EP1267009A2 - Facade construction - Google Patents

Abstract

For a building facade, a carrier structure (10) is formed by the uprights and clamps using one material. The structure (12) to hold the glass, of another material, is fitted directly into the carrier structure in a positive fit without any additional fasteners. The two materials are selected which can be combined together.

Description

Field of the Invention

The invention relates to a facade construction with post and Bolt profiles and comprising a support structure from one first material and a glass-holding structure from one second material according to the preamble of claim 1.

State of the art

Mullion and transom facades have the function, on the one hand that Securing facade elements securely and secondly the occurring load due to its own weight, wind or Safe transfer of traffic loads. Starting from these two Basic functions exist systems in which a division of the functions between a supporting structure and one glass-holding structure. examples for this are Wood-aluminum facades or various Adapter systems in which a support structure made of high-strength Material, for example steel, a glass-holding structure is assigned, which is more variable in terms of its shape can be designed or advantages in attachment offers a cover strip against the posts or transoms. at all these functionally divided facade systems will be the glass-holding structure using fasteners fixed to the supporting structure. As a fastener Screws, nails or rivets used or else it will made a welded joint. Through these measures the assembly effort is increased. It also depends safe load transfer from the proper implementation assembly because this is only possible with screws, Welding or nailing or riveting connection between glass-holding structure and supporting structure is ensured.

Presentation of the invention

The invention has for its object a To propose facade construction, as it were in shape a modular facade with a simple installation a high Has variability in terms of specific requirements.

This task is accomplished with a facade construction Features of claim 1 solved.

The invention is based on the idea that glass-holding structure without additional fasteners directly can be attached to the support structure such that a positive connection between glass - holding structure and Support structure exists. In addition, the first material and the second material can be combined with one another as desired. The first material and the second material can be identical his. This combination of features achieves a high level Variability of the facade construction in relation to different requirements at the same time easy assembly. The materials can be targeted with regard to be selected on the desired properties and it no additional fasteners are required to glass-holding structure to attach to the support structure. Finally, the resulting positive connection offers a very secure attachment of the glass-holding structure the supporting structure.

Preferred embodiments are in the remaining claims described.

In a preferred embodiment, the first Material and the second material is corrosion-chemical coordinated. It is therefore in the combination of Materials for the glass-holding structure and for the Support structure made sure that between the materials no corrosion occurs, which affects the overall function of the Facade construction or its optical Could endanger appearance. It is preferably that first material steel, coated or galvanized steel or stainless steel or copper. Aluminum is too usable. The second material for making the glass-holding structure is aluminum, coated Aluminum, stainless steel or steel with coil coating, coated or galvanized.

The support structure is preferably a roll-formed one welded body with closed cross section. Further Possibilities are drawing or extruding the Supporting structure. This shape offers in relation to the required material use a very high strength. About that In addition, the strength can be influenced by the Material thickness of the support structure at the respective Load case is adjusted. Through this additional Measure can be a kink and bulge for larger ones Avoid construction depths.

According to a preferred embodiment, the glass-holding Structure a screw channel for receiving a Fixing screw on, if the positive Connection between glass-holding structure and supporting structure partially arranged in a recess in the support structure is. This measure reduces the height of the entire structure and also has advantages in that an increased The facade profile is stable and also a there is a better K value. The disadvantage is, however also in the fact that a larger lever arm with glass supports is present because the screw channel has a smaller extension has the final level of the supporting structure.

Preferably, the glass-holding structure is in the Support structure attachable, at least one Attachment approach of the glass-holding structure provided in this way is that when there is a relative movement between glass holding Structure and support structure perpendicular to the longitudinal extension of the Support structure in at least one appropriately shaped Undercut engages in the supporting structure. The hanging is thus done by a single movement between glass-holding structure and supporting structure that are relatively between the two components and perpendicular to the longitudinal extension of the Support structure takes place. This hooking represents a very simple attachment variant, the corresponding Orientation of the undercut, particularly with respect to the latch a very secure attachment between glass-holding structure and supporting structure. Will the Hanging technology used in the post area, so are however, preferably securing elements for securing the position the glass-holding structure suspended in the supporting structure recommended.

According to a preferred development of this embodiment the glass-holding structure has one screw channel and two rectified attachment approaches on both sides of the Screw channel are arranged. The provision of the two rectified attachment lugs ensures that continue to mount the unidirectional glass-holding structure in the supporting structure is possible. By however, there are two attachment approaches symmetrical load transfer, even if the provision the shape of two rectified fastening approaches the supporting structure and possibly also the inner seal make it more complicated.

According to an alternative embodiment of the invention glass-holding structure can be inserted into the supporting structure, whereby at least one attachment lug of the glass-holding structure by a relative movement between the glass-holding structure and support structure in at least one correspondingly shaped Undercut can be introduced in the support structure. Under the attachment alternative of insertion thus becomes one Relative movement between glass holding structure and Support structure understood in the longitudinal direction of the basic structure. Pushing the glass holding structure into the Support structure allows simple shaping of the two components to be interconnected. However, it must are taken into account that the posts and Bars can have a considerable length and thus inserting a glass holder that is several meters long Structure in the supporting structure both in terms of the spatial conditions as well as the insertion aggravating friction effects must be taken into account.

In this context, it has proven to be particularly advantageous proved the undercut of the support structure as to design dovetail-shaped insertion groove.

According to an alternative embodiment of the invention the glass-holding structure made of a material with high Elasticity and is shaped to fit into each other facing receiving spaces of the support structure can be snapped into place. With in other words, the glass holding structure is in the Support structure clipped in. In the simplest case, this can be done a relative movement between the glass-holding structure and Support structure perpendicular to the longitudinal extension of the support structure as well as perpendicular to the outside of the facade directional end face of the support structure. In order to the glass-holding structure in the locked or clipped position remains, this must be from a Material with high elasticity, so that both the by the weight of the facade panels as well as by wind suction generated loads do not cause undesired slipping out lead the glass-holding structure out of the supporting structure can.

In this context, it has proven to be advantageous the attachment approaches of the glass-holding structure from one To design a large number of individual fastening tabs, which are distributed over the length of the glass-holding structure. The mounting tabs snap into the continuously Length of the supporting structure. By this measure also becomes a positive connection between the attachment lugs and the receiving rooms created a relative movement between glass-holding Structure and support structure in the longitudinal direction of the support structure prevent.

According to a preferred embodiment of the invention glass-holding structure can be inserted into the supporting structure, whereby at least two fastening approaches of the glass-holding Structure are provided so that in a two-stage Relative movement between glass holding structure and Support structure in the direction perpendicular to the longitudinal extension of the Support structure the at least two attachment approaches in suitably shaped, facing each other undercuts are clickable. The two-stage relative movement exists here from a first stage and a subsequent one second stage, whose direction of movement is essentially in opposite direction to the direction of movement of the first Level is. The thing that happens through the back and forth movement Snap the glass-holding structure into the supporting structure is also known as the shuffle technique. So that Latching with the help of the shuffle technique is possible adequate play in the relative movement between Support structure and glass-holding structure can be provided, the larger than the coverage of the attachment approaches glass-holding structure with the undercuts of the Support structure is.

Brief description of the drawings

Fig. 1

eine schematische Querschnittsansicht eines Pfostens oder Riegels einer Fassadenkonstruktion zeigt, wobei nur die Tragstruktur sowie die einschiebbare glashaltende Struktur dargestellt sind;

Fig. 2

eine Ansicht ähnlich der in Fig. 1 dargestellten zeigt, wobei die glashaltende Struktur eine abgewandelte Geometrie besitzt;

Fig. 3

eine Ansicht ähnlich der in Fig. 1 dargestellten zeigt, wobei die glashaltende Struktur eine abgewandelte Geometrie besitzt;

Fig. 4

eine abgewandelte Geometrie der Tragstruktur ähnlich zu der gemäß Fig. 3 zeigt;

Fig. 5

eine weitere Ausführungsform der Erfindung mit einer in die Tragstruktur einhängbaren glashaltenden Struktur zeigt;

Fig. 6 bis 8

weitere Ausführungsformen der Erfindung mit einer doppelten Einhängung zwischen glashaltender Struktur und Tragstruktur schematisch darstellen;

Fig. 9

eine weitere Ausführungsform der Erfindung in schematischer Darstellung gemäß Fig. 1 zeigen, wobei die glashaltende Struktur in die Tragstruktur einklinkbar ist;

Fig. 10 sowie 12 bis 15

verschiedene Ausführungsformen der Erfindung mit einer in die Tragstruktur einklipsbaren glashaltenden Struktur zeigen; und

Fig. 11

eine schematische Darstellung eines Teils der glashaltenden Struktur mit Befestigungslaschen andeutet.

The invention is described below purely by way of example with reference to the attached figures, in which:

Fig. 1

shows a schematic cross-sectional view of a post or transom of a facade construction, only the supporting structure and the insertable glass-holding structure being shown;

Fig. 2

shows a view similar to that shown in Figure 1, wherein the glass-holding structure has a modified geometry.

Fig. 3

shows a view similar to that shown in Figure 1, wherein the glass-holding structure has a modified geometry.

Fig. 4

shows a modified geometry of the support structure similar to that of FIG. 3;

Fig. 5

shows a further embodiment of the invention with a glass-holding structure which can be suspended in the supporting structure;

6 to 8

schematically represent further embodiments of the invention with a double attachment between the glass-holding structure and the supporting structure;

Fig. 9

show a further embodiment of the invention in a schematic representation according to FIG. 1, the glass-holding structure being able to be latched into the supporting structure;

10 and 12 to 15

show various embodiments of the invention with a glass-holding structure which can be clipped into the supporting structure; and

Fig. 11

a schematic representation of a part of the glass-holding structure with fastening tabs.

Ways of Carrying Out the Invention

None is shown in the following figures Facade construction, but only a schematic Representation of the connection area between a Basic structure and a glass-holding structure of mullion or Bolt profiles shown. Here, the different elements in the different figures with the same reference numbers.

The basic structure of a Facade construction with posts and transoms formed Profiles, between an inner seal as well as an outer seal held facade elements and one on the Facade arranged cover strip that against the Base profile is clamped, known, when fixing the cover strip one or more fastening screws in introduced a screw channel and the facade elements be held between the inner and outer seal. additionally serve the walls of a screw channel in Transom area to support glass supports on which the Facade elements lie on. Since the expert this Basic construction is known, can be targeted in the following the connection according to the invention between a support structure and a glass-holding structure.

The supporting structure as well as the glass-holding structure are functionally decoupled from each other and in all subsequent ones described embodiments in a simple manner connected with each other. The connection between the supporting structure and glass-holding structure takes place without screwing in, Welding, gluing, riveting or the like. The advantages of this similar to a modular facade consist of that, for example, always the same glass-holding structure can be used and this with a supporting structure adapted to the respective task is combined. So by adjusting the support structure a safe load transfer by wind, dead weight or Traffic loads generated loads can be achieved. About that Any combination of materials is also possible. Above all, steel is used for the basic construction S 280 GD raw and galvanized with coil alloy, stainless steel 1.4301, 1.4401 / rolled or ground or polished as well Aluminum used and steel for the glass-holding structure S 280 GD raw as well as galvanized coil alloy, 1.4301, 1.4401 or Aluminum. Of course, any other are also Material combinations possible, preferably in view be selected for their corrosion-chemical admissibility.

Fig. 1 shows a schematic view of a post or Riegelels a facade, in this as well as all the figures shown below are only very schematic View of the support structure and glass-holding structure of a Pfostens or Riegel is shown. In the case of a latch the display of glass supports is also dispensed with. The post or bar shown in Fig. 1 consists of a support structure 10, which in the present case as Hollow profile is formed. The supporting structure can for example as a roll-formed and welded body be made. On the outside of the facade facing side of the support structure is a recess 14 with Undercuts, in the present case one dovetail-shaped groove. As from the figures 1 and 2 can be seen, has the dovetail shape Groove 14 inclined side flanks 16 with increasing distance from the one facing the facade in the assembled state End surface 18 increase the width of the groove 14.

Figures 1 and 2 as well, if nothing else below is mentioned, all subsequent figures each show a section through the support structure and glass-holding structure perpendicular to the length of the profiles. Therefore runs the dovetail-shaped groove 14 in the longitudinal direction of the Supporting structure 10. To easily hold a glass To be able to attach structure 12 to the supporting structure 10, has this complementary to the inclined side surfaces 16th molded attachment lugs 20, which are in the mounting position with increasing distance from the outside of the facade spread increasingly and therefore within the dovetail-shaped groove a positive connection form.

The glass holding structure 12 is in the present Design example made of steel, stainless steel or aluminum manufactured and is made of steel in the support structure 10, Stainless steel or aluminum inserted lengthways. The Glass-holding structure 12 has a one-piece component a screw channel 22 as well as holding elements 24 for Attachment of interior sealing strips (not shown).

With regard to the design of the glass-holding structure 12 and the location of the screw channel are exemplary in the Figures 1 and 2 shown alternatives are conceivable. In which 1 is the screw channel raised, while this in the embodiment of FIG. 2 in the dovetail groove is sunk. The advantage of Embodiment according to FIG. 2 is that the construction height the overall profile is lower and the lateral support through the mounting lugs 20 the screw channel Give increased stability. It also improves also compared to the embodiment of FIG K value. However, in the variant according to FIG. 2 be taken into account that a larger lever arm in the Glass supports exist and the sealing geometry to the modified geometry with shortened screw channel adjusted must become.

The solution shown in Figures 1 and 2 with a in the Support structure 10 inserted glass-holding structure offers also the advantage that the connection between the support structure and glass-holding structure from the wall thickness of the supporting structure is independent. For example, in the area between 1.5 mm and 3 mm different wall thicknesses can be realized, without it maintaining this resulting external dimensions to adapt the glass-holding structure.

3 has a different one Geometry on. Instead of that in the embodiments Figures 1 and 2 provided individual dovetail-shaped groove 14 are two grooves 14a and 14b provided that also undercuts in the area of a have a screw channel support in the center. The glass-holding structure 12 has correspondingly shaped Attachment approaches 20a and 20b, which in the Engage undercuts and thus after insertion the glass-holding structure 12 on the support structure 10 a Ensure a positive connection.

While the in the embodiment of FIG Support structure 10 roll-formed from a single strip of material 4 shows an alternative embodiment consisting from two identical sections 10a and 10b, the be arranged mirror-symmetrically to each other and over a Weld 15 are connected to each other. It arises also a support structure with a screw channel support, form the two grooves 14a and 14b with undercuts.

5 to 8 are embodiments of the invention shown, in which the glass-holding structure 12 in the Support structure 10 is hooked. You can choose between one simple attachment according to the schematically shown Embodiment according to Fig. 5 and a multiple suspension according to the embodiments of FIGS. 6 to 8 with each a double attachment can be distinguished.

5 is in the support structure 10 an undercut in the form of a one-sided Widening of an eccentrically arranged groove is provided. This undercut recess 14 engages hook-shaped attachment projection 20 of the glass-holding Structure and establishes a positive connection between support structure 10 and glass-holding structure 12 ago. This simple hanging can be done with a simple shape both the support structure 10 and the glass-holding structure 12 to reach. However, it depends on the case of stress check whether there is sufficient load transfer by a simple attachment according to FIG. 5 is possible. Should this be If this is not the case, a double attachment can also be used according to one of the exemplary embodiments according to FIGS. 6 to 8 respectively. A double attachment has the advantage that the load transfer takes place symmetrically, if also by a more complicated shape of both the support structure 10 and also glass-holding structure 12 must be purchased.

In the embodiments according to Figures 6 to 8 are in each case two undercut grooves 14a and 14b in the Support structure provided. In the two undercuts Recesses 14a and 14b grip correspondingly shaped Attachment approaches 20a and 20b of the glass-holding structure 12 a.

In all of the embodiments according to FIGS. 6 to 8 the Connection between support structure and glass-holding structure by hanging the glass-holding structure 12 in the Supporting structure. In all cases shown, the glass is kept Structure 12 in the direction of arrow A (see FIG. 5) relative to Carrier structure 10 moves, whereby the or Attachment approaches 20, 20a, 20b in the corresponding engage undercut grooves 14, 14a, 14b of the profiles. When using the hanging technology in the transom area make sure that the arrow direction A of the Direction of gravity corresponds to none automatic release of the hook connection can come. Becomes the hanging technology used in the post area, so recommends it to provide additional fixatives that the unwanted slipping out of the glass-holding structure prevent the supporting structure.

In the variants shown in FIGS. 6 to 8, a double hooking are different Possible design alternatives. According to the Embodiments according to Figures 6 to 8 the two undercut depressions 14a and 14b at the same height but can also be arranged at a different level lie. The embodiment of Figure 6 shows a glass-holding structure with holding elements 24 for Inner weather strip, while in the embodiment according to 7 and 8, the two inner seals not from the glass-holding structure 12, but from the supporting structure being held. For this purpose, mounting ribs 26 in the Support structure 10 shaped. This embodiment according to FIG. 8 is a very simple design with little Material use with a special design of the Inner seals that are in relation to the center through the Screw channel running axis of symmetry 30 is not symmetrical is designed.

The inner seal 13 is in the embodiment according to FIG. 8 provided with a locking lug 13a, which in the context of their Elasticity from hanging out of the glass-holding structure 12 the support structure 10 prevented.

Fig. 9 shows an embodiment of the invention in which the Attaching the glass-holding structure 12 to the support structure 10 by latching using the so-called shuffle technique he follows. In this example, the support structure 10 has one Groove 14 arranged on both sides of the axis of symmetry Undercuts in the after the joining process corresponding attachment lugs 20a and 20b of the intervene glass-holding structure. The hanging takes place in the Essentially through two successive movements that are indicated in Fig. 9 with the arrows B and C and their Direction of movement essentially opposite to each other runs. The attachment projection 20b in FIG the corresponding part 14b of the undercut groove 14 inserted until there is no more play in the direction of movement B between the support structure and glass-holding structure. During this first suspension movement 13, the Attachment projection 20a on the outside of the facade facing surface 18 of the support structure. Only when the Fastening approach 20b completely or almost completely in the undercut groove 14b is also indented Attachment projection 20a are introduced into the groove 14a and by a subsequent shifting movement C in opposite direction is achieved that both Attachment approaches through the groove 14 or 14a and 14b movement to the outside of the facade can be prevented.

In order for the latching technique to be carried out, there must be sufficient play, the overlap S _{1 of} the fastening attachment 20a being less than the play S ₂ that the other fastening attachment 20b still has with respect to a movement, as is illustrated with reference to FIG. 9 has in the undercut groove 14b.

Since, as mentioned above, the actual process of Insertion in a slightly tilted manner during the first movement step B, there must be sufficient play between glass-holding structure 12 and supporting structure 10 be provided. The groove 30 shown in FIG. 9 must be between the mounting boss 20b and section 32 of the glass-holding structure, which the holding element 24 for The inner seal holds, sufficient play is provided become. In order to achieve a desired, if possible game-free positive connection between support structure and A seal can achieve glass-holding structure be provided, which is dimensioned so that it Game between support structure and glass-holding structure eliminated.

The spring action of the seal can precede all and Embodiments described below used e.g. about insertion by creating play to facilitate, or to facilitate hanging with play.

Figures 10 to 15 each show another Fastening alternative between support structure 10 and glass-holding structure 12, the glass-holding structure is formed from a material with high elasticity, so that it can be snapped into the supporting structure. So that there is a positive connection, lies here also an undercut depression 14 in the Supporting structure in front of either, a dovetail-shaped Can be groove, or according to the embodiment of FIG. 10, 12 and 13 facing depressions on both sides of the Have axis of symmetry 28 and also in this embodiment for hanging the glass-holding structure using the Shuffle technology would be suitable in principle. Another Alternative is the undercuts as in 14 and 15 is shown in the area of a Provide screw channel support 36, which is essentially T-shaped over the bottom of the grooves 14a and 14b and thus undercut areas facing away from one another in the forms two groove sections 14a and 14b.

In all of the embodiments shown in FIGS. 10 to 15 the resilient glass-holding structure in the Recesses clipped in and holds the glass-holding structure due to their spring action in form-fitting contact with the Supporting structure. The glass-holding structure is included corresponding attachment lugs 20a and 20b provided again in the undercuts 14a and 14b in the Snap in the supporting structure. The screw channel can be in Axis direction 28 are supported by either on the Groove base of the groove rests on a support shoulder that is from the bottom of the groove to the outside of the facade extends, or by this on a Screw channel support rests.

When using the clip technology, the glass-holding Provide structure with sufficient spring elasticity be in order not to get out of the positive contact with the support structure pulled out be or snap out.

11, which is a schematic three dimensional view of a glass holding structure in the Interaction with an associated supporting structure shows finds the positive connection between glass-holding Structure and support structure do not take place over the entire length. Rather, the glass-holding structure 12 in Fastening tabs spaced apart in the longitudinal direction 40a to 40c provided on both sides of the screw channel, which in the correspondingly shaped depressions 14a and 14b of the Support structure 10 can snap. That way in addition to the positive contact and the firm connection between the supporting structure and the glass-holding structure in the direction a positive fit to the outside of the facade Connection created an undesirable relative movement between supporting structure and glass holding structure in Prevents longitudinal direction.

Fig. 12 shows an alternative embodiment in which the Groove bottom of the recess 14 is not flat, but one has central projection 42, both as a stiffener serves as a movement of the spring arms 40 of the glass-holding structure 12 in the direction of the axis 28 prevented.

In addition to fixing the glass-holding structure in one undercut recess of the supporting structure, however also possible on continuous protrusions of the To attach support structure 10, as in Figures 14 and 15th is shown. In these exemplary embodiments, the glass-holding structure 12 on projections of the support structure 10 attached, which extends from the outside of the facade facing end surface 18 to the outside, d. H. to Extend facade outside. In the These are exemplary embodiments according to FIGS. 14 and 15 each attachment hook 44, which is due to a hook-shaped Design with a corresponding shape of the glass-holding structure a positive contact between Support structure and glass-holding structure allow, so that the glass-holding structure either resiliently on the Attachment hook 44 of the support structure 10 is clipped in or but the glass-holding structure is rigid and in Longitudinal direction of the support structure on the attachment hooks 44 is postponed.

All of the above-mentioned exemplary embodiments have in common that a functional decoupling between support structure and glass-holding structure takes place. It takes place between the Support structure and the glass-holding structure a simple Connection instead of that by pushing in, hanging in, Click in or clip in. Screws, rivets or but they are not welded or glued required. The functional decoupling between Support structure and glass-holding structure can be one to the Support structure adapted to the respective task can be used and in any combination of materials one for the optimized glass-holding structure for each application to be selected.

Due to the simple connection technology, there is between Support structure and glass-holding structure preferred, but not necessarily game. This game can be played through a special shape of the glass-holding structure fastening seals can be eliminated by the Seals encompass the glass-holding structure and thus sandwiched between the basic structure and the glass-holding structure these are spread apart and fixed without play. Alternatively, it is also possible to use an additional fastening To provide, but this is the use of additional Components due to assembly.

Claims (14)

Facade construction with mullion and transom profiles comprising: a support structure (10) made of a first material; and a glass holding structure (12) made of a second material; characterized in that the glass-holding structure (12) can be attached directly to the support structure without further fastening means in such a way that there is a positive connection between the glass-holding structure (12) and the support structure (10); and the first material and the second material can be combined with one another as desired. Facade construction according to claim 1,
characterized in that
the first material and the second material are matched to one another in terms of corrosion chemistry. Facade construction according to claim 1 or 2,
characterized in that
the first material is steel, preferably coated or galvanized, or stainless steel. Facade construction according to one of claims 1 to 3,
characterized in that
the support structure (10) is a roll-formed and welded body with a closed cross-section. Facade construction according to one of the preceding claims,
characterized in that
the glass-holding structure (12) has a screw channel (22) which is partially arranged in a recess (14) in the support structure (10). Facade construction according to one of claims 1 to 5,
characterized in that
the glass-holding structure (12) can be suspended in the support structure (10), at least one fastening attachment (20) of the glass-holding structure (12) being provided such that it is perpendicular to the glass structure (12) and the support structure (10) during a relative movement The longitudinal extent of the support structure (10) engages in at least one correspondingly shaped undercut (14) in the support structure (10). Facade construction according to claim 6,
further comprising securing elements for securing the position of the glass-holding structure (12) suspended in the supporting structure (10). Facade construction according to claim 6 or 7,
characterized in that
the glass-holding structure (12) has a screw channel and two rectified attachment lugs (20a, 20b) which are arranged on both sides of the screw channel. Facade construction according to one of claims 1 to 5,
characterized in that
the glass-holding structure (12) can be pushed into the support structure (10), at least one attachment projection (20) of the glass-holding structure (12) being caused by a relative movement between the glass-holding structure (12) and the support structure (10) in the longitudinal direction of the support structure (10) in at least one correspondingly shaped undercut (16) can be introduced into the supporting structure (10). Facade construction according to claim 9,
characterized in that
the undercut of the support structure (10) is designed as a dovetail-shaped insertion groove (14). Facade construction according to one of claims 1 to 5,
characterized in that
the glass-holding structure (12) consists of a material with high elasticity and is shaped in such a way that it can be snapped into receiving spaces (14; 14a, 14b) of the support structure (10) facing one another. Facade construction according to claim 11,
characterized in that
the attachment lugs (20) of the glass-holding structure (12) comprise a plurality of lugs distributed over the length, which can be elastically latched into the receiving spaces (14a, 14b) of the support structure. Facade construction according to one of claims 1 to 5,
characterized in that
the glass-holding structure (12) can be pushed into the support structure (10), at least two attachment lugs (20a, 20b) of the glass-holding structure (12) being provided in such a way that, in the case of a two-stage relative movement between the glass-holding structure and the support structure, in the direction perpendicular to the longitudinal extension of the Support structure, and wherein the first stage of the relative movement and the second stage of the relative movement are substantially in opposite directions, the at least two attachment lugs (20a, 20b) of the glass-holding structure (12) in correspondingly shaped, facing undercuts (14a, 14b) are clickable. Facade construction according to one of the preceding claims,
characterized in that
the first material and the second material are identical.

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