DE2636531C2 - Prefabricated element - Google Patents

Description

The invention relates to a prefabricated component according to the preamble of claim 1.

Such a prefabricated component is known from DE-OS 24 12 979. In practice, however, it has been shown that such a prefabricated element for absorbing large compressive forces that occur during continuous filling a concrete mass occur in the cavity between the slabs, is only suitable to a limited extent. In particular there is a risk that when pouring concrete drier either a bulging of the plate areas takes place between the spacers, i.e. not a flat one, The outer surface that can be plastered or wallpapered arises, or that the spacers break out in the area of their fastening points. It is therefore when filling such Prefabricated building elements with concrete are advisable to put the concrete in individual, not too high layers and to allow each layer to set before the next layer is applied, which requires a corresponding expenditure of time connected is.

This fact of the known prefabricated building element is not avoided by the fact that this may be an intent, d. H. has a layer subsequently applied to the prefabricated component, since a such intent has no effect on the distribution of pressure

The invention is based on the object of providing a prefabricated structural element of the type mentioned at the outset to further develop that the stability of the plates when potting in terms of deformation and breakage is largely guaranteed

The object is according to the invention in a

ι ο prefabricated element of the type mentioned by the features specified in claim 1 solved

It has been shown that in the new prefabricated element two otherwise contradicting requirements can be met at the same time. The one requirement

is that a smooth transition of the compressive forces from the spacers to the plate areas between the spacers and thus a small surface loading must be achieved to the To achieve the desired stability, including spacers and plates as firm and homogeneous as possible on the one hand and on the other hand elastic structural unit must be united, the latter therefore to the To distribute pressure forces over as large a surface area as possible. The other requirement is that a deflection of the plates under the great compressive forces must be avoided to the outer sides to hold flat, for which the plateaus must behave as rigidly or rigidly as possible. These two demands are therefore contradictory in the prior art because a rigid plate has a high surface loading causes, while resilient plates show a strong bulge and deformation. Surprisingly, it has now been found that the combination used in the new prefabricated component one directly glued to the extensions of the spacers, dimensionally stable and stable Cover layer and a further, thermally and acoustically insulating layer both an elastic and allows even distribution of the pressure forces as well as avoids noticeable bulges, although a relatively rigid top layer, taken in and of itself, easily torn off with normal dimensions Spacer leads and although a thermally and acoustically insulating layer, e.g. B. made of foam or Foam mixture, is not dimensionally stable in relation to high specific surface pressures. Through the Multi-layer composite construction of the panels, on the one hand, results in a very even distribution of the Compressive forces, similar to those in plywood, but overall a sufficiently rigid construction external surfaces can be plastered or wallpapered immediately.

Due to the dimensional stability of the panels, a high breaking strength of the prefabricated building element is achieved, which simplifies its storage, transport and assembly into the cavity of the prefabricated component Concrete mass continuously, i.e. without a time interruption, until a complete one is reached Fill the filling v / earth without first waiting for the concrete to set in the lower layers must become.

Refinements of the invention are given in the subclaims.
An embodiment of a prefabricated component according to the invention is explained in more detail below with reference to the drawing

F i g. 1 a perspective view of the prefabricated component,

2 shows a side view of the prefabricated component according to FIG. 1 and

3 shows a partial section through a plate of the Prefabricated building element according to FIG. 1 and 2,

The in Fig. 1 consists of two panels 1, 2 and spacers 3 connecting them to one another. The spacers 3 are made of steel and each have plate-like extensions 5 at both ends, the outer surfaces of which are flat and smooth. The spacers 3 are glued to the inner surfaces of the plates 1, 2 arranged at a distance from one another and parallel to one another. It has proven to be particularly advantageous with regard to the stability of the prefabricated component if the ratio between the diameter a of the extensions 5 of the spacers 3 and the mutual center-to-center distance b of the spacers 3 is 1: 3 and further if fifteen spacers per m ^{2 of} panel area are arranged distributed.

Prefabricated elements of the in F i g. 1 embodiment shown can be in a height corresponding to the usual room height and with a length of for example 15 m industrially manufactured: or prefabricated. You can directly at the installation site in smaller single plates, e.g. B. by means of a circular saw, as shown in FIG. 1 by vertical and horizontal, dash-dotted lines of intersection and direction arrows are indicated

As already mentioned, the spacers 3 are preferably made of steel, especially if the cavity between the plates 1, 2 is to be cast with concrete. However, it is also possible to use a Use stable plastic material, especially if there is no filling or a only light filling, for example a foam or the like. Is introduced.

F i g. 2 shows the spacers 3 between the plates 1, 2, wherein between the flat outer surfaces of the extensions 5 and the flat, smooth inner surfaces of the plates 1, 2 adhesive layers 6, e.g. B. epoxy resin adhesive, which ensure an intimate and high-strength connection between spacer 3 and plates I ₁ 2. In the case of metallic spacers 3, the adhesive layers 6 also isolate the outer surfaces of the extensions 5 facing the plates 1, 2 from the plates I ₁ 2 and thus on the one hand protect the spacers 3 from corrosion if the plates 1, 2 become damp, while on the other hand the plate surfaces opposite a possibly occurring corrosion of the spacer 3 can be shielded.

The cavity 7 between the panels J, 2 or between the panels of several prefabricated structural elements stacked on top of one another to form a building wall (dashed illustration in FIG between the spacers 3 and the inner surfaces of the panels 1. 2, even high formwork pressures of 6 t / m ² can be absorbed without further support elements or support formwork. The cavity 7 can also be filled with a conventional foam. There is also the possibility of laying lines 9 for electrical or sanitary installations in the empty or filled cavity 7.

As Fig. 3 shows, each plate 1, 2 (Fig. 1, 2) from a stable, dimensionally stable cover layer 10, with which the plate-like extension 5 of the spacer 3 is glued directly by means of the adhesive layer 6, as well as from a further connected thermally and acoustically insulating layer 11 and, if necessary, an outer layer that can be plastered or wallpapered 12 with a smooth outer surface.

1 sheet of drawings

Claims (7)

Patent claims: 1. Prefabricated building element, consisting of at least two mutually parallel and spaced apart mutually arranged plates, which by rod-like, plate-like extensions at both ends having spacers distributed over the entire plate surface to form a constructive Unit are connected to one another by gluing, characterized in that at least one of the plates (1, 2) combined with one another by the dimensionally stable spacers from one with the plate-like extensions (5) of the spacers (3) directly glued dimensionally stable and load-bearing cover layer (10) and at least one further thermally and acoustically insulating Layer (11) consists 2. Prefabricated component according to claim 1, characterized in that the cavity (7) between the Interconnected plates (1, 2) with a filling <S> of concrete, foam or the like. Filled is 3. Prefabricated element according to claim 2, characterized in that the spacers (3) for Components without concrete filling are made of elastically oscillating plastic. 4. Prefabricated element according to claim 1 or 2, characterized in that the spacers (3) are made of steel. 5. Prefabricated element according to one of claims 1 or 4 for filling with concrete, characterized in that dos ratio between the diameter (a) of the plate-like extensions (5) and the mutual center distance (b) of the spacers (13) is approximately 1: 3 . 6. Prefabricated component according to one of claims 1, 4 or 5, for filling with concrete, characterized in that 15 spacers (3) are distributed ^{per m 2 of plate surface.} 7. Prefabricated component according to claim 1, characterized in that the cover layers (10) from Wood chip or asbestos-cement material are made.