DE29505367U1 - Anchoring stone - Google Patents

Description

- 1 Description: Anchoring stone

The invention relates to a prefabricated anchoring stone for fastening curtains or cladding to a brick wall provided with a thermal insulation layer.

The common method of attaching a facade curtain, cladding or its substructure to the wall is to use metal anchors or screws that are glued or doweled into holes subsequently drilled into the wall. If the wall has an external thermal insulation layer, the metal anchors or other metal parts of the substructure always penetrate this layer. Their insulating effect is significantly impaired by the extremely high thermal conductivity of the metal. This effect is even more pronounced the thicker the insulation layer that the anchor passes through, as the cross-section of the anchor must also increase here for stability reasons. Furthermore, with this attachment it is necessary to make the holes in the existing wall from the outside in a separate operation. Wooden slat substructures screwed to the wall that are used to attach a facade cladding also have the disadvantages mentioned above, as metal screws must always be used, each of which forms a thermal bridge.

The invention is based on the task of constructing an anchor for a facade curtain, e.g. for a ventilated facade, in such a way that the parts penetrating the thermal insulation layer do not form a thermal bridge, even if the cross-section of the anchor is particularly large for stability reasons in the case of a very thick insulation layer. In addition, the work step of attaching the anchor to the external wall should be saved.

The construction described in claim 1 serves to solve this problem. It is advantageous to use bricks that have an existing (e.g. handle hole) or specially made recess that has sufficient depth or can be designed as a through hole. This recess serves to accommodate the anchor. The anchor is made of wood for the thermal reasons mentioned above.

Anchoring stone 3/95

-2-

or plastic and has a rectangular cross-section for practical reasons. The anchor, which is provided with a cross bolt - preferably made of steel - to prevent it from falling out, is inserted vertically into the recess and secured in place with a suitable casting compound, such as concrete. This prefabricated anchoring stone is inserted into the wall like a normal brick when the wall is built, so that the anchor protrudes vertically from the wall. If the recess in the brick was already there, e.g. as a grip hole, it is necessary to insert the brick into the wall rotated by 90° compared to its usual position.

The advantages of this anchoring are that...

- when using suitable anchor material, significant thermal bridges no longer occur.

- the anchors can be dimensioned without thermal bridging so that extremely thick thermal insulation layers and thus high energy savings can be achieved.

- in comparison to the so-called thermal composite systems, when the building is demolished, no large quantities of composite materials that are difficult to dispose of are produced.

- Due to the large-area connection between anchor and stone, stones with relatively low strength can also be used.

- the connection between stone and anchor is already in place thanks to efficient prefabrication. Individual measuring, drilling and dowelling from the scaffolding is no longer necessary (shorter scaffolding downtime). The anchors are positioned sufficiently precisely during the bricklaying process.

- pre-production is easily accessible for quality control and thus offers the consistently high standard of series production and greater security of fastening.

- the uncertainty of the anchor fastening in the edge area of the brick and in the mortar area is avoided.

- the anchor length can also be easily shortened later (simplified storage).

In the following, with reference to the drawings, an embodiment of the

Anchoring stone 3/95

Invention explained: It shows
Fig. 1: a sand-lime brick of type KS 12-1,8-3DF
Fig.2: an anchor made of wood
Fig.3: the finished anchoring stone
Fig.4: the finished wall containing anchoring stones with thermal insulation

Fig. 1 shows a sand-lime brick (1) (type KS 12-1.8-3DF) with the dimensions 1 x b x h = 24 x 17.5 x 11.3 cm. It has an oval grip hole (2) on its largest surface, about 10 cm long and 5 cm wide. Fig. 2 shows the anchor (3), which consists of a 6 cm x 4 cm roof batten. The cross bolt (4), consisting of 10 mm thick and about 9 cm long round structural steel, penetrates the anchor from the narrow side at a point about 5 cm from the end of the anchor. The anchor and brick are put together as shown in Fig. 3 and the grip hole in the brick is filled with concrete (5). The slightly conical shape of the grip hole can be used as additional security against the anchor falling out. The length of the anchor is chosen so that after the wall has been completed and the insulation layer has been applied, it still protrudes far enough from the insulation layer (6) that the curtain wall or facade cladding can be attached to it using a simple screw connection (Fig. 4). By using individual parts that are available as mass-produced goods, this represents a particularly inexpensive implementation of the invention.

The cross bolt made of structural steel does not form a thermal bridge here, as it is perpendicular to the temperature gradient in the wall. However, it can also be made of sufficiently strong plastic.

Other forms of design are also possible for the anchor; for example, it can have a tubular profile and, if it is made of metal, be surrounded by a heat-insulating casing. In special cases, a round cross-section of the anchor can also prove to be advantageous. It can also be advantageous if the anchor protrudes from the wall at an angle other than 90°.

The suspension or cladding is attached using standard technology, e.g. by screw connection. Drilling holes or attaching aids to the anchor can be done during the prefabrication of the anchor stone.

Anchoring stone 3/95

Claims (9)

Protection claims 1. Anchoring stone for fastening curtains or cladding to a brick wall, characterized in that it carries a poorly heat-conducting anchor protruding from one of its surfaces, to which the curtain or cladding can be fastened. 2. Anchoring stone according to claim 1, characterized in that the anchor is made of wood or plastic. 3. Anchoring stone according to claim 1, characterized in that the anchor consists of metal with thermal insulation. 4. Anchoring stone according to claim 2 or 3, characterized in that the anchor is tubular. 5. Anchoring stone according to one of claims 1 to 4, characterized in that the anchor has a rectangular cross-section. 6. Anchoring stone according to one of claims 1-5, characterized in that the stone is a brick with a prefabricated recess (e.g. grip hole) in which the anchor is fixed. 7. Anchoring stone according to claim 6, characterized in that the anchor is embedded in the recess by means of casting compound. 8. Anchoring stone according to claim 7, characterized in that the casting compound consists of concrete, mortar or hardening plastic. 9. Anchoring stone according to claim 6 or 7, characterized in that the anchor is attached to the surface of the stone with the help of a plate. Anchoring stone, 3/95