EP1482100A2 - Building wall construction with roller shutter box and thermal insulation plates - Google Patents

Abstract

The building wall construction has a roller shutter housing (20) installed on the lintel (10) of a door or window aperture, and heat insulating panels (30) on the front side of the wall (14). One of the heat insulating panels is installed on the upper side or at least on a section of the upper side of the roller shutter housing and/or on the front side or at least a section of the front side of the roller shutter housing by the interposing of a U-shaped reinforcing layer (36) with a fabric layer and/or metal layer and a mortar layer.

Description

The invention relates to a building wall construction according to the preamble of Claim 1.

Building wall construction that meets today's requirements requires et al thermal optimization of the building wall. To reduce Heat loss in the building wall becomes composite thermal insulation systems used. The usability of thermal insulation composite systems is determined by building inspectorate approvals regulated. An essential part of that Compliance with the quality and safety of the thermal insulation composite systems is the Fire protection.

In thermal insulation composite systems, rigid polystyrene foam is preferred of plates used. This material is flammable and forms in the event of a fire burning drops that can spread fire. The fall edges over Windows and doors are subject to fire in the event of fire particularly high demands. In thermal insulation composite systems with one Insulation layer thickness> 100 mm can open the lintel edge and thus come to fire propagation. These thermal insulation composite systems with an insulation layer thickness> 100 mm are increasingly being used.

For this reason, it is common, such as in Technical System Info 6 "Thermal insulation composite systems on the subject of fire protection" by the trade association Thermal insulation systems e.V. described or as in the general building authority approvals for thermal insulation composite systems, a 200 mm high strip of mineral wool above the building openings to glue all over. The side overhang must be to the left and right of the lintel be at least 300 mm. In the event of fire occur in the fall area of Building openings through the bursting flames the highest Temperatures so that the polystyrene hard foam melts in the lintel area. This is particularly the case with high insulation thicknesses (> 100 mm thickness) Risk of fire spreading because large amounts of liquid polystyrene are in the Collect the fall area and after a certain fire time as a burning liquid break through to the outside and pour over the facade. In doing so residents and rescue teams are particularly at risk.

Also place roller shutter boxes integrated in the thermal insulation composite system represent potential sources of danger with regard to fire expansion Roller shutter boxes completely insulated with mineral wool. The coverage of the Roller shutter boxes must be at least 50 mm on both sides and at the top Mineral wool must be integrated on the left and right of the building opening be at least 300 mm.

The change from the thermal insulation board made of rigid polystyrene foam or one other combustible material on the mineral wool layer requires a relative high effort in construction. Mineral wool layers have over it physical properties other than rigid polystyrene foam, so that There are marks in the top plaster and also cracks at the corners of the Building openings can come and thus the durability of the plaster layers can be affected.

The object of the present invention is to use a building wall construction To create thermal insulation boards, which avoids the disadvantages mentioned.

According to the invention, this object is achieved with a building wall construction according to claim 1. It is provided that a thermal insulation panel is arranged at least on the top of the roller shutter box with the interposition of a layer of armor and / or
that a thermal insulation panel is arranged with the interposition of an armored layer on the front side or at least on a section of the front side of the roller shutter box, the respective armored layer being part of an armored angle layer encompassing at least one edge of the roller shutter box and / or an edge of the thermal insulation panel, with a plurality of armored angle layers, preferably arranged at right angles to one another Legs is formed. The armor layer is preferably at least 10 mm thick. The thermal insulation panels spanning the roller shutter box can be designed as a one-piece thermal insulation panel that is recessed in the dimensions of the roller shutter box. The thermal insulation boards can also be designed as multi-layer or multi-layer thermal insulation boards. If the term thermal insulation boards is used in the following, it is understood that a thermal insulation board is in each case a single, single-layer thermal insulation board or mat or a multi-layer or multi-layer thermal insulation board or thermal insulation mat composed of several superimposed thermal insulation boards or mats. The thermal insulation boards can consist of organic foam material, for example polystyrene, or other plastics or other materials such as wood fibers or similar materials, for example also of composite material.

The armor layer preferably consists of at least two components. A Fabric layer, preferably glass fiber fabric, is made into one layer mineral reinforcing agents, for example a mineral adhesive mortar, integrated, so that after the adhesive mortar has hardened, a fire-retardant dimensionally stable armor layer. Advantageously, an additional Metal foil, a metal mesh or a metal grid or a perforated or not perforated metal plate or a plate made of non-combustible material, e.g. Building board, preferably fiber cement board or gypsum board, in the armor layer to get integrated.

In a further embodiment, the glass fiber fabric can be replaced by a metal foil, a metal mesh or a metal grid or a perforated or non-perforated metal plate or a plate made of non-combustible material, e.g. building board, preferably fiber cement board or plasterboard, so that the armored layer as a mortar layer with integrated Metal foil, metal mesh or metal grid or perforated or non-perforated metal plate or plate made of non-combustible material, for example building board, preferably fiber cement board or gypsum board. The armor layer, preferably the fabric, can be mixed with flame retardant. In the case of special designs, the armored angle can also alternatively or additionally be designed to be intumescent, ie only foaming in the event of a fire.
Advantageously, the armor layer is formed such that it encompasses the thermal insulation panel arranged in front of the front of the roller shutter box on the front side and on the lower front side, the rear side of the thermal insulation panel being connected to the front side of the roller shutter box via the armored layer arranged therebetween. In this way, the lower end face of the thermal insulation board can be enclosed in a U-shape by the armor layer. This counteracts the fact that the fire spreads over the end face of the thermal insulation panel or that, in the event of fire, the thermal insulation panel can release burning drops from the underside of the thermal insulation panel.

The solution according to the invention preferably relates to both at the bottom of the lintel arranged roller shutter box as well as one at the front of the Lintel arranged roller shutter box.

In versions with a roller shutter box located on the underside of the lintel it is provided that the bottom of the lintel preferably to the front of the lintel, the roller shutter box is flush with one or more lintels overlapping thermal insulation panels is overlapped. Preferably, the Thermal insulation panel on the front and / or on the lower front Armor layer, which is part of the back of the thermal insulation panel with the Connecting the front of the roller shutter box and the front of the lintel Armor layer is formed. This means that the armor layer encompasses at least one Edge of the thermal insulation panel and is formed there as an armored angle layer.

For versions with a roller shutter box located on the front of the lintel it is provided that the arranged at the front of the lintel Roller shutter box on its front and top of one or is overlapped several thermal insulation boards, preferably each under Interposition of a layer of armor, which is part of at least one edge of the Thermal insulation board or an edge of the roller shutter box Panzer angle layer is formed.

The armor layers are advantageously continuous Layers formed, preferably the lower edges of the thermal insulation board or thermal insulation boards U-shaped or meandering around and not on Cross-over areas of the roller shutter box.

The sections of the armored layer designed as an armored angle layer have at least two legs arranged at right angles to each other. In one The armored angle layer has three corner areas arranged at right angles to one another Thighs on.

The fabric layer can advantageously be designed as a fabric strip that the edge profile of the thermal insulation panel or the roller shutter box is angled nestle as a so-called angle or fabric angle. For example, you can go to Formation of corner angles with incisions that are formed in the longitudinal axis or are arranged parallel to the longitudinal axis of the fabric strip. In this way they can be formed as a corner angle surrounding a corner, two each the three legs form an angle of 90 °, or as a corner angle with one Leg that is at an angle of - 90 ° or from another of the three legs Includes 270 °. In this way, can be arranged at any angle Areas with such tissue angles forming a closed one Panzer angle layer must be covered.

It can be advantageous that the fabric strips laid at an angle as Prefabricated angles are formed, for example as a rigid tissue angle or as a thin, advantageously perforated metal angle or metal foil angle, Metal mesh angles or metal mesh angles or angles made of perforated or not perforated sheets of non-combustible material, e.g. Building boards, preferably Fiber cement boards or gypsum boards.

Advantageously, those in the layer of mineral reinforcing agents For example, mineral adhesive mortar, embedded angles arranged so that two legs from two angles overlap. In this way it is Armor layer in all areas with approximately the same high fracture and Fire resistance and only small edge areas of the armor layer are only made from mineral reinforcement of reduced strength.

It is further provided that the thermal insulation panels on their outside, preferably one on its front side and / or on its lower end face Have a finishing coat, preferably applied to the reinforcement layer. It is advantageous that the reinforcement layer is a good base for the Surface layer is and forms stable edges, so that the plastered Building wall gives a good visual impression.

Mineral plates, such as tiles, clinker, Ceramic plates are applied to the reinforcement layer, preferably with Adhesive mortar or tile adhesive and then grouted, for example as Thermal insulation composite system designed with ceramic coating.

In the following, exemplary embodiments are described with reference to the attached Figures explained in more detail.

Fig. 1

eine schematische Schnittdarstellung einer Gebäudewandkonstruktion mit Sturz mit untergehängtem Rollladenkasten;

Fig. 2

in einem vergrößerten Ausschnitt A aus Fig. 1 den schematischen Aufbau einer Panzerwinkelschicht;

Fig. 3

eine schematische Schnittdarstellung einer Gebäudewandkonstruktion mit Sturz mit vorgehängtem Rollladenkasten;

Fig. 4

eine schematische Schnittdarstellung einer Gebäudewandkonstruktion mit Sturz mit vorgehängtem Rollladenkasten und bündig mit dem Rollladenkasten abschließender Dämmstoffplatte;

Fig. 5 -8

den schichtweisen Aufbau der Ummantelung eines vorgehängten Rollladenkastens mit Panzerwinkelschichten in schematischer perspektivischer Ansicht des linken Abschnitts des Rollladenkastens;

Fig. 9

die Ummantelung eines untergehängten Rollladenkastens mit Panzerwinkelschichten in schematischer perspektivischer Ansicht des rechten Abschnitts des Rollladenkastens.

Show it:

Fig. 1

is a schematic sectional view of a building wall construction with lintel with suspended roller shutter box;

Fig. 2

in an enlarged section A from FIG. 1 the schematic structure of an armored angle layer;

Fig. 3

is a schematic sectional view of a building wall construction with lintel with curtain shutter box;

Fig. 4

is a schematic sectional view of a building wall construction with lintel with a curtain shutter box and flush with the roller shutter box insulation board;

Fig. 5 -8

the layered structure of the casing of a curtain roller shutter box with armored angle layers in a schematic perspective view of the left portion of the roller shutter box;

Fig. 9

the sheathing of a suspended roller shutter box with armored angle layers in a schematic perspective view of the right section of the roller shutter box.

1 shows a building wall 14 with a window opening 12 with a lintel 10 with the roller shutter box 20 suspended on the underside of the lintel 10 Roller shutter box 20, for example made of wood or plastic, is with its top on the bottom of the lintel 10 with not shown Fastened mounting elements and lies with its lateral boundary surfaces the vertical reveal wall of the shell opening of the window 22, as described in more detail in Fig. 9 shown. The front of the lintel 10 and the front of the Roller shutter box 20 form one level.

The building wall 14 is with cuboidal thermal insulation panels 30 relatively large wall thickness coated. The thermal insulation panels 30 are made of rigid polystyrene foam. The relatively large wall thickness, for example, about 300 mm, is for high-quality thermal insulation Building wall 14 required. The thermal insulation boards 30 are with adhesive mortar 32 attached to the outer surface of the building wall 14. The front of the lintel 10 and the front of the shutter box 20 are with the thermal insulation board 30 together covers that facing the front surface of the lintel 10 Back is provided with a layer of adhesive mortar 32.

The lower end face of the thermal insulation board 30 is U-shaped by a layer of armor 36 encompassed. This armor layer 36 consists of three U-shaped to each other arranged legs and encompasses one each with two adjacent legs Edge of the thermal insulation panel 30. It thus forms an angled, i.e. in cross section L-shaped armor layer, also called armored angle layer 36 ', one at each front lower horizontal front edge of the thermal insulation panel and one on the rear horizontal front edge of the roller shutter box facing the Thermal insulation board. The armored layer or the armored angular layer 36 'is in each case built up in several layers. It consists of a layer of fabric, generally called angular fabric layer, a so-called fabric angle 38 formed from Glass fiber mesh, metal mesh, metal mesh or metal foil, embedded in one Layer of mineral adhesive mortar 40. (see Fig. 2). This fabric layer 38 and Adhesive mortar layer 40 are each configured as an armored angle layer 36 ' angular, i.e. formed around the edge of the thermal insulation panel. The horizontal legs of the two armored angle layers 36 'form one Overlap area in which the horizontal fabric angle legs 38 overlap and the horizontal legs of the adhesive mortar layer 40 into one another pass. The lower end faces of the roller shutter box 20 are on both sides of the Roller shutter exit opening covered by rails 20a, for example made of metal or plastic. The fact that the lower end face of the Thermal insulation board 30 is fully gripped by the armor layer 36, by the armor layer 36 as a the thermal insulation board 30 at the bottom encompassing U-shaped trough, the non-flammable acts Armor layer 36 as a fire barrier and prevents dripping in the event of a fire burning polystyrene drop. In this way, in the region of the lintel 10 Fire spread to lower sections of the building wall 14 or to the Thermal insulation panels 30 prevented.

The thermal insulation panel 30 has one on its front and lower end Reinforcement layer 42 with reinforcement fabric 42a and a finishing coat 44. The reinforcement layer 42 connects seamlessly to the armor layer 36, whereby the reinforcement fabric 42a also in the armor layer 36 the fabric angles 38 is arranged covering (see FIG. 2). The finishing coat 44 is also on the lower face of the thermal insulation board 30 and the window reveal applied, so that the areas of the armor layer 36 which are optically visible from the outside are separated from the Finishing layer 44 are covered.

Fig. 3 shows a further embodiment. The roller shutter box 20 with rails 20a, which cover its lower end faces, is on the outside before the lintel 10 arranged. The rear wall of the roller shutter box 20 is on the front the lintel 10 fastened by mounting elements, not shown. The Thermal insulation panel 30 is in the lower area, where the roller shutter box 20th located to measure the depth of the roller shutter box and the thickness of the Armored layer 36 is recessed and covered with its front section 30 ' Front of the roller shutter box 20. This has an effect Thermal insulation panels 30 formed thermal insulation layer of the building wall 14 in Region of the lintel 10 optically like the thermal insulation layer shown in FIG. 1, formed from the thermal insulation panel 30. The armor layer 36 encompasses the Section 30 'of the thermal insulation panel 30, the front lower edge, the front and the top of the roller shutter box 20 and that adjacent to the section 30 ' The underside and the lower rear edge of the thermal insulation panel 30. In this way forms the armored layer 36 a meandering trough in cross section, which the Fully encompasses the lower end face of the thermal insulation panel 30. The armor layer 36 is composed of armored angle layers 36 'with an L-shaped cross section. in the The case shown is four armored angle layers 36 '. The first Panzer angle layer 36 'encompasses the lower front end edge of the Thermal insulation board, the second armored angle layer 36 'encompasses the rear Lower end edge of the thermal insulation panel 30 facing the roller shutter box. The third Armored angle layer 36 'encompasses the upper horizontal edge of the roller shutter box 20 and the fourth armored angle layer 36 'encompasses the rear of the wall adjacent horizontal edge of the thermal insulation board 30. The armored angle layer 36 ', each L-shaped in cross-section, has several embedded in adhesive mortar Fabric angle on, as shown in Figs. 5 to 8 in detail. As in Figure 3 too is recognizable, borders on the rear arranged on the building wall 14 strip-like vertical section of the armored angle layer 36 'seamlessly the Bottom edge of the adhesive mortar layer 32 with which the thermal insulation board 30 with Back is attached to the front of the building wall 14.

The thermal insulation panel 30 has the reinforcement layer 42 on its front side there continues the armor layer 36, and the finishing coat 44, which Reinforcing fabric 42a also includes the fabric angle 38 in the armor layer 36 is arranged overlapping. The reinforcement layer 42 and the finishing coat 44 are also on the lower end face of the thermal insulation panel 30 and the window reveal applied so that the areas of the armor layer that are optically visible from the outside 36 are covered by the top plaster layer 44 (see FIG. 3).

Fig. 4 shows a variant of the embodiment shown in Fig. 3. there lie the front of the thermal insulation panel 30 and the front of the Roller shutter box 20 in one plane. The lower end faces of the roller shutter box are covered on both sides of the roller shutter outlet opening with rails 20a. The Armor layer 36 encompasses the lower section of the thermal insulation board 30 in a U-shape. The armor layer 36 is in turn L-shaped in cross section Armored angle layers 36 'composed. The one armored angle layer 36 ' encompasses the lower front edge of the thermal insulation panel, the other Armored angle layer 36 'encompasses the rear one facing the building wall 14 lower end edge of the thermal insulation panel 30. The armor layer 36 has several in Adhesive mortar embedded angular fabric layers, as in Fig. 5 to 8 in Shown individually.

The thermal insulation panel 30 has the reinforcement layer 42 on its front side there continues the armor layer 36, and the finishing coat 44, which Reinforcing fabric 42a also includes the fabric angle 38 in the armor layer 36 is arranged overlapping. The front of the roller shutter box 20 is also with the reinforcement layer 42 and the finishing coat 44.

5 to 8 show schematically using the example of one on the building wall 14 above a window opening 12 arranged roller shutter box 20 the layers Structure of the armored angle layer 36 ′ from FIG. 2 with an L-shaped cross section consists, as shown in Fig. 2, of embedded in mineral adhesive mortar 40 Fabric angles 38. Figures 5 to 8 show successively applied angles Tissue angles shown as 38a, 38b, 38c and 38d. The fabric angles above are each marked with cross-hatching, the fabric angles below them previous figures with a gray background.

Fig. 5 shows a fabric angle 38a, one leg of a strip-shaped Section of the building wall 14 adjacent above the roller shutter box 20 covers and the other leg of the top and the upper portion of the End faces of the roller shutter box 20 covered. Its length dimension is therefore larger than the width of the roller shutter box 20, so that protruding sections remain, which are the upper edges of the left and the not shown right Grasp the front of the roller shutter box, for example by 9 cm. The Length dimension of the tissue angle 38a, which is longitudinal at both end sections is cut in its angular edge by about 9 cm, is therefore in this example about 18 cm larger than the width of the roller shutter box 20.

FIG. 6 shows the tissue angle 38a from FIGS. 5 and 5 in a gray background excellent a tub-shaped fabric angle 38b, which the front of the Roller shutter box 20, strip-shaped sections of its left and right end faces and embraces its top. In this way, the fabric angle 38b covers Portions of tissue angle 38a. The fabric bracket 38b engages around the top the roller shutter box 20 in the example shown by about 9 cm and the left and right front side by about 10 cm. The fabric angle 38b thus forms two Corner angle from which the front upper corners of the roller shutter box 20th embrace.

FIG. 7 shows the fabric angles 38a, 38b from FIGS. 5 and 6 with a gray background and excellently shows a fabric angle 38c which covers one strip of the top of the top and the left end face of the roller shutter box 20 and the other leg one of these Section of the roller shutter box adjacent section of the building wall 14 covers. The fabric angle 38c is therefore cut in at both end sections along its angular edge by about 10 cm and the length dimension is about 20 cm larger than the height of the roller shutter box 20. In this way, a protruding upper section which encompasses the top of the roller shutter box 20 by, for example, 10 cm and a protruding lower portion that is not needed and therefore separated is formed.
A fabric angle formed in mirror image to the fabric angle 38c, which is not shown in the partial sectional illustration, covers the right end face, also not shown, portions of the top of the roller shutter box 20 and an adjacent portion of the building wall 14 in an analogous manner.

The fabric angles 38c overlap portions of the fabric angles 38a and 38b.

8 shows the fabric angles 38a, 38b, 38c from FIGS. 5 to 7 and with a gray background an excellent fabric angle 38d with one leg Fabric angle 38b in the lower section of the front of the roller shutter box 20 covered. The other leg of the tissue angle 38d projects forward and covers the underside of section 30 'of the front side, not shown Thermal insulation board 30 (see Fig. 3). The length dimension of the tissue angle 38d is equal to the horizontal length dimension of the roller shutter box 20.

5 to 8 show an example of the layered structure of that in FIG. 2 shown in cross-section L-shaped armor angle layer 36 'made of fabric angles 38a, 38b, 38c, 38d, which are embedded in mineral adhesive mortar, not shown are. There are at least two legs of two in the armored angle layer 36 ' Tissue angles are overlapping one another so that the tissue angles are one form a closed layer of fabric interspersed with mineral adhesive mortar is. In this way, the lower end faces including the lower edges of the in 5 to 8 not shown thermal insulation board 30 and Roller shutter box 20 completely covered with armored angle layers, the Corner areas of armored corner angle layers are encompassed.

FIG. 9 shows a in an exemplary embodiment constructed in accordance with FIG schematic perspective view of the right side of one under the lintel 10 above a window opening 12 arranged shutter box 20 with Fabric angles, the thermal insulation board 30 shown in FIG. 1 in FIG. 9 is shown partially broken out to the formation of the tissue angle on the To be able to show the front of the roller shutter box. The roller shutter box 20 is with its top to the bottom of the lintel 10 with not shown Mounting elements attached. Its lower end faces are with rails 20a covered, e.g. made of metal or plastic.

A fabric bracket 38e is with one leg on the front of the Roller shutter box 20 and with the other leg on the lower end face of the Thermal insulation board 30 arranged, a fabric bracket 38f encompasses the lower front Edge of the thermal insulation panel 30. In this way, the fabric angles 38e and 38f a U-shaped fabric layer covering the lower edges of the Thermal insulation board 30 encompasses U-shaped in the area of the window opening 12. On Tissue bracket 38g overlaps the vertical right reveal with one leg and the vertical narrow side of the thermal insulation panel 30 and arranged there the other leg the front of the thermal insulation board 30. In this way the tissue angle 38g encompasses the one arranged in the area of the right reveal vertical edge of the thermal insulation board 30. The form on the front the heat insulation panel 30 arranged legs of the fabric angles 38f and 38g a rectangular overlap area, which is shown in FIG. 9 by a narrow vertical cross-hatching is designated. In the area of through the The bottom of the roller shutter box and the right soffit formed the upper inner corner of the Lintel 10 covers a fabric angle 38h with one leg of the front Underside of the thermal insulation panel 30 and with its other leg vertical narrow side of the thermal insulation board 30. The two legs of the Tissue angles 38h are, for example, about 9 cm long. The fabric angle 38h covers sections of the fabric angles 38f and 38g.

Claims (13)

Building wall construction
with a building wall (14) with a door or window opening with a lintel (10) arranged roller shutter box (20), with on the front of the building wall (14) thermal insulation panels (30) made of foam material, preferably plastic foam material, such as polystyrene or others Plastics or other substances such as wood fibers or similar materials or composite materials or the like are arranged,
characterized in that one of the thermal insulation panels (30) on the top or at least on a portion of the top of the roller shutter box (20) and / or on the front or at least on a portion of the front of the roller shutter box (20) with the interposition of a layer of armor (36) is arranged adjacent
wherein at least part of the armor layer (36) is designed as a leg of an armor angle layer (36 '), which comprises a fabric layer (38, 38a, 38b, 38c, 38e, 38f, 38g) and / or a metal layer and a mortar layer (40) ;
The armored angle layer (36) has at least two legs arranged at right angles to one another and is designed as an L-shaped or U-shaped body in cross section,
being provided a) that the roller shutter box (20) is arranged on the underside of the lintel (10) and one of the thermal insulation panels (30) overlaps the front of the lintel (10) and the front side of the roller shutter box (20) and the thermal insulation panel (30) the lower end face has an armor layer which is formed at least as part of an armor angle layer which has a U-shaped cross-section and surrounds at least the edge of the thermal insulation panel (30) facing away from the front of the roller shutter box (20) and the edge of the thermal insulation panel (30) facing the front side of the roller shutter box (20),
wherein the armored layer is arranged on the front side of the thermal insulation panel (30), on the underside of the thermal insulation panel and on the entire front side of the roller shutter box (20) or b) that the roller shutter box (20) is arranged on the front of the lintel (10),
being provided
that the roller shutter box (20) is arranged overlapped on its front and on its top except for its area adjacent to the lintel (10) by one or more thermal insulation panels (30), each with the interposition of a layer of armor (36) which is at least part of at least one Edge of the thermal insulation panel (30) or an edge of the roller shutter box (20) encompassing armored angle layer (36 '), the armored layer (36) on the front of the thermal insulation panel (30), on the underside of the thermal insulation panel (30), on the whole Front of the roller shutter box (20) and on the entire top of the roller shutter box (20) is arranged, or
that the top of the roller shutter box (20) is arranged to be overlapped by one or more thermal insulation panels (30) with the interposition of an armored layer (36) which is formed at least as part of an armored angle layer (36 ') encompassing at least one edge of the thermal insulation panels (30), wherein the armor layer (36) is attached to the front of the thermal insulation panel (30), to the underside of the thermal insulation panel (30) and to the rear of the thermal insulation panel (30) facing the building wall. Building wall construction according to one of the preceding claims,
characterized in that the thermal insulation panel (30) is preferably directly connected to the front of the roller shutter box (20) and / or to the top of the roller shutter box (20) via the armored layer (36) arranged between them. Building wall construction according to one of the preceding claims,
characterized in that the armored angle layer (36 ') has at least three legs arranged at right angles to one another to form a corner region. Building wall construction according to one of the preceding claims,
characterized in that the armored angle layer (36 ') has a plurality of legs which are arranged with respect to one another to form a shell or a housing. Building wall construction according to one of the preceding claims,
characterized in that a first leg of the armored angle layer (36 ') is arranged on the roller shutter box (20) and a second leg of the armored angle layer (36') on the lintel (10) or the building wall (14) or on the thermal insulation panel (30) is arranged. Building wall construction according to one of the preceding claims,
characterized in that a first leg of the armored angle layer (36 ') on the top of the roller shutter box (20) and a second leg of the armored angle layer (36') on the front side of the roller shutter box (20) or on the building wall (14) or on the lintel (10) or on the thermal insulation panel (30). Building wall construction according to one of the preceding claims,
characterized in that a first leg of the armored angle layer (36 ') on the front of the roller shutter box (20) and a second leg of the armored angle layer (36') on the lintel (10) or on the building wall (14) or on the thermal insulation panel (30 ) or on the underside of the roller shutter box (20). Building wall construction according to one of the preceding claims,
characterized in that in the armor layer (36) two legs of two armor angle layers (36 ') are arranged to overlap each other. Building wall construction according to one of the preceding claims,
characterized in that the fabric layer (38, 38a, 38b, 38c, 38e, 38f, 38g) is made of glass fiber fabric, preferably the armor layer is made of mineral reinforcing agents with an integrated glass fiber fabric layer. Building wall construction according to one of the preceding claims,
characterized in that the metal layer is formed from metal foil, metal mesh or metal grid. Building wall construction according to one of the preceding claims,
characterized in that the armor layer (36) is formed in a reinforcement layer (40) preferably from reinforcement mortar and / or with reinforcement fabric (42a). Building wall construction according to one of the preceding claims,
characterized in that the thermal insulation board (30) has an outer plaster layer (44) on its outside, preferably on its front side and / or on its lower end face, preferably applied on the reinforcement layer. Building wall construction according to one of the preceding claims,
characterized in that a sheet metal or plastic rail (20a) is arranged on the underside of the roller shutter box (20) on one side or on either side of the outlet slot of the roller shutter.

Images