CZ115192A3 - Device for fastening of a facade element - Google Patents

Abstract

The device is used for additional fixing of the façade element (4) made of concrete that is held to the concrete concrete wall (1) with metal stirrups (2). Between concrete The wall (1) and the facade element (4) are inserted a layer (3) of thermally insulating material. The device is formed at least one pulling anchor (5) which is anchored in a hole made in the supporting concrete wall (1) and passing through the hole in the facade element (4) and the thermal insulation layer (3) material. The pull-in anchor (5) is on the outside of the facade of the element (4) is directed obliquely upward into the supporting concrete wall (1), preferably at an angle of 45 ° to the horizontal.

Description

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to the fastening of a concrete façade element which is held by metal brackets at a distance from a load-bearing concrete wall with an embedded heat insulating layer, the curved metal brackets being cast into the concrete wall and into the facade element. and facade element.

BACKGROUND OF THE INVENTION

Such a wall construction is mainly used in residential buildings which have been constructed of prefabricated elements in recent years, the individual wall wall elements being manufactured as prefabricated elements from a load-bearing concrete wall, facade element and thermal insulation arranged between them and assembled on site. However, the thermal insulation between the façade element and the concrete wall no longer meets the requirements, so it is necessary to provide additional thermal insulation on the façade element. However, for this purpose, the supporting metal brackets of the façade element are not dimensioned and the metal brackets are often subject to corrosion, which, if improperly positioned in the wall, significantly reduces their bearing function, so that even without additional thermal insulation of facade elements on the concrete wall.

SUMMARY OF THE INVENTION The object of the present invention is to provide an easy-to-assemble fastening by means of which the façade element is anchored to the bearing concrete wall in the described wall construction such that additional thermal insulation can be applied to the façade element.

SUMMARY OF THE INVENTION

This object is achieved by a concrete façade element holder which is held by metal brackets at a distance from the load-bearing concrete wall with the thermal insulation layer embedded according to the invention, the principle being that the fastening is carried out by at least one solid anchor inserted in the concrete wall through a hole in the façade element from bottom to top at an angle to the horizontal and anchored there.

By means of said tension anchors located at certain places in the facade element, the fastening by means of metal brackets can be reinforced so that even in the case of failure of the metal bracket's bearing function, the facade element is reliably retained and an additional thermal insulation or similar a layer that has a certain net weight.

According to a preferred embodiment, the tension anchor can be arranged at an angle of about 45 ° to the horizontal.

According to a further advantageous embodiment, a recess is provided on the outside of the façade element for accommodating the outside of the tensioning anchoring element, the recess having a bearing surface perpendicular to the axis of the tensioning anchor.

The tension anchor may advantageously be formed as a dowel with shell segments, which after tightening the nut as clamping elements on the conical part of the tension anchor.

Advantageously, a further flexible material support may be provided between the metal support under the nut and the bearing surface.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS The invention will now be explained in more detail by way of example with reference to the accompanying drawing, in which FIG. 1 shows a cross-section of a tensile anchor wall and additional thermal insulation and FIG.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 shows a load-bearing concrete wall 1 which, for example, may have a thickness of 140 mm and has been preformed as a slab element. In this case, a metal bracket 2 is embedded in the concrete wall 1, which is anchored in the concrete wall 1 by means of a cast bent end. A layer of, for example, 60 mm thick of a thermally insulating material 3, through which the metal bracket 2 passes, is placed on the slab concrete wall. The outer end of the metal yoke 2 is embedded in the concrete layer forming the facade element 4, which may have a thickness of, for example, 60 mm and serves as a protective weather layer. Both the façade element 4 and the concrete wall 1 are provided in a known manner with reinforcement (not shown). Said wall construction is known and often used as a plate-finished element in the construction of residential houses, the finished element may also be provided with door and / or window cut-outs. Metal yokes 2 are distributed uniformly over the entire surface of the panel finished element and are dimensioned to accommodate the vertical load of the façade element according to the static calculation.

Since the load-bearing function of the metal brackets 2 is often limited by corrosion and inaccurate mounting, and additionally, it is necessary to provide additional thermal insulation on the façade element 4, which may have, for example, an internal weight of 12 to 30 kg / m ² . for the finished element according to the static calculation use at least two tension anchors 5, which are inserted through a hole in the facade element 6 in the concrete wall 7.

Giant. 2 shows a detailed embodiment of the tension anchor 5. In the façade element 4, a bore 10 is provided, obliquely from bottom to top, with a 45 ° inclination to the horizontal, which passes through the thermal insulation material 3 and extends into the load-bearing concrete wall 1.

On the outside of the façade element 8, under recess 45 °, the recess 7 is provided by a concrete cutting technique in such a way that a bearing surface 9 is provided for the nut 8 of the tie rod with sufficient space for inserting the wrench at 45 ° to the horizontal or This recess 7 can be formed, for example, by means of a circular milling head whose diameter will correspond to the diameter of the bearing surface of about 40 mm.

As a tension anchor 5, a commercially available universal dowel made of steel, which is provided at the end lying inside the wall, is preferably provided with hardened half-shell segments 10 which, when the nut 8 is tightened on the cone provided at the free end of the dowel, stuck in the hole. The nut 8 abuts against the steel washer 11, and between this washer 11 and the abutment surface 9 an additional washer 12 of a flexible material, such as an elastomer, may advantageously be inserted to compensate for unevenness of the abutment surface 9 when the nut 8 is tightened.

It is advantageous to use a tension anchor M 12 x 260 mm which, at a mounting angle of 45 °, reliably absorbs the vertical forces caused by the weight of the façade element 4 and the additional thermal insulation layers 13 placed thereon, Insulation layer 13 is trapped by heat insulating material 3.

The washer 11 preferably has an increased diameter to 3.5 cm for the anchor M 12 to provide a suitable support for the anchor 5.

Preferably, the further elastomeric pad 12 has an enlarged diameter approximately like the first pad 11.

For a finished element length of, for example, 6 meters, two to three tension anchors 5 may be sufficient to accommodate the additional load on the façade element 4. For example, two tension anchors 5 may be conveniently located in the region of the lower corners of the plate finished element. If a third tensioning anchor 3 is provided, it can also be placed in the lower part of the plate-like finished element approximately in the middle between the two outer tensioning anchors 5.

The tension anchors 5 and their arrangement at an angle of substantially 45 ° to the horizontal transmit the additional load on the facade element 2 to the load-bearing concrete wall 1, and the tension anchors 5 can also be dimensioned so as to additionally anchor the facade element 4 itself to the concrete wall. _1 and do not absorb only the additional load. In this way, the required stability of such finished parts is not compromised and a statically sound structure is created which, in conjunction with the external thermal insulation, forms an optimal assembly of the wall layers. The arrangement of the tension anchors 5 can also be used as a remediation for cracks damaged by weather protection or facade elements, the stability of which may be compromised by various influences.

FIG. 1 also shows known fastening elements 14 for fastening the outer thermal insulation layer 13.

Claims (6)

PATENT CLAIMS 1. a facade element made of concrete, which is held by metal brackets at a distance from the load-bearing concrete wall with a thermal insulation layer inserted, characterized in that it consists of at least one tension anchor (5) inserted in the concrete wall (1) through a hole in the facade element (4) from bottom to top, inclined to the horizontal and anchored there Fastening according to claim 1, characterized in that the tension anchor (5) is inserted obliquely to the horizontal at an angle of about 45 °. Fastening according to claim 1 or 2, characterized in that a recess (7) is provided on the outside of the façade element (4) for accommodating the outer clamping element (8) of the tension anchor (5), the recess (7) having abutment a surface (9) perpendicular to the axis of the tension anchor (5). Fastening according to the preceding claims, characterized in that the tension anchor (5) is designed as a dowel with shell segments which are expandable on the conical part of the tension anchor shaft (5) by pulling the nut as a clamping element. Fastening according to claim 3 and 4, characterized in that a further washer (12) of flexible material is arranged between the metal support (11) and the contact surface (9). Fastening according to the preceding claims, characterized in that a thermal insulation layer (13) is placed on the outside of the façade element (4), the weight of which is transferred to the load-bearing concrete wall by the tension anchors (5).