EP3299571A2 - Building closure with a sealing device - Google Patents

Abstract

The invention relates to a building closure (2), in particular skylight, with a frame (7), a wing (8) rotatably mounted with respect to the frame (7) and a sealing device (1) for sealing between the frame (7) and the wing (8) present air gap (11) with closed building closure (2), wherein the sealing means (1) on a plurality of spars (6) of the frame (7) or the wing (8) is arranged continuously, so that they with closed building closure (2) continuous sealingly against the spars (6) sealing surface (12) of the wing (8) or the frame (7) abuts. It is provided that the sealing device (1) has a first seal (3) and a second seal (4), wherein the first seal (3) in the direction away from the spars (6) has a greater extent than the second seal (4) and, when the building closure (2) is closed, is arranged on the side of the second seal (4) facing away from an inside (17) of the building closure (2).

Description

The invention relates to a building closure, in particular a skylight, with a frame, a frame rotatably mounted with respect to the frame and a sealing means for sealing an existing between the frame and the wing air gap with closed building closure, wherein the sealing means at a plurality of spars of the frame or the wing is arranged continuously, so that it rests sealingly closed at a closed building closure on a side opposite the spars sealing surface of the wing or the frame.

In principle, the building closure can be configured as desired. For example, it is in the form of a window, in particular a facade window or a roof window, a door or the like. The building closure has as essential components the at least one frame and the at least one wing. Of course, the building closure can also have several frames and / or several wings. The wing can be referred to in the case of the window as a sash and the frame as a frame. The wing usually has a glazing which is present, for example, as single glazing or as multiple glazing, in particular as double glazing or triple glazing. The glazing is bordered, for example, by spars of the wing, wherein in particular two vertical spars and two horizontal spars are provided.

The frame also preferably has two vertical bars and two horizontal bars. In each case, two of the spars are connected to each other, in particular, each of the vertical beams is connected to each of the horizontal beams. The frame is provided for example for stationary attachment of the building closure to a building, in particular a roof, or for attachment in a recess of the building or the roof. The wing is movably mounted on the frame and so far displaced. Accordingly, it can be moved from a closed position to an open position and vice versa. Preferably, the wing is rotatably mounted relative to the frame, in particular rotatably mounted on the frame.

Furthermore, the building closure has the sealing device, which serves to seal the building closure in its closed position. In particular, for tolerance reasons, the air gap is present even when the building closure is closed between the frame and the wing, in section with respect to a plane defined by the frame or the wing, or a plane parallel to this, there is always a gap, namely the air gap, between the frame and the wing, so that they are spaced apart. The above-mentioned plane can also correspond to a glazing plane of the building closure or be parallel to it, if the building closure is configured as a window, in particular as a roof window.

When the building closure is closed, the sealing device is now intended to seal the air gap in the circumferential direction at least regionally, in particular continuously, so that an excellent tightness of the building closure is ensured. It is therefore envisaged that the sealing device with closed building closure continuous sealingly against a sealing surface of the wing or the frame. This means that the sealing device is arranged or fastened to one of the frame elements, that is to say either the frame or the wing, whereas the sealing surface is present on the respectively other frame element, that is to say the wing or the frame. When the building closure is closed, the sealing device extends from the frame or the wing in the direction of the respective other frame element and abuts against it.

The sealing device is now arranged continuously on a plurality of bars of the frame or of the wing. The plurality of spars are at least partially angled against each other, thus encounter each other at an angle which is greater than 0 ° and less than 180 °. Preferably, the spars are perpendicular to each other. The braced against each other spars form an edge or - seen in section - a corner. The sealing device is now formed continuously on the plurality of spars, thus embracing this edge or corner. It is not necessary here that the sealing device extends along the entire longitudinal extent of the spars. For example, the sealing device has a plurality of sealing sections, wherein one of the sealing sections is assigned to one of the spars and another of the sealing sections is assigned to or attached to another of the spars.

The sealing sections now also include the angle with each other or abut each other at the angle, wherein the angle is in turn greater than 0 ° and less than 180 °. The sealing sections are preferably perpendicular to each other. The sealing portions are attached to each other, in particular integrally formed with each other. For example, for this purpose, the sealing portions in the region of the edges or corners are materially connected to one another, for example joined, in particular welded. To this end, they encounter each other in particular to form a miter, so each mitred. The sealing sections preferably have the same cross-section, so that they abut congruently in the region of the edges or corners.

When the building closure is closed, the sealing device or a seal of the sealing device is deflected by its abutment against the sealing surface, namely initially curved about an axis running parallel to the respective spar. This applies to each of each attached to one of the spars seal sections. Because the sealing portions are joined together in the region of the corners, the protruding curvature about the axis of each of the sealing portions results in an upsetting of another of the sealing portions connected to the respective sealing portion. The upsetting takes place in the direction of the axis running parallel to the respective spar, in this respect, therefore, in the direction of a longitudinal central axis of the corresponding sealing section. The upsetting can lead to a curvature of the sealing portion or the sealing device occurs. The result is thus at least optically the impression that the sealing device is not continuously applied to the sealing surface. Even if a complete closing of the air gap is actually ensured by means of the sealing device, it may be due to the optical impression alone to compromise comfort.

It is therefore an object of the invention to provide a building closure, which has advantages over known building closures, in particular on the one hand ensures a reliable sealing of the air gap and on the other hand at the same time ensures an excellent visual impression of the building closure.

This is achieved according to the invention with a building closure with the features of claim 1. It is provided that the sealing device has a first seal and a second seal, wherein the first seal in the direction away from the spars direction has a greater extent than the second seal and closed building closure is arranged on the side facing away from the inside of the building closure side of the second seal.

The sealing device has so far not only a single seal, but over several seals, namely on the at least one first seal and the at least one second seal. For example, only a single first seal and a single second seal are provided. Of course, however, the sealing device may also have a plurality of first seals and / or a plurality of second seals. The first seal and / or the second seal can / can basically be configured as desired. For example, one of the seals or at least one of the seals, preferably both seals, respectively present as a sealing lip or as a hollow chamber seal. For example, it can be provided that one of the seals is designed as a sealing lip and the other of the seals as a hollow chamber seal. The first seal and the second seal preferably run parallel to one another. Both seals are present in all sealing portions of the sealing device, so that both the first seal and the second seal are respectively arranged on the plurality of spars.

At least the first seal is designed to be continuous, so that therefore the first seals adjacent sealing portions are connected to each other. This is preferably the case for the second seal. However, the second seal may alternatively be interrupted in the region of the corner, that is to say that it is not formed continuously for the plurality of sealing sections of the sealing device. The first seal has a greater extension in the direction away from the spars than the second seal. Both the first seal and the second seal preferably extend from the spars and extend at least approximately, in particular when the building closure is open, outwards or inwards.

If the sealing device is arranged on the frame, then it extends in the radial direction inwards towards the wing. On the other hand, if it is attached to the wing, it extends radially outwards in the direction of the frame. The radial direction is in this case with respect to a central axis of the frame or the wing, which is perpendicular to the frame plane, the wing plane and / or the glazing plane. The central axis extends so far from the outside of the building closure to the inside or vice versa. The first seal is in the axial direction with respect to this center axis on the outside facing or the inside facing away from the second seal arranged. Conversely, the second seal is arranged on the side facing the inside and the outside facing away from the first seal.

The two seals now fulfill different functions. With the first seal, which has the greater extent in the radial direction, a reliable seal of the air gap is ensured with closed building closure. For this purpose, the first seal in the radial direction dimensions which are sufficient to always bridge the air gap, especially depending on tolerances of the building closure. The second seal, however, seen in the radial direction is smaller than the first seal. Thus, while the second seal may well support the sealing effect of the first seal, it alone, ie without the first seal, not necessarily ensure. It may well occur so far that the second seal at the closed building closure at most with its end facing away from the spars rests against the sealing surface, without being curved about the axis described above.

The first seal and the second seal are so far preferably designed such that when closed building closure of the contact pressure of the first seal to the sealing surface is greater than the contact pressure of the second seal to the sealing surface. However, this also means that the second seal less deformed with closed building closure, in particular less curved than the first seal. Accordingly, it comes not or at most to a lesser extent than for the first seal to the compression described above and the resulting buckle of the seal. With the aid of the second seal, an excellent appearance of the building closure can be ensured to that extent, especially seen from the inside.

The second seal is preferably arranged such that it is always visible when the building closure is closed from the inside of the building closure or from a space bounded by the building closure. In this respect, the second seal is present as a visible part when the building closure is closed. Due to the compression of the second seal and the arrangement on the side facing the inside of the first seal, which does not occur even when the building closure is closed, a possible compression of the first seal can be optically laminated by means of the second seal. The first seal can therefore be chosen as large as necessary to the tightness of the building closure or to ensure the sealing of the air gap. The second seal in each case ensures an excellent visual impression of the building closure, namely by the compression and the resulting curvature of the first seal with closed building closure are laminated optically.

In a further embodiment of the invention it is provided that the first seal and the second seal are arranged separately and / or spaced from each other on the spars, and / or that the first seal and the second seal are arranged on a common base body on the spars , The first seal and the second seal can of course be made individually from each other and arranged on the spars. Nevertheless, together they form the sealing device. Arranging on the spars may be spaced apart from one another, in particular spaced apart in parallel. However, an embodiment of the building closure is preferred in which the first seal and the second seal are arranged on the spars over the common base body, that is, are fastened to the spars via the common base body. Preferably, the first seal and the second seal are fastened exclusively to the spars via the common base body.

A development of the invention provides that the first seal, the second seal and the base body are fastened to each other or designed in one piece. The seals and the base body can be made separately from each other and subsequently attached to each other. The fastening takes place, for example, cohesively. However, a positive and / or non-positive attachment can be realized. Alternatively, the two seals and the base body in the manufacture of the sealing device, for example, jointly formed or - if they are formed separately from each other - after forming materially connected to each other, so that the one-piece design is present. Additionally or alternatively, the first seal, the second seal and the base body can be made of the same material, ie consist of the same material.

In the context of a further embodiment of the invention, it is provided that the sealing device, in particular the base body, is secured to the spars by means of a positive locking and / or frictional connection fastening device. The positive locking and / or frictional connection is used for the positive and / or non-positive retention of the sealing device or the base body to the spars. Also other types of attachment can be realized alternatively or additionally. For example, the sealing device can be firmly attached to the spars. Preferably, the cohesive connection is provided in addition to the attachment by means of the positive locking and / or adhesion fastening device.

For example, it is provided that the interlocking and / or adhesion fastening device has a projection provided on the main body and a receptacle formed on the spars, in which the projection for the positive and / or non-positive holding the sealing device is arranged, wherein the receptacle with closed building closure is overlapped by the wing or the frame. The interlocking and / or adhesion fastening device is so far formed by the projection and the projection receiving receptacle. For example, the projection is elastic, so that the form-fitting and / or adhesion fastening device allows a latching fastening of the sealing device to the spars, preferably by pressing or pressing the projection into the receptacle. The protrusion may also be referred to as positive locking and / or frictionally locking fastening projection and / or the receptacle as form-fit and / or adhesion-fit fastening receptacle.

For example, the receptacle is formed on a plurality of the spars, in particular on all of the spars. In particular, it is also formed in the corner region of the spars, in which they collide, continuous, so that thus a portion of the receptacle, which is present at one of the spars, in another area of the receptacle, which is present at another of the spars, passes. The receptacle is overlapped with closed building closure of the wing or the frame. In other words, it is overlapped by the wing when the receptacle is on the frame and vice versa by the frame when it is formed on the wing. For example, the receptacle has an orifice through which the projection engages in it. This mouth opening can lie in a plane which runs parallel to at least one region of the sealing surface, which is preferably also flat.

A further preferred embodiment of the invention provides that the first seal and the second seal have different stiffnesses in the radial direction relative to a central axis of the frame or the wing that is perpendicular to a frame plane or wing plane defined by the uprights, and / or that the seals are made different materials exist with different stiffnesses. The first seal and the second seal should in this respect have different spring effects in the direction of the central axis. For example, the first seal is realized with a lower rigidity than the second seal to ensure that it always reliably conforms to the sealing surface and in this respect seals the air gap. Because the good seal of the building closure is to be achieved by means of the second seal, it is advisable to realize a greater rigidity for these, in order to reduce or even connect the above-described compression or bulge. The different stiffnesses can be achieved by different geometrical configurations of the seals and / or by different materials.

A preferred embodiment of the invention provides that the second seal by means of a bearing, in particular a foil bearing, is pivotally mounted. About the bearing, the second seal is preferably connected to the body. The bearing allows the pivoting of the second seal, namely in particular in the radial direction or about a longitudinal center axis of the second seal, which preferably runs parallel to the respective one of the spars. The bearing reduces the curvature occurring during closure of the building closure about this axis and provides a better visual impression. The bearing may be in the form of the foil bearing, for example. It can be carried out in this respect by a local rejuvenation of the second seal.

A further embodiment of the invention provides that the first seal has larger dimensions than the air gap, so that when the building closure is closed, it sealingly bears against the sealing surface opposite the rails with respect to the air gap. In order to always ensure a reliable sealing of the air gap despite possible tolerances of the building closure, the seal in the radial direction in a relaxed state, so with open building closure, dimensions in the radial direction, by at least 5%, at least 10%, at least 15%, at least 20% or at least 25% larger than the dimensions of the air gap in the radial direction with closed building closure.

A further development of the invention provides that the second seal has dimensions which correspond at least to the dimensions of the air gap, so that the second seal touches the sealing surface when the building closure is closed with its side facing away from the spars. The dimensions of the second seal in the radial direction are for this purpose preferably also in the relaxed state of the second seal, ie when the building closure is open. The dimensions of the air gap, on the other hand, must be determined with the building shutter closed. The dimensions of the second seal in the radial direction now correspond at least to the dimensions of the air gap in the same radial direction, so that the second seal also completely bridges the air gap in the radial direction when the building closure is closed. It touches the side facing away from the spars, so with a free edge, the sealing surface.

Finally, it may be provided within the scope of a preferred further embodiment of the invention that the first seal and the second seal are differently surface-treated. It has already been mentioned above that the first seal and the second seal can be made of different materials. The different surface treatment may be independent of this, that is, both when the seals of different materials and if they are made of the same material. For example, the second seal has better sliding properties than the first seal. For this purpose, it may be provided with a lubricious coating, in particular with a coating of polytetrafluoroethylene.

Figur 1

eine schematische Schnittdarstellung einer Dichtungseinrichtung für einen Gebäudeverschluss, sowie

Figur 2

eine schematische Schnittdarstellung durch einen Bereich des Gebäudeverschlusses, welcher einen Rahmen, einen Flügel sowie die Dichtungseinrichtung aufweist.

The invention will be explained in more detail with reference to the embodiments illustrated in the drawings, without any limitation of the invention. Showing:

FIG. 1

a schematic sectional view of a sealing device for a building closure, as well

FIG. 2

a schematic sectional view through an area of the building closure, which has a frame, a wing and the sealing device.

The FIG. 1 shows a sectional view through a sealing device 1 for a building closure 2, not shown here, the latter being designed, for example, as a window, in particular as a roof window. The sealing device 1 has a first seal 3 and a second seal 4. Both are each displaceable with respect to an axis perpendicular to the plane of the drawing, in particular bendable. For this purpose, the sealing device 1 consists of an elastic material, in particular an elastic sealing material. The two seals 3 and 4 are connected to each other via a base body 5. About the main body 5, they are fastened to spars 6, not shown here, of a frame 7, also not shown, or of a wing 8. The fastening of the main body 5 to the uprights 6 is provided by means of a form-locking and / or adhesion-fastening device 9, wherein on the main body 5, a projection 10 of the form-locking and / or adhesion fastening device 9 is formed.

With respect to the main body 5, the seals 3 and 4 extend in the direction away from the projection 10 and thus away from the bars 6. In particular, the sealing device 1 extends as such, starting from one of the frame elements, ie either the frame 7 or the wing 8, to the respective other frame member, so the wing 8 or the frame 7. The sealing device 1 serves to seal an air gap 11, which is present even when the building closure 2 is closed between the frame 7 and the wing 8 in the radial direction with respect to a central axis perpendicular to a frame plane of the frame 7 or a wing plane of the wing 8. In this case, the sealing device 1 rests against a sealing surface 12 of the wing 8 or the frame 7 opposite the uprights 6.

In the relaxed state of the sealing device 1 shown here, which is present when the building closure 2 is open, the seal 3 extends further into the direction away from the spars 6 and the main body 5 than the second seal 4. In addition, the seal 3 has a lower rigidity and in this respect, a greater elasticity than the second seal 4. The first seal 3 is used for reliable sealing of the air gap 11, while the second seal 4 provides excellent appearance of the building closure 2. The second seal 4 is configured, for example, such that it does not bend in itself when closing the building closure 2, but is merely pivoted about a pivot axis 14 defined by a bearing 13. The pivot axis 14 in this case runs parallel to the axis already mentioned above, around which the curvature of the first seal 3 takes place. The bearing 13 is particularly preferably designed as a foil bearing and for this purpose, for example, produced by a local taper of the second seal 4.

The FIG. 2 shows a schematic sectional view through an area of the building closure 2. Here are now a part of the frame 7 and a part of the wing 8 can be seen. The wing 8 is rotatably mounted with respect to the frame 7, in particular rotatably mounted on the frame 7. The frame 7 and the wing 8 are shown in a closed position, which is present when the building closure 2 is closed. It can be seen that the sealing device 1 is held by an engagement of the projection 10 in a receptacle 15 of the interlocking and / or adhesion fastening device 9 on the spar 6, wherein the spar 6 is part of the wing 8 here. Accordingly, the sealing surface 12, against which the sealing device 1 sealingly abuts the air gap 11, protrudes against the frame 7.

It can be seen that the first seal 3 is curved in such a way that it fits into the air gap 11. The curvature shown here is of course purely exemplary. In particular, the direction of the curvature depends on which side of a rotation axis of the wing 8 with respect to the frame 7, the sealing device 1 is arranged. Thus, the first seal 3 is curved on one side of the rotation axis in one direction and on the other side in the other direction. Furthermore, it can be seen that the second seal 4 is also in its relaxed state in the closed state of the building closure 2 shown here. In this case, it lies against the sealing surface 12 with a free end 16 facing away from the spars 6 or the main body 5.

Because the seal 4 is not curved and is not or at most slightly deflected about the pivot axis 14 starting from its relaxed state, no compression of a arranged on another of the spars 6 and connected to the sealing region of the sealing device 1 shown here further sealing region occurs. Accordingly, visually unsightly bulges of the sealing device 1 can be avoided. At the same time, such a buckling or buckling for the seal 3 may well occur, because this is curved when the building closure 2 is closed. The resulting curvature, however, is laminated by the second seal 4 at least in the direction of an inner side 17 of the building closure 2. From the direction of the inner side 17, only the second seal 4 can be seen, which has no or only a slight curvature, while the first sealing surface 3, which may be curved or curved in the closed state of the building closure 2, from the direction of the inner side 17 of FIG the second seal 4 is covered and therefore optically laminated.

With the aid of the sealing device 1 described here, on the one hand an excellent tightness of the building closure 2 is ensured and, on the other hand, an equally excellent visual impression of the building closure 2 is achieved at the same time.

Claims (10)

Building closure (2), in particular skylight, with a frame (7), a relative to the frame (7) rotatably mounted wings (8) and a sealing means (1) for sealing between the frame (7) and the wing (8) present Air gap (11) with closed building closure (2), wherein the sealing means (1) on a plurality of spars (6) of the frame (7) or the wing (8) is arranged continuously so that they closed at a closed building closure (2) at one the hollow (6) opposite sealing surface (12) of the wing (8) or the frame (7) is applied, characterized in that the sealing means (1) has a first seal (3) and a second seal (4), wherein the first Seal (3) in the direction away from the spars (6) has a greater extent than the second seal (4) and with closed building closure (2) on the inside (17) of the building closure (2) facing away from the second seal (4) is arranged. Building closure according to claim 1, characterized in that the first seal (3) and the second seal (4) are arranged separately and / or spaced from each other on the spars (6), and / or that the first seal (3) and the second Seal (4) via a common base body (5) on the spars (6) are arranged. Building closure according to one of the preceding claims, characterized in that the first seal (3), the second seal (4) and the base body (5) are fastened to each other or designed in one piece. Building closure according to one of the preceding claims, characterized in that the sealing device (1), in particular the base body (5), by means of a positive locking and / or adhesion fastening device (9) is attached to the spars (6). Building closure according to one of the preceding claims, characterized in that the form-fit and / or frictional attachment means (9) comprises on the base body (5) provided projection (10) and a recess formed on the spars receptacle (15) in which the projection (10) for the positive and / or non-positive holding of the sealing device (1) is arranged, wherein the receptacle (15) with closed building closure (2) of the wing (8) or the frame (7) is overlapped , Building closure according to one of the preceding claims, characterized in that the first seal (3) and the second seal (4) in the radial direction with respect to a perpendicular to one of the bars (6) defined frame plane or wing plane center axis of the frame (7) or of the wing (8) have different stiffnesses, and / or that the seals (3,4) consist of different materials with different stiffnesses. Building closure according to one of the preceding claims, characterized in that the second seal (4) by means of a bearing (13), in particular a foil bearing, is pivotally mounted. Building closure according to one of the preceding claims, characterized in that the first seal (3) has larger dimensions than the air gap (11), so that they with closed building closure (2) on the spars (6) with respect to the air gap (11) opposite sealing surface (12) sealingly. Building closure according to one of the preceding claims, characterized in that the second seal (4) has dimensions which correspond at least to the dimensions of the air gap (11), so that the second seal (4) with its closed building closure (2) with its the spars (6 ) facing away from the sealing surface (12) touched. Building closure according to one of the preceding claims, characterized in that the first seal (3) and the second seal (4) are differently surface-treated.

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