EP1286004B1 - Thermal insulation compound system and insulating panel for such a system - Google Patents

Abstract

Heat-insulating composite system for heat-insulating a building wall comprises at least one insulating plate (1) preferably made of a fiber material and having two large surfaces (2, 3) arranged a distance part with a peripheral groove (6) in between, at least one holding rail for fixing on the wall, and at least one connecting rail (13). The holding rail and the connecting rail engage in the groove. The connecting rail arranged between the insulating plate and an adjacent insulating plate is supported on the wall and/or on the holding rail. The insulating plate has on the surface facing the wall at least one recess (8) receiving an additional rail (9) supported on the wall and/or on the holding rail. An Independent claim is also included for an insulating plate used in the above system. Preferred Features: The additional rail has the same profile as the connecting rail. The recess extends perpendicular to the longitudinal axis of the insulating plate.

Description

The invention relates to a thermal insulation composite system for thermal insulation a wall of a building, with at least one, preferably made of fiber materials existing insulation board, the two spaced apart large Having surfaces and a circumferential groove between the large surfaces, with at least one attachable to the wall holding rail and with at least one connecting rail, wherein the retaining rail and the connecting rail engage in the circumferential groove, the connecting rail is arranged between the insulation board and an adjacent insulation board and is supported on the wall and / or on the retaining rail. The invention further relates to an insulation board, which in the thermal insulation composite system can be used.

Such a thermal insulation composite system, as for example from the DE 82 29 096 U1 is preferably used in uneven wall surfaces. For attaching the thermal insulation composite system in the Usually horizontally extending retaining rails attached to the wall, wherein by spacers between retaining rail and wall the given bumps be compensated. The insulation boards become row by row attached offset to the joints. In the vertical grooves between the insulation boards one row each, the springs of the connecting rails are inserted. If the insulating layer formed from the insulation boards to adjacent components butts and the insulation boards must be cut off, the Fixing an insulation board also done by vertical support rails.

A connecting rail between two insulation boards is supported on one Retaining rail and / or on the wall. This increases the stability against Wandsog and also the resistance of the thermal insulation composite system against Compressive stresses.

Typical plate formats in polystyrene foam boards are 50 cm by 50 cm for thicknesses over 40 mm for the wall surface or 20 or 30 mm for Window or door reveals. Mineral wool insulation boards are commercially available the format 80 cm by 62.5 cm and for use in the area one Minimum thickness of 5 cm.

The support rails currently have commercial lengths of about 2 m. Longer rails are due to the cramped work spaces on the standard scaffolding not practicable. In contrast, newer scaffolding constructions have much more freedom. To accelerate the installation of the insulation boards, their lengths are usually 800 mm for mineral wool insulation boards to about 1.5 to 3 m, preferably 2 m, increased. With bigger ones Length, the insulation boards are stiffer in itself, at the same time the number of Reduced cracks and joints between the insulation boards. The surface the insulating layer is level, which is the subsequent coating of the insulation boards considerably simplified.

The use of longer insulation boards reduces the number of connecting rails the thermal insulation composite system between two insulation boards be pushed. While faced with regard to stability Windsog a reduction in the number of connecting rails may be uncritical, due to the reduced number of connecting rails the resistance of the thermal insulation composite system to compressive stresses too much affected.

Insulating boards for external thermal insulation systems with circumferential grooves are known from DE 200 11 332 U1. The invention is therefore the task to provide a thermal insulation composite system or an insulation board therefor, the one or the despite the use of comparatively long insulation boards a sufficiently high resistance to compressive stresses having.

The task is solved by an additional rail, the insulation board on the wall-side large surface at least one recess for Has engagement of the additional rail, which is located on the wall and / or at the support rail is supported. By one or more juxtaposed Recesses in conjunction with the additional rails can be the resistance In spite of the great length of the insulation board, it is influenced accordingly against pressure become. Thus, the associated with the use of longer insulation boards Advantages such as faster installation of the insulation boards and lower Number of breaks and joints without affecting the resistance be exploited against compressive stresses.

Preferably, the additional rail has the same profile as the connecting rail on. Thus, an existing connection rail as additional rail with the recess on the wall-side large surface the insulating board are brought into engagement. This reduces the number various parts of the thermal insulation composite system and simplifies the Construction.

In a preferred embodiment, the recess extends transversely to the Longitudinal axis of the insulation board. As the longitudinal axis of the insulation board in the thermal insulation composite system usually runs horizontally, the additional extends Rail in the vertical direction. The arranged on the vertical side surfaces Connecting rails and the additional rail therefore run parallel to each other. This allows the additional rail to be like the connecting rail in the same way on the horizontally extending support rails abstützten.

If the insulation board has only one recess, this runs preferably in the middle of the wall-side large surface. Through this positioning the recess distributes a pressure load of the insulation board optimally on the additional rail and on the two at the edges of the Insulation boards arranged connecting rails.

With several recesses they can be at the same distance from each other be attached to the wall-side surface of the insulation board. Vorleilhafterweise The recesses divide the wall-side surface of the insulation board equal areas, so that the distances between two additional rails and between a connecting rail at the edge of the insulating board and an additional rail are the same size.

In a preferred embodiment, the recess is an undercut provided, with the additional rail with a projection or a plurality of projections engages behind the recess. In this case will the rail by moving along the recess in the recess introduced. The additional rail can be used to construct the thermal insulation composite system at the construction site or pushed into the recess at the factory become.

The connecting rail may have a T-shaped profile. In the thermal composite system engages a first crosspiece of the T-profile in the circumferential groove of a first insulation board, and a second crosspiece of the T-profile engages in the circumferential Groove a second insulation board, in the thermal insulation composite system the first insulation board rests. A main web perpendicular to the transverse webs of the T-profile extends towards the wall. The bridge height of the main bridge is preferably to the distance of the circumferential groove of the insulation board matched by the wall-side large surface of the insulation board.

The recess is advantageously a groove with a T-shaped cross-section educated. This recess takes a rail with corresponding T-profile on, with a main web of the T-profile towards the wall shows.

The retaining rail may have a T-shaped profile, wherein a crosspiece of the T-profile engages in the horizontal groove of a first insulation board, and a second crosspiece in the horizontally extending groove one above the first Insulation board arranged second insulation board attacks. To the holding rail To fix the wall, an area of a main web of the T-profile angled be. The angled portion of the main web is essentially on the wall and can be fastened to this wall by suitable fasteners Spacers can be arranged, even on uneven walls allow parallel alignment of the support rails in one plane.

The recess may extend over the entire width of the insulation board. Thus, a rail can be from both side edges of the insulation board push into the recess. In addition, thereby the insulation board over their entire width a support by a cross in the recess Rail experienced as far as the rail is over the entire length of the recess extends.

In a preferred embodiment, at the two ends of the connecting rail or the additional rail cut away the transverse webs. This allows the connecting rail with the at both Ends projecting main bar respectively below the transverse webs of the retaining rail push on which the connecting rail abuts perpendicularly. This ensures a certain force fit between the connecting rail and retaining rail.

Instead of an insulating board with largely uniformly high density can the insulation board have a wall-side compacted surface zone, wherein the circumferential groove and the recess in or directly above the compacted Layer lie. By such a compressed zone, the insulation board in the the area in which the holding and connecting rails engage, greater strength.

The invention also relates to a preferably made of mineral wool Insulating board, which in one of the embodiments described above the thermal insulation composite system according to the invention can be used. The insulation board comprises two spaced-apart large surfaces, the are connected by side surfaces, and one on the side surfaces circumferential groove. The insulation board is characterized by the fact that in one large surface of the insulation board at least one recess for receiving a rail is provided, wherein the recess at least one Undercut has, in which the rail with a projection or more Protrusions intervenes.

Preferably, two side surfaces of the insulation board are plane-parallel to each other formed, wherein the distance between the two side surfaces to each other by less varies as 0.5 mm. Alternatively or additionally, two abutting ones Side surfaces arranged at right angles, with the oblique angle These two side surfaces less than 1 mm in relation to the length of a Meters is. Through this over the relevant for mineral wool insulation boards Standard (DIN 18165-1) beyond tolerances, the insulation boards in the thermal insulation composite system with virtually no joints next to and above each other to be ordered. Thus, in the insulating layer on the one hand thermal bridges effectively avoided. On the other hand, in the thermal insulation composite system plaster to be applied to the insulation boards should not be pressed into the joints. As a result, cracks in the plaster can be avoided, which arise could, if due to the abrupt change in thickness and the stapling in the joints, the cleaning movements during shrinkage or swelling after moisture absorption be hampered.

The thickness tolerance should preferably be less than 0.5 mm. Thus can be use the insulation boards well in a thermal insulation composite system, at which on the insulation boards a so-called thin protective layer with minimal Thickness of about 1.5 to 3 mm is applied. Especially with very small ones or not existing joints can be very small differences be realized in the plaster thickness over the Dämmschichtoberfläche. Let it be the appearance due to large differences in plaster thickness Like cloudy stains after rain or avoid drying out the plaster.

At least one side surface of the insulation board can be a compressible zone have, for example, by targeted repeated compression and Decompression was elasticized. Preferably, the zone is the side surface elasticized, in the installation position of the insulation board in the thermal insulation composite system abuts a main web of a connecting or retaining rail. With that you can despite the arranged between two adjacent insulation boards main ridge the two insulating boards on the large bridge used by the main bridge Surface without gap or gap abut each other.

It should be noted that even when using insulation boards without the recess according to the invention on a large surface the features with regard to plane-parallel side surfaces, the oblique angle, the thickness tolerance and / or the compressible zones to an advantageous insulating layer leads little jumps, joints or bumps.

Fig. 1

eine erfindungsgemäße Dämmplatte im Querschnitt und

Fig. 2

die Dämmplatte der Fig. 1 in der Draufsicht.

The invention will be described with reference to an embodiment shown in the figures. Show it

Fig. 1

an insulation board according to the invention in cross section and

Fig. 2

the insulation board of Fig. 1 in plan view.

Fig. 1 shows an insulation board 1 with a first large surface 2 and a second large surface 3. The two large surfaces will be 2, 3 by four side surfaces 4a, 4b arranged at right angles to each other connected. In Fig. 1, the two mutually parallel side surfaces 4 a and a side face 4 b oriented at right angles thereto.

At a distance 5 from the second surface 3 extends on the side surfaces 4a, 4b a circumferential groove 6. The groove 6 defines a compacted area. 7 the insulation board 1. In this area 7, the insulation board 1 has a higher Density on. The second surface 3 of the insulation board 1 is in installation position in Thermal insulation composite system facing a wall to be insulated.

In the area 7, the insulation board 1 has two recesses 8 with each a T-shaped profile. The recesses 8 extend in the illustration 1 in the plane of the drawing and parallel to the Side surfaces 4a. In each case a recess 8 can be a rail 9 with slide corresponding T-profile, the rail 9 in Fig. 1 only on the left side of the insulation board 1 is shown.

The two transverse webs 10 of the T-profile of the rail 9 engage behind the undercuts 11 of the recess 8. The main web 12 of the rail 9 is supported in the installation position of the insulation board in the thermal composite system against the insulating wall and or against a retaining rail, not shown in Fig. 1 from.

Parallel to the rail 9 extends a connecting rail 13, which is also in Cross-section is T-shaped. Again, a main bridge 14 extends the connecting rail 13 in the direction of the large surface 3. A crosspiece 15 of the connecting rail 13 engages in the circumferential groove 6, while the another cross bar 16 for engagement in a groove of a damper plate 1 adjacent Insulating board (not shown) is determined. The main bridge 14 is located an elasticized zone 17 of the side surface 4a. By the elasticized or compressible zone 17 can be despite main bridge 14 another Insulation board without joints, based on the large surface 2, to the insulation board 1 create.

Fig. 2 shows the insulation board 1 with the surface 3. A groove bottom 18 of the circumferential Groove 6 is shown only by dashed lines, as he in this view the surface 3 is covered. Also shown in dashed lines is a groove bottom 19 of the T-shaped recesses 8. The two parallel here Recesses 8 extend over the entire width of the insulation board. 1

Claims (17)

1. Thermal insulation compound system for thermally insulating a building wall, said system comprising at least one insulating panel (1) which is preferably made of fiber materials and which has two mutually spaced large surfaces (2, 3) and a continuous groove (6) between said two large surfaces, characterized in that said thermal insulation compound system comprises at least one holding rail for fixing on the wall and at least one connecting rail (13), said holding rail and said connecting rail (13) engaging in said continuous groove (6) and said connecting rail (13) being arranged between said insulating panel (1) and an adjacent insulating panel and being supported against the wall and/or the holding rail, and an additional rail (9), said insulating panel (1) including on the wall-side large surface (3) at least one recess (8) for the engagement of said additional rail (9) supported against the wall and/or the holding rail.
2. System according to claim 1, characterized in that said additional rail (9) has the same profile as said connecting rail (13).
3. System according to claim 1 or 2, characterized in that said recess (8) extends diagonally to the longitudinal axis of said insulating panel (1).
4. System according to one of the claims 1 to 3, characterized in that said recess (8) is arranged in the middle of the wall-side surface (3).
5. System according to one of the claims 1 to 4, characterized in that plural recesses (8) are arranged mutually equally spaced on said wall-side surface (3).
6. System according to one of the claims 1 to 5, characterized in that said recess (8) includes at least one undercut (11).
7. System according to one of the claims 1 to 6, characterized in that said recess (8) is T-shaped.
8. System according to claim 7, characterized in that said additional rail (9) has a T-shaped profile.
9. System according to one of the claims 1 to 8, characterized in that said holding rail has a substantially T-shaped cross-section, with a main web of said T-shaped cross section including a part which is 90° offset.
10. System according to one of the claims 1 to 9, characterized in that said recess (8) extends over the whole width of said insulating panel (1).
11. System according to one of the claims 7 to 10, characterized in that the cross members of said T-profile are cut off on the ends of said additional rail (9).
12. System according to one of the claims 1 to 11, characterized in that said insulating panel (1) includes a higher density surface zone (7) on the side of the wall, with said continuous groove (6) and said recess (8) being arranged in or directly above said higher density surface zone (7).
13. Insualting panel (1) for use in a thermal insulation compound system according to one of the claims 1 to 12, preferably from mineral wool, comprising two mutually spaced large surfaces (2, 3) which are interconnected through lateral faces (4a, 4b) and a continuous groove (6) on said lateral faces (4a, 4b), characterized in that in one large surface (3) of said insulating panel (1) at least one recess (8) is provided for receiving a rail (9) which is supported against a wall and/or a holding rail, said recess (8) having at least one undercut (11) in which said rail (9) engages with one protrusion (10) or several protrusions (10).
14. Insulating panel (1) according to claim 13, characterized by two plane-parallel lateral faces (4a, 4b), of which the distance to each other varies by less than 0.5 mm.
15. Insulating panel (1) according to claim 13 or 14, characterized in that two abutting lateral faces (4a, 4b) are arranged at right angles, with the oblique angularity of said two lateral faces (4a, 4b) being less than 1 mm referred to a length of 1 m.
16. Insulating panel (1) according to one of the claims 13 to 15, characterized by a thickness tolerance of less than 0.5 mm.
17. Insulating panel (1) according to one of the claims 13 to 16, characterized in that at least one lateral face (4a, 4b) includes a compressible zone (17).

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