EP0922816A2 - Prefabricated building element - Google Patents

Abstract

Support structure (3) has locating portions (5,6) which rest at points against the formwork (4) during the manufacture of the component (1,2) and extend to the formed surface of the component. Preferably the component forms a double wall shell in which the support forms a wall tie.

Description

The invention relates to a prefabricated component with a cast on a formwork Component and a support structure extending in and from the component.

Double wall elements are known, in the manufacture of which one is initially made of concrete existing wall shell is prefabricated in connection with the support structure. In addition to parts of the support structure, the wall shell also protrudes Spacers poured into the concrete.

The spacers with their free ends are used to produce the second wall shell supported on the first shell on a formwork floor, on which then Concrete material for the formation of the second wall shell is applied. With the help of Spacers can adhere to a predetermined wall thickness of the double wall element. In addition, the spacers ensure that the support structure is surrounded by a sufficient, corrosion-protecting concrete cover, whereby for To ensure such a concrete cover, additional spacing elements may be used become.

It is the object of the present invention a new component of the aforementioned Art to create that compared to conventional such components can produce less effort.

The double wall element according to the invention which solves this problem is characterized in that that the support structure with formation of in the manufacture of the component for System against formwork that can be used in places up to the through the Formwork shaped surface of the component reaches.

Advantageously need to produce a component according to the invention for securing a sufficient coverage of the support structure by the component material and compliance certain dimensions in a direction perpendicular to the formwork nothing special Measures to be taken. By only partially reaching the support structure Adequate coverage is provided on the component surface. The The specified dimensional accuracy is obtained by observing the appropriate dimensions for the support structure. Such a component according to the invention with a structure from which extends a support structure, can advantageously be processed into a double wall element or e.g. serve as a roof component or cladding component, via its support structure is connected to the respective building.

When producing a double wall element comprising components, the spacers and, if necessary, spacer elements used according to the prior art are dispensed with, by only the support structure with in places for the production of the wall shells protruding parts must be placed on a formwork floor. One can Desired wall thickness of a double wall element to be manufactured through precise prefabrication the support structure can be ensured such that the distance between the Formwork stops on opposite sides of the girder structure Levels is equal to the desired wall thickness of the double wall element.

With the elimination of the spacers and possibly spacer elements, the formation becomes advantageous avoided by cold bridges.

Due to the fact that the support structure is only in places against the formwork floor, the preferably wall shell made of concrete can be poured easily, wherein only the material of the support structure, preferably steel, at the formwork stops, comes to the outer surface of the wall shells.

In an advantageous development of the invention it is provided that the support structure at least and preferably only in the area of insufficient coverage by the wall shell material has a corrosion-resistant material, especially stainless steel. By this measure ensures that exposed or defective due to component material covered parts of the support structure are sufficiently durable. Especially between parts of the support structure extending from the wall shells are caused by condensation at risk of corrosion. This risk of corrosion still exists when these carrier parts are surrounded by insulating material arranged between the wall shells.

In a preferred embodiment of the invention, the support structure comprises in reinforcement support elements extending essentially parallel to the outer surface as well as extending both in and between the wall shells Connection support elements, the connection support elements with reinforcement support elements connected and the formwork stops by connecting support elements are formed. The connection carrier elements preferably consist of a corrosion-resistant material, especially stainless steel, and the reinforcement elements are protected against corrosion by the component material.

The support structure in particular comprises lattice girders with themselves in the wall shells extending belt bars as reinforcement support elements, the lattice girders the belt bars connecting strut strands that are meandering along the belt rods have as connection carrier elements.

The meandering strut strands are preferably straight-lined Connection sections formed, which are in particular between curved Extend reversal sections, the formwork stops through over the belt bars reversing portions protruding beyond the outer surface of the wall shell are formed. The reversing sections project beyond the belt rods so that one of the belt rods protection from corrosion is provided by the concrete material.

Fig. 1

ein Dappelwandelement nach dem Stand der Technik während der Herstellung, und

Fig. 2

ein als Doppelwandelement ausgebildetes erfindungsgemäßes Bauelement während der Herstellung.

The invention will now be explained and described in more detail using an exemplary embodiment and the accompanying drawings relating to this exemplary embodiment. Show it:

Fig. 1

a double wall element according to the prior art during manufacture, and

Fig. 2

a component designed as a double wall element according to the invention during manufacture.

The reference number 1 in FIG. 1 shows a double wall element according to the prior art the technology is described, called a concrete wall shell, in the parts of a support structure are cast in. This support structure has lattice girders 3 with belt bars 9 and 10, with the belt rod 9 being cast into the wall shell 1. The belt bars 9 and 10 are connected to one another via a bracing strand 11. The bracing strand 11 has a meandering course with curved in the embodiment shown Reversing sections 12 and extending in a straight line between the reversing sections 12 Connection sections 13.

The strut strand 11 is made of stainless steel, while the belt rods 9 and 10 of one less corrosion-resistant structural steel are made.

In the area of the reversing sections 12, the strut strand with the belt rod 9 or Belt rod 10 welded.

With the reference numeral 14 are spacers cast into the wall shell 1 in FIG. 1 referred to, by means of which the wall shell 1 with the partially cast therein hanging support structure sits on a formwork floor 4.

1 is a freshly applied to the formwork floor 4 in FIG. 1 Concrete layer to form a second wall shell called, by edge formwork 15 is bordered.

The spacers 14 were in the manufacture of the wall shell 1 with an end part 16 cast on a formwork floor.

As can be seen from FIG. 1, the length of the spacers 14 is decisive for the resulting wall thickness of the double wall element.

With the reference numeral 17 is to be arranged between the wall shells 1 and 2 core insulation designated.

Referring now to FIG. 2. where the same or equivalent parts with the same, however, the reference number provided with the letter a as in FIG. 1 are designated. The parts in question are therefore not discussed further below.

The embodiment of FIG. 2 differs from the previous embodiment in that no spacers 14 are used for its production, but Reversal sections 12a of a bracing strand 11a protrude beyond belt bars 9a and 10a, whereby stops 6 for the support on a formwork floor 4 are formed.

For the production of a wall shell 1a shown, the lattice girder 3a has a support structure on a corresponding formwork floor, reversed with the installation of Stops 5 placed against the formwork floor and a to form the wall shell 1a Concrete layer applied, parts of the lattice girders 3a were embedded.

To complete the double wall element, the wall shell 1 a with the Lattice girders 3a comprising support structure with the stops 6 on the Put on the formwork floor 4 and applied a concrete layer 2a.

In the embodiment shown, the support structure is made so that the Distance between the stops 5 and 6 touching levels equal to the desired Thickness of the double wall element is. The reversing sections 12a are above the respective one Belt rod 9a or 10a so far that a sufficient, for the belt rods 9a and 10a Corrosion-preventing concrete cover is formed. The bracing strand made of stainless steel is neither in the exposed on outer surfaces 7 and 8 of the double wall element Areas still extending between the wall shells 1a and 2a Areas at risk of corrosion.

Claims (15)

Component with a component (1, 2) cast on a formwork (4) and a support structure (3) extending into and from the structure (1, 2),
characterized,
that the support structure (3) with the formation of stops (5, 6) which can be used in the manufacture of the component (1, 2) for abutment against the formwork (4) up to the surface of the component (1) formed by the formwork (4) , 2) is approaching. Component according to Claim 1,
characterized,
that the component is designed as a wall shell (1,2). Component according to Claim 1 or 2,
characterized,
that the component is designed as a double wall element with opposing wall shells (1, 2) forming components which are connected to one another by the support structure (3). Component according to Claim 3,
characterized,
that the support structure (3) is essentially a steel support structure. Component according to one of Claims 1 to 4,
characterized,
that the support structure has at least and preferably only in areas of insufficient coverage by the component material a corrosion-resistant material, especially stainless steel. Component according to one of Claims 3 to 5,
characterized,
that the support structure (3) in the wall shells (1, 2) comprises reinforcement support elements (9, 10) extending essentially parallel to the outer surface (7, 8) and connecting support elements (11) extending both in and between the wall shells. Component according to Claim 6,
characterized,
that the connection support elements (11) are connected to reinforcement support elements (9, 10). Component according to Claim 6 or 7,
characterized,
that the formwork stops (5,6) are formed by connecting support elements (11). Component according to one of Claims 6 to 8,
characterized,
that the connection support elements (11) have a corrosion-resistant material, in particular stainless steel, and the reinforcement support elements (9, 10) are provided with a protective cover against corrosion by the wall shell material. Component according to one of Claims 6 to 9,
characterized,
that the support structure comprises lattice girders (3) with belt bars (9, 10) extending in the wall shells (1, 2) as reinforcement support elements. Component according to Claim 10,
characterized,
that the lattice girders (3) have the strut strands (11) connecting the straps (9, 10) and meandering along the struts (9, 10). Component according to Claim 11,
characterized,
that the meandering strut strand (11) has straight connecting sections (13) between in particular curved reversing sections (12). Component according to Claim 12,
characterized,
that the formwork stops (5, 6) are formed by reversing sections (12) projecting beyond the belt rods (9, 10) to the outer wall shell surface (7, 8). Component according to Claim 13,
characterized,
that the reversing sections (12) protrude beyond the belt bars (9, 10) in accordance with a covering protecting the belt bars (9, 10) from corrosion. Method for producing a component with a component cast on a formwork and a support or / and connecting structure extending in and from the component,
characterized.
that the support or / and connecting structure with protruding parts is placed in places on the formwork used to pour the component.

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