EP2899353B1 - Strip-like support and insulation element for support and insulation of a window frame - Google Patents

Description

The invention relates to a strip-shaped supporting and insulating element for supporting and insulating a window frame.

Such supporting and insulating elements have been used for some years in conjunction with thermal insulation composite systems to artificially extend a wall opening for a window to the outside. According to EP 2 639 394 A2 a support member made of load-bearing rigid foam is laterally screwed to the wall and serves, in particular at the bottom, the support of the window frame to be used. In this thermal insulation composite system, for example, a pretext with the inner wall forms a gap in which the support member is arranged. The load bearing support member with more or less triangular cross-section is supplemented by an insulating part, which consists for example of hard flexible foam and together with the support member forms a two-part body with preferably cuboidal cross-section. The insulating part must be separately connected after screwing the support member to the inner wall with the support member.

DE 10 2004 038 246 shows a support and insulating element according to the preamble of claim 1.

The present invention has for its object to provide a support and insulating, which allows a particularly simple transport and installation.

According to the invention, the strip-shaped supporting and insulating element for supporting and insulating a window frame comprises a support part having a first longitudinal side surface which abuts against a wall to which the support part is to be fastened and a second longitudinal side surface which in FIG Is substantially perpendicular to the first side surface and serves to support the window frame, wherein the support member is formed of a load-bearing material. In addition, the support and insulating member comprises an insulating member which is connected to the support member. The support member in this case has a first leg, which comprises the first side surface, and has a second leg, which is connected to the first leg and protrudes at an angle from the first leg. The insulating part is arranged in the region of an inner side surface of the first limb of the support part opposite the first side surface and with an outer edge region of the first or 10196 P 0275 EP

pivotally connected to the second leg such that it is at least substantially covered between a working position in which it at least substantially exposes the inner side surface of the first leg of the support member and an insulating position in which it at least substantially covers the inner side surface of the first leg of the support member. is pivotable.

With this construction, a coherent support and insulating element is created, which can be transported in a compact manner and allows a particularly simple installation. This is ensured by the fact that the support member and the insulating part are on the one hand connected to each other, but on the other hand, the insulating part can be pivoted away from the support member, so that the inner side surface of the first leg of the support member for producing through holes for the fastening means or for the insertion of the Fastening means is exposed in the through holes for attachment of the support and insulating member to the wall. Subsequently, the insulating part can be easily swung back into the insulating position in which it performs its insulating function.

Preferably, the pivotal connection between the insulating part and the support member is formed by a flexible adhesive strip which is adhered to both the insulating part and the support member. In this way, a cost-effective and easy to handle structure is created, which allows pivoting any amount of the insulating part relative to the support member.

To further facilitate on-site installation work, at least one through-hole for receiving a fastener for securing the support member to the wall may already be provided extending from the inner side surface to the first side surface through the first leg of the support member. In this way, the craftsman is spared the step of creating the through-hole at the construction site.

In a preferred embodiment, the support member is formed of a rigid foam material. This material has the advantage that it is very stable, on the other hand already provides a certain insulating effect. An example of such a material is a rigid foam based on polyurethane, such as Purenit.

On the other hand, the insulating part is preferably made of foam, preferably of hard flexible foam. This foam should preferably be self-supporting. As a material, for example, thermal insulation materials such as polystyrene, Styrodur, Styrofoam, Styrofoam or Neopur come into question.

For better attachment of the insulating part on the support member during transport and also in the installed state that of the first and second leg, with which the insulating member is not pivotally connected, be connected by an at least removable from the support member adhesive tape with the insulating part.

A particularly preferred geometry is given when the support member is formed in cross-section substantially L-shaped. This ensures that the pivoting of the insulating member is not hindered while avoiding inclined surfaces on the support member, which complicate the handling when creating through holes or when inserting fasteners in the through holes.

In a more complex variant, the support member may be formed in cross-section substantially T-shaped. Then, the support and insulating member preferably has two insulating parts, which are arranged on both sides of the second leg.

Typically, the second leg has the second side surface, and the first and second side surfaces also intersect at the same angle as the second leg protrudes from the first leg. This applies in particular to the design of the support member with L-shaped cross-section.

However, it is also possible that the first leg also has the second side surface, which is then arranged adjacent to the first side surface. This embodiment is inevitable in the support member with T-shaped cross-section, but may also be present in the support member with L-shaped cross-section.

Particularly advantageous is the latter design, when arranged on a side facing away from the support part of the insulating part, a sealing strip made of a resettable after compression soft foam. In this way, the sealing effect of the insulating part is further enhanced, because the flexible foam can due to its Create expansion force on the pretext. In the embodiment of the support member with T-shaped cross section, it is also possible in addition that the flexible foam conforms to the window frame and seals it against the weather.

For better handling of the sealing strip is preferably held in such a case by a compression means in the compressed state, wherein the expansion of the sealing strip can be triggered by loosening or removing the compression means. Thus, the compression means can be dissolved or removed only in the installed state of the support and insulating, and the expansion of the sealing strip occurs only after completion of the installation work of the support and insulating member and does not hinder them.

In a preferred embodiment, the compression means is a film envelope which at least partially surrounds the sealing strip. This can be easily solved or removed and can also serve in the installed state as a vapor barrier. Alternatively, the sealing strip can also be designed such that the expansion can be activated in a controlled manner, e.g. by heat, moisture or electrical impact.

A building section equipped with supporting and insulating elements according to the invention usually comprises a wall, a front wall and an intermediate space arranged between the wall and the front wall. The supporting and insulating elements according to the invention are usually arranged in the space between the wall and the front wall and fastened by means of fastening elements on the wall. A window frame is disposed adjacent to the gap and abuts against the second side surfaces of the support member of the support and insulating members. It may also be present only a support and insulating element, which is arranged below the window frame and thus removes the weight load of the window. As an alternative to the pretext can also be provided on the wall-mounted thermal barrier coating having an opening for a window. The support and insulating then projects into this thermal barrier coating.

Fig. 1a und 1b

sind Querschnittsansichten einer ersten Ausführungsform des erfindungsgemäßen Stütz- und Isolierelements, wobei Fig. 1b das Isolierteil während des Verschwenkvorgangs darstellt;

Fig. 2

ist eine schematische Querschnittsansicht eines Bauwerksabschnitts, der eine Einbausituation des Stütz- und Isolierelements aus Fig. 1a zeigt;

Fig. 3

ist eine schematische Perspektivansicht einer Fensteröffnung in einem Mauerwerk mit mehreren um die Fensteröffnung herum platzierten Stütz- und Isolierelementen gemäß der Erfindung;

Fig. 4a und 4b

sind Querschnittsansichten einer weiteren Ausführungsform des erfindungsgemäßen Stütz- und Isolierelements, wobei Fig. 4b das Isolierteil während des Verschwenkvorgangs darstellt; und

Fig. 5

ist eine Querschnittsansicht einer weiteren Ausführungsform des erfindungsgemäßen Stütz- und Isolierelements.

Further advantages and properties of the support and insulating element according to the invention will become apparent from the following description with reference to the drawings.

Fig. 1a and 1b

are cross-sectional views of a first embodiment of the support and insulating element according to the invention, wherein Fig. 1b represents the insulating part during the pivoting operation;

Fig. 2

is a schematic cross-sectional view of a building section, which is a mounting situation of the support and insulating Fig. 1a shows;

Fig. 3

is a schematic perspective view of a window opening in a masonry with several placed around the window opening support and insulating elements according to the invention;

Fig. 4a and 4b

are cross-sectional views of another embodiment of the support and insulating member according to the invention, wherein Fig. 4b represents the insulating part during the pivoting operation; and

Fig. 5

is a cross-sectional view of another embodiment of the support and insulating member according to the invention.

In Fig. 1a and 1b a first embodiment of the support and insulating element according to the invention for supporting and insulating a window frame is shown. The support and insulating element comprises a cross-sectionally angular support member 2, with which a rectangular in cross-section insulating part 4 is connected. How best Fig. 3 it can be seen, extend both support member 2 and insulating part 4 primarily in a longitudinal direction. The length of a supporting and insulating element in the longitudinal direction can be chosen freely and is preferably between 10 and 150 cm. The support member 2 may be integrally formed or consist of two firmly interconnected sections. The support member 2 is configured in the illustrated embodiment in cross-section L-shaped. It is formed of a load-bearing material that is capable of supporting the load of the window frame without deforming. Wood or plastic can be used as the material of the support member 2, but is preferably a rigid foam material, for example based on polyurethane or polystyrene.

It is preferred if the rigid foam material has a compressive stress according to DIN EN 826 in the range of 2 to 15 MPa, in particular in the range of 4 to 8 MPa. The bulk density of the rigid foam material should be in the range of 100 to 1200 kg / m ³ , preferably between 350 to 800 kg / m ³ . The thermal conductivity of the rigid foam material should be in the range of 0.05 to 0.2 W / mK, preferably in the range of 0.06 to 0.15 W / mK. The rigid foam material is dimensionally stable and compression-stable under the load of the window. An example of such a rigid foam material is sold under the name "Purenit®".

The support member 2 has a first longitudinally extending side surface 6 which abuts against a wall 8 (FIG. Fig. 2 ) serves. The first side surface 6 is part of a first leg 10 of the support part 2. The support part 2 also has a second longitudinally extending side surface 12 which is substantially perpendicular to the first side surface 6 and for supporting a window frame 34 (FIG. Fig. 2 ) serves. In the illustrated embodiment, the second side surface 12 is part of a second leg 16 of the support member 2, which is connected to the first leg 10 and protrudes at an angle from the first leg 10. In the example shown, the angle is 90 °. The first side surface 6 and the second side surface 12 abut one another along an edge and also intersect at the same angle as the two legs 10, 16, in this case at 90 °.

In the first leg 10, one or preferably a plurality of through bores 18 may be provided, which are for the passage of one or more fastening elements 20 (FIG. Fig. 2 ), for example screws. Each through hole 18 thus passes through the first leg 10 of the support member 2 from an inner side surface 22 opposite the first side surface 6 to the first side surface 6 Fig. 2 shows, each fastener 20 is used to attach the support member 2 and thus the support and insulating on the wall eighth

It is also possible that no through hole 18 is provided in the first leg 10 of the support member 2, but the through hole is introduced only on site by the craftsman in the support member 2.

The insulating part 4 is arranged in the region of the inner side surface 22 of the first leg 10 of the support part 2. It is preferably formed from foam, particularly preferably from hard flexible foam. As a rule, such foams are self-supporting, but can not remove any load. Examples of such materials are polystyrene, Styrodur, Styrofoam, Styrofoam or Neopur, with densities <100 kg / m ³ , preferably <50 kg / m ³ , which are considered as thermal insulation materials. The compressive strength of such heat insulation materials is preferably at most 50% of the compressive strength of the load-bearing rigid foam preferably used for the support part 2, as a rule less than 20%.

The insulating part 4 is pivotally connected to an outer edge region of the first leg 10 of the support part 2. Likewise, it may be pivotally connected to an outer edge region of the second leg 16 of the support part 2. In Fig. 1a an insulating position of the insulating part 4 is shown, in which the insulating part 4, the inner side surface 22 of the first leg 10 of the support member 2 at least largely covered, in the present case even completely. In this position, the insulating part 4 is preferably located on both the first leg 10 and the second leg 16 of the support member 2. It is particularly preferred if the support part 2 and the insulating part 4 complement each other to a rectangular cross-sectional shape. The supporting and insulating element is preferably also transported in this insulating position.

Fig. 1b shows the pivoting located Isolierteil 4, which is on the way to a working position in which it exposes the inner side surface 22 of the first leg 10 of the support member 2 at least largely. In the working position of the insulating part 4, the fasteners 20 can be freely inserted into the through holes 18. If no through holes 18 are present in the support member 2, the craftsman has in the working position of the insulating 4 also unobstructed access to the first leg 10 of the support member 2 and there can produce the through holes 18, before the fasteners 20 through the through holes 18 in the wall. 8 introduces. The swivel angle between the working position and the insulating position of the insulating part 4 is usually between 60 and 120 °, but is not subject to any restrictions. The pivotal connection between the insulating part 4 and support member 2 is preferably formed by a flexible adhesive strip 24 which is adhered to both the insulating part 4 and the support member 2. In the in Fig. 1a and 1b illustrated embodiment, the adhesive strip 24 in a straight overlap of a joint edge between the support member 2 and insulating part. 4 educated. However, there are many other arrangements of the adhesive strip 24 in question.

In addition to the adhesive strip 24, many other possibilities for realizing the pivotal connection between insulating part 4 and support part 2 are conceivable for the person skilled in the art. For example, insulating part 4 and support part 2 could be connected to one another via another elastic element, the insulating part 4 could also be laminated directly to the support part 2 over a small area, or another mechanical pivot connection between insulating part 4 and support part 2 could be realized.

In the illustrated embodiment Fig. 1a In addition, a second adhesive strip 26 is provided, which connects the edge region of the second leg 16 of the support part 2 with the insulating part 4. This adhesive strip 26 should be easily detachable at least from the support part 2, since it must be released from the support part 2 before the pivoting of the insulating part 4 into the working position ( Fig. 1 b) , Preferably, the adhesive strip 26 is reusable, so that it can be fixed to the support member 2 again after attachment of the support member 2 to the wall 8 and the successful pivoting back of the insulating member 4 in the insulating position. Instead of the second adhesive strip 26, the detachable connection between insulating part 4 and second leg 16 of the support member 2 can be realized in other ways.

If the pivotable connection between the second leg 16 of the support member 2 and insulating member 4 is formed, then the releasable adhesive connection between insulating part 4 and support member 2 is logically between insulator 4 and first leg 10 of the support member 2.

In principle, however, the pivotal connection between insulating part 4 and support part 2 may also be the only connection of these two components. The insulating part 4 should then remain in the insulating position without external influence, for example by detachably wedging itself between the perpendicular to the inner side surface 22 extending inside of the support member 2 and the pivotal connection due to a suitable choice of the size and shape of the support member 2 and 4 Isolierteil.

The insulating part 4 can also be configured such that the surface of the insulating part 4 arranged adjacent to the inner side surface 22 of the support element 2 provides sufficient clearance for the portions of the fastening elements 20 that possibly protrude from the inner side surface 22 (not shown in the drawing).

In Fig. 2 and 3 the installation situation of a support and insulating element according to the invention is outlined. The illustrated building section 28 comprises in addition to the wall 8, to which the support member 2 is fastened by means of the fastening elements 20, usually also a pretext 30, which is usually formed by a thermal insulation material. This pretext 30 is ventilated and in the space 32 between the wall 8 and pretext 30, the support and insulating element according to the invention is arranged. The pretext 30 is usually connected by means of webs, projections or pins with the wall 8. The window frame 34 ( Fig. 2 ) is usually disposed adjacent to the gap 32 and is supported on the second side surface 12 of the support part 2 of the at least one support and insulating element. Here, between the window frame 34 and support member 2 still sealing elements 36, for example, made of PU foam, be inserted. Likewise, sealing elements 38, for example made of PU foam, between window frame 34 and over the height of the support member 2 protruding projection of the pretext 30 may be arranged.

As in particular from Fig. 3 As can be seen, the strip-shaped supporting and insulating elements are usually arranged around the entire window opening (only three of four sides are shown). In this context, it should be noted that the orientation of the support and insulating elements in Fig. 1a, 1b . 2 . 4a, 4b and 5 always represents the installation situation below the window opening. On the other three sides of the window opening, the supporting and insulating element must be rotated accordingly.

But it can also be mounted below the window opening one or more support or insulating, since there rests the main weight load of the window.

When the window frame 34 is surrounded on all sides by supporting and insulating elements according to the invention, the one or more supporting and insulating elements at the bottom of the window opening are usually by means of screws or

Similar be connected to the wall 8. At this point, but especially on the other sides of the window opening may also be sufficient adhesive bond between the support member 2 and 8 wall. The adhesive connection may also be advantageous in addition to the attachment by means of the fastening elements 20. The adhesive may preferably also serve as a diffusion brake at the same time.

In Fig. 3 the length of a supporting and insulating element corresponds exactly to the corresponding length or width of the window opening. However, per side of the window opening and several support and insulating elements can be strung together. As a rule, the individual supporting and insulating elements are mitred and either lie flush against one another or are preferably fastened to one another, in particular adhesively bonded. However, it is also conceivable that the individual supporting and insulating elements do not abut each other, but leave spaces between them free, which are filled with other materials, such as insulating materials.

As in Fig. 3 illustrated, the support member 2 may have additional projections 40 in the lower region of the window opening to which, for example, an outside window sill (not shown) can be screwed. In addition, such projections 40 serve to improve the static load capacity of the support member 2.

In Fig. 4a and 4b another embodiment of the support and insulating element according to the invention is shown. Here, the second side surface 12 of the support member 2 is also formed on the first leg 10. The second side surface 12 is in turn disposed adjacent to the first side surface 6, but does not extend over the entire width of the support member 2, but forms only an end face of the angular support part 2. Insofar is in this embodiment for the window frame 34 only a smaller support surface for available.

It is advantageous in this embodiment, however, that on a side facing the window frame 34 side of the insulating part 4, a sealing strip 42 from a resilient after compression resilient foam, such as polyurethane, may be arranged, which can expand against the window frame 34 and thus a seal against granted the window frame 34. In this way, an additional seal like in Fig. 2 represented omitted. The sealing strip 42 may additionally by a Compression means 44, here a film wrapping, be kept in the compressed state. By loosening or removing the compression means 44, the expansion of the sealing strip 42 at the construction site can be triggered.

The individual elements of the embodiments Fig. 1a and Fig. 4a can also be combined at any time to new designs.

In Fig. 5 a further embodiment of the support and insulating element according to the invention is shown. Here, the support member 2 is formed in cross-section substantially T-shaped and the support and insulating member has two insulating parts 4, which are arranged on both sides of the second leg 16 of the support member 2. If, as shown, the lower insulating part 4 is provided with a sealing strip 42, this will press after expansion in the installed state against the pretext 30 or against an alternative existing insulation and there provide a seal.

For the skilled person further modifications, in particular the geometric arrangement of support member 2 and insulating member 4, within the scope of the invention, as defined in the claims, conceivable.

Claims (15)

1. Strip-form supporting and insulating element for supporting and insulating a window frame (34):

   having a supporting part (2) with a first longitudinally running side surface (6), which serves for butting against a wall (8), and having a second longitudinally running side surface (12), which runs essentially perpendicularly to the first side surface (6) and serves for supporting the window frame (34), the supporting part (2) being formed from a load-bearing material, and having an insulating part (4), which is connected to the supporting part (2),

   wherein the supporting part (2) has a first limb (10), which comprises the first side surface (6), and a second limb (16), which is connected to the first limb (10) and projects from the first limb (10) at an angle, and

   wherein the insulating part (4) is arranged in the region of an inner side surface (22) of the first limb (10) of the supporting part (2), said inner side surface being located opposite the first side surface (6),

   characterized in that the insulating part is connected in a pivotable manner to an outer peripheral region of the first limb (10) or of the second limb (16), to be precise such that it can be pivoted between an operating position, in which it at least largely exposes the inner side surface (22) of the first limb (10) of the supporting part (2), and an insulating position, in which it at least largely covers the inner side surface (22) of the first limb (10) of the supporting part (2).
2. Supporting and insulating element according to Claim 1, characterized in that the pivotable connection between the insulating part (4) and the supporting part (2) is formed by a flexible adhesive-bonding strip (24), which is adhesively bonded both to the insulating part (4) and to the supporting part (2).
3. Supporting and insulating element according to Claim 1 or 2, characterized in that at least one through-bore (18) for accommodating a fastening element (20) for fastening the supporting part (2) on the wall (8) runs through the first limb (10) of the supporting part (2) from the inner side surface (22) to the first side surface (6).
4. Supporting and insulating element according to one of the preceding claims, characterized in that the supporting part (2) is formed from a rigid-foam material.
5. Supporting and insulating element according to one of the preceding claims, characterized in that the insulating part (4) is formed from foam, preferably from rigid flexible foam.
6. Supporting and insulating element according to one of the preceding claims, characterized in that the one of the first limb (10) and second limb (16) to which the insulating part (4) is not connected in a pivotable manner is connected to the insulating part (4) by a pull-off adhesive-bonding strip (26).
7. Supporting and insulating element according to one of the preceding claims, characterized in that the supporting part (2) is of essentially L-shaped design in cross section.
8. Supporting and insulating element according to one of the preceding claims, characterized in that the supporting part (2) is of essentially T-shaped design in cross section and the supporting and insulating element has two insulating parts (4), which are arranged on either side of the second limb (16) of the supporting part (2).
9. Supporting and insulating element according to one of Claims 1 to 7, characterized in that the second limb (16) of the supporting part (2) has the second side surface (12), and the first side surface (6) and the second side surface (12) intersect likewise at the angle.
10. Supporting and insulating element according to one of Claims 1 to 8, characterized in that the first limb (10) of the supporting part (2) also has the second side surface (12), which is arranged adjacent to the first side surface (6).
11. Supporting and insulating element according to one of the preceding claims, characterized in that a sealing strip (42) made of a flexible foam which has good elastic recovery following compression is arranged on a side of the insulating part (4) which is directed away from the supporting part (2).
12. Supporting and insulating element according to Claim 11, characterized in that the sealing strip (42) is retained in the compressed state by a compression means (44), wherein expansion of the sealing strip (42) can be triggered by virtue of the compression means (44) being released or removed.
13. Supporting and insulating element according to Claims 11, characterized in that the compression means (44) is a film sheath which at least partially encloses the sealing strip (42).
14. Supporting and insulating element according to one of the preceding claims, characterized in that the insulating part (4) has an essentially rectangular cross section.
15. Building-construction portion (28)
    having a wall (8),
    having at least one supporting and insulating element according to one of the preceding claims, which is arranged to the side of the wall (8) and is fastened on the wall (8) by means of at least one fastening element (20), the first side surface (6) of the supporting part (2) therefore butting against the wall (8), and
    having a window frame (34), which is supported, at least in part, on the second side surface (12) of the supporting part (2) of the at least one supporting and insulating element.

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