EP1077294A2 - Insulation for a building wall - Google Patents

Abstract

The insulation for a building wall involves a component (12) comprising heat insulating material with front and rear sides (16,18) connected by narrow sides (20-26). The rear side has at least one recess (40) accommodating a holding component (30) fixed to the building wall (10) for support of the insulating component in the adhered state to the building wall by means of mortar material. The recess runs from a narrow side (20) to the opposite narrow side via the rear side of the insulating component. One narrow side (26) is reinforced and is coated with a mortar material (44). It is provided with a plate, particularly made of plastics or mineral material.

Description

The invention relates to insulation for a building wall with a Insulating element made of a thermal insulation material, the one front and one Back as well as connecting narrow sides.

Insulation elements are used for the thermal insulation of building facades a thermal insulation material, which is in particular EPS or mineral wool. The built up from these insulation elements Facade insulation is on the lowest edge facing the ground terminated by an end rail (also called a trough rail). On the one hand, this end rail has the function of the lower narrow sides to cover the bottom row of insulation elements, on the other but also the task, the bottom row of insulation elements from below to support them as a result of the load on the following rows of insulation elements don't slide down. In order to secure this The bottom insulation elements are often also made with auxiliary dowels attached. Both the setting of the end rail and the attachment the lowest row of insulation elements using auxiliary dowels is quite timely and therefore expensive. Moreover, the end rails are, if so, how common today, relatively thick insulation elements of more than 200 mm used become relatively unstable.

The invention has for its object an insulation for a building wall to provide, which is due to a simplified handling in their Attachment distinguished.

• einem Dämmelement aus einem Wärmedämmmaterial, das eine Vorder- und eine Rückseite sowie diese verbindende Schmalseiten aufweist,
• wobei die Rückseite mindestens eine Ausnehmung zur Aufnahme eines an der Gebäudewand befestigbaren Halteelements zum Stützen des Dämmelements im an der Gebäudewand mittels Mörtelmaterial anhaftenden Zustand aufweist.

To solve this problem, the invention proposes insulation for a building wall, which is provided with

• an insulating element made of a thermal insulation material, which has a front and a rear as well as narrow sides connecting these,
• wherein the rear side has at least one recess for receiving a holding element which can be fastened to the building wall and supports the insulating element in the state adhering to the building wall by means of mortar material.

• die von der Gebäudewand abstehenden Halteelemente miteinander horizontal fluchtend befestigt werden, und zwar insbesondere unter Verwendung eines Klebers, vorzugsweise Schmelzklebers,
• auf die Gebäudewand oder auf die Rückseite des Dämmmaterials Mörtelmaterial aufgetragen wird und
• die Dämmelemente an die Gebäudewand angedrückt werden, wobei die Halteelemente in die Ausnehmungen der Dämmplatten eintauchen und diese bis zum vollständigen Abbinden des Mörtelmaterials zum Sichern gegen ein Abrutschen stützen.

This insulation is used for the purpose of horizontally aligned installation of the individual insulation elements in such a way that

• the holding elements protruding from the building wall are fastened horizontally in alignment with one another, in particular using an adhesive, preferably hot melt adhesive,
• mortar material is applied to the building wall or to the back of the insulation material and
• the insulation elements are pressed against the wall of the building, the holding elements immersing themselves in the recesses in the insulation panels and supporting them against slipping until the mortar material has completely set to secure it.

The insulation according to the invention has an insulation element made of a thermal insulation material on, in particular in the form of a rectangular insulation board is trained. This insulation board has a front and a back as well as connecting and parallel to each other in pairs Longitudinal and transverse narrow sides. On the back, by means of a Mortar material is attached to the building wall, there is at least a recess that accommodates one on the building wall attachable and projecting from this holding element is used. The attachment the holding element is expediently carried out by means of an adhesive and in particular by means of a hot melt adhesive. The advantage of this glue is that they set quickly and thus the holding element firmly on the building wall is appropriate. By immersing one or more holding elements from the back into the insulation board, this is during the period, during which the (adhesive) mortar material has not yet fully set is secured against slipping. An anchoring of the bottom insulation elements using auxiliary dowels are no longer required, whereby the working process of attaching the bottom row of insulation boards is simplified. By attaching the holding elements using an adhesive In this regard, there is no need for anchoring, as is the case with previous ones End rails or trough rails is required. Simplified so far the installation of the facade insulation.

Those protruding from the wall of the building Holding arms of the holding elements can in principle be of any configuration exhibit. In the simplest case it is the holding element around an elbow or an angle bar, one leg of which on the building wall is attached and the other leg of the building wall protrudes. But also holding elements, a plate and one or more have protruding pins are conceivable. Just make sure that the recesses in the back of the insulation boards on the Shape of the cantilevered parts of the holding elements are adjusted. Basically one is also completely free as to the choice of the material of the holding elements concerned. For thermal insulation reasons, it is appropriate for Holding elements a poorly heat-conducting material, for example Use plastic material.

In the recess on the back of the insulation element according to the invention it is expedient to one from a longitudinal narrow side up to the opposite long side of the groove, which is brought into the back on site or is factory-made. The The recess can be made by milling, cutting or baking take place, which depends, among other things, on the thermal insulation material is.

It is an advantage if the plunge into the back of the insulation panels Holding arms or similar holding projections of the holding elements in the Building wall mounted state from the horizontal position slightly stand at an angle. Vertical forces acting on the insulation boards then cause the insulation board to move against the building wall is and therefore does not give the risk of slipping off the holding element is. Optionally, the shape and orientation of the recess on the The back of the insulation board is chosen accordingly, i.e. diagonally into the insulation board be introduced. As an alternative to the above Oblique alignment of the holding elements can be done via one or more protrusions protruding upwards, over which the holding elements interlock with the insulation board. For example, it is conceivable that the foremost end of the holding arms of the holding elements is angled upwards which, like any other protruding protrusion, it is ensured that the insulation board supported by the holding elements cannot unintentionally detach.

After in the insulation according to the invention on the lower narrow side protective bottom rail can be dispensed with, the lower one should Protect the narrow side from the weather in another way. In this regard, it is advantageous if this lower narrow side by means of a Mortar material is coated, which can already be done in the factory. In addition to a mortar material coating, it is also useful if the lower narrow side is reinforced with a reinforcing mesh. As weather protection a plate can advantageously also be used on the underside be made of a mineral material or plastic and preferably by means of an adhesive, in particular a melting or Dispersion adhesive, attached to the bottom.

In addition, in a further embodiment of the invention, the insulation element have a corner protection profile that acts as an angle bar in the transition area arranged between the lower narrow side and the front is. This bar can be from the mortar material on the lower narrow side or held in some other way. Alternatively, however, it is advisable to provide this corner or corner bar with two parallel legs, one of which rests on the front of the insulation element and the other dips into a groove in the bottom of the insulation element. The resulting U-structure of the angle bar engages with the insulation element preferably clamped.

An alternative to the attachment of the angle or Corner rail consists of this on the used as weather protection Place the plate on the front. For this purpose, the corner rail has two Clamping legs that grip the plate by clamping. These clamp legs protrude from a front leg of the corner rail with which the Corner rail lies against the front of the insulation element. This front can conveniently be ribbed or profiled in some other way to improve the adhesion of the plaster to the corner rail.

The angle bar is expediently made of a metal strip, which accordingly folded sections for the production of the legs and - with Advantage - also has a cleaning edge. This cleaning edge is special formed as a drip edge in the shape of a tube. By pushing in from simple wire pins into the open ends of a drip edge Insulating elements can thus connect to the drip edges of the neighboring ones Insulation elements are made ("clean" transition). Generally expressed, the front ends of the cover rail point expediently receiving spaces for connecting elements for connecting the abutting cover rails of adjacent insulation elements on.

Basically applies to the choice of cross-sections from the building wall protruding parts of the holding elements and the recesses in the insulation panels, that they should be complementary to each other in order to good form fit between the holding elements and the insulation panels achieve.

Fig. 1

eine perspektivische Darstellung der Situation vor der Anbringung eines Dämmelements an einer Gebäudewand, auf der zuvor ein Halteelement angebracht worden ist,

Fig. 2

die Gebäudewand nach dem Setzen der beiden untersten Dämmplattenreihen und

Fign. 3 und 4

perspektivische Ansichten zweier alternativer Dämmelemente.

The invention is explained in more detail below with reference to the drawing. In detail show:

Fig. 1

1 shows a perspective representation of the situation before the installation of an insulating element on a building wall on which a holding element has previously been attached,

Fig. 2

the building wall after placing the two lowest rows of insulation boards and

Fig. 3 and 4

perspective views of two alternative insulation elements.

In Fig. 1, a building wall 10 is shown on the cuboid insulating elements 12, 14 (see FIG. 2) can be attached. The bottom row of Insulating elements 12 differ in their shape and equipment easily from all the insulation elements 14 above. Each the insulation elements 12 of the bottom row has a front 16 and a back 18 on. These two sides 16, 18 are mutually related by two parallel longitudinal narrow sides 20, 22 and two likewise to one another parallel and transverse to the longitudinal narrow sides 20, 22 transverse narrow sides 24,26 connected to each other. With the material of the insulation elements For example, 12, 14 is a light insulation material such as EPS or about mineral wool.

As is usual with facade insulation, the insulation elements 12 the bottom row by means of a bead 10 applied to the wall 10 Adhesive mortar 28 attached to the wall 10. Alternatively, the adhesive mortar 28 also by means of e.g. Toothed spatula on the back of the Insulating elements 28 are applied. For simplicity's sake the adhesive mortar 28 in the drawing as applied to the wall 10 Layer shown. Before or after, 10 holding elements are also on the wall 30 attached, which is attached by means of a hot melt adhesive 32 are. In the embodiment of the invention described here, the Holding elements 30 formed as corner angle rails or corner bracket 34, the a mounting leg 36 attached to the wall 10 and one of the wall 10 substantially horizontally projecting holding or supporting leg 38 have. Some of these holding elements 30 are expedient arranged "on gap" to the insulation elements 12.

With the support or holding legs 38, the holding elements 30 engage Backs 18 of the insulation elements 12 of the bottom row into this. To for this purpose are located on the rear sides 18 of the insulation elements 12 Recesses 40 in the form of milled or cut through Grooves 42. After the holding elements 30 aligned horizontally have been attached to the building wall 10, are then in the connection to the coating of the wall 10 with adhesive mortar 28 the insulation elements 12 attached to the support or holding leg 38 of the holding elements 30 put on and then pressed against the wall 10. The Support or holding legs 38 prevent the insulation elements from shearing off 12, as long as the adhesive mortar 28 has not completely set and the Has taken on the holding function. So that the bottom insulation elements 12th then when the load on them is arranged by the insulation elements 12 Rows of insulation elements work. An anchoring of the lowest Insulation elements 12 are therefore no longer required. The use of the Hot melt adhesive 32 or generally an adhesive for fastening the holding elements 30 also simplifies their attachment compared to the attachment the usual end or trough rails, which are dowelled become.

The lower transverse narrow side 26 of the insulation elements 12 is, as in the figures shown, coated with mortar material 44. This is conveniently done in the factory as pre-coating. In the mortar 44 is a (in the Reinforcement fabric (not shown) embedded. Also located itself on the lower transverse edges of the insulation elements 12 in the transition area between the lower transverse narrow sides 26 and the front sides 16 Corner rails 46, which serve to reinforce and protect this area and have a protruding projection 48 with a cleaning edge 49. The corner rails bear against the front sides 16 of the insulation elements 12 Front leg 58 on. The ends 70 of the corner rail 46 are open, so that receiving spaces 71 arise in the connecting elements 72 can be inserted. These connecting elements 72 (pins or the like) are immersed in the mutually aligned and opposite recording rooms 71 two adjacent corner rails 46 and thus serve the Connection of the corner rails 46 so that a substantially seamless Plaster deduction edge 49 arises, which extends over the insulation elements 12 bottom row extends.

In the foregoing, a facade insulation system is described by simplifying the placement of the lowest row of insulation elements distinguished. This facade insulation system is characterized by replacement the previously known end or trough rails by as individual parts or formed as rails holding elements from the back of the Immerse insulation elements 12 in these and shear forces of the insulation elements Record 12. This eliminates the need to dowel the insulation elements 12. By gluing the holding elements to the building wall 10 also one compared to that of the end or trough rails known dowelling given simplified fastening process.

3 shows an insulation element 12 'according to a further exemplary embodiment. The components of this insulation element are, insofar as they are those of the Insulating elements 12 according to FIGS. 1 and 2 correspond or are the same, with provided with the same reference numerals.

Except for the underside 26, the insulation elements 12 and 12 'have the lowest Line up the same structure. In particular, the insulation element 12 ' again with a recess 40 in the form of a groove 42 on its rear side 18, into which a holding element 30 fastened to the wall 10 immersed and the insulation element 12 'thus supports.

On its underside 26, the insulation element 12 'has weather protection a plate 50 made of a mineral or a plastic material. This plate 50 is with the thermal insulation material of the insulating element 12 ' glued (adhesive 51) or otherwise attached to the insulating element 12 '. The plate 50 extends from the back 18 to close to the front 16, against which the plate 50 springs back, so that after Projection 52 directed at the bottom made of thermal insulation material on the underside 26 remains. This protrusion 52 or nose is therefore in the Transition or corner area 54 between the bottom 26 and the front 16 of the insulation element 12 '. In other words, the bottom shows 26 of the insulation element 12 'thus has a recess area 56 which is to the front 16 to all other adjacent pages 18, 20, 26 extends and is separated from the front 16 by the projection 52 is.

In the corner area 54 there is a corner rail 46, which is a folded edge Metal strip is formed. The corner rail 46 has one on the front 16 of the insulation element 12 'adjacent front leg 58 and an underside leg resting against the underside of the overhang 52 60, in the transition area of a projection 48 as a plaster deduction edge 49 is arranged. In the transition area of the recess area 56 and of the overhang 52 is a groove 62 which in the bottom 26 of the Insulating elements 12 'is introduced. A clamping leg projects into this groove 62 64 of the corner rail 46, which extends from the underside leg 60 extends and by bending back the metal strip of the corner rail 46 is slightly V-shaped or U-shaped. At the clamping leg 64 includes Flange 66 on, the plate 50 on which the projection 52 facing Overlaps the edge.

The corner rail 46 can be pushed onto the overhang 52 from below, whereby by the clamping abutment of the front leg 58 on the Front 16 and the clamping leg 64 in the groove 62 in the transition or Corner area 54 of the insulating element 12 'is held.

The projection 48 of the corner rail 46 is protruding at approximately 45 ° Drip edge formed and has the shape of a tube 68, the is formed by appropriate shaping of the metal strip from which the Corner rail 46 is shaped. Due to the tubular shape, the projection 48 is the Corner rail 46 open at its front end 70. Leave 70 in these ends insert (wire) pins 72 that connect the corner rails 46 serve two adjacent insulation elements 12 '. This creates one with each other aligned transition of the insulation elements 12 'in the area of their Corner rails 46, what when plastering the front sides 16 of the insulation elements 12 'is advantageous since it is now a smooth, essentially projection-free continuous plaster deduction edge 49 arises that covers all Insulating elements 12 'of the bottom row extends.

The insulation elements 12 'with their attachments on the underside 26 thereof (Corner rails 46 with plaster extraction edges 49 and plate 50 as weather protection) as a prefabricated element for direct attachment to the wall on the Construction site to be spent.

4 finally shows a third exemplary embodiment of an insulating element 12 ''. Insofar as this insulation element 12 '' according to FIGS. 3 corresponds to the same reference numerals have been used.

The difference between the two insulation elements 12 'and 12' 'lies in the training and attaching the corner rail 46 in the transition area of the underside 26 and the front 16 of the insulation element 12 ''. On the bottom 26 of the insulation element 12 '' there is in turn a plate 50 as weather protection, which has an adhesive layer 51 with the insulation material of Insulating elements 12 '' is connected. Unlike in the exemplary embodiment according to 3, the plate 50 extends to the level of the front side 16. Above the insulation board 50 has a cutout 74 in the insulation element 12 ″, the one between the front 16 of the insulating element 12 '' open gap the insulating material and the plate 50 forms. The is now in this gap one of two clamping legs 76 is inserted, both from the front leg 58 protrude from the corner rail 46. This front leg 58 is on its front facing away from the front 16 of the insulating element 12 ″ profiled, in this case sawtooth ribbed. Through this profiling the adhesion of plaster to the corner rail 46 is increased.

As can be seen in Fig. 4, the corner rail 46 can be easily Attach to the plate 50 on the insulation element 12 ''. The profiling the corner rail 46 at the front of its front leg Incidentally, 58 is also described for the corner rails 46 of the other two here Embodiments applicable.

Claims (25)

Insulation for a building wall with an insulating element (12, 12 ') made of a thermal insulation material, which has a front and a rear (16, 18) and narrow sides (20-26) connecting them, wherein the rear side (18) has at least one recess (40) for receiving a holding element (30) which can be fastened to the building wall (10) for supporting the insulating element (12, 12 ') in the state adhering to the building wall (10) by means of mortar material. Insulation according to claim 1, characterized in that the recess (40) from one narrow side (20) to the opposite Narrow side (22) continuously over the back (18) of the insulation element (12, 12 ') runs. Insulation according to claim 1 or 2, characterized in that a Narrow sides (26) reinforced and coated with a mortar material (44) is. Insulation according to claim 1 or 2, characterized in that a Narrow side (26) with a plate (50) made in particular of a plastic material or is provided with a mineral material. Insulation according to claim 4, characterized in that the plate (50) opposite the front side adjacent to the narrow side (26) (16) jumps back and in a recess area (56) on the narrow side (26) is arranged. Insulation according to claim 2 and 3 or 2 and 4 or 5, characterized in that the narrow side (26) that is transverse to the over the continuous recess (40) interconnected narrow sides (20,22) runs, coated with the mortar material (44) or with the plate (50) is provided. Insulation according to one of claims 1 to 6, characterized in that that in the transition area between one of the narrow sides (26) and the Front (16) of the insulating element (12, 12 ') a cover rail (46) is arranged. Insulation according to claim 6 or 7 and 2 and one of claims 3 to 6, characterized in that the cover rail (46) in the transition area (54) of the coated or provided with the plate (50) Narrow side (26) and the front (16) is arranged. Insulation according to claim 8, characterized in that the cover rail (46) one in the transition area (54) between the narrow side (26) and the front (16) of the insulating element (12, 12 ') of this protruding plaster deduction projection (48). Insulation according to claim 9, characterized in that the plaster deduction projection (48) at its lateral ends (70) receiving spaces (71) for connecting elements (72) for connecting the ends (70) of the Plaster deduction projections (48) of adjacent insulation elements (12 '). Insulation according to one of claims 7 to 10, characterized in that that the cover rail (46) has a leg (64) for clamping mounting in a groove (62) in the narrow side (26) of the insulation element (12 '). Insulation according to one of claims 7 to 11 and 4 or 5, characterized characterized in that the cover rail (46) overlaps the plate (50) Has flange (66). Insulation according to claim 7 or 7 and one of the other claims, characterized in that the cover rail (46) has one on the front (16) of the insulating element (12, 12 ', 12' ') adjacent front leg (58). Insulation according to claim 6 and 8 or 6 and 8 and one of the rest Claims, characterized in that the cover rail (46) the plate (50) is attached. Insulation according to claim 14, characterized in that the cover rail (46) two clamping legs (76) encompassing the plate (50) has that of one on the front (16) of the insulating element (12 '') adjacent front leg (58) of the cover rail (46) stand out. Insulation according to claim 13 or 14, characterized in that the Front leg (58) of the cover rail (46) a profiled, in particular a toothed surface structure to improve the Plaster has liability. Insulation according to one of claims 7 to 16, characterized in that that the cover rail (46) as a folded metal rail or as Scattered or sprayed plastic rail is formed. Insulation according to one of claims 1 to 17, characterized in that that the recess (40) is essentially groove-shaped in cross section and preferably in the direction of the installed insulation plate (12, 12 ') upper narrow side (24) obliquely into the rear (18) is introduced. Insulation according to one of claims 1 to 18, characterized in that that the holding element (30) protrudes from the building wall (10) Holding arm (38) for immersion in the recess (40) on the Back (18) of the insulating element (12, 12 '). Insulation according to claim 19, characterized in that the holding arm (38) in the state of the holding element attached to the building wall (10) (30) runs upwards at an angle of <90 °. Insulation according to claim 19 or 20, characterized in that the Recess (40) to the cross section of the holding arm (38) of the holding element (30) has a complementary cross section. Insulation according to one of claims 1 to 21, characterized in that that the holding element (30) in the recess (40) in the insulation board (12, 12 ') can be anchored. Insulation according to one of claims 1 to 22, characterized in that the insulation element (12, 12 ') can be fastened to that which can be fastened to the building wall (10) Holding element (30) can be plugged on. Insulation according to claim 1 to 23, characterized in that the Holding element (30) by means of an adhesive, in particular a hot melt adhesive (32) can be fastened to the building wall (10). Method for horizontally aligned mounting of adjacent insulating elements (12, 12 ') according to one of the preceding claims on a building wall, in which holding elements (30) projecting from the building wall (10) are fastened horizontally in alignment with one another, in particular using an adhesive, preferably hot melt adhesive (32), mortar material (28) is applied to the building wall (10) or to the back (18) of the insulation material and the insulation elements (12, 12 ') are pressed against the building wall (10), the holding elements (30) immersing in the recesses (40) of the insulation elements (12, 12') and these until the mortar material (28) has completely set Secure against slipping.

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