EP1445390A2 - Facade structure and retaining element for use in such a structure - Google Patents

Abstract

The facade construction (1) is formed from several panel-form facade elements (20), and especially glass elements, mounted in a support construction. The support construction has load absorbing support elements (11) extending vertically along the facade, and mounting elements (10a,10b) connected to the support elements. The facade elements are supported in the mounting elements and the mounting elements are pivotably connected to the support elements. An independent claim is included for a mounting element for use in a facade construction with a pivot bearing section for the holding and pivotable support of a free end of a rod-form or cable-form support element, and a holding section for the holding of a facade element.

Description

The invention relates to one of several held in a supporting structure in essential plate-shaped facade end elements formed facade structure. The invention further relates to a holding element for use in such.

In modern architecture, especially in larger buildings, For example, office building complexes often consist of a supporting structure held, built up essentially plate-shaped facade elements External facades used. In addition to, for example, metal or natural stone slabs come here because of the contemporary look on the one hand and the advantageous Properties with regard to light transmission but also a possible one Insulation effect on the other hand glass pane elements used, from which then facades are partially or completely assembled. Such Glass facades are often called a so-called primary facade of the Secondary facades placed in front of the building.

Because of the height of the building on the one hand and the entire facade area on the other hand, the supporting structure is of particular importance. she not only has to absorb the weight of the facade and hold it securely, but also absorb the forces acting on the facade surface. at Known facade structures are usually massive Support structures built on which the facade elements are fixed become. This is massive in particular with facade elements made of glass Supporting structure visible through the transparent facade elements and disturbs the impression that can otherwise be achieved with a glass facade "light" construction.

If the elements of the supporting structure are dimensioned smaller, i.e. narrower trained, so form due to the action of force on the Facades on the supporting structure attacking forces a danger to the Facade, which this may not be up to. At acquaintances Facade structures thus form such forces and the resulting ones resulting shear forces an inherent limit for the dimensioning the supporting structure. The existing dangers for the facade construction the larger the facade elements are, the larger. to Reducing such forces could therefore make the facade elements smaller dimensioned and the supporting structure overall be built more closely or the material thickness of the facade elements could be increased. However, this has the disadvantage that on the one hand the erection of such a facade structure is more labor-intensive, on the other hand it is already with larger buildings because of the aesthetic effect, a facade construction from larger areas Facade elements wanted. But if you increase the material thickness, you get higher dead weights, which are absorbed by a reinforced supporting structure should be.

Another disadvantage of known facade structures is that the Facade elements themselves with facilities for attaching to the Support structure must be provided. This is the case with glass facades, for example usual to close the individual glass elements at their edge areas with holes provided, through which then holding bolts or similar fasteners can be passed through for connection to the supporting structure. Just with glass elements, however, is any post-processing, such as that Attaching mounting holes, complicated and poses a risk to that Facade element as well as for the cost calculation. Glass is a comparative brittle material, in which the attachment of an opening by, for example Drilling is comparatively expensive. In addition, such Bores in the finished glass element are weak points that pose a risk of Cause the glass element to break.

Similar for glass elements or facade elements made of other, similar brittle material call the above-mentioned forces in the Facade again a danger of breaking. Will the forces on one transfer such brittle facade element, for example Is subjected to torsional forces, there is also a risk of breaking here.

Against this background, it is an object of the present invention to provide a facade structure of the type mentioned at the outset, in which stresses occurring in the facade structure are minimized by means of construction. In addition, a holding element is to be specified for use in such a facade structure, which also fulfills the stated task.

To solve this problem, a facade structure is first specified which is formed from a plurality of essentially plate-shaped facade elements, in particular glass elements, which are held in a supporting structure, the supporting structure having load-carrying supporting elements and holding elements connected to the supporting elements, running essentially vertically along the facade, the facade elements being mounted in the holding elements and the holding elements being articulated to the supporting elements.

Due to the articulated connection between the holding elements and the Support elements become tensions in the facade structure balanced by a movement within the facade structure to the joints formed between the support elements and the holding elements takes place. In other words, the facade structure takes on equally "by itself" a form in which a minimum of tension, ideally none Tensions in the facade structure. The supporting structure must thus only absorb reduced tension forces in the facade structure. The Supporting structure, consisting of the supporting elements and the holding elements, can thus be made smaller overall, i.e. more delicate. This results, for example, when using glass elements as Facade elements for a "lighter" visual impression and thus one improved aesthetic effect of the facade structure thus formed. moreover A facade structure according to the invention is also easier to erect, since it is different than in the case of previously known facade structures, the requirements for the adjacent ones Components of the primary building construction are considerably smaller. Normally, the supporting structure requires enormous pretensioning forces to be possible Loads without being able to absorb destructive deformations. Instead, catches the support structure according to the invention due to the articulated connection of the Holding elements with the supporting elements the loads acting on the facade while avoiding dangerous deformations. Through the articulated Connections between the support elements and the holding elements are in essentially vertical direction equally formed polygons in which the holding elements nodes between each Form polygon sections (the supporting elements). These trajectories are in themselves flexible due to the articulated connections.

In a preferred embodiment, the support elements are rod-shaped or rope-shaped. Such rod or rope-shaped support elements convey particularly in the Use of glass elements gives a "light" visual impression, however with a suitable choice of material, resilient to the weight of Include facade elements. Of course, it has to go through the carrier as well Holding elements formed support structure on which the facade elements to be attached, attached to a building, for example hung, his.

According to a further development of the invention, the Facade construction characterized in that the support elements with the holding elements in such a way are articulated so that they are at least in relation to the holding elements a substantially vertical, perpendicular to a facade level Level are movable. The facade level is the level in which the Facade construction is essentially. Individual facade elements can be used if necessary, run at an angle to the facade level, provided that The main extension of the facade structure lies in the facade level. For usually the facade level will also be substantially vertical. In principle, however, facade levels inclined to the vertical are also conceivable. The articulated mobility at least in the plane mentioned leads to the fact that possibly already with such flexibility in the facade structure occurring tensions largely through articulated movements between the holding elements and the support elements can be compensated.

According to a further embodiment of the invention, the are articulated Connections designed such that the support elements at an angle of between 2 ° and 10 ° relative to those articulated to them Holding elements can be moved. In practice there are such angles than in most cases sufficient to accommodate in the facade structure any voltages that may have been proven. Basically, however other movement angles are possible, they can depend on the respective Application may even be preferable to the specified values.

According to a further advantageous development of the invention, one facade construction according to the invention the facade elements in the area of their Upper edge and lower edge held in the holding slots of the holding elements. A Such holder offers various advantages. For one thing, they have to Facade elements no longer with separate structures for attaching Fasteners are provided, for example, it is opposite not known facade structures when using glass elements more necessary to make openings in the glass elements, on the other offers the mounting of the facade elements in slots compared to one point-by-point mounting by, for example, the facade element passed through bolts a linear bracket and thus one improved hold. The facade elements are easy with at least one Section of its upper or lower edge in a holding slot of the holding element used and held so. The holding element takes over, in which the The facade element sits with its lower edge in a holding slot Weight of the facade element and leads it to those connected to it Support elements from. The holding element, which with a holding slot the top edge of a facade element, fulfills only a position-fixing function and absorbs any tension forces occurring at this upper edge and compensates them by articulated movement in relation to the support elements. Also when building a facade structure according to the invention offer holding slots an advantage. Without the need for additional fasteners Facade elements can simply be inserted into the holding slots. This represents one Relief in terms of workload.

In a further advantageous development of the invention, the Facade construction characterized in that the facade elements at an angle the substantially vertical facade level are arranged and overlap each other so that an upper edge of a lower one Facade element from the lower edge of an arranged above Facade element is overlapped. Such a structure is particularly in Use of the facade structure according to the invention as one, one Primary facade upstream secondary facade is an advantage, with at least one Part of the holding elements on the primary building structure is fixed. In this way, slits can be created between the "shingled" facade elements be formed, which are either open or by horizontal intermediate elements can be locked. With an open training, the slots can be used as Ventilation slots included in a system for air conditioning the building become. If movable intermediate elements are arranged that open or Allowing the slots to close can even allow airflow through this path a space between a primary and secondary facade can be controlled, which in turn can be used for air conditioning the building.

When using the facade construction mentioned as the primary facade a secondary facade in front of a building is according to a further education the invention preferred that at least part of the holding elements of the facades is fixed to the primary building construction. By laying down at least a part of the holding elements on the building structure loads on the supporting structure in several places in the primary Building construction initiated, so that the supporting structure of the Facade structure is relieved and can be made more delicate.

For the holding elements defined on the building construction, according to a Further development of the invention preferred that this articulated to the primary Building construction are defined and such that the connection is a Movement of the holding elements relative to the building construction at least in one standing vertically on the facade level of the secondary facade, in allows a substantially vertical plane. A flexible definition the holding elements in the manner described above provide yet another Possibility of movement in the supporting structure, as this is not due to rigid space arranged holding elements is limited. Even those on the primary Building elements can be fixed due to the articulated structure Tilt the arrangement and thus an occurring due to tension forces Follow the shape change of the facade structure and to neighboring ones Pass on support elements or holding elements.

According to a further advantageous embodiment of the invention, the Facade structure characterized in that each on a holding element two facade elements arranged in an essentially horizontal row preferably adjoin one another while leaving a butt joint, whereby arranged between two such horizontal rows of facade elements Holding elements at the same time facade elements from the two on top of each other horizontal rows preferably also leaving a butt joint adjoin each other. Rectangular or square facade elements in other words held at their corners by the holding elements. there meet a maximum of four facade elements on the holding elements one above the other, each facade element is held by four holding elements. In Such an arrangement, the support elements are in an area in which the Adjacent facade elements so that, for example, in the Use of glass elements as facade elements in the middle area a view through the glass elements is not disturbed by the supporting elements.

In another aspect of the invention, the above object is achieved by a retaining element for use in an above-described wall structure with a pivot bearing portion for receiving and articulating a free end of an essentially rod-like or rope-like support element and a holding portion for receiving a with the retaining element facade element to be held.

The spherical bearing section on which the free end of a substantially rod or rope-shaped support element can be articulated, allows a articulated movement of the support element relative to the holding element and leads in a facade structure constructed with such a holding element to the above benefits implemented. The support element can with its free end already in the manufacture of the holding element in the spherical bearing section be determined that the parts mentioned are inextricably linked, however, the holding element and the supporting element are preferably separated from one another manufactured and connected to each other only when erecting the facade structure. For this purpose, for example, a rod-shaped support element at its free end have a thread with which it is connected to a connecting pin in the Spherical bearing section can be connected. This connector is again part of a joint formed in the joint bearing section.

For use in a facade construction described above, it is for a Holding element is advantageous if, as in an advantageous development provided the invention, two axially opposite each other Spherical bearing sections and one between these spherical bearing sections running holding section with brackets for an upper and a lower Has facade element. Such a holding element can for one Facade structure with support elements running in two levels become. For example, from one side of the facade structure seen first be a level in which a first group of Support elements runs, then a level in which the facade elements are arranged and finally a level with arranged therein Supporting elements. This division leads to the fact that in their dimensions are reduced even further, in particular rod-shaped Supporting elements of smaller diameter, which can be used an attractive look and a corresponding aesthetic Overall impression of a facade construction leads.

With the advantages already described above, one can holding element according to the invention, the brackets formed as holding slots his.

In one possible embodiment, a holding element described above can advantageously be characterized in that the holding element in is essentially cuboid in shape, with in each case in the region of the end faces two opposing longitudinal surfaces connections for connecting a joint located in the cuboid with the support elements arranged so are that the support elements connected to the joint essentially run perpendicular to the longitudinal surfaces, two each along the Narrow sides of the cuboid opposite support elements to each other aligned. The cuboid shape includes a cube shape. In a Further development such a holding element can also be designed so that in the area between the connections parallel to the narrow edges of the Rectangular and perpendicular to the vertical direction of the long side with the connections slots in the cuboid as holders for the facade elements are arranged. Holding slots arranged in this way enable one Facade structure described above with overlapping facade elements with the advantages mentioned. If, as according to another advantageous Further development of the invention provides a first slot in a first with a Connection provided long side of the cuboid and parallel to the first slot a second slot in the opposite side can be made with the Holding element each have an upper edge of a first facade element and one lower edge of a second facade element are held.

The holding element according to the invention is preferably constructed in several parts, for example from elements made of metal, such as milled or cast Aluminum.

In a further advantageous embodiment of the invention is a holding element characterized in that an extension is formed on this one Fastening structure for articulating fixing of the holding element on one for example, trained in the primary building construction Has attachment point. Such a holding element can, for example, on the Building construction can be articulated with those related above advantages already described with the facade structure.

Fig. 1

eine geschnittene Seitenansicht eines erfindungsgemäßen Fassadenaufbaus,

Fig. 2

den in Fig. 1 mit II bezeichneten Ausschnitt in vergrößerter Darstellung,

Fig. 3

in perspektivischer Ansicht einen Ausschnitt aus einem erfindungsgemäßen Fassadenaufbau,

Fig. 4

in Explosionsdarstellung ein Halteelement aus einem erfindungsgemäßen Fassadenaufbau mit daran anschließenden weiteren Elementen,

Fig. 5

schematisch und skizzenhaft den Aufbau eines Halteelementes eines Gelenkabschnitts eines Halteelementes,

Fig. 5a

in schematischer Darstellung eine Schnittansicht auf einen Schnitt entlang der Linie A-A in Fig. 5,

Fig. 5b

in perspektivischer Darstellung skizzenhaft eine alternative Ausgestaltung eines Lagerblocks für einen Gelenklagerabschnitt eines Halteelementes gemäß Fig. 5,

Fig. 6

in schematisch geschnittener Seitenansicht ein Halteelement mit alternativ ausgestalteten Gelenklagerabschnitten sowie in dem Halteabschnitt ausgebildeten Halteschlitzen,

Fig. 7

eine Variante zu dem Halteabschnitt gemäß Fig. 6 in schematischer Seitenansicht und

Fig. 7a

ebenfalls in schematischer Ansicht die in Fig. 7 dargestellte Variante in geschnittener Vorderansicht.

Further features and advantages of the invention result from the following description of exemplary embodiments with reference to the attached figures. Show:

Fig. 1

2 shows a sectional side view of a facade structure according to the invention,

Fig. 2

1 in an enlarged representation, designated II in FIG. 1,

Fig. 3

a perspective view of a section of a facade structure according to the invention,

Fig. 4

an exploded view of a holding element from a facade structure according to the invention with adjoining further elements,

Fig. 5

schematically and sketchily the structure of a holding element of a joint section of a holding element,

Fig. 5a

a schematic representation of a sectional view of a section along the line AA in FIG. 5,

Fig. 5b

5 shows a perspective illustration of an alternative embodiment of a bearing block for a joint bearing section of a holding element according to FIG. 5,

Fig. 6

a schematically sectioned side view of a holding element with alternatively designed joint bearing sections and holding slots formed in the holding section,

Fig. 7

a variant of the holding portion of FIG. 6 in a schematic side view and

Fig. 7a

likewise in a schematic view the variant shown in FIG. 7 in a sectional front view.

In the figures, the same elements have the same reference numerals or each other corresponding elements with corresponding reference numerals Mistake.

Fig. 1 shows a sectional side view of an embodiment of a Facade structure according to the invention 1. The facade structure 1 is shown in the Embodiment designed as a secondary facade, the primary facade 2 upstream of a building. Both facades 1 and 2 are not closer to the described primary building construction. The facade structure 1 consists of a supporting structure, which consists of supporting elements 11 and holding elements 10a, 10b connected to the supporting elements 11 is composed. In the holding elements 10a, 10b of the support structure Facade elements 20 used. The facade elements 20 are in one obliquely to the direction predetermined by the support elements 11 Direction arranged and overlap each other. It is between the top edge one facade element and the lower edge of an adjacent one Façade element a distance S is formed. The facade elements 20 are in Embodiment shown glass sheet elements. The support elements 11 are rod-shaped and made of metal, for example steel.

The holding elements designated 10a are on the primary Building construction in a manner to be described in more detail, while the holding elements 10b only connected to the adjacent support elements 11 are.

In FIG. 2, the section designated II in FIG. 1 is shown on an enlarged scale shown. Here too, facade elements 20 can be seen in the form of Glass panes and one fixed to the primary building construction Holding element 10a. The holding element 10a has a central holding section 101 as well as two spherical bearing sections 102 located at the edge. In the Spherical bearing sections 102 are each two hinge blocks 103 in one way arranged, as can be seen particularly well in FIG. 5a. These bearing blocks 103 are on a bolt 104 which is guided transversely through the holding element 10a articulated. Screw threads 105 are in each case in the bearing blocks 103 into which the free ends of the rod-shaped support elements 11 are screwed in.

The bearing blocks 103 have a in the body of the holding member 10a sufficient play so that the screwed to the bearing blocks Support elements 11 relative to the holding element 10a at an angle of can preferably move 2 ° to 10 °. In the holding section 101 of the Holding element 10a slots 106 are formed, in which the Facade elements 20 are introduced with their upper or lower edge. The Slits 106 run at an angle to the facade plane, which is the one in FIG. 1 overlapping arrangement of the facade elements 20 to be recognized. With an extension 112, which can be seen better in FIG. 4, in which a bearing opening 113 is designed in the form of an elongated hole, the holding element 10a is by means of a bolt 118 connected to the primary building structure. The The connection between the pin 118 and the bearing opening 113 is articulated formed so that the holding member 10a around the formed by the pin 118 Axis of rotation can be rotated at least to a certain extent.

Furthermore, a guide element denoted by 12 can be seen in FIG. 2, which is attached on the one hand to a support element 11 and on the other hand the in Fig. 2 below shown facade element 20 leads laterally or in the Position stabilized.

3 is a perspective view of a section of a facade structure according to the invention shown.

Just as described above with reference to FIG. 2, are also not in the primary building structure specified holding elements 10b next to one Holding section 101 spherical bearing sections 102 formed, in which the Support elements 11 are articulated to the holding element 10b. Through the articulated connection between the holding elements 10a, 10b and The facade structure 1 according to the invention can be supported by support elements 11 Movement of the holding elements 10a, 10b relative to the support elements 11 and thus of the facade elements 20 held by the holding elements 10a, 10b in the Compensate facade structure 1 occurring tensions. These are not or only to a lesser extent to the support elements 10a, 10b and support elements 11 formed support structure released, but by slight deformation of the facade structure 1 compensated. The articulated fixing of the holding elements 10a on the primary building construction increases the freedom of movement of the Facade construction 1, but still allows the removal on the Facade construction 1 loads on the primary building construction. At the Erecting the facade structure 1 does not have to apply any prestressing forces to the facade elements 20 in the holding elements 10a, 10b set. Instead, there are slight differences in distance, such as those found in Within the usual tolerances result in one in the support structure Moving the support elements 11 relative to the holding elements 10a, 10b and thus to compensate.

In Fig. 4 is an exploded view for a fixation on the primary facade 2 equipped holding element 10a shown. As can be seen, there is Holding element 10a made of a basic element with two spherical bearing sections 102 and a web 107 connecting them. Slots 106 are in the web 107 shaped, which serve as holding slots for attaching the facade elements 20. On the web 107 are screwed to the side parts 108 by means of bolts 109. Finally, a fastening cover 110 is attached to the web 107 by means of bolts 111 put on and protrudes beyond the side parts 108. With the joint bearing sections 102 Support elements 11 are shown connected. The holding element 10a instructs one of the spherical bearing sections 102 on an extension 112, in which one Bearing opening 113 is introduced in the form of an elongated hole. With this extension 112 and the bearing opening 113 arranged thereon, the holding element 10a a bearing connection L, which is rigid with the primary building construction is connected to be fastened with a bearing pin 118. On the bolt is a bearing sleeve 119 is placed on it.

5 is a schematic perspective view of a holding element 10, which either as a holding element 10a with extension or as a holding element 10b can be formed without an extension. In the bearing section 102 are two opposite bearing blocks 103 by means of a bearing pin 104 articulated. 5a, this is again taken in a sectional view shown along the section line A-A in Fig. 5. In the bearing blocks 103 are Internal screw thread 105 attached, into the free ends of support elements 11 can be screwed. Between the bearing blocks 103 and the The body of the holding element 10 is designed so that there is sufficient play Bearing blocks 103 about 2 ° to about 10 ° with respect to the holding element 10 can move.

An alternative embodiment of a spherical bearing section 102 is shown in FIG. 5b shown. There is shown a single bearing block 103, in which from above as from below a support member 11 can be screwed, and which by a Bolt 104 is articulated. Such a bearing block allows only one restricted relative movement between the support elements 11 and the Holding element 10, since here both support elements 11 with respect to the Holding element 10 are moved equally. In a facade structure 1 can have different holding elements 10 with either separate bearing blocks 103 in the spherical bearing section 102 or a continuous bearing block 103 be used. For example, the holding elements 10b can be one Bearing block 103 according to FIG. 5b, the holding elements 10a two separate bearing blocks 103 according to FIG. 5a.

6 shows an alternative embodiment of the in a schematic view Spherical bearing sections 102 of a holding element 10 are shown. Here are for Fixing the ends of the support elements 11 in bearing openings 114 articulated arranged rotary anchor 115 provided. These can be compared to the body of the holding element 10 by a maximum angle of 2 ° to approximately depending on the application Can be tilted 10 °. 6 are also shown at an angle α led obliquely into the holding element 10 with respect to the facade level Holding slots 106, each with a holding slot 106 in the figure from above or from is guided at the bottom into the holding element 10 and these holding slots are parallel to each other.

In Figs. 7 and 7a is a variant of the embodiment shown in FIG. 6 of the spherical bearing section 102 shown, in which the rotary anchor 115 is not in two separate storage openings 114, but in a common, as an elongated hole trained bearing opening 117 are arranged.

With the holding elements described can because of the spherical bearing sections 102 is a facade structure described above with the advantages mentioned for this be erected.

The exemplary embodiments shown are only for the purpose of description and are intended to be the scope of those described in the following claims Do not limit the invention. So are modifications of the shown Embodiments conceivable, which are also within the scope of the claims fall. In particular, it is obvious to a person skilled in the art that the holding elements functionally can be divided into two separate elements, namely a joint element for connecting support elements and a pure one Holding element, which without an articulated connection to the support or Joint elements is arranged and only the holder of the facade elements serves.

LIST OF REFERENCE NUMBERS

1

facade construction

2

primary facade

10

retaining element

10a

retaining element

10b

retaining element

11

supporting member

12

guide element

20

facade element

101

holding section

102

Joint bearing section

103

bearing block

104

bolt

105

thread

106

slot

107

web

108

side panel

109

bolt

110

mounting lid

111

bolt

112

extension

113

bearing opening

114

bearing opening

115

rotating armature

116

elastic element

117

bearing opening

118

bolt

119

bearing sleeve

α

angle

S

distance

L

storage terminal

Claims (17)

Facade structure made up of several in a supporting structure held, essentially plate-shaped facade elements (20), in particular glass elements, the supporting structure essentially load-bearing support elements running vertically along the facade (11) and with the support elements (11) connected holding elements (10, 10a, 10b), the facade elements (20) in the holding elements (10, 10a, 10b) and the holding elements (10, 10a, 10b) with the Support elements (11) are articulated. Facade structure according to claim 1, characterized by rod-shaped or rope-shaped supporting elements (11). Facade structure according to one of claims 1 or 2, characterized in that the supporting elements (11) are articulated to the holding elements (10, 10a, 10b) in such a way that they are at least perpendicular to the holding elements (10, 10a, 10b) are movable to a facade level, essentially vertical level. Facade structure according to claim 3, characterized in that the supporting elements (11) can be moved by an angle of between 2 ° and 10 ° relative to the holding elements (10, 10a, 10b) articulated to them. Facade structure according to one of the preceding claims, characterized in that the facade elements (20) are held in the area of their upper edge and lower edge in holding slots (106) of the holding elements (10, 10a, 10b). Facade structure according to one of the preceding claims, characterized in that the facade elements (20) are arranged at an angle (α) to the substantially vertical facade plane and overlap one another such that an upper edge of a lower facade element (20) from the lower edge of a overlying facade element (20) is overlapped. Facade structure according to one of the preceding claims, characterized in that it is a secondary facade in front of a primary facade (2) of a building and that at least part of the holding elements (10a) is fixed to the primary building construction. Facade structure according to claim 7, characterized in that the holding elements (10a) fixed to the primary building structure are articulated to it in such a way that the connection causes a movement of the holding elements (10b) relative to the primary building structure in at least one on the facade level of the building Secondary facade allows vertical, essentially vertical plane. Facade structure according to one of the preceding claims, characterized in that two respective facade elements (20) arranged in a substantially horizontal row adjoin one another on a holding element (10, 10a, 10b), preferably while leaving a butt joint, whereby between two such horizontal rows Facade elements (20) arranged holding elements (10, 10a, 10b) at the same time also adjoin facade elements (20) from the two rows one above the other, preferably also leaving a butt joint. Holding element for use in a facade structure (1) according to one of the The preceding claims with a spherical bearing section (102) for Pick up and articulated bearings of a free end of an im essential rod or rope-shaped support element (11) and one Holding section (101) for receiving a holding element (10, 10a, 10b) facade element (20) to be held. Holding element according to claim 10, characterized in that it has two joint bearing sections (102) lying axially opposite one another and a holding section (101) running between these joint bearing sections (102) with holders for an upper and a lower facade element (20). Holding element according to claim 11, characterized in that the holders are designed as holding slots (106). Holding element according to one of claims 11 or 12, characterized in that it is essentially cuboid in shape, with connections for connecting a joint located in the cuboid to the supporting elements (11) being arranged in the region of the end faces in each case on two opposing longitudinal surfaces, that the support elements (11) connected to the joint run essentially perpendicular to the longitudinal surfaces, two support elements (11) opposite each other along the narrow sides of the cuboid being aligned with one another. Holding element according to claim 13, characterized in that slots (106) are arranged in the area between the connections parallel to the narrow edges of the cuboid and run transversely to the perpendicular direction of the long side with the connections in the cuboid as holders for the facade elements (20). Holding element according to claim 14, characterized in that a first slot (106) is guided into a first longitudinal side of the cuboid provided with a connection and parallel to the first slot (106) is a second slot (106) in the opposite side. Holding element according to one of claims 10 to 15, characterized in that it is constructed in several parts. Holding element according to one of claims 10 to 16, characterized in that an extension (112) is formed thereon, which has a fastening structure (113) for articulatingly fixing the holding element (10a) at a fastening point (L) formed, for example, in the primary building construction ,

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