DE1609625B2 - BUILDING PLATE OR PANEL - Google Patents

Description

The invention relates to a building board or panel with a first layer made of concrete, with the one Layer of individual hollow bricks by means of elevations and / or depressions that enlarge the adhesive surface is connected or anchored by means of dovetail-shaped approaches, with a second layer Concrete or plaster material on the side of the hollow brick layer facing away from the first layer is anchored by means of approaches, the sides of the hollow brick facing each other with parallel to the Building board level extending beads are provided, which abut one another and enclose cavities.

There is already a facade panel (Die Ziegelindustrie, 1963, Issue 2, pp. 33 to 35) known in which on the one Side of a concrete layer that is reinforced with iron, hollow bricks are attached. The hollow bricks should be the Improve the thermal insulation of the facade panel and also ensure adequate ventilation.

In order to hold the hollow bricks securely on the concrete layer, the latter extends in the form of ribs between the bricks, across the entire thickness of the brick layer. This means that the and adhesive surfaces are held relatively securely in flat bricks, but are extremely disadvantageous At the same time, thermal bridges are formed by the holding concrete ribs, which provide good thermal insulation wipe out a substantial part of the hollow brick. It also results in the area of the ribs furthermore the problem of inadequate ventilation, and with direct attachment of such a facade panel to a back wall or a concrete wall, which can be done simply by using the facade panel as a Formwork panel can take place, there is a risk of inadequate dissipation of the steam pressure in the area the ribs, which can lead to the entire facade panel flaking off.

According to a prospectus from Veran Costamagna & Cie "Costamagna Process", 1963, it is one of them Building panel of the type mentioned is known that on the mutually facing sides of the hollow brick There are beads that enclose cavities when the hollow bricks meet. By such Cavities, the disadvantages mentioned above can be avoided per se. However, the ridges only bump butt against each other, so that because of the manufacturing inaccuracies of the hollow brick gap remain through the Concrete flows into the cavities, creating thermal bridges and obstructing ventilation.

The invention is based on the object of developing a building board of the type mentioned at the outset in such a way that that it has improved thermal insulation while being easy to lay.

The object on which the invention is based is achieved in that the beads of adjacent hollow bricks are arranged offset from one another and interlock like a labyrinth.

In the case of the building board or panel according to the invention, the labyrinth-like interlocking of the beads achieved that any penetrating concrete solidifies after covering a short distance and thus the remaining cavities with certainty remain free. So there are no bridging layers of brick Concrete bars from the concrete layer between

the brick, so that there is definitely no bridging of the brick layer in the area of the butt joints. The beads also subdivide the butt joints in individual spaces across the brick layer, so that one Circulation of the air trapped in the area of the butt joints made impossible across the plane of the building board and thereby a particularly good thermal insulation is given.

Another advantage results from the fact that the interlocking beads have an inevitable alignment effect of the hollow brick in the plane of the slab. This results in simplifications in the Manufacture of the building board. The bricks don't need to be supported at such close intervals, or years mutual alignment is evened out when placed flat on a surface.

The advantages based on the teaching according to the invention occur to a large extent when the Labyrinth does not extend over the entire butt joint. Such a construction already brings the high Advantages of thermal insulation and vapor pressure division with them. In addition, they are partially in the Butt joints extending concrete ribs, which can have the shape of a dovetail, the hollow brick held positively.

The invention is to be explained in more detail on the basis of an exemplary embodiment shown in the drawing will.

Fig. 1 shows an embodiment of an inventive Construction board in section, and

FIG. 2 is a section H-II through FIG. 1.

In Fig. 1 hollow bricks made of fired clay are attached to a concrete layer 2, which is reinforced by iron 3 is. The concrete layer 2 is closed to the outside by a cladding 4, for example from

6ο there may be small split slips or split plates.

On the hollow bricks 1 are located on the

Concrete layer 2 facing side approaches 5, which extend from their roots on the surface of the hollow brick 1 from thicken and thereby positively held in the concrete layer 2, in which they extend. In the illustrated embodiment of the hollow brick 1, the projections 5 have a rounded cross-section Shape, and since they are expediently long, results

an essentially partially cylindrical shape of the lugs 5.

The internal structure of the hollow brick is not to be explained in more detail here, it has one in the known manner such a shape that the best possible thermal insulation and ventilation takes place.

On the side facing away from the concrete layer 2, the hollow bricks 1 have lugs 6, which in cross section in are essentially dovetail-shaped, they can of course also have the same shape as the lugs 5 have, and the lugs 5 can of course also have the same shape as the lugs 6. It is just essential that the approaches thicken from the root to the outside at one point, so that a form-fitting and force-fitting bracket is guaranteed.

The approaches 6 extend into an inner layer of plaster 7, so that these extremely firmly to the Hollow brick 1 is held. In modified embodiments, the inner plaster layer can also be a Be a concrete layer, which may result in a higher rigidity of the board, or the inner The plaster layer can be load-bearing concrete. In this case, the construction board shown can be used, but without the Plaster layer 7, can be used as an outer formwork panel, so that the concrete is intimate with the construction panel on the Approaches 6 is connected.

In the area of the butt joints between two butting hollow bricks 1 there are abutting surfaces 8 Bulges 9, which run parallel to the plane of the building board and interlock like a labyrinth, so that the Butt joint is divided into individual cavities across the construction panel, which ensure good thermal insulation. The beads also ensure that a heat transfer through radiation in the area of Butt joint is largely avoided. The beads 9 run vertically to the construction panel.

In Fig. 2 a section U-II is shown through Fig. 1, and that the section H-II goes through a Level of the building board in which the thermal insulation is at its maximum. This can be seen in Fig. 2 in that the hatched cut areas are extremely small in relation to the uncut areas. F i g. 2 shows the construction panel in the position of use, in which the cavities in the hollow bricks 1 and in the same way also form the cavities formed between the beads 9 vertical ventilation ducts, which, as it is from the non-hatched parts of FIG. 2 results, ventilate the building board over a large area. There are no larger parts of the area present that are not vented. There is therefore no risk of condensation collecting or flaking due to the formation of vapor pressure.

1 sheet of drawings

Claims (3)

Patent claims: 1. Construction board or panel with a first layer made of concrete, with the one layer made of individual hollow bricks by means of elevations and / or depressions increasing the adhesive surface is connected or anchored by means of dovetail-shaped approaches, with a second layer Concrete or plaster material on the side of the hollow brick layer facing away from the first layer is anchored by means of approaches, the mutually facing sides of the hollow brick with parallel to the building board level extending beads are provided, which abut each other and cavities enclose, characterized in that the beads (9) of adjacent hollow bricks (1) are arranged offset from one another and interlock like a labyrinth. 2. Building board according to claim 1, characterized in that the beads (9) in cross section are circular. 3. Building board according to claim 2, characterized in that that formed by the beads (9) Labyrinth extends only over part of the butt joint between two hollow bricks (1).