EP4310289A1 - Profile assembly with thermal insulation - Google Patents

Abstract

The invention relates to a profile arrangement for a window or a door, comprising: a frame (B) with a first profile (1) and a second profile (2), the first profile (1) and the second profile (2) having at least are connected to an insulating web (11); a sash frame with a first profile (3) and a second profile (4), the first profile (3) and the second profile (4) being connected to at least one insulating web (13); a first insulating body (21), which is attached to the at least one insulating web (11) of the frame; a second insulating body (22), which is attached to the at least one insulating web (13) of the frame, the insulating bodies (21, 22) facing each other when the window or door is closed and the first insulating body (21) and the second insulating body (22) When the window or door is closed, there is a gap (S) between them that is open on both sides, the gap distance being greater than 0 but less than or equal to 2 mm, and the insulating bodies (21, 22) being designed in such a way that the gap (S ) runs obliquely relative to a longitudinal direction of the insulating webs.

Description

The present invention relates to a profile arrangement with thermal insulation according to the preamble of claim 1.

It is known to provide an insulating arrangement, in particular a thermal insulation arrangement, between the frame and the sash frame, for example a door or a window. It is provided that the frame has a first insulating body and the sash frame has a second insulating body. When the window or door is closed, the insulation bodies touch each other. Such an arrangement is, for example, from DE 10 2005 032 176 A1 known. The insulating bodies are attached here to the opposite insulating bars of the frame and sash frame.

Due to the arrangement of the insulating bodies in the area between the frame and the sash, in particular between the opposing insulating bars, a very precise dimensional accuracy of the insulating bodies is necessary. If there are deviations here, the door or window no longer closes properly.

For this reason, from the EP 2 088 276 A2 a profile arrangement is known in which the two insulating bodies have a gap between them that is between 0 and 2 mm when the window or door is closed. In this way, advantageous thermal insulation can be achieved, with no tight tolerances of the insulating bodies or the other profile components having to be adhered to.

The ones from the EP 2 088 276 A2 However, known solution has the disadvantage that the insulation properties are slightly reduced. It is also often necessary to install the insulating bars between the outside and inside half-shells of the frame and the sash frame, which further impairs the insulation properties. After all, the one from the EP-276 A2 The known gap can be reduced in such a way when the sash frame is unscrewed that friction occurs between the two insulating bodies.

Based on the above-mentioned problem, the present invention is based on the object of providing improved insulation for profile arrangements, which improves the insulation properties and at the same time takes into account the unscrewing behavior of the sash frame.

The above-mentioned task is solved by the subject matter of independent patent claim 1. Advantageous further developments are specified in the attached, dependent patent claims.

• einen Blendrahmen mit einem ersten Profil und einem zweiten Profil, wobei das erste Profil und das zweite Profil mit mindestens einem Isoliersteg verbunden sind;
• einen Flügelrahmen mit einem ersten Profil und einem zweiten Profil, wobei das erste Profil und das zweite Profil mit mindestens einem Isoliersteg verbunden sind;
• einen ersten Dämmkörper, welcher an dem mindestens einen Isoliersteg des Blendrahmens angebracht ist;
• einen zweiten Dämmkörper, welcher an dem mindestens einen Isoliersteg des Blendrahmens angebracht ist, wobei sich die Dämmkörper bei geschlossenem Fenster oder Tür gegenüberstehen und der erste Dämmkörper und der zweite Dämmkörper bei geschlossenem Fenster oder Tür einen nach beiden Seiten geöffneten Spalt zwischen sich aufweisen.

Accordingly, the present invention relates to a profile arrangement for a window or a door, comprising:

• a frame with a first profile and a second profile, the first profile and the second profile being connected to at least one insulating web;
• a sash with a first profile and a second profile, the first profile and the second profile being connected to at least one insulating web;
• a first insulating body, which is attached to the at least one insulating web of the frame;
• a second insulating body, which is attached to the at least one insulating web of the frame, the insulating bodies facing each other when the window or door is closed and the first insulating body and the second insulating body having a gap between them that is open on both sides when the window or door is closed.

The gap distance is greater than 0 but less than or equal to 2 mm. The insulating bodies are designed in such a way that the gap runs obliquely relative to a longitudinal direction of the insulating webs.

The slanted design of the gap between the insulating bodies prevents heat transfer, particularly through convection, even more strongly. The inclined arrangement also ensures that the two are opposite each other When unscrewing the sash frame, the surfaces of the insulating bodies are spaced vertically apart from one another so that they do not come into contact even with the smallest gap. This effectively prevents abrasion of the insulating bodies.

According to a further embodiment, the gap distance between the two insulating bodies is essentially constant. This is a relatively simple embodiment of the profile arrangement, which can be produced quickly and repeatably. Of course, it is also possible as an alternative to make the gap distance between the two insulating bodies variable, in particular step-like. Such a design allows air chambers to form between the two insulating bodies, which act as a trap for outside air and prevent unwanted convection.

According to a further embodiment, the gap runs at an acute angle, preferably at an angle between 1° and 45°, with respect to the longitudinal direction of the insulating webs. Such an acute angle is particularly advantageous in relation to the unscrewing movement of the sash frame when opening and closing.

According to a further embodiment, the first profiles of the window frame and the sash frame are designed as inner profiles, which are arranged on the inside of the door or window, and the second profiles of the window frame and the sash frame are designed as outer profiles, which are arranged on the outside of the door or window. The gap is inclined in the direction of the first profile of the sash and/or in the direction of the second profile of the frame. Such an inclination is designed in particular for the unscrewing movement of turn/tilt windows.

According to a further embodiment, the two insulating bodies have a substantially identical shape. This significantly reduces the manufacturing effort for the insulating bodies to achieve an oblique gap.

According to a further embodiment, the insulating body has a first surface and a second surface opposite the first surface. The first surface runs essentially parallel to a longitudinal direction of the insulating web of the frame and is preferably in contact with the insulating web of the frame. The second surface runs obliquely to the Longitudinal direction of the insulating web of the frame, wherein the second insulating body has a first surface and a second, opposite surface, wherein the first surface runs essentially parallel to a longitudinal direction of the insulating web of the sash and is preferably in contact with the insulating web of the sash, the second Surface runs obliquely to the longitudinal direction of the insulating web of the sash frame. In other words, the insulating bodies are arranged essentially in a wedge shape, with these having a first surface which runs parallel to the insulating bars and which can be used to connect the insulating bodies easily and reliably to the insulating bars. The opposite second surface of the insulating body then forms the oblique gap in a simple manner.

According to a further embodiment, the second surface of the first or second insulating body is uneven, in particular knob-like, groove-like, or corrugated. The uneven design of the insulating bodies creates a large number of air spaces in the gap between the insulating bodies, which can reduce the heat losses of the profile arrangement.

According to a further embodiment, the first surface of the first and/or the second insulating body has at least one recess for receiving an anchoring part of at least one insulating web. The anchoring part can, for example, run perpendicular to the insulating web. The insulating bodies can be attached to the anchoring part via their first surface. This embodiment therefore has the advantage that the insulating bodies can be attached to the profile arrangement very quickly and easily and repeatably. According to a further embodiment, the sash frame has a second insulating web, which is arranged between the first profile and the second profile of the sash frame and is connected to it.

The present invention will be described below with reference to those shown in FIGS. illustrated embodiments described in more detail.

FIG. 1

einen schematischen Querschnitt durch eine Profilanordnung gemäß einer ersten Ausführungsform der vorliegenden Erfindung; und

FIG. 2

einen Querschnitt durch eine zweite Ausführungsform der Profilanordnung gemäß der vorliegenden Erfindung.

Show:

FIG. 1

a schematic cross section through a profile arrangement according to a first embodiment of the present invention; and

FIG. 2

a cross section through a second embodiment of the profile arrangement according to the present invention.

The FIG. 1 shows a cross section through a profile arrangement according to a first exemplary embodiment of the present invention. The profile arrangement has a frame 10 and a sash frame 12. The frame 10 has a first, external profile 1 and a second, internal profile 2. The two profiles 1, 2 of the frame 10 are connected to one another via an insulating web 11, but are thermally separated from one another.

The sash has a first, outside profile 3 and a second, inside profile 4. The two profiles 3, 4 of the sash frame 12 are connected to one another via at least one insulating web, here two insulating webs 13, 14.

The first two profiles 1, 3 of the profile arrangement form the outside profile of the profile arrangement, while the two second profiles 2, 4 form the inside profile, that is, the profile that faces the interior of the building. The insulating webs 11, 13, 14 preferably consist of a poorly heat-conducting material, such as polyamide. The profiles 1, 2, 3, 4 of the profile arrangement consist, for example, of a metallic material, such as aluminum. However, it is just as conceivable to apply the present invention to plastic or wooden profiles.

Two insulating bodies 21, 22 are provided in the fold area between the frame and the sash frame. In particular, a first insulating body 21 is arranged between facing sections of the first profile, the first insulating web, and the second profile 2 of the frame. The second insulating body 22 is arranged between facing sections of the first profile 3, the second profile 4 and the first insulating web 13 of the sash frame 12.

It is intended that the first insulating body 21 is attached to the first insulating web 11 of the frame 10. The second insulating body 22 is attached to the first insulating web 13 of the sash frame. The insulating bodies 21, 22 face each other and form a gap S in the gap. The thermal conductivity of the insulating bodies 21, 22 should be as small as possible in order to keep the heat transfer coefficient as low as possible. They can do this Insulating bodies 21, 22 can be formed, for example, from foam, foam rubber or the like.

The two insulating bodies 21, 22 are designed such that the gap S runs obliquely relative to a longitudinal direction of the insulating webs 11, 13. In other words, a longitudinal direction of the gap S runs at an acute angle, preferably at an angle of 1° to 45°, preferably 10° to 30°, with respect to the longitudinal direction of the insulating webs 11, 13. This oblique arrangement of the gap S leads to a further improving the heat transfer coefficient and reducing wear when opening the window or door. This is particularly the case because the sash frame is usually turned out when the window or door is opened, so that a curve-like movement of the sash frame relative to the frame occurs. Such a curved movement can result in a straight design of the gap, such as this one EP 2 088 276 B1 is known to lead to unwanted contact between the insulating bodies. This is prevented by the slanted design of the gap S shown here.

The insulating bodies 21, 22 are designed in such a way that the gap S at its first, outside end leans towards the first profile 1 of the frame, while the gap S at the opposite, second end, which is aligned towards the inside, towards the second profile 4 of the sash frame leans towards. In other words, the gap S is in the FIG. 1 shown counterclockwise at an acute angle relative to the longitudinal direction of the insulating webs 11, 13 inclined.

The insulating bodies 21, 22 each have a first surface 23, 24, which is connected to the associated insulating webs 11, 13. A first surface 23 of the first insulating body 21 is connected to anchoring elements 15 of the insulating web 11. The anchoring elements 15 of the insulating web 11 are designed like a rail and extend essentially perpendicular to the longitudinal direction of the insulating webs. The anchoring elements 15 are accommodated in corresponding grooves on the first surface 23 of the first insulating body 21. As a result, the first insulating body can be plugged onto the associated insulating web 11 in a particularly simple and repeatable manner.

The second insulating body 22 is essentially identical to the first insulating body 21. This also has rail-like receptacles on the first surface 24, which are designed to accommodate the vertical webs of the first insulating web 13 of the sash frame 12.

The two insulating bodies 21, 22 can in particular be detachably connected to the insulating webs 11, 13 via the anchoring elements 15. This particularly facilitates the replacement of the insulating bodies 21, 22 in the event of wear.

The first surface 23, 24 of the two insulating bodies 21, 22 is adapted to the surface of the insulating webs 11, 13. In the exemplary embodiment shown here, the first surfaces 23, 24 are therefore designed to be essentially straight. On the opposite side of the insulating bodies 21, 22 there are second surfaces which face the gap S. The second surfaces of the insulating bodies are designed obliquely. Accordingly, the slope of the second surfaces of the insulating bodies 21, 22 defines the orientation of the gap S. The angle of the gap S can therefore be achieved very easily using different insulating bodies 21, 22 with different second surfaces. As already mentioned above, the inclined arrangement achieves better thermal insulation and further reduces wear on the insulating bodies.

The FIG. 2 a second embodiment of the present invention can be seen. The profile arrangement according to FIG. 2 is essentially identical to that in FIG. 1 profile arrangement shown. Accordingly, identical parts of the profile arrangement are in FIG. 2 provided with identical reference numbers. The profile arrangement according to FIG. 2 differs essentially in the shape of the gap S1 between the two insulating bodies 21, 22 compared to the gap S according to FIG. 1 . In particular, the gap S1 of the second embodiment has a variable gap distance. On the other hand, the gap distance of the gap S is according to FIG. 1 constant.

The gap S1 according to FIG. 2 is in particular step-like, so that a large number of air spaces 25 are created, which are connected to one another by narrower connecting channels. The air spaces serve as heat transfer buffers and can further reduce the heat transfer coefficient. In the FIG. 2 the step-like gap S1 is achieved in particular by a knob-like design of the second surfaces 27 of the first and second insulating bodies 21, 22. Of course, it is also possible to provide only one of the two insulating bodies with a knob-like, corrugated or groove-like second surface in order to generate a variable gap distance.

The present invention is not limited to the embodiments shown in the figures, but results from a synopsis of all the features disclosed herein.

Claims (10)

Profile arrangement for a window or door, comprising: - a frame (B) with a first profile (1) and a second profile (2), the first profile (1) and the second profile (2) being connected to at least one insulating web (11); - a sash frame with a first profile (3) and a second profile (4), the first profile (3) and the second profile (4) being connected to at least one insulating web (13); - a first insulating body (21), which is attached to the at least one insulating web (11) of the frame; - a second insulating body (22), which is attached to the at least one insulating web (13) of the frame, wherein the insulating bodies (21, 22) face each other when the window or door is closed and the first insulating body (21) and the second insulating body (22) have a gap (S) between them that is open on both sides when the window or door is closed, the gap distance is greater than 0 but less than or equal to 2 mm, characterized in that the insulating bodies (21, 22) are designed such that the gap (S) runs obliquely relative to a longitudinal direction of the insulating webs. Profile arrangement according to claim 1,
wherein the gap distance between the two insulating bodies (21, 22) is essentially constant. Profile arrangement according to claim 1,
wherein the gap distance between the two insulating bodies (21, 22) is variable, in particular variable in steps. Profile arrangement according to claim 1 or 3,
wherein the gap runs at an acute angle, preferably an angle between 1° and 45°, with respect to the longitudinal direction of the insulating webs. Profile arrangement according to one of claims 1 to 4,
wherein the first profiles (1, 3) of the window frame and the sash frame are designed as internal profiles, which are arranged on the inside of the door or window, and wherein the second profiles (2, 4) of the window frame and the sash frame are designed as external profiles, which are arranged on the outside of the door or window, and wherein the gap (S) is inclined in the direction of the first profile (3) of the sash frame and / or in the direction of the second profile (2) of the frame. Profile arrangement according to one of claims 1 to 5, wherein the two insulating bodies (21, 22) have a substantially identical shape. Profile arrangement according to one of claims 1 to 6, wherein the first insulating body (21) has a first surface and a second, opposite surface, the first surface running essentially parallel to a longitudinal direction of the insulating web (11) of the frame and preferably with the insulating web (11) of the frame is in contact, and wherein the second surface runs obliquely to the longitudinal direction of the insulating web (11) of the frame, and / or wherein the second insulating body (22) has a first surface and a second, opposite surface, the first Surface runs substantially parallel to a longitudinal direction of the insulating web (13) of the sash frame and is preferably in contact with the insulating web (13) of the sash frame, and wherein the second surface runs obliquely to the longitudinal direction of the insulating web (13) of the sash frame. Profile arrangement according to claim 6, wherein the second surface of the first or second insulating body is uneven, in particular knob-like, groove-like or corrugated. Profile arrangement according to claim 7 or 8, wherein the first surface of the first and/or the second dam body (21, 22) has at least one Recess for receiving an anchoring part of the at least one insulating web (11, 13). Profile arrangement according to one of claims 1 to 9, wherein the sash has a second insulating web which is arranged between the first profile (3) and the second profile (4) of the sash and is connected to them.

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