DE19606906C2 - Facade system for vertical, diagonal and horizontal cladding of buildings - Google Patents

Description

The invention relates to a facade system for vertical, diagonal and horizontal Cladding of buildings according to the generic concept of the main claim.

A generic facade system is from the company's brochure Staba / Wuppermann known (see extracts from the company brochure as of April 1993). This system consists of posts and metallic hollow profiles lockable bars. Those not shown in the extract from the prospectus Filling elements, in particular laminated glass elements are in the by post and latch formed metal frame arranged. The loads of the filling elements are taken up by a support element, which in the company brochure with a bolt holder is referred to as the connection between the bolt and Post is manufactured. For this purpose, holes are made in the respective end area Carrier element provided, through which a threaded screw can be inserted, with a countersunk rivet nut arranged in the bolt can be connected. The attachment of the Carrier element on the post takes place in a comparable manner, the Carrier element in the middle has an upwardly extending web, which a corresponding hole is provided. In addition, in the middle itself is also a hole is provided. Since the attachment of the support element to the post and on the bolts with cap screws must cover the heads so-called glass holder can be inserted into the support element. The adaptation the support element to different glass thicknesses is done in such a way that  Carrier element is cut to the appropriate width from the extruded profile. To the Closing to the outside, the known system has retaining strips, which in the Threaded studs and bolts arranged with matching nuts are attachable. To increase the insulation resistance of the facade system can between the retaining strips and that formed from posts and transoms Metal frames so-called threaded sleeves made of plastic can be arranged by can be screwed in on both sides. When assembling, threaded bolts are first in the threaded holes provided for posts and transoms screwed in, then the threaded sleeve onto the protruding threaded bolts screwed on. Then thread bolts from the other side into the Threaded sleeve screwed through the corresponding holes in the Extend holding strips. In conclusion, these stand out Threaded stud head screws are screwed on to secure the retaining strips. The Fastening of the horizontally running holding elements at the crossing point between Posts and transoms are made using M6 threaded bolts screwed into the support element. To seal the system, the posts, the transom and the are in the grooves Holding strips arranged according to molded seals.

The disadvantage of this system is that it lasts as long as the bolt is assembled must be held until the screws inserted through the support element engage. So that the latch is not crooked, the support element must be aligned exactly become. The glass holders for covering the screw heads are additional parts, which increase the total effort for assembly. Another disadvantage is that the end the transom cannot be supported directly on the post, but indirectly via the attachment with the support element. Since this attachment at the end of the Carrier element is provided, this results in a long lever arm between Attack and support point. The arrangement of the countersunk rivet nuts in the post and Bolt for receiving the threaded bolt is time-consuming, because this is previously in the Workshop must be done. The exact arrangement of the Threaded holes in mullions and transoms to accommodate the retaining strips load-bearing threaded bolt. In addition, the assembly through constant adjustment the protruding length of the threaded bolt increases, otherwise the distance in Relation to the thickness of the filling elements is too small or too large and in the latter case the Depth of the cap screw for a secure fastening of the retaining strips no longer is sufficient. The type of adjustment of the width of the support element to different  Glass thickness is problematic, as this can lead to confusion and the Effort for storing the spare parts increased accordingly.

DE 38 43 737 A1 discloses a mullion-transom system, in which a appropriately trained transom retainers releasably connect the transom to the post are. An essential characteristic of the known bar holder is an in the bar insertable and in this longitudinally displaceable fitting on the two Plug pins arranged for insertion into corresponding holes in the post are. To guide the bolt holder, the adapter is with an elongated Guide rail connected to an outwardly extending interlocking profile of the bolt interacts. To attach the Bolt holder on the bolt, the guide rail has a threaded hole at the end into which a screw that can be inserted through a hole in the bolt can be screwed. To ensure that the mullion-transom connection point is as rigid as possible, comes in In the sense of a three-point bearing, the face of the post facing the Guide rail on the long side of the outwardly extending nose-shaped trained profile of the post to the plant. In addition, the groove of the Post a threaded screw extending through the guide rail be brought to their conical approach, so that a kind Parenthesis results.

The object of the invention is to provide the generic facade system for vertical, to improve diagonal and horizontal cladding of buildings in such a way that when using as wavy parts as possible for the preparatory workshop as well the erection of the facade is also easy to assemble on site and that Overall system is stable and torsionally rigid.

This task is carried out in the characterizing part of the main claim specified features solved. Advantageous further training is part of Subclaims.

In contrast to the known facade system, one that is known per se Bolt holder used for detachable fastening of posts and transoms. This Bolt holder can be fixed in the bolt in the workshop, so that when handling the Bar cannot fall out at the construction site. The  The mounting screw can also be used to move the bolt holder the pins of the socket pins in the holes arranged in the post introduce. It is not possible to hold the latch until it is finally attached required because after inserting the pin the bolt is in its final position has taken. Another advantage over the known facade system arises from the fact that the multifunctional glass carrier does not directly with the Bolt, but is connected to the bolt holder inserted into the bolt, in addition to the known direct attachment to the post. This has the Advantage that part of the bolt holder inserted into the post of the transom holder Loads are absorbed and only a remainder loads the bolt itself. Besides, will the connection of the transom to the post through this connection system torsionally stiff and stable. The proposed facade system also offers the possibility of placing all posts separately and then the bars between insert the posts and close them using the previously inserted transom holder fasten.

The support width of the multifunctional glass support is changeable, whereby in Difference from the known prior art in adapting the basic element the most frequently used glass thickness always has the same width. The reduces the manufacturing costs for the multifunctional glass support and reduces the Expenditure for the storage of spare parts. Besides, there can be none Confusion comes.

Another aspect in terms of easy installation of the facade system according to the invention is the attachment of the known Retaining strips on the metal frame. Instead of the expensive to assemble threaded bolts and the associated tapped holes to be drilled precisely Self-drilling screws are used with a pressure spacer sleeve interacting guide sleeve are guided. This procedure has the great advantage that the previous installation of There are no threaded holes or rivet nuts in the mullion and in the transoms can. Another advantage is that to attach the glass support There is no need for tapped holes because of the use of so-called self-tapping and self-locking tribolar screws simple Holes are sufficient. It has also been ensured that the heads of all  Fastening screws have the same type and the same dimensions, so that only one screwing tool is required for assembly.

The multifunctional glass support according to the invention is characterized in that it is universally applicable, once with regard to different thicknesses of the Filling material and the other with regard to the transfer of different sizes Loads. At the same time, the multifunctional glass support serves to hold the fixing screw connection or end screw connection of the retaining strips. For the first The multifunctional glass support has transverse grooves into which one aspect Edition extension profile can be inserted, so that the edition of the thickness of the Filling material is adjusted. Another hole is for the second aspect provided to attach an arm of the multifunctional glass support not only with one, but to be able to be fastened in the transom holder with two threaded screws. In addition, the multifunctional glass support according to the invention in Difference from the known prior art in the middle one down and one down extending web on top, so that through the double web thereby formed two threaded screws can be inserted. This is especially true for the Corner connection of importance, since then usually an arm of the multifunctional Glass carrier is separated. All heads of the fastening screws are in the Retractable carrier element so that a glass holder covering the cap screws can be omitted.

The drawing according to the invention is shown in the drawing using an exemplary embodiment Facade system explained in more detail.

Show it:

Fig. 1 is a perspective view of the crossing point of a facade system according to the invention after final assembly

Fig. 2 as Fig. 1 as an exploded view

Fig. 3 is a perspective view of the attachment of the multifunctional support element according to the invention at the crossing point

Fig. 4 as shown in FIG 3 in an exploded view.

Fig. 5 is a perspective view of the multi-functional support element.

In Fig. 1 is a perspective view of the junction point of a facade system according to the invention after final assembly. The essential elements of this facade system are the post 1 made from a hollow profile and the transoms 2 which can also be connected to it and also made from a hollow profile. The filling elements, here in this exemplary embodiment a composite glass pane element 12 consisting of two panes, are arranged in the metal frame formed by mullions 1 and transoms 2 . The conclusion towards the outside is formed by retaining strips 14 , 20 , which are connected to the metal frame with corresponding fastenings, as will be explained in more detail below. To seal the system, correspondingly molded seals 5 , 6 , 13 are arranged in the longitudinal grooves of the post 1, the latch 2 and the holding strips 14 , 20 .

Fig. 2 shows like Fig. 1 the same section of the facade system, but this time in an exploded view. In this illustration, the connection of the holding strips 14 , 20 to the metal frame can be clearly seen. The crossover area of the holding strips 14 , 20 is fastened in this exemplary embodiment with a total of three screws 16 , which are provided with a sealing washer which cannot be seen here. The horizontal holding strips 14 abutting the vertical continuous holding strip 20 are provided with an end seal 15 in the stop area. The three aforementioned fastening screws 16 are screwed into the multifunctional glass support 8 . For this purpose, transverse threaded holes 21 are arranged in the multifunctional glass support 8 (see FIG. 5). Using the fastening screws 16 mentioned , both the vertical and the horizontal retaining strips 14 , 20 can be pre-fixed in a simple manner. The actual fastening of the holding strips 14 , 20 according to the invention lies outside the crossing area. Reference number 17 denotes a self-drilling screw which is guided by means of a guide sleeve 18 which interacts with a pressure-distance sleeve 19 . During assembly, the guide sleeve is inserted through the respective hole of the retaining strips 14, 20 18 and 19 Andrückdistanzhülse forth slightly clampingly pushed from the rear. Then the self-drilling screw 17 is inserted as far as possible into the guide sleeve 18 . After the drilling machine has been attached, the screw 17 is turned, which then, with its specially designed drill tip, turns into the nose-shaped profile of the post 1 or the latch 2 . Thus, the fastening screws 17 are set in a very short time without marking and other preparations and thus the retaining strips 14 , 20 are fastened.

FIG. 3 shows, comparable to FIG. 1, in a perspective view the type of fastening of the multifunctional glass carrier 8 . With a total of three screws 10 , 11 , the multifunctional glass support 8 is fastened to the post 1 and to the two bars 2 striking in the intersection area. The multifunctional glass support 8 is designed so that the attachment can be reinforced with extremely large loads. On the one hand, a further transverse bore 22 (see FIG. 5) can be screwed into the additional screws 10 a in the respective support arm of the multifunctional glass support 8 . In the area of the end post of the facade, a support arm of the multifunctional glass support 8 is separated and the attachment is carried out via the double web 23 and a support arm of the multifunctional glass support 8 . For this purpose, the central region of the multifunctional glass carrier 8 is designed as a double web 23 (see FIG. 5), so that this region of the multifunctional glass carrier 8 can be connected to the post 1 by means of two fastening screws 11 . This type of fastening results in a very stable and torsion-resistant construction.

Fig. 4 shows like Fig. 3 the same section of the facade wall construction, but in an exploded view. This illustration shows in particular the use according to the invention of a bar holder 3 known per se. This latch holder 3 has a guide rail 24 and two socket pins 25 , the pins of which can be inserted into corresponding bores 26 of the post. The guide rail 24 interacts with the outwardly extending nose-shaped profile of the bolt 2 . For fixing the bolt holder 3 in the workshop, the end region of the bolt 2 has an elongated hole 27 through which a mounting screw 4 can be inserted. During the pre-assembly, the transom holder 3 is pushed so far into the transom 2 and fixed by the mounting screw that the transom 2 can be pushed between two set posts 1 . By moving the mounting screw 4 , the transom holder 3 can be moved in the direction of the post 1 until the pins of the socket pins 25 engage in the bore 26 of the post 1 . The actual fastening now takes place in such a way that the fastening screws 10 are inserted through the multifunctional glass support 8 and through the bores 28 of the bolt 2 , in order then to be screwed into the threaded holes 29 in the guide rail 24 . In this way, the latch 2 , the latch holder 3 and the multifunctional glass support 8 are attached. Alternatively, instead of the threaded bore 29, a bore can be provided into which a so-called self-tapping and self-locking tribolar screw is screwed.

Fig. 5 shows a perspective view of the multi-functional glass support 8. The essential elements of this multifunctional glass support 8 and their interaction with the other parts of the facade system have already been explained in detail in the previous figures. The widening possibility can be seen more clearly in this illustration than in the previous figures. For this purpose, transverse grooves 30 are provided in the arms of the multifunctional glass support 8 so that a support widening profile 9 can be inserted therein. In this way, starting from the standard width of the multifunctional glass carrier 8, a large area can be covered within filling elements of different thicknesses. The illustration further shows a groove 32 extending over the length of the respective support arm. This groove is also arranged on the rear side of the multifunctional glass carrier 8 , which is not visible here. This groove 32 is used to attach a cover for special cases in which the overhead glass composite of the underlying panes is to be protected from contact with water standing thereon. B. to clip.

Claims (12)

1.Facade system for vertical, diagonal and horizontal cladding of buildings, consisting of posts made of hollow metal profiles and thus bars releasably connected via a bar holder, of filling elements, in particular laminated glass elements, which are arranged in the metal frame formed by posts and bars and whose loads are caused by im Posts and transoms that can be fastened are accommodated, as well as from retaining strips releasably connected to the metal frame and sealing elements arranged in longitudinal grooves of the metal frame and the retaining strips, characterized in that the guide rail ( 24 ) inserted into the transom ( 2 ), and at least one plug pin ( 25) bar holder having (3) is fixed to the posts (1) in the bolt (2) before the fastening of the bolt (2) and is formed, the support element as a multi-functional glass support (8) and provided with a variable support width, the fastening element for the retaining strip ( 14 , 20 ) has a guide sleeve ( 18 ) for a self-drilling screw ( 17 ) which interacts with a pressure distance sleeve ( 19 ) and the glass support ( 8 ) is connected to the respective latch holder ( 3 ). 2. Facade system according to claim 1, characterized in that for the fixing and displacement of the latch holder ( 3 ) of the latch ( 2 ) in an outwardly extending nose-shaped profile has an elongated hole ( 27 ) through which a threaded hole in the guide rail ( 24 ) screw-in mounting screw ( 4 ) can be inserted. 3. Facade system according to claim 2, characterized in that the length of the elongated hole ( 4 ) is greater than the insertion depth of the transom holder ( 3 ) in the post ( 1 ). 4. Facade system according to claim 1, characterized in that for fastening the multifunctional glass support ( 8 ), the guide rail ( 24 ) of the latch holder ( 3 ) has at least one further bore or threaded bore ( 29 ). 5. Facade system according to claim 1, characterized in that at the intersection post ( 1 ) / transom ( 2 ) for pre-fixing the retaining strips ( 14 , 20 ) at least per retaining strip ( 14 , 20 ) in the multifunctional glass support ( 8 ) screwable fastening screw ( 16 ) is provided and the multifunctional glass carrier ( 8 ) has at least one bore or threaded bore ( 21 ) for this purpose. 6. Facade system according to claim 1, characterized in that the multifunctional glass support ( 8 ) has transverse grooves ( 30 ) for receiving at least one support widening profile ( 9 ). 7. Facade system according to claim 1, characterized in that the multifunctional glass support ( 8 ) has at least one further transverse bore ( 22 ) for receiving an additional screw ( 10 a). 8. Facade system according to claim 1, characterized in that the multifunctional glass support ( 8 ) in the middle has a downward and upward extending web ( 23 ) which is provided with at least one transverse bore for attachment to the post ( 1 ). 9. Facade system according to claim 1, characterized in that the heads of the fastening elements ( 10 , 10 a, 11 ) for connecting the multifunctional glass support ( 8 ) with posts ( 1 ) and latch ( 2 ) in the multifunctional glass support ( 8 ) are retractable. 10. Facade system according to claim 1, characterized in that the multifunctional glass support ( 8 ) continuously on the front and back of the respective support arm has a groove ( 32 ) extending over the length of the support arm. 11. Facade system according to one of claims 1 to 10, characterized in that in the mounting plane of the multifunctional glass support ( 8 ) and the holding strips ( 14 , 20 ), the fastening screws made from a stainless steel ( 10 , 10 a, 11 , 17 ) with Screw heads of the same type and size are provided. 12. Facade system according to claim 11, characterized in that in the mounting plane of the multifunctional glass support ( 8 ), the fastening screws ( 10 , 10 a, 11 ) are designed as self-tapping and self-locking tribolar screws.