CZ4702U1 - Load-supporting bottom structure for suspended facades - Google Patents

Description

(54) Utility model name:

Supporting substructure for suspended facades

Supporting substructure for suspended facades

Technical field

The technical solution relates to a substructure for suspension facades used for cladding of buildings.

BACKGROUND OF THE INVENTION

The hitherto known substructure for suspension facades is made of wood or metal.

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The main disadvantage of wood-bearing substructure for suspension facades is seen, especially in the need to protect wooden elements λ against mold, water, etc., which is laborious and expensive to use various preservatives. Metal supporting substructures for suspended façades are mostly focused on specific façade materials, without the possibility of universal use. The main disadvantage of these metal substructures is that they make it very difficult to adapt flexibly to uneven building walls. Leveling the wall flatness using these metal structures is very demanding in terms of assembly.

The strength of application of the required thermal insulation is limited by the design itself and in some cases does not allow the use of a dimension of thermal insulation that fully meets the requirements for thermal resistance.

Another disadvantage of both construction solutions is seen in the complexity of the assembly, which is conditioned by the use of scaffolding, which significantly increases the cost of assembly.

The essence of the technical solution

These drawbacks are largely eliminated by the substructure for suspension facades according to the present invention, which consists of a shaped anchor having at least one hole for the anchor bolt on its first side, the other side of which is secondly, arrangements _simply can triḥ horizontal bending and secondly at least one mounting hole. The support profile is slidably disposed between a portion of the lower face of the other side of the shaped anchor and the top face of the cut.

The main advantage is seen both in the possibility of use also for buildings with large unevenness of the existing cladding and secondly in its versatility for the use of any cladding facade material. Another advantage is seen in the possibility of using any thermal insulation force. Another advantage is easy and quick assembly, using not only classical scaffolding, but also suspension bridges.

For proper operation, it is advantageous that the form-bent anchor is provided on its longitudinal sides with a reinforcing edge embossment, that the support profile is formed by a profile having an L-shaped cross-section and that the form-bent anchor is bent at an angle of 90 °.

-1GB 4702 Ul

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution will be explained in more detail by means of the drawing, in which FIG. 1 shows the supporting substructure for suspension facades in a pre-assembled state, with the connection elements indicated, FIG.

the supporting substructure for suspension facades after joining by means of fasteners and FIG. 3 a variable range of length of the other side of the shaped bent anchor.

Examples

The supporting substructure for suspension facades, according to Figs. 1 and 2, is formed by a form-bent anchor 1 provided on its first side with one hole for anchor bolt 9. · Fixing the form-bent anchor 1 to the existing peripheral wall 4, washers 2 and dowels 5. *

For greater shape strength, the form-bent anchor 1 is provided on its longitudinal sides with a reinforcing edge embossment 11. The form-bent anchor 1 is bent at an angle of 90 °. The other side of the bent anchor 1 is provided with a horizontal bend 7 and two mounting holes 10. The support profile 6 is formed by a profile having an L-shaped cross-section. The support profile 6 can also be T or Y or Z-shaped. or other shapes enabling the façade elements to be clamped. The support profile 6 is freely slid between a portion of the lower surface of the other side of the shaped anchor 1 and the top surface of the cut 7. 6. After accurate horizontal or vertical alignment of the support profile 6, the support profile 6 is fastened to the form-bent anchor 1 by means of two self-tapping screws 2. anchors 1 with the shortest second side and the longest second side can compensate for unevenness of up to 270 mm. Within an anchored shape anchor 1 of equal length, an unevenness of up to 30 mm can be achieved.

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Industrial Applicability, »

The supporting substructure for suspended façades is especially intended as a universal anchorage for suspended façades, suspended ceilings »and interior shelves.

Claims (4)

PROTECTION REQUIREMENTS Supporting substructure for suspension façades, characterized in that it is formed by a form-bent anchor (1) provided on its first side with at least one hole for an anchor bolt (9), the second side of which is provided with a cut-out (7) with by horizontal bending and, on the other hand, by at least one mounting hole (10), while the support profile (6) is freely slid between a portion of the bottom surface of the other side of the shaped anchor (1) and the top surface of the cut (7). Suspension façade support structure according to claim 1, characterized in that the form-bent anchor (1) is provided on its longitudinal sides with a reinforcing edge embossment (11). Supporting substructure for suspension facades, according to claim 1, characterized in that the support profile (6) is formed by a profile having a cross-section in the shape of a letter, L or T or AT. Supporting substructure for suspension façades according to claim 1, characterized in that the shaped anchor (1) is bent at an angle of 90 °.