FR2951766A1 - Joinery for e.g. central window of building, has partitioning unit extended from interior surface of thermal bridge rupture profile in interior cavity in direction of glazing edge to partition of interior cavity - Google Patents

Abstract

The joinery (1) has a glazing receiving frame (3) provided with a rebate (9) for receiving circumference of a glazing (10), where the glazing receiving frame includes an interior structure section (12) associated with a thermal bridge rupture profile (13). The rupture profile is provided with an interior surface (13a) oriented to a side of a glazing edge (10a). A partitioning unit (20) is extended from the interior surface of the rupture profile in an interior cavity (18) in direction of the glazing edge to a partition of the interior cavity, and is in shape of lip or blade.

Description

The present invention relates to the general field of the building; it relates more particularly to joinery for building bays having a frame provided with a rabbet that receives the periphery of a glazing. Most window frames contain at least one window supported by a support frame (for example of the opening frame type for windows or French windows striking, or dormant type for fixed windows). However, the corresponding glazed windows are often a weak point in the overall insulation of the equipped building. For this reason, important research efforts are used to optimize the thermal insulation capacity of these joineries. Some current technical developments are interested in the rabbet of the support frame which receives the perimeter of the glazing. This is the case, for example, in document FR-2 768 173, which describes a carpentry whose opening frame comprises a reception rebate of the glazing constituted by an aluminum structural section (forming the inner part of the opening frame). and - by a thermal break profile, made of thermoplastic material and integral with said structural section. This thermal break profile is arranged to accommodate and to lock a reported locking bump, bearing against the outer plane of the glazing.

In the latter type of joinery, the rabbet of the support frame generally delimits an interior cavity, with the pane singing opposite. This interior cavity is particularly useful to take into account the tolerances of dimensions and positions of the glazing reported in the rabbet. However, this same internal cavity is likely to affect the thermal insulation capacity of the glazing support frame. The present invention provides a structural improvement adapted to this kind of carpentry, whose interest is to further improve the thermal insulation characteristics of the receiving rebate of the glazing, and more generally of the joinery equipped.

The joinery according to the invention is therefore of the type comprising a glazing unit and a frame comprising a rebate for receiving the periphery of said glazing unit, which frame comprises at least one inner structure profile associated with a thermal bridge break profile, the latter constituting at least a portion of said rabbet and having an inner surface, oriented on the side of the glazing edge, which delimits an interior cavity with said edge of the glazing facing. According to the invention, the corresponding thermal rupture profile comprises at least one member projecting from its inner surface, into said inner cavity and toward said singing pane, to partition said inner cavity. This particular carpentry structure allows a reduction in heat exchange at the glazing reception rabbet, between the interior and the outside environment. Additional characteristics, which can be taken in combination or independently of one another, are further presented below: the free end of the partitioning member, opposite the surface of the associated profile, extends to maximum 2 mm of the edge facing the glazing (this maximum distance of 2 mm being sufficient to partition the inner cavity of the rabbet); the partitioning member or members are advantageously made in one piece with the associated thermal bridge breaking profile, but they can also be of the type reported; - The partitioning member or bodies are made of at least one thermal insulating material, which is advantageously different from that constituting the associated thermal break profile, to further optimize the thermal insulation, but they can also be made of the same material than the latter; - The partitioning member or members are flexible, to allow their deformations according to the tolerances of size and position of the glazing mounted in the rabbet of the opening; The partitioning member or members have a lip or blade shape, advantageously extending in a plane oriented in parallel, or at least substantially parallel, with respect to the general plane of the glazing unit; alternatively, the partitioning member or bodies have a section in the form of a circular arc; the thermal rupture profile equips an opening and comprises at least one member projecting from its outer surface (opposite the glazing edge) and towards the opposite frame, to partition an external cavity delimited by the frame and the opening in the closed position. The present invention also relates to the thermal bridge break profile intended to be associated with a structural section of a glazing receiving frame and whose surface is intended to form at least a part of the rebate base of said frame. , which surface of the rebate bottom profile comprises at least one projecting member for partitioning a recessed cavity. The invention will be further illustrated, without being limited in any way, by the following description of several embodiments, given by way of example only, which are shown in the accompanying drawings in which: FIG. 1 is a partial view of a carpentry with opening, according to a sectional plane passing through one of the longitudinal members of the frame and one of the longitudinal members of the frame opening in the closed position, said opening frame having a thermal break profile which is provided with a partitioning member of the inner rebate cavity whose section is in the shape of an arc of a circle; - Figure 2 corresponds to the joinery of Figure 1 (the sleeping frame being here slightly truncated), the partition member of the inner rabbet cavity is here in the form of a lip or longitudinal blade; - Figure 3 shows a joinery with a partitioning member identical to that of Figure 2, and wherein the thermal break profile of the rebate is provided with a return wing for attachment to the sash frame.

In Figure 1, the joinery 1 according to the invention consists of a frame 2 on which is reported at least one opening 3. Such a carpentry structure is for example described in more detail in the document FR-2 768 173 The frame 2 is fixed to the masonry structure (not shown) in a conventional manner. This frame 2 consists of an inner structure section 4 and an outer structure section 5, made for example of metal material (aluminum, etc.). These two structural sections 4 and 5 are joined by means of a profile 6 made of thermoplastic material (polyvinyl chloride or polyamide type, for example), which also performs a thermal break. The opening frame 3 is pivotally mounted on the frame 2, via hinges (not shown), and has a rebate 9 in which is positioned the glazing 10.

This opening frame 3 comprises an inner structure section 12, made for example of aluminum, which gives the opening rigidity and inertia. This structural section 12 here comprises a face 12a which forms the internal plane of the rabbet 9, corresponding to the inner bearing surface of the glazing 10. The peripheral part or edge of the opening frame 3 consists of a profile 13 which is attached on the inner structure section 12, and which also has the function of achieving a thermal break. This thermal break profile 13 constitutes a peripheral portion of the glazing rabbet 9, also called "rabbet bottom", located opposite the glazing edge 10a.

The corresponding profile 13 is made of a material having an optimal compromise between a resistance to mechanical stresses and a minimum thermal conductivity.

By way of example, this profile 13 is made of thermoplastic material, chosen from polyvinyl chloride, polyamide or acrylonitrile-butadiene-styrene. This thermal bridge break profile 13 is here in the form of a tubular box of rectangular section, and it has two external surfaces: - the inner one 13a, facing the glazing edge 10a and forming the bottom of rebate 9 itself, and - the outer 13b, facing away from said bottom rebate 9 (still oriented towards the side of the frame 2). This thermal break profile 13 further comprises, at its end oriented on the inside, an assembly structure 14 in the form of tenon cooperating with a groove or appropriate groove 15 which is formed on the inner structural section 12. At its other end (oriented outside the building), the thermal bridge break profile 13 comprises a longitudinal groove 16, which is adapted to receive a glazing glaze holding flap 17. This flap 17 forms the outer plane the rebate 9, corresponding to the outer bearing plane of the glazing 10. As shown again in Figure 1, the rabbet 9 of the opening 3 and the contour of the glazing 10 together define a peripheral inner cavity 18, which has for 20 function to take into account the dimensioning tolerances and position of the glazing 10 mounted in said rebate 9. The height of this inner cavity 18 corresponds to the distan this between the inner surface 13a of the thermal bridge break profile 13 and the glazing edge 10a opposite; the width of this inner cavity 18 corresponds here to the thickness of the same glazing 10. In accordance with the invention, in order to reinforce the thermal insulation of the joinery, the thermal bridge rupture profile 13 equipping the opening 3 comprises less a member 20 projecting from its inner surface 13a, in the inner cavity 18 and in the direction of the pane singing 10a opposite. The function of this member 20 is to partition the inner cavity 18 of the rabbet 9, so as to obtain several insulating reinforcement sub-cavities (reinforcing the thermal insulation of the rebate generated by its bridge breaking profile). thermal 13). In this case, the thermal bridge rupture profile 13 is provided, over all or part of its length, with a single partitioning member 20 which has a section in the form of an arc of a circle whose two ends are integral with each other. of the inner surface 13a of the profile 13 to obtain a closed volume.

This particular form of the partitioning member 20 allows a division of the inner cavity 18 according to three sub-cavities: - two lateral sub-cavities, located on either side of said partitioning member 20 (the inner one and the external other), and - a central sub-cavity, corresponding to the volume defined by the inner surface of this partition member 20 and the inner surface 13a of the associated thermal bridge break profile 13. The partitioning member 20 is made of at least one thermal insulating material identical to or different from that constituting the thermal bridge breaking profile 13 (for example polyvinyl chloride, polyamide or acrylonitrile-butadiene-styrene). The partitioning member 20 corresponding is advantageously made in one piece with the thermal bridge break profile 13. This partition member 20 is made by any appropriate means on the thermal bridge break profile 13, so as to obtain a single piece. In particular, the method used may be of the post-extrusion, co-extrusion or gluing type. Alternatively, this partitioning member 20 may also be of the attached type, that is to say associated with the rupture profile 13 by means of complementary interlocking means / assembly (for example of the tenon / mortise type, etc.). The partitioning member 20 further advantageously has a structure giving it a certain flexibility, to allow its deformation by crushing in case of contact with the glazing 10 mounted in the receiving rabbet 9. On the other hand, the partition member 20 at a height adapted so that its free end 20a, opposite the thermal bridge breaking profile 13, comes to bear against the edge facing the glazing 10a, or in any case is remote from said glazing edge 10a maximum of 2 mm (this maximum distance of 2 mm being sufficient to ensure an effective partitioning function of the inner cavity 18). Furthermore, in order to optimize the thermal insulation of this joinery 1, the thermal break profile 13 of the opening 3 is provided, at its outer surface 13b (opposite the glazing edge 10a), a protruding lip 22 extending towards the frame 2 facing, to partition the corresponding space 24 (defined between the frame 2 and the frame opening 3 in the closed position). The free end of this protruding lip 22 extends near the free end of a wing 23 carried by the internal structure section 4 of the frame 2.

The distance between the free end of these two elements 22 and 23 is advantageously also at most 2 mm, which is sufficient to constitute the desired thermal partitioning.

The members 20 for partitioning the inner cavity 18 of the rabbet 9 may optionally have other suitable shapes. Thus, as shown in FIGS. 2 and 3, this partitioning member 20 may be in the form of a lip or longitudinal strip, extending over all or part of the length of the thermal bridge breaking profile 13 This partitioning lip 20 extends here in a plane oriented parallel, or at least substantially parallel, with respect to the general plane of the glazing unit 10. Here again, the free end of the partitioning member 20, on the opposite side the inner surface 13a of the associated profile 13 extends at most 2 mm from the edge 10a of the glazing 10a (in FIGS. 2 and 3 it has been shown in contact with the glazing edge 10a). Similarly, the partitioning lip 20 is advantageously made in one piece or reported, in a thermal insulating material. More precisely, and as shown in FIG. 2, the thermal bridge break profile 13 has a rectangular box structure which is identical to that described above in relation with FIG. 1. The partitioning lip 20 is localized at the level of FIG. its inner surface 13a extending facing the glazing edge 10a. The thermal break profile 13, shown in FIG. 3, is distinguished by its generally L-shaped section or square section. The inner surface 13a of this profile 13 then forms the bottom of the rabbet and also a part of the internal lateral surface of the rabbet 9. This particular form of L-shaped thermal break profile 13 makes it possible to further optimize the characteristics of the In the present case, there is a transverse portion facing the glazing edge 10a, similar to that described above in relation to FIG. 2, the inner surface 13a of which comprises the partition member 20 in the form of a lip. This thermal break profile 13 is distinguished by the shape of its inner end associated with the inner structural section 12 of the opening 3, which 30 has a lateral extension 25, forming a return to the square oriented side of the glazing 10 and the parallel to the general plane of the glazing 10. The end of this return 25 is provided with the pin 14 cooperating with the complementary groove 15 formed on the inner structure section 12. This return 25 is again based on a wall 12b of the profile of inner structure 12 of the opening 3.

Such an L-shaped thermal bridge rupture profile could be provided with any other form of partitioning member 20, for example an arcuate section as described above in relation to FIG. 1. The inner and outer surfaces 13a 13b of the thermal bridge rupture profile 13 may comprise several partitioning members 20. For example, these partitioning members 20 may be made of a flexible PVC, EPDM, silicone, neoprene, etc. Alternatively, the carpentry according to the invention may also consist of a fixed rack (without opening frame (s)), comprising a fixed support frame with a rabbet identical or similar to that described above in relation to the Figures 1 to 3.

Claims (1)

CLAIMS 1.- Carpentry for building bay, like window, door, French window or fixed bay, which carpentry (1) comprises a glazing (10) and a frame (3) having a rabbet (9) for receiving the periphery of said glazing (10), which glazing receiving frame (3) comprises at least one inner structure section (12) associated with a thermal bridge break profile (13), which thermal bridge break profile (13) ) has an inner surface (13a) facing the side of the glazing edge (10a) which forms at least a part of said rebate (9) and which delimits an interior cavity (18) with said glazing edge (10a) in characterized in that said thermal bridge break profile (13) comprises at least one member (20) projecting from its inner surface (13a), into said inner cavity (18) and towards said edge of the glazing (10a) opposite to partition said interior cavity (18). 2. Carpentry according to claim 1, characterized in that the free end (20a) of the partition member (20), opposite the inner surface (13a) of the thermal break profile (13). ) associated, extends at most 2 mm from the edge facing glazing (10a). 3. Carpentry according to any one of claims 1 or 2, characterized in that the or the partitioning members (20) are made in one piece, with respect to the associated thermal bridge break profile (13). 4. Carpentry according to any one of claims 1 to 3, characterized in that the or partitioning members (20) are formed in at least one thermal insulating material, which is different from that constituting the bridge breaking profile. thermal (13) associated. 25 5. Carpentry according to any one of claims 1 to 4, characterized in that the or the partitioning members (20) are flexible to allow their deformations according to the tolerances of size and position of the glazing (10) mounted in the rabbet (9). 6. Carpentry according to any one of claims 1 to 5, characterized in that the one or more partitioning members (20) have a lip or blade shape. 7. Carpentry according to claim 6, characterized in that the or the partitioning lips (20) extend in a plane oriented parallel to, or at least substantially parallel to, the general plane of the glazing (10). 8. Carpentry according to any one of claims 1 to 5, characterized in that the one or more partitioning members (20) have a section in the form of a circular arc. 9. Carpentry according to any one of claims 1 to 8, characterized in that the thermal break profile (13) equips a frame opening (3) and comprises at least one member (22) projecting from from its outer surface (13b), which protruding member (22) extends towards the frame (2) facing to partition an outer cavity (24) defined by the frame (2) and the opening frame (3). ) in the closed position.