SK83699A3 - Frame construction for building facades, roofs and such like - Google Patents

Abstract

At least the posts (3-5) of each frame component are rigidly connected to one another by tension profiles (11-14) running at a distance from one another and angularly to the posts. The ends of the tension profiles are fixed to the installation posts (2,3) fitted on the outer building side. Each framework comprises several pre-installable frame components. The tension profiles are formed as round ribs, preferably as tubes with end-side outer and inner threads. Nuts or screws are used as fixture components and plate springs as expansion compensation components.

Description

Frame construction for building facades, roofs or similar objects

Technical field ¹

The invention relates to a frame structure for building facades, roofs or the like, with at least one frame element bounded by struts and perpendicularly arranged crossbars thereon, having one or more panels for receiving panels, panels or the like.

BACKGROUND OF THE INVENTION

Struts and crossbars of such frame structures

Do they consist of an advantage? hollow profiles of plastic or aluminum. Depending on the shape of the building, the panels are filled with glass panes or opaque panels. The crossbars are fixed to the posts using crossbeam couplings.

The construction of such frame structures has so far been carried out essentially at the construction site, with the struts and crossmembers being shortened from the bars and, if necessary, worked. The pre-assembly was also carried out in the workshop, so that the cross members of the cross members were screwed in advance. All further work was then carried out directly on site. There the position was first adjusted and the first side mounting strut was fixed to the building body. Depending on the size of the façade element, a plurality of crossbars were then placed on the crossbeam connectors and subsequently the crossbars were threaded into the crossbeam connectors of the adjacent strut. If the façade element does not contain any additional struts, the position of the second mounting strut is adjusted and fastened to the building body. Finally, the crossbeams and / or crossbeam couplings are secured, and I panels or panels are fitted into the frame fillings.

The described manufacturing and assembly process of the façade or roof truss construction is uneconomical, since a large proportion of the assembly will be on site. Complex pre-assembly of the entire frame structure, consisting mostly of a number of relatively heavy frame elements, is not possible at the factory because the connection between the posts and crossbars is not strong enough to twist, especially for larger frame structures, so that the frame structure can be transported to the construction site.

The object of the invention is to provide a frame structure for building facades and roofs or similar objects with the features of the generic part of claim 1, so that it can be completely pre-assembled in the workshop or production plant so that only parts of buildings.

SUMMARY OF THE INVENTION

This object is achieved in that at least the struts of each frame element are rigidly connected to each other against torsion by means of one or more perpendicular and spaced apart clamping profiles.

By design according to the invention it is possible to complete the assembly of the truss structure in the contractor's operation so that after assembling the frame structure made of struts and cross members, the clamping profiles are inserted in the last working operation and connected to external assembly braces. It is also possible to anchor the struts and cross members in the workshop in the clamping profiles contemplated by the invention in such a way that the frame structure with individual frame elements is itself so stable and torsion-resistant that it can be transported without the risk of frame deformation even under the harshest conditions to the construction site.

Suitably, the ends of the clamping profiles are fixed to the external struts of each frame structure which can be placed on the side of the building. Each frame structure is made up of several pre-assembled frame elements. Depending on the number and size of the frame elements of each frame structure, the clamping profiles are dimensioned accordingly.

The shelves of the first embodiment extend the clamping profiles expediently inside the crossbars formed as hollow sections and through the strut holes corresponding to the position. In this embodiment, the clamping profiles are invisible from the outside, and this is particularly advantageous when the panels are filled with transparent glass panes. A more stable design and especially for mounting is more advantageous if the crossbars have a guide for the clamping profiles in which they are conveniently guided. Then, the otherwise needed cross-member couplings can even be omitted without affecting the safety of the connection. Since, in particular, the metal crossbeams are produced by the extrusion process as a bar material, the guide can be incorporated into the extrusion process in the simplest way. Alternatively, the clamping profiles can also be arranged outside the crossbars, but at the same height and in particular on the outside of the frame element.

If the connections between the struts and the crossbars are realized using crossbeam couplings, according to the invention it is contemplated that the crossbeam couplings will have guides for clamping profiles.

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Special lines in the cross-sectional profile of the cross members can then optionally be omitted.

The struts and cross members may consist of hollow aluminum profiles. In order to compensate for the non-removable thermal expansion on site, a particular embodiment of the invention is contemplated so that extensibility compensation elements are provided between the fastening elements located on the end of the clamping profiles and on at least one side. A structurally particularly simple solution arises from round internal profiles assembled with external or fastening elements, and the temperature compensating elements provided that the clamping rods, in particular of the tubes, are threaded at the ends, the respective extensibility is the extensibility of the shafts or screws.

plate springs. When the plate springs, as is known, more strongly tension. If this extensibility returns, the disc springs are released without creating undesirable gaps in the joining regions. In order to keep the number of profile cross-sections as small as possible, it is contemplated that the outer mounting struts are designed as closed or semi-open profile sections, wherein, in particular, their cross-sections correspond to or approximately correspond to the cross-sections of the intermediate struts.

When a semi-open profile section is used, the cross-section of the closed profile section of the strut is located to the left or right of the symmetry axis. The semi-open profile sections provide the advantage that the connection elements and the expansion compensation elements allow easy assembly.

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Drawing overview ·

The invention is explained in more detail below with reference to the accompanying drawings, in which: FIG. 1 shows a frame structure according to the invention for facades, roofs or the like with several frame elements, in front view in exploded schematic representation, FIG. 2 shows the mounted struts and cross members of the frame structure according to FIG. 1 in cross-section to the struts, and FIG. 3 several consecutively assembled frame structures of individual frame elements.

DETAILED DESCRIPTION OF THE INVENTION

The frame structure shown in FIG. 1 as a whole, denoted by reference numeral 1, in the illustrated example consists of nine individual frame fields which are always top and bottom bounded by crossbars and side braces. Each of the three frame fields with side and top boundaries of braces and crossbars forms one frame element. Thus, the entire frame structure shown comprises three continuously pre-assembled frame elements. The frame structure 1 has two outer mounting struts 2, 3 and two parallel struts 4, 5 extending parallel thereto. Four crossbars 6, 7, 8, 9 are arranged between the mounting struts 2,3 and the intermediate struts 4, 5. 4, 5 and number of crossbars 6

9 is dependent on the width and height of the frame structure 1, possibly on the number of individual facade elements and the predetermined spacing therebetween. The crossbeams 6-9 are connected together in a known manner by means of crossbeam connectors 10. After complete

In the workshop assembly, the frame structure 1 according to the invention is rigidly connected to the torsion in an even more detailed manner by means of four clamping profiles 11, 12, 13, 14 extending in the direction of the crossbars 6-9. Suitable bars or tubes are used for clamping profiles 11-14. The ends of the clamping profiles are fixed to the outer mounting struts 2, 3.

In the embodiment of FIG. 1, the clamping profiles 11-14 are guided through the interior of the crossbeams 6-9 as well as the corresponding holes in the central crossbars 4, 5. In addition, in this embodiment, the external mounting struts 2, 3 are fixed on parts of the building not shown in the drawings wherein the openings are also formed as semi-open profile sections, the open sides being outwardly, that is to say on mutually opposite sides. The clamping profiles 11 - 14 are in the illustrated embodiment of a pipe having an internal thread on the ends so that they can be fixed to the mounting struts 2, 3 by means of screws 15, 16. For anchoring the frame structure 1, the lengths of clamping profiles 11 14 can be slightly shorter In order to compensate for the expansion or shrinkage caused by heat, the expansion springs 17, 18 are arranged between the heads of the screws 15, 16 and the respective surfaces of the mounting struts 2, 3.

The braces 2 - 5 are connected to the crossbeams 6 - 9 by means of crossbeams 10, with crossbeams and crossbeams 6 - 9 provided with guides for clamping profiles 11-14. Crossbeam couplings 10 need not be used if the crossbeam guides are quite stable . Frame fields bounded by crossbars 6, 9 and braces. 2 - 5 are known

Also filled in with insulating glass panels 19 or panels, which can also be assembled in the workshop.

In contrast to the illustrated embodiment, the clamping profiles 11-14 can also be arranged on the outside at the height of the respective crossbeams 6-9. If the panels are opaque panels, they may also be located between the crossbeams 6-9.

Fig. 3 emphasizes how, for example, the three individual frame structures 1 on the building are assembled to form the overall frame structure of a building that forms a building facade or a partial facade unit. The mounting direction can be carried out from left to right, bottom to top or vice versa.

Claims (12)

A frame structure similar to objects, with boundary struts for building facades, at least one (3-5) and perpendicular to the roof or frame elements arranged thereon (6-9), having a panel (19) for catching similar shapes, characterized by and that at least the struts (3-5) of each frame member connected to the twist by one or more or that are fixed clamping profiles (11-14) extending perpendicular to the struts and spaced apart from each other. A frame structure according to claim 1, characterized in that the ends of the clamping profiles (11-14) are fastened to external struts (2,3) located from the side of the building. Frame structure according to claim 1 or 2, characterized in that each frame structure is made up of a plurality of pre-assembled frame elements. Frame structure according to one or more of Claims 1-3, characterized in that the clamping profiles (11-14) extend inside the crossbars formed as hollow profiles and through the apertures of the struts (3-5) which are adapted to the position. Frame construction according to one of Claims 1-4, characterized in that the cross members (6-9) have guides for the clamping profiles (11-14). • ’> i A frame structure according to any one of claims 1-3 or 5, characterized in that the clamping profiles (11-14) are arranged outside the cross members (6-9), but at the same height and in particular on the outside of the facade or roof element (1). A frame element according to any one of claims 1-3 or 5, characterized in that the clamping profiles (11-14) are arranged outside and between the cross members (6-9), and in particular on the outside of the frame element (1). »’ T A frame structure according to one or more of claims 1-5, having braces (2-5) and cross members (6-9) of the frame members connected together by cross-members (10), characterized in that the cross-members (10) have in its cross-section the guide for the clamping profiles (11-14). Frame construction according to one or more of claims 1-8, characterized in that between the fastening elements (15, 16) mounted on the ends of the clamping profiles (11-14) and the building side with mounting struts (2, 3), 3) each of the frame members are provided on at least one side of the extensibility compensation elements (17, 18). Frame structure according to claim 9, characterized in that the clamping profiles consist of round bars (11-14), in particular tubes with internal or external threads at their ends, and that the fastening elements are nuts or screws (15, 16) and the elements that compensate for extensibility are disc springs (17, 18). Frame construction according to one or more of the preceding claims 1-10, characterized in that the outer mounting struts (2, 3) are designed as closed or semi-open profile sections. Frame structure according to claim 11, characterized in that the frame structure according to claim 11 is characterized by a frame structure. characterized in that the cross-sections of the external mounting struts (2, 3) correspond, or approximately correspond to the cross-sections of the intermediate struts (4, 5).