flashing 22 rests on the roof structure 6, specifically on the surface defined in this description as a "sub-cover surface” PP, or on external surface of a boarding 61 having a uniform surface, on which a roofing made of roofing paper 62 is laid.
  • the window is being opened as a pivot window, identically as in the first embodiment of the invention.
  • Position of the sash 1 and its glazing unit 11, in relation to the window frame 2 and to the roof, when the window is open and when it is closed, as well as position of the window frame 2 in relation to the roof, are also identical as in the first embodiment.
  • the glazing unit 11 of the sash 1 is immersed in the roof structure, so as to at least 90 % of thickness G of the glazing unit is situated deeper than the external surface of the boarding 61 i.e. the sub-cover surface PP, thus, at least a half of thickness G of the glazing unit is situated in the roof deeper than the sub-cover surface.
  • the side members 21 and the top and bottom members of the window frame 2 are situated in the layered structure of the roof deeper than the sub-cover surface PP, in the boarding 61 under the roofing paper 62.
  • the pivoting hinges 3 of the window are placed so as to centres of mass of both movable elements 31 of these hinges, connected with the sash 1, and of stationary elements 32 connected with the support flashing 22 of the window frame 2, are situated above the glazing unit 11 when the window is closed, and above the support flashing of the window frame, as in the first embodiment.
  • the construction and the layered structure of the roof include: rafters 44, thermal insulation 45 made of mineral wool, a breathing membrane 46, a vapour barrier, and cover panels 47 (from the side of the attic), and a lining 48 in the window opening in the roof - identical and serving the same purposes as in the first embodiment of the invention.
  • rafters 44 Between the boarding 61 and the rafters 44, counter battens 43 are placed, facilitating drying of the top surface of the breathing membrane.
  • the boarding 61 reaches the window frame 2 for a distance not longer than the installation play necessary for introduction of the window into the structure of the roof.
  • the gap between the structure of the roof and the window frame 2, at least at its side members and top member, is filled with additional thermal insulation 23 around the window frame 2, the insulation being mounted in the roof at the same time when the window frame is being installed.
  • the window installed in the roof has also a set of shields 5, covering the gap between the window frame 2 and the sash 1 placed in it. Under these shields, the pivoting hinges 3 are placed.
  • the shields situated above the side members are divided into two sections: top and bottom, as in the first or second embodiment.
  • Equipment of the window includes also its detailing 53, with a shape adapted to flat roofing, the detailing sealing the connections of the window with the roof.
  • the shields 5 of the window overlap the window-neighbouring section 52 of the detailing 53, situated perpendicularly to the roof
  • Example 3 A window according to the third embodiment of the invention is installed in a roof with an identical supporting structure, as in the first embodiment, that is in a roof having rafters and horizontal battens.
  • the difference in relation to the first embodiment consists in the fact that instead of roofing tiles, a profiled sheet roofing, for instance of box profile sheet, or a roofing made of sheets with embossings imitating roofing tiles, is seated on the battens.
  • Example 4 A window according to the fourth embodiment of the invention is installed in a roof with an identical supporting structure, as in the second embodiment, that is in a roof having rafters and a boarding, forming a uniform surface. On this boarding, a roofing made of flat sheets is seated.
  • a roof window being opened as a pivot window, has a window sash 1 with a glazing unit 11, the sash being seated in a window frame 2 using pivoting hinges 3 situated at side members 21 of the window frame and at side edges of the sash, slightly above the middle of length of the members and height of the sash.
  • the window frame 2 has a support flashing 22, being its structural element connecting the window frame with the roof, which is placed on the side members 21 and on the top member of the window frame, on the external side of the window, and protrudes beyond the outline of the members and beyond the clearance of the roof opening for a window.
  • the indicated features are identical as in the embodiments of the invention described earlier.
  • the roof in which the window is seated is built of prefabricated layered roofing panels 7, consisting of a metal mantle 71 and filling 72 made of insulating material.
  • the prefabricated roofing panels 7 are supported with the rafters 73.
  • the top layer of the metal mantle 71 situated outside the roof, has protrusions 74 and hollows 75.
  • the sub-cover surface PP as understood in this description of the invention is the bottom surface of the top layer of the metal mantle 71, that is the surface, to which the filling 72 made of insulating material is adjacent, in the section of hollows 75 in the top layer of the metal mantle 71.
  • the window is immersed in the opening in the roof so as to at least 90 % of thickness G of the glazing unit 11 of the sash 1 is situated deeper than the sub-cover surface PP in the layered roofing panel 7, and thus at least a half of thickness G of the glazing unit is situated in the roof deeper than the sub-cover surface.
  • the side members 21 and the top and bottom members of the window frame 2 are situated in the layered roofing panel 7 deeper than the sub-cover surface PP.
  • the gap between the edges of the hole in the layered roofing panel 7 and the window frame 2, at least at its side members and the top and bottom members, is filled with additional thermal insulation 23 around the window frame 2, the insulation being mounted in the roof at the same time when the window frame is being installed.
  • the pivoting hinges 3 of the window are placed so as to centres of mass of both movable elements 31 of these hinges, connected with the sash 1, and of stationary elements 32 connected with the support flashing 22 of the window frame 2, are situated above the glazing unit 11 when the window is closed, and above the support flashing of the window frame, as in the first and second embodiments of the invention.
  • the window installed in the roof has also a set of shields 5, covering the gaps between the window frame 2 and the sash 1 placed in it. Under these shields, the pivoting hinges 3 are placed.
  • the shields situated above the side members are divided into two sections: top and bottom, as in the first or second embodiment.
  • Equipment of the window includes also its detailing 51, sealing the connections of the window with the roof.
  • the shields 5 of the window overlap the window-neighbouring section 52 of the detailing 51, situated perpendicularly to the roof
  • a roof window being opened as a pivot window, has a window sash 1 with a glazing unit 11, the sash being seated in a window frame 2 using pivoting hinges 3 situated at side members 21 of the window frame and at side edges of the sash, slightly above the middle of length of the members and height of the sash.
  • the window frame 2 has a support flashing 22, being its structural element connecting the window frame with the roof, which is placed on the side members 21 and on the top member of the window frame, on the external side of the window, and protrudes beyond the outline of the members and beyond the clearance of the roof opening for a window.
  • the indicated features are identical as in the embodiments of the invention described earlier.
  • the window is seated in a collar 8 protruding above the main surface of the roof, and the collar has a box structure 81 and a filling 82 made of insulating material.
  • the pivoting hinges 3 of the window are placed so as to centres of mass of both movable elements 31 of these hinges, connected with the sash 1 , and of stationary elements 3 connected with the support flashing 22 of the window frame 2, are situated above the glazing unit 11 when the window is closed, and above the support flashing of the window frame, as in the first and second embodiments of the invention.
  • the collar 8 and the window installed in it are also equipped with an integrated detailing 83, covering the fragment of the roof in direct neighbourhood of the collar, and side and top surfaces of the collar.
  • the sub-cover surface PP as understood in this description of the invention, is the bottom surface of the integrated detailing 83 in its section resting on the top surface of the collar 8.
  • the window is immersed in the collar so as to at least 90 % of thickness G of the glazing unit 11 of the sash 1 is situated deeper than the sub-cover surface PP in the collar 8, and thus at least a half of thickness G of the glazing unit is situated in the roof deeper than the sub-cover surface.
  • the side members 21, the top member and the bottom member of the window frame 2 are situated in the collar 8 deeper than the sub-cover surface PP.
  • the gap between the edges of the hole in the collar 8 and the window frame 2, at least at its side members and top member is filled with additional thermal insulation 23 around the window frame 2, the insulation being mounted in the collar 8 at the same time when the window frame is being installed.
  • the window installed in the collar has also a set of shields 5, covering the gaps between the window frame 2 and the sash 1 placed in it. Under these shields, the pivoting hinges 3 are placed.
  • the shields situated above the side members are divided into two sections: top and bottom, as in the first or second embodiment.
  • the shields 5 of the window overlap the window-neighbouring sections 84 of the integrated detailing 83, situated perpendicularly to the top surface of the collar.
  • a system for window installation in the roof may also relate to windows being opened in the pivoting mode or in the tilting mode, that is by rotation of the sash around an axis located near the top edge of the window.
  • Dual-action windows have an additional pair of hinges, fixed to the window frame in its upper part and connected with the pivoting hinges through intermediate arms.
  • the window frame of a dual-action window and its sash are immersed in the layered structure of the roof when the window is closed, identically as in the described embodiments from 1 to 6.
  • the intermediate arms rest immovably on the window frame members, and the window sash rotates in the pivoting hinges.
  • the intermediate arms move towards the exterior of the roof together with the sash, rotating in the tilting hinges.
  • a system for window installation in the roof according to the invention ensures an improved thermal performance of the window, resulting from the immersion of its window frame and its sash in the layered structure of the roof and thermal insulation of the roof. Moreover, placement of the hinges on the external side of the window, above the glazing unit and the window frame, eliminates thermal bridges present in the hitherto used solutions of the hinges.
  • FIG. 6 shows distribution of isotherms on a cross-section of the window from state of art
  • Fig. 7 - distribution of isotherms on a cross-section of the window according to the invention.
  • the comparison of the windows was done for the same roof structure and identical glazing unit in the window sash, so the diagrams illustrate the flow of heat through the window frame: from point B to point A in a window from state of art ( Fig. 6 ) and from point D to point C in a window according to the invention ( Fig. 7 ).
  • a higher temperature difference between points located on both sides of the window frame proves the fact that the flow of heat from the attic towards the outside is slower.
  • the lower density of isotherms in the window according to the invention indicates a lower temperature gradient, and thus a lower heat flow intensity and lower thermal losses. Distribution of isotherms indicates also an elimination of heat flow concentration areas, occurring in the window known from state of art.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Wing Frames And Configurations (AREA)
  • Body Structure For Vehicles (AREA)
  • Building Environments (AREA)
EP14182387.2A 2013-08-28 2014-08-27 Einbausystem für ein Dachfenster in eine Dachfläche Active EP2843148B1 (de)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PL405157A PL236144B1 (pl) 2013-08-28 2013-08-28 System zabudowy okna w dachu

Publications (2)

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EP2843148A1 true EP2843148A1 (de) 2015-03-04
EP2843148B1 EP2843148B1 (de) 2018-01-31

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PL (1) PL236144B1 (de)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP3133222A1 (de) * 2015-08-21 2017-02-22 FAKRO PP Sp. z o.o. Abdeckblech mit einem die aussenfläche der seitlichen und oberen seiten eines seitenelements eines dachfensterrahmens umschliessenden seitenelement
EP3299536B1 (de) * 2016-09-23 2019-12-11 VKR Holding A/S Dachfenster mit einem satz von scharnieren mit verbessertem bewegungsmuster
EP3779093A1 (de) * 2020-02-03 2021-02-17 VKR Holding A/S Ein dachfenster

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1191952B (de) * 1957-04-27 1965-04-29 Christian Steeb Dachfenster
DE2658463A1 (de) * 1976-12-23 1978-06-29 Alfred Mueller Dach-wohnraumfenster
PL214536A1 (de) 1979-03-29 1980-10-06 Huta Im K
DE29921335U1 (de) * 1999-12-03 2000-06-21 Schaudt Herbert Dachfenster
DE20316919U1 (de) * 2003-11-04 2004-03-04 Colt International Holdings Ag Dachflächenfenster mit Sonnenschutzelement

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
NL6604236A (de) * 1966-03-30 1967-10-02
FR2626304B1 (fr) * 1988-01-26 1990-05-18 Piquerel Rene Raccord d'etancheite au droit d'un chassis de toiture dispose de niveau avec la couverture

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1191952B (de) * 1957-04-27 1965-04-29 Christian Steeb Dachfenster
DE2658463A1 (de) * 1976-12-23 1978-06-29 Alfred Mueller Dach-wohnraumfenster
PL214536A1 (de) 1979-03-29 1980-10-06 Huta Im K
DE29921335U1 (de) * 1999-12-03 2000-06-21 Schaudt Herbert Dachfenster
DE20316919U1 (de) * 2003-11-04 2004-03-04 Colt International Holdings Ag Dachflächenfenster mit Sonnenschutzelement

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP3133222A1 (de) * 2015-08-21 2017-02-22 FAKRO PP Sp. z o.o. Abdeckblech mit einem die aussenfläche der seitlichen und oberen seiten eines seitenelements eines dachfensterrahmens umschliessenden seitenelement
EP3299536B1 (de) * 2016-09-23 2019-12-11 VKR Holding A/S Dachfenster mit einem satz von scharnieren mit verbessertem bewegungsmuster
EP3779093A1 (de) * 2020-02-03 2021-02-17 VKR Holding A/S Ein dachfenster

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PL405157A1 (pl) 2015-03-02
PL236144B1 (pl) 2020-12-14

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